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{{drugbox
{{DrugProjectFormSinglePage
|IUPAC_name=
|authorTag={{DB}}
|image=Botox-structure.png
|genericName=Botulinum toxin
|image_width =  
|aOrAn=a
|CAS_number=
|drugClass=neurotoxic protein
|ATC_prefix=M03
|indicationType=treatment
|ATC_suffix=AX01
|indication=[[cervical dystonia]], glabellar lines
|ATC_supplemental=
|hasBlackBoxWarning=Yes
|PubChem=
|adverseReactions=muscular weakness, [[dysphagia]], dry mouth, injection site discomfort, [[fatigue]], [[headache]], [[neck pain]], musculoskeletal pain, [[dysphonia]], injection site pain, and eye disorders, [[nasopharyngitis]], injection site reaction, [[upper respiratory tract infection]], eyelid edema, eyelid [[ptosis]], [[sinusitis]] and [[nausea]]
|DrugBank=BTD00092
|blackBoxWarningTitle=<span style="color:#FF0000;">Distant Spread of Toxin Effect: </span>
|chemical_formula=
|blackBoxWarningBody=<i><span style="color:#FF0000;">Distant Spread of Toxin Effect: </span></i>
|C=6760|H=10447|N=1743|O=2010|S=32
|molecular_weight=149322.7 g/mol
|bioavailability=
|protein_bound=
|metabolism=
|elimination_half-life=
|excretion=
|pregnancy_AU=<!-- A / B1 / B2 / B3 / C / D / X -->
|pregnancy_US=<!-- A / B / C / D / X -->
|pregnancy_category=
|legal_AU=<!-- Unscheduled / S2 / S4 / S8 -->
|legal_UK=<!-- GSL / P / POM / CD -->
|legal_US=<!-- OTC / Rx-only --> Rx-Only


|routes_of_administration= IM (approved),SC, intradermal, into glands
*Postmarketing reports indicate that the effects of DYSPORT® and all botulinum toxin products may spread from the area of injection to produce symptoms consistent with botulinum toxin effects. These may include asthenia, generalized muscle weakness, diplopia, blurred vision, ptosis, dysphagia, dysphonia, dysarthria, urinary incontinence and breathing difficulties. These symptoms have been reported hours to weeks after injection. Swallowing and breathing difficulties can be life threatening and there have been reports of death. The risk of symptoms is probably greatest in children treated for spasticity but symptoms can also occur in adults treated for spasticity and other conditions, particularly in those patients who have underlying conditions that would predispose them to these symptoms. In unapproved uses, including spasticity in children and adults, and in approved indications, cases of spread of effect have been reported at doses comparable to those used to treat cervical dystonia and at lower doses.
}}
 
{{SI}}
<!--Adult Indications and Dosage-->
{{CMG}}
 
<!--FDA-Labeled Indications and Dosage (Adult)-->
|fdaLIADAdult======Cervical Dystonia=====
 
* DYSPORT® (abobotulinumtoxinA) is an acetylcholine release inhibitor and a neuromuscular blocking agent indicated for the treatment of adults with [[cervical dystonia]] to reduce the severity of abnormal head position and neck pain in both toxin-naïve and previously treated patients.
 
* Dosing Information
 
:*The recommended initial dose of DYSPORT® for the treatment of cervical dystonia is 500 Units given intramuscularly as a divided dose among affected muscles in patients with or without a history of prior treatment with botulinum toxin. (A description of the average DYSPORT® dose and percentage of total dose injected into specific muscles in the pivotal clinical trials can be found in TABLE 5 of Clinical Studies – Cervical Dystonia.) Limiting the dose injected into the sternocleidomastoid muscle may reduce the occurrence of [[dysphagia]]. Clinical studies with DYSPORT® in cervical dystonia suggest that the peak effect occurs between two and four weeks after injection. Simultaneous EMG-guided application of DYSPORT® may be helpful in locating active muscles not identified by physical examination alone.
 
:*Dose Modification:
 
:*Where dose modification is necessary for the treatment of cervical dystonia, uncontrolled open-label studies suggest that dose adjustment can be made in 250 Unit steps according to the individual patient's response, with re-treatment every 12 weeks or longer, as necessary, based on return of clinical symptoms. Uncontrolled open-label studies also suggest that the total dose administered in a single treatment should be between 250 Units and 1000 Units. Re-treatment, if needed, should not occur in intervals of less than 12 weeks. Doses above 1000 Units have not been systematically evaluated.
 
'''Special Populations'''
 
'''Adults and elderly'''
 
.'''Children'''
 
*The safety and effectiveness of DYSPORT® in the treatment of [[cervical dystonia]] in pediatric patients less than 18 years of age has not been assessed.
'''Instructions for Preparation and Administration'''
 
*DYSPORT® is supplied as a single-use vial. Each 500 Unit vial of DYSPORT® is to be reconstituted with 1 mL of 0.9% Sodium Chloride Injection USP (without preservative) to yield a solution of 500 Units per mL. Each 300 Unit vial of DYSPORT® is to be reconstituted with 0.6 mL of 0.9% Sodium Chloride Injection USP (without preservative) to yield a solution equivalent to 250 Units per 0.5 mL.
 
*Using an appropriately sized sterile syringe, needle and aseptic technique, draw up 1.0 mL or 0.6 mL of sterile, 0.9% Sodium Chloride Injection USP (without preservative) for 500 and 300 Unit vials, respectively. Insert the needle into the DYSPORT® vial. The partial vacuum will begin to pull the saline into the vial. Any remaining required saline should be expressed into the vial manually. Do not use the vial if no vacuum is observed. Swirl gently to dissolve. Parenteral drug products should be inspected visually for particulate matter and discoloration prior to administration. Reconstituted DYSPORT® should be a clear, colorless solution, free of particulate matter, otherwise it should not be injected.
 
*Expel any air bubbles in the syringe barrel. Remove the needle used to reconstitute the product and attach an appropriately sized new sterile needle.
 
*Once reconstituted, DYSPORT® should be stored in a refrigerator at 2–8°C (36–46°F) protected from light and used within 24 hours. Do not freeze reconstituted DYSPORT®. Discard the vial and needle in accordance with local regulations.
 
=====Glabellar Lines=====
 
*DYSPORT® (abobotulinumtoxinA) is an acetylcholine release inhibitor and a neuromuscular blocking agent indicated for the temporary improvement in the appearance of moderate to severe glabellar lines associated with procerus and corrugator muscle activity in adult patients < 65 years of age.
 
* Dosing Information
 
:*The dose of DYSPORT® for the treatment of glabellar lines is a total of 50 Units given intramuscularly in five equal aliquots of 10 Units each to achieve clinical effect (see FIGURE 1).
 
'''Special Populations'''
 
'''Adults'''
 
*A total dose of 50 Units of DYSPORT®, in five equal aliquots, should be administered to achieve clinical effect.
 
*The clinical effect of DYSPORT® may last up to four months. Repeat dose clinical studies demonstrated continued efficacy with up to four repeated administrations. It should be administered no more frequently than every three months. When used for re-treatment, DYSPORT® should be reconstituted and injected using the same techniques as the initial treatment.
 
'''Children'''
 
*DYSPORT® for glabellar lines is not recommended for use in pediatric patients less than 18 years of age.
 
'''Instructions for Preparation and Administration'''
 
*DYSPORT® is supplied as a single-use vial. Each 300 Unit vial of DYSPORT® is to be reconstituted with 2.5 mL of 0.9% Sodium Chloride Injection USP (without preservative) prior to injection. The concentration of the resulting solution will be 10 Units per 0.08 mL to be delivered in five equally divided aliquots of 0.08 mL each. DYSPORT® may also be reconstituted with 1.5 mL of 0.9% Sodium Chloride Injection USP (without preservative) for a solution of 10 Units per 0.05 mL to be delivered in five equally divided aliquots of 0.05 mL each.
 
*Using an appropriately sized sterile syringe, needle and aseptic technique, draw up 2.5 mL or 1.5 mL of 0.9% Sodium Chloride Injection USP (without preservative). Insert the needle into the DYSPORT® vial. The partial vacuum will begin to pull the saline into the vial. Any remaining required saline should be expressed into the vial manually. Do not use the vial if no vacuum is observed. Swirl gently to dissolve. Parenteral drug products should be inspected visually for particulate matter and discoloration prior to administration. Reconstituted DYSPORT® should be a clear, colorless solution, free of particulate matter otherwise it should not be injected.
 
*Draw a single patient dose of DYSPORT® into a sterile syringe. Expel any air bubbles in the syringe barrel. Remove the needle used to reconstitute the product and attach a 30 gauge needle.
 
*Once reconstituted, DYSPORT® should be stored in a refrigerator at 2–8°C (36–46°F) protected from light and used within 24 hours. Do not freeze reconstituted DYSPORT®. Discard the vial and needle in accordance with local regulations.
 
<!--Off-Label Use and Dosage (Adult)-->
 
<!--Guideline-Supported Use (Adult)-->
|offLabelAdultGuideSupport=* There is limited information regarding <i>Off-Label Guideline-Supported Use</i> of {{PAGENAME}} in adult patients.
 
<!--Non–Guideline-Supported Use (Adult)-->
|offLabelAdultNoGuideSupport=* There is limited information regarding <i>Off-Label Non–Guideline-Supported Use</i> of {{PAGENAME}} in adult patients.
 
<!--Pediatric Indications and Dosage-->
 
<!--FDA-Labeled Indications and Dosage (Pediatric)-->
|fdaLIADPed=* There is limited information regarding <i>FDA-Labeled Use</i> of {{PAGENAME}} in pediatric patients.
 
<!--Off-Label Use and Dosage (Pediatric)-->
 
<!--Guideline-Supported Use (Pediatric)-->
|offLabelPedGuideSupport=* There is limited information regarding <i>Off-Label Guideline-Supported Use</i> of {{PAGENAME}} in pediatric patients.
 
<!--Non–Guideline-Supported Use (Pediatric)-->
|offLabelPedNoGuideSupport=* There is limited information regarding <i>Off-Label Non–Guideline-Supported Use</i> of {{PAGENAME}} in pediatric patients.
 
<!--Contraindications-->
|contraindications=* DYSPORT® is contraindicated in patients with known hypersensitivity to any botulinum toxin preparation or to any of the components in the formulation.
 
* This product may contain trace amounts of cow's milk protein. Patients known to be allergic to cow's milk protein should not be treated with DYSPORT®.
 
* DYSPORT® is contraindicated for use in patients with infection at the proposed injection site(s).
|warnings='''Lack of Interchangeability between Botulinum Toxin Products'''
 
*The potency Units of DYSPORT® are specific to the preparation and assay method utilized. They are not interchangeable with other preparations of botulinum toxin products and, therefore, units of biological activity of DYSPORT® cannot be compared to or converted into units of any other botulinum toxin products assessed with any other specific assay method [see Description].
 
'''Spread of Toxin Effect'''
 
* Post-marketing safety data from DYSPORT® and other approved botulinum toxins suggest that botulinum toxin effects may, in some cases, be observed beyond the site of local injection. The symptoms are consistent with the mechanism of action of botulinum toxin and may include [[asthenia]], generalized muscle weakness, [[diplopia]], [[blurred vision]], [[ptosis]], [[dysphagia]], [[dysphonia]], [[dysarthria]], [[urinary incontinence]] and breathing difficulties. These symptoms have been reported hours to weeks after injection. Swallowing and breathing difficulties can be life threatening and there have been reports of death related to spread of toxin effects. The risk of the symptoms is probably greatest in children treated for spasticity but symptoms can also occur in adults treated for spasticity and other conditions, and particularly in those patients who have underlying conditions that would predispose them to these symptoms. In unapproved uses, including spasticity in children and adults, and in approved indications, symptoms consistent with spread of toxin effect have been reported at doses comparable to or lower than doses used to treat [[cervical dystonia]].
 
'''Dysphagia and Breathing Difficulties in Treatment of Cervical Dystonia'''
 
*Treatment with DYSPORT® and other botulinum toxin products can result in swallowing or breathing difficulties. Patients with pre-existing swallowing or breathing difficulties may be more susceptible to these complications. In most cases, this is a consequence of weakening of muscles in the area of injection that are involved in breathing or swallowing. When distant effects occur, additional respiratory muscles may be involved.
 
*Deaths as a complication of severe [[dysphagia]] have been reported after treatment with botulinum toxin. Dysphagia may persist for several weeks, and require use of a feeding tube to maintain adequate nutrition and hydration. Aspiration may result from severe dysphagia and is a particular risk when treating patients in whom swallowing or respiratory function is already compromised.
 
*Treatment of cervical [[dystonia]] with botulinum toxins may weaken neck muscles that serve as accessory muscles of ventilation. This may result in a critical loss of breathing capacity in patients with respiratory disorders who may have become dependent upon these accessory muscles. There have been post-marketing reports of serious breathing difficulties, including respiratory failure, in cervical dystonia patients.
 
*Patients treated with botulinum toxin may require immediate medical attention should they develop problems with swallowing, speech or respiratory disorders. These reactions can occur within hours to weeks after injection with botulinum toxin.
 
'''Facial Anatomy in the Treatment of Glabellar Lines'''
 
*Caution should be exercised when administering DYSPORT® to patients with surgical alterations to the facial anatomy, excessive weakness or atrophy in the target muscle(s), marked facial asymmetry, inflammation at the injection site(s), ptosis, excessive [[dermatochalasis]], deep dermal scarring, thick sebaceous skin or the inability to substantially lessen glabellar lines by physically spreading them apart.
 
*Do not exceed the recommended dosage and frequency of administration of DYSPORT®. In clinical trials, subjects who received a higher dose of DYSPORT® had an increased incidence of eyelid ptosis.
 
'''Pre-existing Neuromuscular Disorders'''
 
*Individuals with peripheral motor neuropathic diseases, amyotrophic lateral sclerosis or neuromuscular junction disorders (e.g., [[myasthenia gravis]] or [[Lambert-Eaton syndrome]]) should be monitored particularly closely when given botulinum toxin. Patients with neuromuscular disorders may be at increased risk of clinically significant effects including severe dysphagia and respiratory compromise from typical doses of DYSPORT®.
 
'''Human Albumin'''
 
*This product contains albumin, a derivative of human blood. Based on effective donor screening and product manufacturing processes, it carries an extremely remote risk for transmission of viral diseases. A theoretical risk for transmission of [[Creutzfeldt-Jakob disease]] (CJD) is also considered extremely remote. No cases of transmission of viral diseases or CJD have ever been reported for albumin.
 
'''Intradermal Immune Reaction'''
 
* The possibility of an immune reaction when injected intradermally is unknown. The safety of DYSPORT® for the treatment of hyperhidrosis has not been established.
|clinicalTrials=* The following adverse reactions to DYSPORT® are discussed in greater detail in other sections of the labeling.
 
:*[[Hypersensitivity]]
:*[[Dysphagia]] and Breathing Difficulties in Treatment of [[Cervical Dystonia]]
:*Spread of Effects from Toxin
 
'''Clinical Studies Experience'''
 
*Because clinical trials are conducted under widely varying conditions, the adverse reaction rates observed cannot be directly compared to rates in other trials and may not reflect the rates observed in clinical practice. The adverse reaction information from clinical trials does, however, provide a basis for identifying the adverse events that appear to be related to drug use and for approximating incidence rates.
 
'''Cervical Dystonia'''
 
* The data described below reflect exposure to DYSPORT® in 357 [[cervical dystonia]] patients in 6 studies. Of these, two studies were randomized, double-blind, single treatment, placebo controlled studies with subsequent optional open label treatment in which dose optimization (250 to 1000 Units per treatment) over the course of 5 treatment cycles was allowed.
 
* The population was almost entirely Caucasian (99.2%) with a median age of 51 years (range 18–82 years). Most patients (86.6%) were less than 65 years of age; 58.4% were women.
 
'''Common Adverse Events'''
 
* The most commonly reported adverse events (occurring in more than 5% of patients who received 500 Units of DYSPORT® in the placebo controlled clinical trials) in [[cervical dystonia]] patients were muscular weakness, dysphagia, dry mouth, injection site discomfort, fatigue, headache, neck pain, musculoskeletal pain, dysphonia, injection site pain, and eye disorders (consisting of blurred vision, diplopia, and reduced visual acuity and accommodation). Most adverse events were reported as mild or moderate in severity. Other than injection site reactions, most adverse events became noticeable about one week after treatment and lasted several weeks.
 
* The rates of adverse events were higher in the combined controlled and open-label experience than in the placebo-controlled trials.
 
* During the clinical studies, two patients (<1%) experienced adverse events leading to withdrawal. One patient experienced disturbance in attention, eyelid disorder, feeling abnormal and headache, and one patient experienced dysphagia.
 
* Table 1 compares the incidence of the most frequent treatment-emergent adverse events (TEAEs) from a single treatment cycle of 500 Units of DYSPORT® compared to placebo.
 
[[File:Botulinum table 1.png|600px|thumbnail|left]]
{{clear}}
 
* Dose-response relationships for common adverse events in a randomized multiple fixed-dose study in which the total dose was divided between two muscles (the sternocleidomastoid and splenius capitis) are shown in Table 2.
 
[[File:Botulinum table 2.png|600px|thumbnail|left]]
{{clear}}
 
'''Injection Site Reactions'''
 
*Injection site discomfort and injection site pain were common adverse events following DYSPORT® administration. These events were mainly of mild or moderate intensity.
 
'''Less Common Adverse Events'''
 
*The following selected adverse events were reported less frequently (<5%).
 
'''Breathing Difficulties'''
 
*Breathing difficulties were reported by approximately 3% of patients following DYSPORT® administration and in 1% of placebo patients in clinical trials during the double-blind phase. These consisted mainly of dyspnea and were generally mild in intensity. The median time to onset from last dose of DYSPORT® was approximately one week, and the median duration was approximately three weeks.
 
*Other selected adverse events with incidences of less than 5% in the DYSPORT® 500 Units group in the double-blind phase of clinical trials included dizziness in 3.5% of DYSPORT®-treated subjects and 1% of placebo-treated subjects, and muscle atrophy in 1% of DYSPORT®-treated subjects and in none of the placebo-treated subjects.
 
'''Laboratory Findings'''
 
*Subjects treated with DYSPORT® exhibited a small increase from baseline (0.23 mol/L) in mean blood glucose relative to placebo-treated subjects. This was not clinically significant among subjects in the development program but could be a factor in patients whose diabetes is difficult to control.
 
'''Electrocardiographic Findings'''
 
*ECG measurements were only recorded in a limited number of subjects in an open-label study without a placebo or active control. This study showed a statistically significant reduction in heart rate compared to baseline, averaging about three beats per minute, observed thirty minutes after injection.
 
'''Glabellar Lines'''
 
*Because clinical trials are conducted under widely varying conditions, adverse reaction rates observed in the clinical trials of a drug cannot be directly compared to rates in the clinical trials of another drug and may not be predictive of rates observed in practice.
 
*In placebo-controlled clinical trials of DYSPORT®, the most frequently reported adverse events (≥2%) following injection of DYSPORT® were [[nasopharyngitis]], [[headache]], injection site pain, injection site reaction, [[upper respiratory tract infection]], eyelid edema, eyelid [[ptosis]], [[sinusitis]] and [[nausea]].
 
*Table 3 reflects exposure to DYSPORT® in 398 subjects aged 19 to 75 who were evaluated in the randomized, placebo-controlled clinical studies that assessed the use of DYSPORT® for the temporary improvement in the appearance of glabellar lines. Adverse events of any cause were reported for 48% of the DYSPORT®-treated subjects and 33% of the placebo-treated subjects. Treatment-emergent adverse events were generally mild to moderate in severity.
 
[[File:Botulinum table 3.png|600px|thumbnail|left]]
{{clear}}
 
*In the overall safety database, where some subjects received up to twelve treatments with DYSPORT®, adverse events were reported for 57% (1425/2491) of subjects. The most frequently reported of these adverse events were headache, nasopharyngitis, injection site pain, sinusitis, URI, injection site bruising, and injection site reaction (numbness, discomfort, [[erythema]], [[tenderness]], [[tingling]], [[itching]], [[stinging]], [[warmth]], [[irritation]], [[tightness]], [[swelling]]).
 
*Adverse events that emerged after repeated injections in 2–3% of the population included [[bronchitis]], [[influenza]], pharyngolaryngeal pain, [[cough]], contact dermatitis, injection site swelling, and injection site discomfort.
 
*The incidence of eyelid ptosis did not increase in the long-term safety studies with multiple re-treatments at intervals ≥ three months. The majority of eyelid ptosis events were mild to moderate in severity and resolved over several weeks.
 
'''Immunogenicity'''
 
*As with all therapeutic proteins, there is a potential for immunogenicity.
 
*The incidence of antibody formation is highly dependent on the sensitivity and specificity of the assay. In addition, the observed incidence of antibody positivity in an assay may be influenced by several factors including assay methodology, sample handling, timing of sample collection, concomitant medications, and underlying disease. For these reasons, comparison of the incidence of antibodies across products in this class may be misleading.
 
'''Cervical Dystonia'''
 
*About 3% of subjects developed antibodies (binding or neutralizing) over time with DYSPORT® treatment. The significance of these antibodies is unknown since in the presence of binding and neutralizing antibodies some patients may continue to experience clinical benefit.
 
'''Glabellar Lines'''
 
* Testing for antibodies to DYSPORT® was performed for 1554 subjects who had up to nine cycles of treatment. Two subjects (0.13%) tested positive for binding antibodies at baseline. Three additional subjects tested positive for binding antibodies after receiving DYSPORT® treatment. None of the subjects tested positive for neutralizing antibodies.
|postmarketing=* There is extensive post-marketing experience outside the U.S. for the treatment of glabellar lines. Adverse reactions are reported voluntarily from a population of uncertain size; thus, it is not always possible to estimate their frequency reliably or to establish a causal relationship to drug exposure. The following adverse reactions have been identified during post-marketing use: vertigo, eyelid ptosis, diplopia, vision blurred, photophobia, dysphagia, nausea, injection site reaction, malaise, influenza-like illness, hypersensitivity, sinusitis, amyotrophy, burning sensation, facial paresis, dizziness, headache, hypoesthesia, erythema, and excessive granulation tissue.
|drugInteractions=* No formal drug interaction studies have been conducted with DYSPORT®.
 
* Patients treated concomitantly with botulinum toxins and aminoglycosides or other agents interfering with neuromuscular transmission (e.g., curare-like agents) should be observed closely because the effect of the botulinum toxin may be potentiated. Use of anticholinergic drugs after administration of DYSPORT® may potentiate systemic anticholinergic effects such as blurred vision.
 
* The effect of administering different botulinum neurotoxin products at the same time or within several months of each other is unknown. Excessive weakness may be exacerbated by another administration of botulinum toxin prior to the resolution of the effects of a previously administered botulinum toxin.
 
* Excessive weakness may also be exaggerated by administration of a muscle relaxant before or after administration of DYSPORT®.
|FDAPregCat=C
|useInPregnancyFDA='''Pregnancy Category C'''
 
* DYSPORT® produced embryo-fetal toxicity when given to pregnant rats at doses similar to or greater than the maximum recommended human dose (MRHD) of 1000 Units on a body weight (Units/kg) basis.
 
* In an embryo-fetal development study in which pregnant rats received intramuscular injections daily (2.2, 6.6, or 22 Units/kg on gestation days 6 through 17) or intermittently (44 Units/kg on gestation days 6 and 12 only) during organogenesis, increased early embryonic death was observed with both dosing schedules. The no-effect dose for embryo-fetal developmental toxicity was 2.2 Units/kg (one-tenth the MRHD on a body weight basis). Maternal toxicity was seen at 22 and 44 Units/kg. In a pre-and post-natal development study in which female rats received 6 weekly intramuscular injections (4.4, 11.1, 22.2, or 44 Units/kg) beginning on day 6 of gestation and continuing through parturition to weaning, an increase in stillbirths was observed at the highest dose, which was maternally toxic. The no-effect dose for pre- and post-natal developmental toxicity was 22.2 Units/kg (approximately equal to the MRHD on a body weight basis).
 
* There are no adequate and well-controlled studies in pregnant women. DYSPORT® should be used during pregnancy only if the potential benefit justifies the potential risk to the fetus.
|useInPregnancyAUS=* '''Australian Drug Evaluation Committee (ADEC) Pregnancy Category'''
 
* There is no Australian Drug Evaluation Committee (ADEC) guidance on usage of {{PAGENAME}} in women who are pregnant.
|useInLaborDelivery=* There is no FDA guidance on use of {{PAGENAME}} during labor and delivery.
|useInNursing=* It is not known whether DYSPORT® is excreted in human milk.
|useInPed='''Cervical Dystonia'''
 
* Safety and effectiveness in pediatric patients have not been established.
 
'''Glabellar Lines'''
 
* DYSPORT® is not recommended for use in pediatric patients less than 18 years of age.
|useInGeri='''Cervical Dystonia'''
 
*There were insufficient numbers of patients aged 65 and over in the clinical studies to determine whether they respond differently than younger patients. In general, elderly patients should be observed to evaluate their tolerability of DYSPORT®, due to the greater frequency of concomitant disease and other drug therapy.
 
'''Glabellar Lines'''
 
* Of the total number of subjects in the placebo-controlled clinical studies of DYSPORT®, 8 (1%) were 65 and over. Efficacy was not observed in subjects 65 years and over. For the entire safety database of geriatric subjects, although there was no increase in the incidence of eyelid ptosis, geriatric subjects did have an increase in the number of ocular adverse events compared to younger subjects (11% vs. 5%).
|useInGender=* There is no FDA guidance on the use of {{PAGENAME}} with respect to specific gender populations.
|useInRace='''Ethnic Groups'''
 
* Exploratory analyses in trials for glabellar lines in African-American subjects with Fitzpatrick skin types IV, V, or VI and in Hispanic subjects suggested that response rates at Day 30 were comparable to and no worse than the overall population.ulations.
|useInRenalImpair=* There is no FDA guidance on the use of {{PAGENAME}} in patients with renal impairment.
|useInHepaticImpair=* There is no FDA guidance on the use of {{PAGENAME}} in patients with hepatic impairment.
|useInReproPotential=* There is no FDA guidance on the use of {{PAGENAME}} in women of reproductive potentials and males.
|useInImmunocomp=* There is no FDA guidance one the use of {{PAGENAME}} in patients who are immunocompromised.
 
<!--Administration and Monitoring-->
|administration=* The potency Units of DYSPORT® are specific to the preparation and assay method utilized. They are not interchangeable with other preparations of botulinum toxin products and, therefore, units of biological activity of DYSPORT® cannot be compared to or converted into units of any other botulinum toxin products assessed with any other specific assay method [see DESCRIPTION].
 
* Reconstitution instructions are specific for each of the 300 Unit vial and the 500 Unit vial. These volumes yield concentrations specific for the use for each indication.
 
'''Cervical Dystonia'''
 
* The recommended initial dose of DYSPORT® for the treatment of [[cervical dystonia]] is 500 Units given intramuscularly as a divided dose among affected muscles in patients with or without a history of prior treatment with botulinum toxin. (A description of the average DYSPORT® dose and percentage of total dose injected into specific muscles in the pivotal clinical trials can be found in TABLE 5 of Clinical Studies – Cervical Dystonia.) Limiting the dose injected into the sternocleidomastoid muscle may reduce the occurrence of dysphagia. Clinical studies with DYSPORT® in cervical dystonia suggest that the peak effect occurs between two and four weeks after injection. Simultaneous EMG-guided application of DYSPORT® may be helpful in locating active muscles not identified by physical examination alone.
 
'''Dose Modification'''
 
* Where dose modification is necessary for the treatment of cervical dystonia, uncontrolled open-label studies suggest that dose adjustment can be made in 250 Unit steps according to the individual patient's response, with re-treatment every 12 weeks or longer, as necessary, based on return of clinical symptoms. Uncontrolled open-label studies also suggest that the total dose administered in a single treatment should be between 250 Units and 1000 Units. Re-treatment, if needed, should not occur in intervals of less than 12 weeks. Doses above 1000 Units have not been systematically evaluated.
 
'''Special Populations'''
 
'''Adults and elderly'''
 
*The starting dose of 500 Units recommended for cervical dystonia is applicable to adults of all ages [see USE IN SPECIFIC POPULATIONS].
 
'''Children'''
 
* The safety and effectiveness of DYSPORT® in the treatment of cervical dystonia in pediatric patients less than 18 years of age has not been assessed.
 
'''Instructions for Preparation and Administration'''
 
* DYSPORT® is supplied as a single-use vial. Each 500 Unit vial of DYSPORT® is to be reconstituted with 1 mL of 0.9% Sodium Chloride Injection USP (without preservative) to yield a solution of 500 Units per mL. Each 300 Unit vial of DYSPORT® is to be reconstituted with 0.6 mL of 0.9% Sodium Chloride Injection USP (without preservative) to yield a solution equivalent to 250 Units per 0.5 mL.
 
* Using an appropriately sized sterile syringe, needle and aseptic technique, draw up 1.0 mL or 0.6 mL of sterile, 0.9% Sodium Chloride Injection USP (without preservative) for 500 and 300 Unit vials, respectively. Insert the needle into the DYSPORT® vial. The partial vacuum will begin to pull the saline into the vial. Any remaining required saline should be expressed into the vial manually. Do not use the vial if no vacuum is observed. Swirl gently to dissolve. Parenteral drug products should be inspected visually for particulate matter and discoloration prior to administration. Reconstituted DYSPORT® should be a clear, colorless solution, free of particulate matter, otherwise it should not be injected.
 
* Expel any air bubbles in the syringe barrel. Remove the needle used to reconstitute the product and attach an appropriately sized new sterile needle.
 
* Once reconstituted, DYSPORT® should be stored in a refrigerator at 2–8°C (36–46°F) protected from light and used within 24 hours. Do not freeze reconstituted DYSPORT®. Discard the vial and needle in accordance with local regulations.
 
'''Glabellar Lines'''
 
*The dose of DYSPORT® for the treatment of glabellar lines is a total of 50 Units given intramuscularly in five equal aliquots of 10 Units each to achieve clinical effect (see FIGURE 1).
 
'''Special Populations'''
 
'''Adults'''
 
*A total dose of 50 Units of DYSPORT®, in five equal aliquots, should be administered to achieve clinical effect.
 
*The clinical effect of DYSPORT® may last up to four months. Repeat dose clinical studies demonstrated continued efficacy with up to four repeated administrations. It should be administered no more frequently than every three months. When used for re-treatment, DYSPORT® should be reconstituted and injected using the same techniques as the initial treatment.
 
'''Children'''
 
*DYSPORT® for glabellar lines is not recommended for use in pediatric patients less than 18 years of age.
 
'''Instructions for Preparation and Administration'''
 
*DYSPORT® is supplied as a single-use vial. Each 300 Unit vial of DYSPORT® is to be reconstituted with 2.5 mL of 0.9% Sodium Chloride Injection USP (without preservative) prior to injection. The concentration of the resulting solution will be 10 Units per 0.08 mL to be delivered in five equally divided aliquots of 0.08 mL each. DYSPORT® may also be reconstituted with 1.5 mL of 0.9% Sodium Chloride Injection USP (without preservative) for a solution of 10 Units per 0.05 mL to be delivered in five equally divided aliquots of 0.05 mL each.
 
* Using an appropriately sized sterile syringe, needle and aseptic technique, draw up 2.5 mL or 1.5 mL of 0.9% Sodium Chloride Injection USP (without preservative). Insert the needle into the DYSPORT® vial. The partial vacuum will begin to pull the saline into the vial. Any remaining required saline should be expressed into the vial manually. Do not use the vial if no vacuum is observed. Swirl gently to dissolve. Parenteral drug products should be inspected visually for particulate matter and discoloration prior to administration. Reconstituted DYSPORT® should be a clear, colorless solution, free of particulate matter otherwise it should not be injected.
 
* Draw a single patient dose of DYSPORT® into a sterile syringe. Expel any air bubbles in the syringe barrel. Remove the needle used to reconstitute the product and attach a 30 gauge needle.
 
* Once reconstituted, DYSPORT® should be stored in a refrigerator at 2–8°C (36–46°F) protected from light and used within 24 hours. Do not freeze reconstituted DYSPORT®. Discard the vial and needle in accordance with local regulations.
 
'''Injection Technique'''
 
* Glabellar facial lines arise from the activity of the lateral corrugator and vertical procerus muscles. These can be readily identified by palpating the tensed muscle mass while having the patient frown. The corrugator depresses the skin creating a "furrowed" vertical line surrounded by tensed muscle (i.e., frown lines). The location, size, and use of the muscles vary markedly among individuals. Physicians administering DYSPORT® must understand the relevant neuromuscular and/or orbital anatomy of the area involved and any alterations to the anatomy due to prior surgical procedures.
 
* Risk of ptosis can be mitigated by careful examination of the upper lid for separation or weakness of the levator palpebrae muscle (true ptosis), identification of lash ptosis, and evaluation of the range of lid excursion while manually depressing the frontalis to assess compensation.
 
*In order to reduce the complication of ptosis, the following steps should be taken:
 
:*Avoid injection near the [[levator palpebrae superioris]], particularly in patients with larger brow depressor complexes.
:*Medial corrugator injections should be placed at least 1 centimeter above the bony supraorbital ridge.
:*Ensure the injected volume/dose is accurate and where feasible kept to a minimum.
:*Do not inject toxin closer than 1 centimeter above the central eyebrow.
:*To inject DYSPORT®, advance the needle through the skin into the underlying muscle while applying finger pressure on the superior medial orbital rim. Inject :*patients with a total of 50 Units in five equally divided aliquots. Using a 30 gauge needle, inject 10 Units of DYSPORT® into each of five sites, two in each corrugator muscle, and one in the procerus muscle (see FIGURE 1).
 
[[File:Botulinum administration.jpg|600px|thumbnail|left]]
{{clear}}
 
'''DOSAGE FORMS AND STRENGTHS'''
 
'''Cervical Dystonia'''
 
*DYSPORT® is supplied as:
 
:*a single-use, sterile 500 Unit vial for reconstitution with 1 mL of 0.9% Sodium Chloride Injection USP (without preservative) to yield a solution of 500 Units per mL.
:*a single-use, sterile 300 Unit vial for reconstitution with 0.6 mL of 0.9% Sodium Chloride Injection USP (without preservative) to yield a solution equivalent to 250 Units per 0.5 mL.
 
'''Glabellar Lines'''
 
*DYSPORT® is supplied as:
 
:*a single-use, sterile 300 Unit vial for reconstitution with 0.9% Sodium Chloride Injection USP (without preservative). DYSPORT® may be reconstituted with either 2.5 mL to yield a solution of 10 Units per 0.08 mL or with 1.5 mL to yield a solution of 10 Units per 0.05 mL.
|monitoring=* There is limited information regarding <i>Monitoring</i> of {{PAGENAME}} in the drug label.
 
<!--IV Compatibility-->
|IVCompat=* There is limited information regarding <i>IV Compatibility</i> of {{PAGENAME}} in the drug label.
 
<!--Overdosage-->
|overdose=* Excessive doses of DYSPORT® may be expected to produce neuromuscular weakness with a variety of symptoms. Respiratory support may be required where excessive doses cause paralysis of respiratory muscles. In the event of overdose, the patient should be medically monitored for symptoms of excessive muscle weakness or muscle paralysis. Symptomatic treatment may be necessary.
 
* Symptoms of overdose are likely not to be present immediately following injection. Should accidental injection or oral ingestion occur, the person should be medically supervised for several weeks for signs and symptoms of excessive muscle weakness or paralysis.
 
* There is no significant information regarding overdose from clinical studies in cervical dystonia. Doses exceeding 1000 Units of DYSPORT® were rarely studied in clinical settings for any indication.
 
* In the event of overdose, antitoxin raised against botulinum toxin is available from the Centers for Disease Control and Prevention (CDC) in Atlanta, GA.  However, the antitoxin will not reverse any botulinum toxin-induced effects already apparent by the time of antitoxin administration. In the event of suspected or actual cases of botulinum toxin poisoning, please contact your local or state Health Department to process a request for antitoxin through the CDC. If you do not receive a response within 30 minutes, please contact the CDC directly at 770-488-7100. More information can be obtained at http://www.cdc.gov/ncidod/srp/drugs/drug-service.html.
|drugBox=[[File:Botulinum wiki.png|600px|thumbnail|left]]
{{clear}}
|mechAction=* DYSPORT® inhibits release of the neurotransmitter, acetylcholine, from peripheral cholinergic nerve endings. Toxin activity occurs in the following sequence: Toxin heavy chain mediated binding to specific surface receptors on nerve endings, internalization of the toxin by receptor mediated endocytosis, pH-induced translocation of the toxin light chain to the cell cytosol and cleavage of SNAP25 leading to intracellular blockage of neurotransmitter exocytosis into the neuromuscular junction. This accounts for the therapeutic utility of the toxin in diseases characterized by excessive efferent activity in motor nerves.
 
*Recovery of transmission occurs gradually as the neuromuscular junction recovers from SNAP25 cleavage and as new nerve endings are formed.
|structure=* Botulinum toxin type A, the active ingredient in DYSPORT® (abobotulinumtoxinA), is a purified neurotoxin type A complex produced by fermentation of the bacterium Clostridium botulinum type A, Hall Strain. It is purified from the culture supernatant by a series of precipitation, dialysis, and chromatography steps. The neurotoxin complex is composed of the neurotoxin, hemagglutinin proteins and non-toxin non-hemagglutinin protein.
 
*DYSPORT® is supplied in a single-use, sterile vial for reconstitution intended for intramuscular injection. Each vial contains 500 or 300 Units of lyophilized abobotulinumtoxinA, 125 micrograms human serum albumin and 2.5 mg lactose. DYSPORT® may contain trace amounts of cow's milk proteins.
 
*One unit of DYSPORT® corresponds to the calculated median lethal intraperitoneal dose (LD50) in mice. The method for performing the assay is specific to Ipsen's product DYSPORT®. Due to differences in specific details such as vehicle, dilution scheme and laboratory protocols for various mouse LD50 assays, Units of biological activity of DYSPORT® are not interchangeable with Units of any other botulinum toxin or any toxin assessed with any other specific assay method.
|PD=* The primary pharmacodynamic effect of DYSPORT® is due to chemical denervation of the treated muscle resulting in a measurable decrease of the compound muscle action potential, causing a localized reduction of muscle activity.
 
<!--Pharmacokinetics-->
|PK=* Using currently available analytical technology, it is not possible to detect DYSPORT® in the peripheral blood following intramuscular injection at the recommended doses.
 
<!--Nonclinical Toxicology-->
|nonClinToxic='''Carcinogenicity, Mutagenicity, Impairment of Fertility'''
 
'''Carcinogenicity'''
 
*Studies to evaluate the carcinogenic potential of DYSPORT® have not been conducted.
 
'''Mutagenicity'''
 
* Genotoxicity studies have not been conducted for DYSPORT®.
 
'''Impairment of Fertility'''
 
*In a fertility and early embryonic development study in rats in which either males (2.9, 7.2, 14.5 or 29 Units/kg) or females (7.4, 19.7, 39.4 or 78.8 Units/kg) received weekly intramuscular injections prior to and after mating, dose-related increases in pre-implantation loss and reduced numbers of corpora lutea were noted in treated females. Failure to mate was observed in males that received the high dose. The no-effect dose for effects on fertility was 7.4 Units/kg in females and 14.5 Units/kg in males (approximately one-half and equal to, respectively, the maximum recommended human dose of 1000 Units on a body weight basis).
 
<!--Clinical Studies-->
|clinicalStudies='''Cervical Dystonia'''
 
*The efficacy of DYSPORT® was evaluated in two well-controlled, randomized, double-blind, placebo controlled, single dose, parallel group studies in treatment-naïve cervical dystonia patients. The principal analyses from these trials provide the primary demonstration of efficacy involving 252 patients (121 on DYSPORT®, 131 on placebo) with 36% male and 64% female. Ninety-nine percent of the patients were Caucasian.
 
*In both placebo controlled studies (Study 1 and Study 2), a dose of 500 Units DYSPORT® was given by intramuscular injection divided among two to four affected muscles. These studies were followed by long-term open label extensions that allowed titration in 250 Unit steps to doses in a range of 250 to 1000 Units, after the initial dose of 500 Units. In the extension studies, re-treatment was determined by clinical need after a minimum of 12 weeks. The median time to re-treatment was 14 weeks and 18 weeks for the 75th percentile.
 
*The primary assessment of efficacy was based on the total Toronto Western Spasmodic Torticollis Rating Scale (TWSTRS) change from baseline at Week 4 for both studies. The scale evaluates the severity of dystonia, patient perceived disability from dystonia, and pain. The adjusted mean change from baseline in the TWSTRS total score was statistically significantly greater for the DYSPORT® group than the placebo group at Weeks 4 in both studies (see Table 4).
 
[[File:Botulinum t 4.png|600px|thumbnail|left]]
{{clear}}
 
*Analyses by gender, weight, geographic region, underlying pain, cervical dystonia severity at baseline and history of treatment with botulinum toxin did not show any meaningful differences between groups.
 
*Table 5 indicates the average DYSPORT® dose, and percentage of total dose, injected into specific muscles in the pivotal clinical trials.
 
[[File:Botulinum t 5.png|600px|thumbnail|left]]
{{clear}}


==Overview==
'''Glabellar Lines'''


'''Botulinum toxin''' is a [[neurotoxin]] [[protein]] produced by the bacterium ''[[Clostridium botulinum]]''. It is one of the most poisonous naturally occurring substances in the world, and it is the most toxic protein.<ref>{{cite journal |author=Montecucco C, Molgó J |title=Botulinal neurotoxins: revival of an old killer |journal=Current opinion in pharmacology |volume=5 |issue=3 |pages=274-9 |year=2005 |pmid=15907915 |doi=10.1016/j.coph.2004.12.006}}</ref> Though it is highly toxic, it is used in minute doses both to treat painful muscle spasms, and as a cosmetic treatment in some parts of the world. It is sold commercially under the brand names '''Botox''' and '''Dysport''' for this purpose. The terms Botox and Dysport are trade names and are not used generically to describe the neurotoxins produced by the clostridia species.
* Three double-blind, randomized, placebo-controlled, clinical studies evaluated the efficacy of DYSPORT® for use in the temporary improvement of the appearance of moderate to severe glabellar lines. These three studies enrolled healthy adults (ages 19-75) with glabellar lines of at least moderate severity at maximum frown. Subjects were excluded if they had marked ptosis, deep dermal scarring, or a substantial inability to lessen glabellar lines, even by physically spreading them apart. The subjects in these studies received either DYSPORT® or placebo. The total dose was delivered in equally divided aliquots to specified injection sites (see Figure 1).


==History==
* Investigators and subjects assessed efficacy at maximum frown by using a 4-point scale (none, mild, moderate, severe).
The German physician and poet Justinus Kerner called botulinum toxin "sausage poison", or "Canadian bacon pathogen" as this bacterium often causes poisoning by growing in badly handled or prepared meat products. He first conceived a possible therapeutic use of botulinum toxin. In 1870, Muller (another German physician) coined the name [[botulism]], from [[Latin]] ''botulus'' = "sausage". In 1895, Emile Van Ermengem first isolated the bacterium ''Clostridium botulinum''. In 1944, Edward Schantz cultured ''Clostridium botulinum'' and isolated the toxin, and, in 1949, Burgen's group discovered that botulinum toxin blocks neuromuscular transmission.  


By 1973, Alan B Scott, MD, of [[Smith-Kettlewell Institute]] used botulinum toxin type A (BTX-A) in monkey experiments, and, in 1980, he officially used BTX-A for the first time in humans to treat [[strabismus]]. In December 1989, BTX-A (BOTOX) was approved by the US [[Food and Drug Administration]] (FDA) for the treatment of strabismus, [[blepharospasm]], and hemifacial spasm in patients over 12 years old. The cosmetic effect of BTX-A was initially described by ophthalmologist Jean Carruthers and dermatologist Alastair Carruthers, a husband-and-wife team working in Vancouver, Canada, although the effect had been observed by a number of independent groups. On April 15, 2002, the FDA announced the approval of botulinum toxin type A (BOTOX Cosmetic) to temporarily improve the appearance of moderate-to-severe frown lines between the eyebrows (glabellar lines). BTX-A has also been approved for the treatment of excessive underarm sweating. The acceptance of BTX-A use for the treatment of [[spasticity]] and muscle pain disorders is growing, with approvals pending in many European countries and studies on headaches (including [[migraine]]), [[prostatic]] symptoms, [[asthma]], obesity and many other possible indications are ongoing.
* Overall treatment success was defined as post-treatment glabellar line severity of none or mild with at least 2 grade improvement from Baseline for the combined investigator and subject assessments (composite assessment) on Day 30 (see Table 6). Additional endpoints for each of the studies were post-treatment glabellar line severity of none or mild with at least a 1 grade improvement from Baseline for the separate investigator and subject assessments on Day 30.


Botox is manufactured by Allergan Inc (U.S.) for both therapeutic as well as cosmetic use. The formulation is best stored at cold temperature of 2-8 degrees Celsius. Dysport is a therapeutic formulation of the type A toxin developed and manufactured in the UK and which is licenced for the treatment of focal dystonias and certain cosmetic uses in many territories world wide.
* After completion of the randomized studies, subjects were offered participation in a two-year, open-label re-treatment study to assess the safety of multiple treatments.


Botulinum Toxin Type B (BTX-B) received FDA approval for treatment of cervical [[dystonia]] on December 21, 2000. Trade names for BTX-B are Myobloc in the United States, and Neurobloc® in the European Union.
[[File:Botulinum t 6.png|600px|thumbnail|left]]
{{clear}}


==Medical uses==
* Treatment with DYSPORT® reduced the severity of glabellar lines for up to four months.


Researchers discovered in the 1950s that injecting overactive muscles with minute quantities of botulinum toxin type A decreased muscle activity by blocking the release of [[acetylcholine]] at the [[neuromuscular junction]], thereby rendering the muscle unable to contract for a period of 4 to 6 months. 
'''Study GL-1'''


Alan Scott, a San Francisco [[ophthalmologist]], first applied tiny doses of the toxin in a medicinal sense to treat [[crossed eyes]] and [[uncontrollable blinking]], but needed a partner to gain regulatory approval to market his discovery as a drug.  Allergan, Inc., a pharmaceutical company that focused on prescription eye therapies and contact lens products, bought the rights to the drug in 1988 and received FDA approval in 1989. Allergan renamed the drug Botox.
* Study GL-1 was a single dose, double-blind, multi-center, randomized, placebo-controlled study in which 158 previously untreated subjects received either placebo or 50 Units of DYSPORT®, administered in five aliquots of 10 Units (see Figure 1). Subjects were followed for 180 days. The mean age was 43 years; most of the subjects were women (85%), and predominantly Caucasian (49%) or Hispanic (47%). At Day 30, 55% of DYSPORT®-treated subjects achieved treatment success: a composite 2 grade improvement of glabellar line severity at maximum frown (see Table 6).


Cosmetically desirable effects of Botox were quickly discovered thereafter when the frown lines between the eyebrows were observed to soften following treatment for eye muscle disorders, leading to clinical trials and subsequent FDA approval for cosmetic use in April 2002.  As of 2006, Botox injection is the most common cosmetic operation in the United States. <!-- per "Pots of Promise -->
* In study GL-1, the reduction of glabellar line severity at maximum frown was greater at Day 30 in the DYSPORT® group compared to the placebo group as assessed by both Investigators and subjects (see Table 7).


Besides its cosmetic application, Botox is used in the treatment of
[[File:Botulinum t 7.png|600px|thumbnail|left]]
{{clear}}


*[[migraine]] headaches
'''Study GL-2'''


*cervical [[dystonia]] (a neuromuscular disorder involving the head and neck)<ref>{{cite journal | author=Brin MF, Lew MF, Adler CH, Comella CL, Factor SA, Jankovic J, O'Brien C, Murray JJ, Wallace JD, Willmer-Hulme A, Koller M | title=Safety and efficacy of NeuroBloc (botulinum toxin type B) in type A-resistant cervical dystonia | journal=Neurology | year=1999 | pages=1431-8 | volume=53 | issue=7 | id=PMID 10534247}}</ref>
* Study GL-2 was a repeat dose, double-blind, multi-center, placebo-controlled, randomized study. The study was initiated with two or three open-label treatment cycles of 50 Units of DYSPORT® administered in five aliquots of 10 Units DYSPORT® (see Figure 1). After the open-label treatments, subjects were randomized to receive either placebo or 50 Units of DYSPORT®. Subjects could have received up to four treatments through the course of the study. Efficacy was assessed in the final randomized treatment cycle. The study enrolled 311 subjects into the first treatment cycle and 142 subjects were randomized into the final treatment cycle. Overall, the mean age was 47 years; most of the subjects were women (86%) and predominantly Caucasian (80%).


*[[blepharospasm]] (involuntary contraction of the eye muscles)<ref> {{cite journal |author=Shukla HD, Sharma SK |title=Clostridium botulinum: a bug with beauty and weapon |journal=Crit. Rev. Microbiol. |volume=31 |issue=1 |pages=11-8 |year=2005 |pmid=15839401 |doi= }}</ref>
* At Day 30, 52% of DYSPORT®-treated subjects achieved treatment success: a composite 2 grade improvement of glabellar line severity at maximum frown (see Table 6).


*severe primary axillary [[hyperhidrosis]] (excessive sweating)<ref>{{cite journal |author=Eisenach JH, Atkinson JL, Fealey RD |title=Hyperhydrosis: evolving therapies for a well-established phenomenon |journal=Mayo Clin. Proc. |volume=80 |issue=5 |pages=657-66 |year=2005 |pmid=15887434 |doi=}}</ref>
* The proportion of responders in the final treatment cycle was comparable to the proportion of responders in all prior treatment cycles.


*[[achalasia]] (failure of the lower esophageal sphincter to relax)
* After the final repeat treatment with DYSPORT®, the reduction of glabellar line severity at maximum frown was greater at Day 30 in the DYSPORT® group compared to the placebo group as assessed by both Investigators and subjects (see Table 8).


Other uses of botulinum toxin type A that are widely known but not specifically approved by FDA include treatment of:
[[File:Botulinum t 8.png|600px|thumbnail|left]]
{{clear}}


*involuntary microexpression facial triggers (concealing a lie)
'''Study GL-3'''


*pediatric incontinence<ref>{{cite journal |author=Schurch B, Corcos J |title=Botulinum toxin injections for paediatric incontinence |journal=Current opinion in urology |volume=15 |issue=4 |pages=264-7 |year=2005 |pmid=15928517 |doi=}}</ref>, incontinence due to overactive bladder,<ref name="pmid17636801">{{cite journal
* Study GL-3 was a single dose, double-blind, multi-center, randomized, placebo-controlled study in which 300 previously untreated subjects received either placebo or 50 Units of DYSPORT®, administered in five aliquots of 10 Units (see Figure 1). Subjects were followed for 150 days. The mean age was 44 years; most of the subjects were women (87%), and predominantly Caucasian (75%) or Hispanic (18%).
| author = Duthie J, Wilson D, Herbison G, Wilson D
| title = Botulinum toxin injections for adults with overactive bladder syndrome.
| journal =
| volume = 3
| issue =
| pages = CD005493
| year = 2007
| pmid = 17636801
| doi = 10.1002/14651858.CD005493.pub2
| issn =
}}</ref> and incontinence due to [[neurogenic bladder]].<ref name="pmid17532858">{{cite journal
| author = Akbar M, Abel R, Seyler TM, Gerner HJ, Möhring K
| title = Repeated botulinum-A toxin injections in the treatment of myelodysplastic children and patients with spinal cord injuries with neurogenic bladder dysfunction.
| journal = BJU Int.
| volume = 100
| issue = 3
| pages = 639-45
| year = 2007
| pmid = 17532858
| doi = 10.1111/j.1464-410X.2007.06977.x
| issn =
}}</ref>


*[[anal fissure]]<ref>{{cite journal |author=Trzciński R, Dziki A, Tchórzewski M |title=Injections of botulinum A toxin for the treatment of anal fissures |journal=The European journal of surgery &#61; Acta chirurgica |volume=168 |issue=12 |pages=720-3 |year=2002 |pmid=15362583 |doi=}}</ref>
* At Day 30, 60% of DYSPORT®-treated subjects achieved treatment success: a composite 2 grade improvement of glabellar line severity at maximum frown (see Table 6).


*spastic disorders associated with injury or disease of the [[central nervous system]] including trauma, [[stroke]], [[multiple sclerosis]], [[Parkinson's disease]], or [[cerebral palsy]]
* In study GL-3, the reduction of glabellar line severity at maximum frown was greater at Day 30 in the DYSPORT® group compared to the placebo group as assessed by both Investigators and subjects (see Table 9).


*focal [[dystonia]]s affecting the limbs, face, jaw, or [[vocal cords]]
[[File:Botulinum t 9.png|600px|thumbnail|left]]
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*[[Temporomandibular joint|TMJ]] pain disorders
'''Geriatric Subjects'''


*diabetic neuropathy
*In GL1, GL2, and GL3, there were 8 subjects aged 65 and older who were randomized to DYSPORT® 50 Units in 5 equal aliquots of 10 Units (4) or placebo (4). None of the geriatric DYSPORT® subjects were a treatment success at maximum frown at Day 30.
<!--How Supplied-->
|howSupplied=* DYSPORT® for Injection is supplied in a sterile, single-use, 3 mL glass vial. DYSPORT® must be stored under refrigeration at 2–8°C (36–46°F). Protect from light.


*wound healing
* Administer DYSPORT® within 24 hours of reconstitution; during this period reconstituted DYSPORT® should be stored under refrigeration at 2–8°C (36–46°F). Do not freeze after reconstitution.


*excessive salivation
* Do not use after the expiration date on the vial. All vials, including expired vials, or equipment used with DYSPORT® should be disposed of carefully as is done with all medical waste.


*VCD (Vocal Cord Dysfunction) a spasming of the vocal cords
* DYSPORT® contains a unique hologram on the carton. If you do not see the hologram, do not use the product. Instead contact 1-855-463-5127.


*Reduction of the Masseter muscle for decreasing the size of the lower jaw
'''Cervical Dystonia'''


In the ''Journal of Dermatologic Surgery'', Eric Finzi claims to have treated clinically depressed patients with botox. On ''Good Morning America'', he claimed that by taking away the ability to frown, he was somehow taking away the ability to feel depressed.<ref>{{cite web |url=http://i.abcnews.com/GMA/Health/story?id=2003009&page=1 |title=ABC News: Can Botox Cure Depression? |accessdate=2007-08-14 |format= |work=}}</ref>
*500 Unit Vial


Treatment and prevention of chronic headache<ref>{{cite journal |author=Panicker JN, Muthane UB |title=Botulinum toxins: pharmacology and its current therapeutic evidence for use |journal=Neurology India |volume=51 |issue=4 |pages=455-60 |year=2003 |pmid=14742921 |doi= |url=http://www.neurologyindia.com/article.asp?issn=0028-3886;year=2003;volume=51;issue=4;spage=455;epage=460;aulast=Muthane
:*Each vial contains 500 Units of freeze-dried abobotulinumtoxinA.  
}}</ref> and chronic musculoskeletal pain<ref>{{cite journal |author=Charles PD |title=Botulinum neurotoxin serotype A: a clinical update on non-cosmetic uses |journal=American journal of health-system pharmacy : AJHP : official journal of the American Society of Health-System Pharmacists |volume=61 |issue=22 Suppl 6 |pages=S11-23 |year=2004 |pmid=15598005 |doi=}}</ref> are emerging uses for botulinum toxin type A.  In addition, there is evidence that Botox may aid in weight loss by increasing the gastric emptying time.<ref>{{cite journal |author=Coskun H, Duran Y, Dilege E, Mihmanli M, Seymen H, Demirkol MO |title=Effect on gastric emptying and weight reduction of botulinum toxin-A injection into the gastric antral layer: an experimental study in the obese rat model |journal=Obesity surgery : the official journal of the American Society for Bariatric Surgery and of the Obesity Surgery Society of Australia and New Zealand |volume=15 |issue=8 |pages=1137-43 |year=2005 |pmid=16197786 |doi=10.1381/0960892055002275}}</ref>
:*Box containing 1 vial—NDC 15054-0500-1
:*Box containing 2 vials—NDC 15054-0500-2


==Side effects==
*300 Unit Vial
Side effects can be predicted from the mode of action (muscle paralysis) and chemical structure (protein) of the molecule, resulting broadly speaking in two major areas of side effects: paralysis of the wrong muscle group and allergic reaction. Bruising at the site of injection is a side effect not of the toxin, but rather the mode of administration. In cosmetic use, this means that the client will complain of inappropriate facial expression  such as drooping eyelid, uneven smile, loss of ability to close the eye. This will wear off in around 6 weeks. Bruising is prevented by the clinician applying pressure to the injection site, but may still occur, and will last around 7 - 10 days. When injecting the masseter muscle of the jaw, loss of muscle function will result in a loss or reduction of power to chew solid foods. All cosmetic treatments are of limited duration, and can be as short a period as six weeks, but usually one reckons with an effective period of between 3 and 6 months.  At the extremely low doses used medicinally,  botulinum toxin has a very low degree of toxicity.


==Chemical overview==
:*Each vial contains 300 Units of freeze-dried abobotulinumtoxinA.  
There are seven serologically distinct toxin types, designated A through G; 3 subtypes of A have been described. The toxin is a two-chain [[polypeptide]] with a 100-[[dalton (unit)|kDa]] heavy chain joined by a [[disulfide bond]] to a 50-kDa light chain. This light chain is an enzyme (a [[protease]]) that attacks one of the fusion proteins (SNAP-25, syntaxin or synaptobrevin) at a [[neuromuscular junction]], preventing [[vesicle (biology)|vesicle]]s from anchoring to the [[cell membrane|membrane]] to release [[acetylcholine]]. By inhibiting acetylcholine release, the toxin interferes with nerve impulses and causes  flaccid (sagging) paralysis of muscles in [[botulism]] as opposite to the spastic paralysis seen in tetanus.
:*Box containing 1 vial—NDC 15054-0530-6
 
It is possibly the most acutely toxic substance known, with a [[LD50|median lethal dose]] of about 1 ng/kg<ref> By Diane O. Fleming, Debra Long Hunt. ''Biological Safety: principles and practices''. ASM Press, '''2000''', p. 267.</ref>, meaning that a few hundred grams could theoretically kill every human on earth (for perspective, the rat poison [[strychnine]], often described as highly toxic, has an [[LD50|LD<sub>50</sub>]] of 1,000,000 ng/kg, and it would take four hundred tons to kill every human). 


It is also remarkably easy to come by: ''Clostridium'' spores are found in soil practically all over the earth.
*Glabellar Lines


Food-borne botulism usually results from ingestion of food that has become contaminated with spores (such as a perforated can) in an anaerobic environment, allowing the spores to germinate and grow. The growing (vegetative) bacteria produce toxin. It is the ingestion of preformed toxin that causes [[botulism]], not ingestion of the spores or vegetative organism.
:*Each vial contains 300 Units of freeze-dried abobotulinumtoxinA.  
:*Box containing 1 vial—NDC 99207-500-30
Infant (intestinal) and wound botulism both result from infection with spores which subsequently germinate, resulting in production of toxin and the symptoms of botulism.
|packLabel=[[File:Botulinum pdp1.jpg|600px|thumbnail|left]]
{{clear}}


The toxin itself is rapidly destroyed by heat, such as in thorough cooking.<ref>[http://www.pubmedcentral.nih.gov/pagerender.fcgi?artid=546888&pageindex=3 Thermal inactivation of Botulinum toxin]</ref> However, the spores which produce the toxin are heat-tolerant and will survive boiling at 100 degrees Celsius for an extended period of time.
[[File:Botulinum pdp2.jpg|600px|thumbnail|left]]
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==Chemical warfare==
[[File:Botulinum label.png|600px|thumbnail|left]]
Botulin toxin has always been considered an inferior agent for [[chemical warfare]] since it degrades rapidly on exposure to air, and therefore an area attacked with the toxic [[particulate|aerosol]] would be safe to enter within a day or so. In fact, the agent is so unstable that the medicinal form is generally shipped on dry ice. There are no documented cases of the toxin actually being used in warfare; however, it has been claimed to have been used in the Operation Anthropoid to kill top Nazi Reinhard Heydrich<ref>{{cite web |url=http://www.strategypage.com/articles/biotoxin_files/BIOTOXINASSASINATION.asp |title=StrategyPage.com - Medium Brigade Flaws, and the Cure The IBCT Revisited |accessdate=2007-08-14 |format= |work=}}</ref> and in "Operation Mongoose", where in 1961, the CIA saturated some cigars, of Fidel Castro's favorite brand, with botulinum toxin for a possible assassination attempt. The cigars were never used, but when tested years later were found still effective.<ref>{{cite web |url=http://www.parascope.com/mx/articles/castroreport.htm |title=parascope.com - Castro report |accessdate=2007-08-14 |format= |work=}}</ref> The notorious Japanese biological warfare group Unit 731 fed botulinum to prisoners during Japan's occupation of Manchuria in the 1930s.<ref>{{cite web |url=http://jama.ama-assn.org/cgi/content/full/285/8/1059 |title=JAMA -- Botulinum Toxin as a Biological Weapon: Medical and Public Health Management, February 28, 2001, Arnon et al. 285 (8): 1059 |accessdate=2007-08-14 |format= |work=}}</ref>
{{clear}}
|fdaPatientInfo=* The physician should provide a copy of the FDA-Approved Patient Medication Guide and review the contents with the patient. Patients should be advised to inform their doctor or pharmacist if they develop any unusual symptoms (including difficulty with swallowing, speaking or breathing), or if any known symptom persists or worsens.


There has been concern over the use of botulin toxin as a terrorist weapon, but it appears not to be ideal for this purpose. The vials used therapeutically are considered impractical as weapons because each vial contains only an extremely small fraction of the lethal dose. Nor is home-growing very viable; the bacterium in question is [[anaerobic organism|anaerobic]] and grows poorly in the presence of oxygen. This would make it difficult for terrorists to produce the toxin in bulk without specialized microbiological expertise.  
* Patients should be counseled that if loss of strength, muscle weakness, blurred vision or drooping eyelids occur, they should avoid driving a car or engaging in other potentially hazardous activities.
|alcohol=* Alcohol-{{PAGENAME}} interaction has not been established. Talk to your doctor about the effects of taking alcohol with this medication.


The toxin's properties did not escape the attention of the Aum Supreme Truth cult in Japan, who had set up a plant for bulk production of this agent, though their subway attacks used the [[nerve agent]] [[sarin]] instead, because of its easy dispersal and faster-acting properties.
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|brandNames=* ®<ref>{{Cite web | title =  | url =  }}</ref>


It has been recently revealed that the CIA made attempts to assassinate Fidel Castro with several Botulinum Toxin pills placed in his drinks. The attempts failed when the operatives asked out of the operation.
<!--Look-Alike Drug Names-->
|lookAlike=* A® — B®<ref name="www.ismp.org">{{Cite web  | last =  | first =  | title = http://www.ismp.org | url = http://www.ismp.org | publisher =  | date =  }}</ref>


==Biochemical mechanism of toxicity==
<!--Drug Shortage Status-->
[[image:Presynaptic_CNTs_targets.svg|thumb|right|300px|Target molecules of botulinum (BoNT) and tetanus (TeNT) toxins inside the axon terminal.[http://www.cdc.gov/ncidod/EID/vol11no10/04-1279.htm]]]
|drugShortage=
The heavy chain of the toxin is particularly important for targeting the toxin to specific types of [[axon]] terminals. The toxin must get inside the axon terminals in order to cause paralysis. Following the attachment of the toxin heavy chain to proteins on the surface of axon terminals, the toxin can be taken into neurons by [[endocytosis]]. The light chain is able to leave endocytotic vesicles and reach the [[cytoplasm]]. The light chain of the toxin has protease activity. The type A toxin proteolytically degrades the [[SNAP-25|SNAP-25 protein]], a type of [[SNARE protein]]. The SNAP-25 protein is required for the release of [[neurotransmitter]]s from the axon endings.<ref>{{cite journal |author=Foran PG, Mohammed N, Lisk GO, ''et al'' |title=Evaluation of the therapeutic usefulness of botulinum neurotoxin B, C1, E, and F compared with the long lasting type A. Basis for distinct durations of inhibition of exocytosis in central neurons |journal=J. Biol. Chem. |volume=278 |issue=2 |pages=1363-71 |year=2003 |pmid=12381720 |doi=10.1074/jbc.M209821200 |url=http://www.jbc.org/cgi/content/full/278/2/1363}}</ref> Botulinum toxin specifically cleaves these SNAREs, and so prevents neuro-secretory vesicles from docking/fusing with the nerve synapse plasma membrane and releasing their neurotransmitters.
}}
{{PillImage
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Though it affects the nervous system, common nerve agent treatments (namely the injection of atropine and 2-pam-chloride) will ''increase'' mortality by enhancing botulin toxin's mechanism of toxicity.  Attacks involving botulinum toxin are distinguishable from those involving nerve agent in that NBC detection equipment (such as M-8 paper or the ICAM) will not indicate a "positive" when a sample of the agent is tested.  Furthermore, botulism symptoms develop relatively slowly, over several days compared to nerve agent effects, which can be instantaneous.


==Outbreaks==
On July 2, 1971 the [[FDA]] released a public warning after learning that a New York man had died and his wife had become seriously ill due to botulism after eating a can of Bon Vivant vichyssoise soup. The company began a recall of the 6,444 cans of vichyssoise soup made in the same batch as the can known to be contaminated. The FDA discovered that the company’s processing practices raised questions not only about these lots of the vichyssoise, but also about all other products packed by the company. The effectiveness check of the recall had revealed a number of swollen or otherwise suspect cans among Bon Vivant’s other products, so FDA extended the recall to include ''all'' Bon Vivant products. The FDA shut down the company’s Newark, New Jersey plant on July 7, 1971. Although only five cans of Bon Vivant soup were found to be contaminated with the [[botulin toxin]], all in the initial batch of vichyssoise recalled and part of the first 324 cans tested. The ordeal destroyed public confidence in the company’s products and the Bon Vivant name. Bon Vivant filed for bankruptcy within a month of the announcement of the recall. <ref>{{cite news |first= |last= |authorlink= |coauthors= |title=An Examination of FDA’s Recall Authority |url=http://leda.law.harvard.edu/leda/data/729/Curatolo05.html |quote=The incident did not take a toll only on the company, however. Bon Vivant did not have adequate records and controls of production lots and distribution in order to trace the products quickly. The company also did not have the finances or manpower necessary to run a successful recall program. As a result, the FDA had to seize all the Bon Vivant soup throughout the country, more than a million cans in all. FDA said the seizure occupied 125 man years of FDA time, enough for 2,000 ordinary factory inspections for preventive purposes. |publisher=[[Harvard Law School]] |date= |accessdate=2007-09-25 }}</ref>


==Treatment of botulinum poisoning==
<!--Label Display Image-->
The case fatality rate for botulinum poisoning from 1950-1996 was 15.5%, down from approximately 60% the 50-years prior. <ref>{{cite web |url=http://www.cdc.gov/ncidod/dbmd/diseaseinfo/files/botulism_manual.htm |title=Disease Listing, Botulism Manual, Additional Information | CDC Bacterial, Mycotic Diseases |accessdate=2007-08-14 |format= |work=}}</ref>   Death is generally secondary to respiratory failure due to paralysis of the respiratory muscles, so treatment consists of antitoxin administration and artificial ventilation.  If initiated on time, these are quite effective.  Occasionally,  functional recovery may take several weeks to months.


There are two primary Botulinum Antitoxins available for treatment of botulism. 


* Trivalent (A,B,E) Botulinum [[Antitoxin]] is derived from equine sources utilizing whole [[antibodies]] (Fab & Fc portions).  This [[antitoxin]] is available from the local health department via the [[Centers for Disease Control|CDC]]. 


* The second [[antitoxin]] is Heptavalent (A,B,C,D,E,F,G) Botulinum [[Antitoxin]] which is derived from "despeciated" equine IgG [[antibodies]] which have had the Fc portion cleaved off leaving the F(ab')2 portions.  This is a less immunogenic [[antitoxin]] that is effective against all known strains of botulism where not contraindicated.  This is available from the US Army.  On June 1, 2006 the US [[Department of Health and Human Services]] awarded a $363 million contract with Cangene Corporation for 200,000 doses of Heptavalent Botulinum [[Antitoxin]] over five years for delivery into the Strategic National Stockpile beginning in 2007.<ref>{{cite web |url=http://mmrs.fema.gov/news/publichealth/2006/aug/nph2006-08-03a.aspx |title=FEMA  |accessdate=2007-08-14 |format= |work=}}</ref>


==References==
{{Reflist|2}}


==External links==
<!--Category-->
* [http://www.fda.gov/fdac/features/095_bot.html A Poison that can Heal] from the [[FDA]]
* [http://health.howstuffworks.com/botox.htm How Stuff Works - Botox]
* [http://www.cosmeticdoctors.co.uk/botox.asp Botox Information from The British Association of Cosmetic Doctors]


[[Category:Muscle relaxants]]
[[Category:Drug]]
[[Category:Neurotoxins]]
[[Category:Pharmacology]]

Latest revision as of 18:16, 18 August 2015

Botulinum toxin
Black Box Warning
Adult Indications & Dosage
Pediatric Indications & Dosage
Contraindications
Warnings & Precautions
Adverse Reactions
Drug Interactions
Use in Specific Populations
Administration & Monitoring
Overdosage
Pharmacology
Clinical Studies
How Supplied
Images
Patient Counseling Information
Precautions with Alcohol
Brand Names
Look-Alike Names

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Deepika Beereddy, MBBS [2]

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Black Box Warning

Distant Spread of Toxin Effect:
See full prescribing information for complete Boxed Warning.
Distant Spread of Toxin Effect:
  • Postmarketing reports indicate that the effects of DYSPORT® and all botulinum toxin products may spread from the area of injection to produce symptoms consistent with botulinum toxin effects. These may include asthenia, generalized muscle weakness, diplopia, blurred vision, ptosis, dysphagia, dysphonia, dysarthria, urinary incontinence and breathing difficulties. These symptoms have been reported hours to weeks after injection. Swallowing and breathing difficulties can be life threatening and there have been reports of death. The risk of symptoms is probably greatest in children treated for spasticity but symptoms can also occur in adults treated for spasticity and other conditions, particularly in those patients who have underlying conditions that would predispose them to these symptoms. In unapproved uses, including spasticity in children and adults, and in approved indications, cases of spread of effect have been reported at doses comparable to those used to treat cervical dystonia and at lower doses.

Overview

Botulinum toxin is a neurotoxic protein that is FDA approved for the treatment of cervical dystonia, glabellar lines. There is a Black Box Warning for this drug as shown here. Common adverse reactions include muscular weakness, dysphagia, dry mouth, injection site discomfort, fatigue, headache, neck pain, musculoskeletal pain, dysphonia, injection site pain, and eye disorders, nasopharyngitis, injection site reaction, upper respiratory tract infection, eyelid edema, eyelid ptosis, sinusitis and nausea.

Adult Indications and Dosage

FDA-Labeled Indications and Dosage (Adult)

Cervical Dystonia
  • DYSPORT® (abobotulinumtoxinA) is an acetylcholine release inhibitor and a neuromuscular blocking agent indicated for the treatment of adults with cervical dystonia to reduce the severity of abnormal head position and neck pain in both toxin-naïve and previously treated patients.
  • Dosing Information
  • The recommended initial dose of DYSPORT® for the treatment of cervical dystonia is 500 Units given intramuscularly as a divided dose among affected muscles in patients with or without a history of prior treatment with botulinum toxin. (A description of the average DYSPORT® dose and percentage of total dose injected into specific muscles in the pivotal clinical trials can be found in TABLE 5 of Clinical Studies – Cervical Dystonia.) Limiting the dose injected into the sternocleidomastoid muscle may reduce the occurrence of dysphagia. Clinical studies with DYSPORT® in cervical dystonia suggest that the peak effect occurs between two and four weeks after injection. Simultaneous EMG-guided application of DYSPORT® may be helpful in locating active muscles not identified by physical examination alone.
  • Dose Modification:
  • Where dose modification is necessary for the treatment of cervical dystonia, uncontrolled open-label studies suggest that dose adjustment can be made in 250 Unit steps according to the individual patient's response, with re-treatment every 12 weeks or longer, as necessary, based on return of clinical symptoms. Uncontrolled open-label studies also suggest that the total dose administered in a single treatment should be between 250 Units and 1000 Units. Re-treatment, if needed, should not occur in intervals of less than 12 weeks. Doses above 1000 Units have not been systematically evaluated.

Special Populations

Adults and elderly

.Children

  • The safety and effectiveness of DYSPORT® in the treatment of cervical dystonia in pediatric patients less than 18 years of age has not been assessed.

Instructions for Preparation and Administration

  • DYSPORT® is supplied as a single-use vial. Each 500 Unit vial of DYSPORT® is to be reconstituted with 1 mL of 0.9% Sodium Chloride Injection USP (without preservative) to yield a solution of 500 Units per mL. Each 300 Unit vial of DYSPORT® is to be reconstituted with 0.6 mL of 0.9% Sodium Chloride Injection USP (without preservative) to yield a solution equivalent to 250 Units per 0.5 mL.
  • Using an appropriately sized sterile syringe, needle and aseptic technique, draw up 1.0 mL or 0.6 mL of sterile, 0.9% Sodium Chloride Injection USP (without preservative) for 500 and 300 Unit vials, respectively. Insert the needle into the DYSPORT® vial. The partial vacuum will begin to pull the saline into the vial. Any remaining required saline should be expressed into the vial manually. Do not use the vial if no vacuum is observed. Swirl gently to dissolve. Parenteral drug products should be inspected visually for particulate matter and discoloration prior to administration. Reconstituted DYSPORT® should be a clear, colorless solution, free of particulate matter, otherwise it should not be injected.
  • Expel any air bubbles in the syringe barrel. Remove the needle used to reconstitute the product and attach an appropriately sized new sterile needle.
  • Once reconstituted, DYSPORT® should be stored in a refrigerator at 2–8°C (36–46°F) protected from light and used within 24 hours. Do not freeze reconstituted DYSPORT®. Discard the vial and needle in accordance with local regulations.
Glabellar Lines
  • DYSPORT® (abobotulinumtoxinA) is an acetylcholine release inhibitor and a neuromuscular blocking agent indicated for the temporary improvement in the appearance of moderate to severe glabellar lines associated with procerus and corrugator muscle activity in adult patients < 65 years of age.
  • Dosing Information
  • The dose of DYSPORT® for the treatment of glabellar lines is a total of 50 Units given intramuscularly in five equal aliquots of 10 Units each to achieve clinical effect (see FIGURE 1).

Special Populations

Adults

  • A total dose of 50 Units of DYSPORT®, in five equal aliquots, should be administered to achieve clinical effect.
  • The clinical effect of DYSPORT® may last up to four months. Repeat dose clinical studies demonstrated continued efficacy with up to four repeated administrations. It should be administered no more frequently than every three months. When used for re-treatment, DYSPORT® should be reconstituted and injected using the same techniques as the initial treatment.

Children

  • DYSPORT® for glabellar lines is not recommended for use in pediatric patients less than 18 years of age.

Instructions for Preparation and Administration

  • DYSPORT® is supplied as a single-use vial. Each 300 Unit vial of DYSPORT® is to be reconstituted with 2.5 mL of 0.9% Sodium Chloride Injection USP (without preservative) prior to injection. The concentration of the resulting solution will be 10 Units per 0.08 mL to be delivered in five equally divided aliquots of 0.08 mL each. DYSPORT® may also be reconstituted with 1.5 mL of 0.9% Sodium Chloride Injection USP (without preservative) for a solution of 10 Units per 0.05 mL to be delivered in five equally divided aliquots of 0.05 mL each.
  • Using an appropriately sized sterile syringe, needle and aseptic technique, draw up 2.5 mL or 1.5 mL of 0.9% Sodium Chloride Injection USP (without preservative). Insert the needle into the DYSPORT® vial. The partial vacuum will begin to pull the saline into the vial. Any remaining required saline should be expressed into the vial manually. Do not use the vial if no vacuum is observed. Swirl gently to dissolve. Parenteral drug products should be inspected visually for particulate matter and discoloration prior to administration. Reconstituted DYSPORT® should be a clear, colorless solution, free of particulate matter otherwise it should not be injected.
  • Draw a single patient dose of DYSPORT® into a sterile syringe. Expel any air bubbles in the syringe barrel. Remove the needle used to reconstitute the product and attach a 30 gauge needle.
  • Once reconstituted, DYSPORT® should be stored in a refrigerator at 2–8°C (36–46°F) protected from light and used within 24 hours. Do not freeze reconstituted DYSPORT®. Discard the vial and needle in accordance with local regulations.

Off-Label Use and Dosage (Adult)

Guideline-Supported Use

  • There is limited information regarding Off-Label Guideline-Supported Use of Botulinum toxin in adult patients.

Non–Guideline-Supported Use

  • There is limited information regarding Off-Label Non–Guideline-Supported Use of Botulinum toxin in adult patients.

Pediatric Indications and Dosage

FDA-Labeled Indications and Dosage (Pediatric)

  • There is limited information regarding FDA-Labeled Use of Botulinum toxin in pediatric patients.

Off-Label Use and Dosage (Pediatric)

Guideline-Supported Use

  • There is limited information regarding Off-Label Guideline-Supported Use of Botulinum toxin in pediatric patients.

Non–Guideline-Supported Use

  • There is limited information regarding Off-Label Non–Guideline-Supported Use of Botulinum toxin in pediatric patients.

Contraindications

  • DYSPORT® is contraindicated in patients with known hypersensitivity to any botulinum toxin preparation or to any of the components in the formulation.
  • This product may contain trace amounts of cow's milk protein. Patients known to be allergic to cow's milk protein should not be treated with DYSPORT®.
  • DYSPORT® is contraindicated for use in patients with infection at the proposed injection site(s).

Warnings

Distant Spread of Toxin Effect:
See full prescribing information for complete Boxed Warning.
Distant Spread of Toxin Effect:
  • Postmarketing reports indicate that the effects of DYSPORT® and all botulinum toxin products may spread from the area of injection to produce symptoms consistent with botulinum toxin effects. These may include asthenia, generalized muscle weakness, diplopia, blurred vision, ptosis, dysphagia, dysphonia, dysarthria, urinary incontinence and breathing difficulties. These symptoms have been reported hours to weeks after injection. Swallowing and breathing difficulties can be life threatening and there have been reports of death. The risk of symptoms is probably greatest in children treated for spasticity but symptoms can also occur in adults treated for spasticity and other conditions, particularly in those patients who have underlying conditions that would predispose them to these symptoms. In unapproved uses, including spasticity in children and adults, and in approved indications, cases of spread of effect have been reported at doses comparable to those used to treat cervical dystonia and at lower doses.

Lack of Interchangeability between Botulinum Toxin Products

  • The potency Units of DYSPORT® are specific to the preparation and assay method utilized. They are not interchangeable with other preparations of botulinum toxin products and, therefore, units of biological activity of DYSPORT® cannot be compared to or converted into units of any other botulinum toxin products assessed with any other specific assay method [see Description].

Spread of Toxin Effect

  • Post-marketing safety data from DYSPORT® and other approved botulinum toxins suggest that botulinum toxin effects may, in some cases, be observed beyond the site of local injection. The symptoms are consistent with the mechanism of action of botulinum toxin and may include asthenia, generalized muscle weakness, diplopia, blurred vision, ptosis, dysphagia, dysphonia, dysarthria, urinary incontinence and breathing difficulties. These symptoms have been reported hours to weeks after injection. Swallowing and breathing difficulties can be life threatening and there have been reports of death related to spread of toxin effects. The risk of the symptoms is probably greatest in children treated for spasticity but symptoms can also occur in adults treated for spasticity and other conditions, and particularly in those patients who have underlying conditions that would predispose them to these symptoms. In unapproved uses, including spasticity in children and adults, and in approved indications, symptoms consistent with spread of toxin effect have been reported at doses comparable to or lower than doses used to treat cervical dystonia.

Dysphagia and Breathing Difficulties in Treatment of Cervical Dystonia

  • Treatment with DYSPORT® and other botulinum toxin products can result in swallowing or breathing difficulties. Patients with pre-existing swallowing or breathing difficulties may be more susceptible to these complications. In most cases, this is a consequence of weakening of muscles in the area of injection that are involved in breathing or swallowing. When distant effects occur, additional respiratory muscles may be involved.
  • Deaths as a complication of severe dysphagia have been reported after treatment with botulinum toxin. Dysphagia may persist for several weeks, and require use of a feeding tube to maintain adequate nutrition and hydration. Aspiration may result from severe dysphagia and is a particular risk when treating patients in whom swallowing or respiratory function is already compromised.
  • Treatment of cervical dystonia with botulinum toxins may weaken neck muscles that serve as accessory muscles of ventilation. This may result in a critical loss of breathing capacity in patients with respiratory disorders who may have become dependent upon these accessory muscles. There have been post-marketing reports of serious breathing difficulties, including respiratory failure, in cervical dystonia patients.
  • Patients treated with botulinum toxin may require immediate medical attention should they develop problems with swallowing, speech or respiratory disorders. These reactions can occur within hours to weeks after injection with botulinum toxin.

Facial Anatomy in the Treatment of Glabellar Lines

  • Caution should be exercised when administering DYSPORT® to patients with surgical alterations to the facial anatomy, excessive weakness or atrophy in the target muscle(s), marked facial asymmetry, inflammation at the injection site(s), ptosis, excessive dermatochalasis, deep dermal scarring, thick sebaceous skin or the inability to substantially lessen glabellar lines by physically spreading them apart.
  • Do not exceed the recommended dosage and frequency of administration of DYSPORT®. In clinical trials, subjects who received a higher dose of DYSPORT® had an increased incidence of eyelid ptosis.

Pre-existing Neuromuscular Disorders

  • Individuals with peripheral motor neuropathic diseases, amyotrophic lateral sclerosis or neuromuscular junction disorders (e.g., myasthenia gravis or Lambert-Eaton syndrome) should be monitored particularly closely when given botulinum toxin. Patients with neuromuscular disorders may be at increased risk of clinically significant effects including severe dysphagia and respiratory compromise from typical doses of DYSPORT®.

Human Albumin

  • This product contains albumin, a derivative of human blood. Based on effective donor screening and product manufacturing processes, it carries an extremely remote risk for transmission of viral diseases. A theoretical risk for transmission of Creutzfeldt-Jakob disease (CJD) is also considered extremely remote. No cases of transmission of viral diseases or CJD have ever been reported for albumin.

Intradermal Immune Reaction

  • The possibility of an immune reaction when injected intradermally is unknown. The safety of DYSPORT® for the treatment of hyperhidrosis has not been established.

Adverse Reactions

Clinical Trials Experience

  • The following adverse reactions to DYSPORT® are discussed in greater detail in other sections of the labeling.

Clinical Studies Experience

  • Because clinical trials are conducted under widely varying conditions, the adverse reaction rates observed cannot be directly compared to rates in other trials and may not reflect the rates observed in clinical practice. The adverse reaction information from clinical trials does, however, provide a basis for identifying the adverse events that appear to be related to drug use and for approximating incidence rates.

Cervical Dystonia

  • The data described below reflect exposure to DYSPORT® in 357 cervical dystonia patients in 6 studies. Of these, two studies were randomized, double-blind, single treatment, placebo controlled studies with subsequent optional open label treatment in which dose optimization (250 to 1000 Units per treatment) over the course of 5 treatment cycles was allowed.
  • The population was almost entirely Caucasian (99.2%) with a median age of 51 years (range 18–82 years). Most patients (86.6%) were less than 65 years of age; 58.4% were women.

Common Adverse Events

  • The most commonly reported adverse events (occurring in more than 5% of patients who received 500 Units of DYSPORT® in the placebo controlled clinical trials) in cervical dystonia patients were muscular weakness, dysphagia, dry mouth, injection site discomfort, fatigue, headache, neck pain, musculoskeletal pain, dysphonia, injection site pain, and eye disorders (consisting of blurred vision, diplopia, and reduced visual acuity and accommodation). Most adverse events were reported as mild or moderate in severity. Other than injection site reactions, most adverse events became noticeable about one week after treatment and lasted several weeks.
  • The rates of adverse events were higher in the combined controlled and open-label experience than in the placebo-controlled trials.
  • During the clinical studies, two patients (<1%) experienced adverse events leading to withdrawal. One patient experienced disturbance in attention, eyelid disorder, feeling abnormal and headache, and one patient experienced dysphagia.
  • Table 1 compares the incidence of the most frequent treatment-emergent adverse events (TEAEs) from a single treatment cycle of 500 Units of DYSPORT® compared to placebo.
  • Dose-response relationships for common adverse events in a randomized multiple fixed-dose study in which the total dose was divided between two muscles (the sternocleidomastoid and splenius capitis) are shown in Table 2.

Injection Site Reactions

  • Injection site discomfort and injection site pain were common adverse events following DYSPORT® administration. These events were mainly of mild or moderate intensity.

Less Common Adverse Events

  • The following selected adverse events were reported less frequently (<5%).

Breathing Difficulties

  • Breathing difficulties were reported by approximately 3% of patients following DYSPORT® administration and in 1% of placebo patients in clinical trials during the double-blind phase. These consisted mainly of dyspnea and were generally mild in intensity. The median time to onset from last dose of DYSPORT® was approximately one week, and the median duration was approximately three weeks.
  • Other selected adverse events with incidences of less than 5% in the DYSPORT® 500 Units group in the double-blind phase of clinical trials included dizziness in 3.5% of DYSPORT®-treated subjects and 1% of placebo-treated subjects, and muscle atrophy in 1% of DYSPORT®-treated subjects and in none of the placebo-treated subjects.

Laboratory Findings

  • Subjects treated with DYSPORT® exhibited a small increase from baseline (0.23 mol/L) in mean blood glucose relative to placebo-treated subjects. This was not clinically significant among subjects in the development program but could be a factor in patients whose diabetes is difficult to control.

Electrocardiographic Findings

  • ECG measurements were only recorded in a limited number of subjects in an open-label study without a placebo or active control. This study showed a statistically significant reduction in heart rate compared to baseline, averaging about three beats per minute, observed thirty minutes after injection.

Glabellar Lines

  • Because clinical trials are conducted under widely varying conditions, adverse reaction rates observed in the clinical trials of a drug cannot be directly compared to rates in the clinical trials of another drug and may not be predictive of rates observed in practice.
  • Table 3 reflects exposure to DYSPORT® in 398 subjects aged 19 to 75 who were evaluated in the randomized, placebo-controlled clinical studies that assessed the use of DYSPORT® for the temporary improvement in the appearance of glabellar lines. Adverse events of any cause were reported for 48% of the DYSPORT®-treated subjects and 33% of the placebo-treated subjects. Treatment-emergent adverse events were generally mild to moderate in severity.
  • In the overall safety database, where some subjects received up to twelve treatments with DYSPORT®, adverse events were reported for 57% (1425/2491) of subjects. The most frequently reported of these adverse events were headache, nasopharyngitis, injection site pain, sinusitis, URI, injection site bruising, and injection site reaction (numbness, discomfort, erythema, tenderness, tingling, itching, stinging, warmth, irritation, tightness, swelling).
  • Adverse events that emerged after repeated injections in 2–3% of the population included bronchitis, influenza, pharyngolaryngeal pain, cough, contact dermatitis, injection site swelling, and injection site discomfort.
  • The incidence of eyelid ptosis did not increase in the long-term safety studies with multiple re-treatments at intervals ≥ three months. The majority of eyelid ptosis events were mild to moderate in severity and resolved over several weeks.

Immunogenicity

  • As with all therapeutic proteins, there is a potential for immunogenicity.
  • The incidence of antibody formation is highly dependent on the sensitivity and specificity of the assay. In addition, the observed incidence of antibody positivity in an assay may be influenced by several factors including assay methodology, sample handling, timing of sample collection, concomitant medications, and underlying disease. For these reasons, comparison of the incidence of antibodies across products in this class may be misleading.

Cervical Dystonia

  • About 3% of subjects developed antibodies (binding or neutralizing) over time with DYSPORT® treatment. The significance of these antibodies is unknown since in the presence of binding and neutralizing antibodies some patients may continue to experience clinical benefit.

Glabellar Lines

  • Testing for antibodies to DYSPORT® was performed for 1554 subjects who had up to nine cycles of treatment. Two subjects (0.13%) tested positive for binding antibodies at baseline. Three additional subjects tested positive for binding antibodies after receiving DYSPORT® treatment. None of the subjects tested positive for neutralizing antibodies.

Postmarketing Experience

  • There is extensive post-marketing experience outside the U.S. for the treatment of glabellar lines. Adverse reactions are reported voluntarily from a population of uncertain size; thus, it is not always possible to estimate their frequency reliably or to establish a causal relationship to drug exposure. The following adverse reactions have been identified during post-marketing use: vertigo, eyelid ptosis, diplopia, vision blurred, photophobia, dysphagia, nausea, injection site reaction, malaise, influenza-like illness, hypersensitivity, sinusitis, amyotrophy, burning sensation, facial paresis, dizziness, headache, hypoesthesia, erythema, and excessive granulation tissue.

Drug Interactions

  • No formal drug interaction studies have been conducted with DYSPORT®.
  • Patients treated concomitantly with botulinum toxins and aminoglycosides or other agents interfering with neuromuscular transmission (e.g., curare-like agents) should be observed closely because the effect of the botulinum toxin may be potentiated. Use of anticholinergic drugs after administration of DYSPORT® may potentiate systemic anticholinergic effects such as blurred vision.
  • The effect of administering different botulinum neurotoxin products at the same time or within several months of each other is unknown. Excessive weakness may be exacerbated by another administration of botulinum toxin prior to the resolution of the effects of a previously administered botulinum toxin.
  • Excessive weakness may also be exaggerated by administration of a muscle relaxant before or after administration of DYSPORT®.

Use in Specific Populations

Pregnancy

Pregnancy Category (FDA): C Pregnancy Category C

  • DYSPORT® produced embryo-fetal toxicity when given to pregnant rats at doses similar to or greater than the maximum recommended human dose (MRHD) of 1000 Units on a body weight (Units/kg) basis.
  • In an embryo-fetal development study in which pregnant rats received intramuscular injections daily (2.2, 6.6, or 22 Units/kg on gestation days 6 through 17) or intermittently (44 Units/kg on gestation days 6 and 12 only) during organogenesis, increased early embryonic death was observed with both dosing schedules. The no-effect dose for embryo-fetal developmental toxicity was 2.2 Units/kg (one-tenth the MRHD on a body weight basis). Maternal toxicity was seen at 22 and 44 Units/kg. In a pre-and post-natal development study in which female rats received 6 weekly intramuscular injections (4.4, 11.1, 22.2, or 44 Units/kg) beginning on day 6 of gestation and continuing through parturition to weaning, an increase in stillbirths was observed at the highest dose, which was maternally toxic. The no-effect dose for pre- and post-natal developmental toxicity was 22.2 Units/kg (approximately equal to the MRHD on a body weight basis).
  • There are no adequate and well-controlled studies in pregnant women. DYSPORT® should be used during pregnancy only if the potential benefit justifies the potential risk to the fetus.


Pregnancy Category (AUS):

  • Australian Drug Evaluation Committee (ADEC) Pregnancy Category
  • There is no Australian Drug Evaluation Committee (ADEC) guidance on usage of Botulinum toxin in women who are pregnant.

Labor and Delivery

  • There is no FDA guidance on use of Botulinum toxin during labor and delivery.

Nursing Mothers

  • It is not known whether DYSPORT® is excreted in human milk.

Pediatric Use

Cervical Dystonia

  • Safety and effectiveness in pediatric patients have not been established.

Glabellar Lines

  • DYSPORT® is not recommended for use in pediatric patients less than 18 years of age.

Geriatic Use

Cervical Dystonia

  • There were insufficient numbers of patients aged 65 and over in the clinical studies to determine whether they respond differently than younger patients. In general, elderly patients should be observed to evaluate their tolerability of DYSPORT®, due to the greater frequency of concomitant disease and other drug therapy.

Glabellar Lines

  • Of the total number of subjects in the placebo-controlled clinical studies of DYSPORT®, 8 (1%) were 65 and over. Efficacy was not observed in subjects 65 years and over. For the entire safety database of geriatric subjects, although there was no increase in the incidence of eyelid ptosis, geriatric subjects did have an increase in the number of ocular adverse events compared to younger subjects (11% vs. 5%).

Gender

  • There is no FDA guidance on the use of Botulinum toxin with respect to specific gender populations.

Race

Ethnic Groups

  • Exploratory analyses in trials for glabellar lines in African-American subjects with Fitzpatrick skin types IV, V, or VI and in Hispanic subjects suggested that response rates at Day 30 were comparable to and no worse than the overall population.ulations.

Renal Impairment

  • There is no FDA guidance on the use of Botulinum toxin in patients with renal impairment.

Hepatic Impairment

  • There is no FDA guidance on the use of Botulinum toxin in patients with hepatic impairment.

Females of Reproductive Potential and Males

  • There is no FDA guidance on the use of Botulinum toxin in women of reproductive potentials and males.

Immunocompromised Patients

  • There is no FDA guidance one the use of Botulinum toxin in patients who are immunocompromised.

Administration and Monitoring

Administration

  • The potency Units of DYSPORT® are specific to the preparation and assay method utilized. They are not interchangeable with other preparations of botulinum toxin products and, therefore, units of biological activity of DYSPORT® cannot be compared to or converted into units of any other botulinum toxin products assessed with any other specific assay method [see DESCRIPTION].
  • Reconstitution instructions are specific for each of the 300 Unit vial and the 500 Unit vial. These volumes yield concentrations specific for the use for each indication.

Cervical Dystonia

  • The recommended initial dose of DYSPORT® for the treatment of cervical dystonia is 500 Units given intramuscularly as a divided dose among affected muscles in patients with or without a history of prior treatment with botulinum toxin. (A description of the average DYSPORT® dose and percentage of total dose injected into specific muscles in the pivotal clinical trials can be found in TABLE 5 of Clinical Studies – Cervical Dystonia.) Limiting the dose injected into the sternocleidomastoid muscle may reduce the occurrence of dysphagia. Clinical studies with DYSPORT® in cervical dystonia suggest that the peak effect occurs between two and four weeks after injection. Simultaneous EMG-guided application of DYSPORT® may be helpful in locating active muscles not identified by physical examination alone.

Dose Modification

  • Where dose modification is necessary for the treatment of cervical dystonia, uncontrolled open-label studies suggest that dose adjustment can be made in 250 Unit steps according to the individual patient's response, with re-treatment every 12 weeks or longer, as necessary, based on return of clinical symptoms. Uncontrolled open-label studies also suggest that the total dose administered in a single treatment should be between 250 Units and 1000 Units. Re-treatment, if needed, should not occur in intervals of less than 12 weeks. Doses above 1000 Units have not been systematically evaluated.

Special Populations

Adults and elderly

  • The starting dose of 500 Units recommended for cervical dystonia is applicable to adults of all ages [see USE IN SPECIFIC POPULATIONS].

Children

  • The safety and effectiveness of DYSPORT® in the treatment of cervical dystonia in pediatric patients less than 18 years of age has not been assessed.

Instructions for Preparation and Administration

  • DYSPORT® is supplied as a single-use vial. Each 500 Unit vial of DYSPORT® is to be reconstituted with 1 mL of 0.9% Sodium Chloride Injection USP (without preservative) to yield a solution of 500 Units per mL. Each 300 Unit vial of DYSPORT® is to be reconstituted with 0.6 mL of 0.9% Sodium Chloride Injection USP (without preservative) to yield a solution equivalent to 250 Units per 0.5 mL.
  • Using an appropriately sized sterile syringe, needle and aseptic technique, draw up 1.0 mL or 0.6 mL of sterile, 0.9% Sodium Chloride Injection USP (without preservative) for 500 and 300 Unit vials, respectively. Insert the needle into the DYSPORT® vial. The partial vacuum will begin to pull the saline into the vial. Any remaining required saline should be expressed into the vial manually. Do not use the vial if no vacuum is observed. Swirl gently to dissolve. Parenteral drug products should be inspected visually for particulate matter and discoloration prior to administration. Reconstituted DYSPORT® should be a clear, colorless solution, free of particulate matter, otherwise it should not be injected.
  • Expel any air bubbles in the syringe barrel. Remove the needle used to reconstitute the product and attach an appropriately sized new sterile needle.
  • Once reconstituted, DYSPORT® should be stored in a refrigerator at 2–8°C (36–46°F) protected from light and used within 24 hours. Do not freeze reconstituted DYSPORT®. Discard the vial and needle in accordance with local regulations.

Glabellar Lines

  • The dose of DYSPORT® for the treatment of glabellar lines is a total of 50 Units given intramuscularly in five equal aliquots of 10 Units each to achieve clinical effect (see FIGURE 1).

Special Populations

Adults

  • A total dose of 50 Units of DYSPORT®, in five equal aliquots, should be administered to achieve clinical effect.
  • The clinical effect of DYSPORT® may last up to four months. Repeat dose clinical studies demonstrated continued efficacy with up to four repeated administrations. It should be administered no more frequently than every three months. When used for re-treatment, DYSPORT® should be reconstituted and injected using the same techniques as the initial treatment.

Children

  • DYSPORT® for glabellar lines is not recommended for use in pediatric patients less than 18 years of age.

Instructions for Preparation and Administration

  • DYSPORT® is supplied as a single-use vial. Each 300 Unit vial of DYSPORT® is to be reconstituted with 2.5 mL of 0.9% Sodium Chloride Injection USP (without preservative) prior to injection. The concentration of the resulting solution will be 10 Units per 0.08 mL to be delivered in five equally divided aliquots of 0.08 mL each. DYSPORT® may also be reconstituted with 1.5 mL of 0.9% Sodium Chloride Injection USP (without preservative) for a solution of 10 Units per 0.05 mL to be delivered in five equally divided aliquots of 0.05 mL each.
  • Using an appropriately sized sterile syringe, needle and aseptic technique, draw up 2.5 mL or 1.5 mL of 0.9% Sodium Chloride Injection USP (without preservative). Insert the needle into the DYSPORT® vial. The partial vacuum will begin to pull the saline into the vial. Any remaining required saline should be expressed into the vial manually. Do not use the vial if no vacuum is observed. Swirl gently to dissolve. Parenteral drug products should be inspected visually for particulate matter and discoloration prior to administration. Reconstituted DYSPORT® should be a clear, colorless solution, free of particulate matter otherwise it should not be injected.
  • Draw a single patient dose of DYSPORT® into a sterile syringe. Expel any air bubbles in the syringe barrel. Remove the needle used to reconstitute the product and attach a 30 gauge needle.
  • Once reconstituted, DYSPORT® should be stored in a refrigerator at 2–8°C (36–46°F) protected from light and used within 24 hours. Do not freeze reconstituted DYSPORT®. Discard the vial and needle in accordance with local regulations.

Injection Technique

  • Glabellar facial lines arise from the activity of the lateral corrugator and vertical procerus muscles. These can be readily identified by palpating the tensed muscle mass while having the patient frown. The corrugator depresses the skin creating a "furrowed" vertical line surrounded by tensed muscle (i.e., frown lines). The location, size, and use of the muscles vary markedly among individuals. Physicians administering DYSPORT® must understand the relevant neuromuscular and/or orbital anatomy of the area involved and any alterations to the anatomy due to prior surgical procedures.
  • Risk of ptosis can be mitigated by careful examination of the upper lid for separation or weakness of the levator palpebrae muscle (true ptosis), identification of lash ptosis, and evaluation of the range of lid excursion while manually depressing the frontalis to assess compensation.
  • In order to reduce the complication of ptosis, the following steps should be taken:
  • Avoid injection near the levator palpebrae superioris, particularly in patients with larger brow depressor complexes.
  • Medial corrugator injections should be placed at least 1 centimeter above the bony supraorbital ridge.
  • Ensure the injected volume/dose is accurate and where feasible kept to a minimum.
  • Do not inject toxin closer than 1 centimeter above the central eyebrow.
  • To inject DYSPORT®, advance the needle through the skin into the underlying muscle while applying finger pressure on the superior medial orbital rim. Inject :*patients with a total of 50 Units in five equally divided aliquots. Using a 30 gauge needle, inject 10 Units of DYSPORT® into each of five sites, two in each corrugator muscle, and one in the procerus muscle (see FIGURE 1).

DOSAGE FORMS AND STRENGTHS

Cervical Dystonia

  • DYSPORT® is supplied as:
  • a single-use, sterile 500 Unit vial for reconstitution with 1 mL of 0.9% Sodium Chloride Injection USP (without preservative) to yield a solution of 500 Units per mL.
  • a single-use, sterile 300 Unit vial for reconstitution with 0.6 mL of 0.9% Sodium Chloride Injection USP (without preservative) to yield a solution equivalent to 250 Units per 0.5 mL.

Glabellar Lines

  • DYSPORT® is supplied as:
  • a single-use, sterile 300 Unit vial for reconstitution with 0.9% Sodium Chloride Injection USP (without preservative). DYSPORT® may be reconstituted with either 2.5 mL to yield a solution of 10 Units per 0.08 mL or with 1.5 mL to yield a solution of 10 Units per 0.05 mL.

Monitoring

  • There is limited information regarding Monitoring of Botulinum toxin in the drug label.

IV Compatibility

  • There is limited information regarding IV Compatibility of Botulinum toxin in the drug label.

Overdosage

  • Excessive doses of DYSPORT® may be expected to produce neuromuscular weakness with a variety of symptoms. Respiratory support may be required where excessive doses cause paralysis of respiratory muscles. In the event of overdose, the patient should be medically monitored for symptoms of excessive muscle weakness or muscle paralysis. Symptomatic treatment may be necessary.
  • Symptoms of overdose are likely not to be present immediately following injection. Should accidental injection or oral ingestion occur, the person should be medically supervised for several weeks for signs and symptoms of excessive muscle weakness or paralysis.
  • There is no significant information regarding overdose from clinical studies in cervical dystonia. Doses exceeding 1000 Units of DYSPORT® were rarely studied in clinical settings for any indication.
  • In the event of overdose, antitoxin raised against botulinum toxin is available from the Centers for Disease Control and Prevention (CDC) in Atlanta, GA. However, the antitoxin will not reverse any botulinum toxin-induced effects already apparent by the time of antitoxin administration. In the event of suspected or actual cases of botulinum toxin poisoning, please contact your local or state Health Department to process a request for antitoxin through the CDC. If you do not receive a response within 30 minutes, please contact the CDC directly at 770-488-7100. More information can be obtained at http://www.cdc.gov/ncidod/srp/drugs/drug-service.html.

Pharmacology

Mechanism of Action

  • DYSPORT® inhibits release of the neurotransmitter, acetylcholine, from peripheral cholinergic nerve endings. Toxin activity occurs in the following sequence: Toxin heavy chain mediated binding to specific surface receptors on nerve endings, internalization of the toxin by receptor mediated endocytosis, pH-induced translocation of the toxin light chain to the cell cytosol and cleavage of SNAP25 leading to intracellular blockage of neurotransmitter exocytosis into the neuromuscular junction. This accounts for the therapeutic utility of the toxin in diseases characterized by excessive efferent activity in motor nerves.
  • Recovery of transmission occurs gradually as the neuromuscular junction recovers from SNAP25 cleavage and as new nerve endings are formed.

Structure

  • Botulinum toxin type A, the active ingredient in DYSPORT® (abobotulinumtoxinA), is a purified neurotoxin type A complex produced by fermentation of the bacterium Clostridium botulinum type A, Hall Strain. It is purified from the culture supernatant by a series of precipitation, dialysis, and chromatography steps. The neurotoxin complex is composed of the neurotoxin, hemagglutinin proteins and non-toxin non-hemagglutinin protein.
  • DYSPORT® is supplied in a single-use, sterile vial for reconstitution intended for intramuscular injection. Each vial contains 500 or 300 Units of lyophilized abobotulinumtoxinA, 125 micrograms human serum albumin and 2.5 mg lactose. DYSPORT® may contain trace amounts of cow's milk proteins.
  • One unit of DYSPORT® corresponds to the calculated median lethal intraperitoneal dose (LD50) in mice. The method for performing the assay is specific to Ipsen's product DYSPORT®. Due to differences in specific details such as vehicle, dilution scheme and laboratory protocols for various mouse LD50 assays, Units of biological activity of DYSPORT® are not interchangeable with Units of any other botulinum toxin or any toxin assessed with any other specific assay method.

Pharmacodynamics

  • The primary pharmacodynamic effect of DYSPORT® is due to chemical denervation of the treated muscle resulting in a measurable decrease of the compound muscle action potential, causing a localized reduction of muscle activity.

Pharmacokinetics

  • Using currently available analytical technology, it is not possible to detect DYSPORT® in the peripheral blood following intramuscular injection at the recommended doses.

Nonclinical Toxicology

Carcinogenicity, Mutagenicity, Impairment of Fertility

Carcinogenicity

  • Studies to evaluate the carcinogenic potential of DYSPORT® have not been conducted.

Mutagenicity

  • Genotoxicity studies have not been conducted for DYSPORT®.

Impairment of Fertility

  • In a fertility and early embryonic development study in rats in which either males (2.9, 7.2, 14.5 or 29 Units/kg) or females (7.4, 19.7, 39.4 or 78.8 Units/kg) received weekly intramuscular injections prior to and after mating, dose-related increases in pre-implantation loss and reduced numbers of corpora lutea were noted in treated females. Failure to mate was observed in males that received the high dose. The no-effect dose for effects on fertility was 7.4 Units/kg in females and 14.5 Units/kg in males (approximately one-half and equal to, respectively, the maximum recommended human dose of 1000 Units on a body weight basis).

Clinical Studies

Cervical Dystonia

  • The efficacy of DYSPORT® was evaluated in two well-controlled, randomized, double-blind, placebo controlled, single dose, parallel group studies in treatment-naïve cervical dystonia patients. The principal analyses from these trials provide the primary demonstration of efficacy involving 252 patients (121 on DYSPORT®, 131 on placebo) with 36% male and 64% female. Ninety-nine percent of the patients were Caucasian.
  • In both placebo controlled studies (Study 1 and Study 2), a dose of 500 Units DYSPORT® was given by intramuscular injection divided among two to four affected muscles. These studies were followed by long-term open label extensions that allowed titration in 250 Unit steps to doses in a range of 250 to 1000 Units, after the initial dose of 500 Units. In the extension studies, re-treatment was determined by clinical need after a minimum of 12 weeks. The median time to re-treatment was 14 weeks and 18 weeks for the 75th percentile.
  • The primary assessment of efficacy was based on the total Toronto Western Spasmodic Torticollis Rating Scale (TWSTRS) change from baseline at Week 4 for both studies. The scale evaluates the severity of dystonia, patient perceived disability from dystonia, and pain. The adjusted mean change from baseline in the TWSTRS total score was statistically significantly greater for the DYSPORT® group than the placebo group at Weeks 4 in both studies (see Table 4).
  • Analyses by gender, weight, geographic region, underlying pain, cervical dystonia severity at baseline and history of treatment with botulinum toxin did not show any meaningful differences between groups.
  • Table 5 indicates the average DYSPORT® dose, and percentage of total dose, injected into specific muscles in the pivotal clinical trials.

Glabellar Lines

  • Three double-blind, randomized, placebo-controlled, clinical studies evaluated the efficacy of DYSPORT® for use in the temporary improvement of the appearance of moderate to severe glabellar lines. These three studies enrolled healthy adults (ages 19-75) with glabellar lines of at least moderate severity at maximum frown. Subjects were excluded if they had marked ptosis, deep dermal scarring, or a substantial inability to lessen glabellar lines, even by physically spreading them apart. The subjects in these studies received either DYSPORT® or placebo. The total dose was delivered in equally divided aliquots to specified injection sites (see Figure 1).
  • Investigators and subjects assessed efficacy at maximum frown by using a 4-point scale (none, mild, moderate, severe).
  • Overall treatment success was defined as post-treatment glabellar line severity of none or mild with at least 2 grade improvement from Baseline for the combined investigator and subject assessments (composite assessment) on Day 30 (see Table 6). Additional endpoints for each of the studies were post-treatment glabellar line severity of none or mild with at least a 1 grade improvement from Baseline for the separate investigator and subject assessments on Day 30.
  • After completion of the randomized studies, subjects were offered participation in a two-year, open-label re-treatment study to assess the safety of multiple treatments.
  • Treatment with DYSPORT® reduced the severity of glabellar lines for up to four months.

Study GL-1

  • Study GL-1 was a single dose, double-blind, multi-center, randomized, placebo-controlled study in which 158 previously untreated subjects received either placebo or 50 Units of DYSPORT®, administered in five aliquots of 10 Units (see Figure 1). Subjects were followed for 180 days. The mean age was 43 years; most of the subjects were women (85%), and predominantly Caucasian (49%) or Hispanic (47%). At Day 30, 55% of DYSPORT®-treated subjects achieved treatment success: a composite 2 grade improvement of glabellar line severity at maximum frown (see Table 6).
  • In study GL-1, the reduction of glabellar line severity at maximum frown was greater at Day 30 in the DYSPORT® group compared to the placebo group as assessed by both Investigators and subjects (see Table 7).

Study GL-2

  • Study GL-2 was a repeat dose, double-blind, multi-center, placebo-controlled, randomized study. The study was initiated with two or three open-label treatment cycles of 50 Units of DYSPORT® administered in five aliquots of 10 Units DYSPORT® (see Figure 1). After the open-label treatments, subjects were randomized to receive either placebo or 50 Units of DYSPORT®. Subjects could have received up to four treatments through the course of the study. Efficacy was assessed in the final randomized treatment cycle. The study enrolled 311 subjects into the first treatment cycle and 142 subjects were randomized into the final treatment cycle. Overall, the mean age was 47 years; most of the subjects were women (86%) and predominantly Caucasian (80%).
  • At Day 30, 52% of DYSPORT®-treated subjects achieved treatment success: a composite 2 grade improvement of glabellar line severity at maximum frown (see Table 6).
  • The proportion of responders in the final treatment cycle was comparable to the proportion of responders in all prior treatment cycles.
  • After the final repeat treatment with DYSPORT®, the reduction of glabellar line severity at maximum frown was greater at Day 30 in the DYSPORT® group compared to the placebo group as assessed by both Investigators and subjects (see Table 8).

Study GL-3

  • Study GL-3 was a single dose, double-blind, multi-center, randomized, placebo-controlled study in which 300 previously untreated subjects received either placebo or 50 Units of DYSPORT®, administered in five aliquots of 10 Units (see Figure 1). Subjects were followed for 150 days. The mean age was 44 years; most of the subjects were women (87%), and predominantly Caucasian (75%) or Hispanic (18%).
  • At Day 30, 60% of DYSPORT®-treated subjects achieved treatment success: a composite 2 grade improvement of glabellar line severity at maximum frown (see Table 6).
  • In study GL-3, the reduction of glabellar line severity at maximum frown was greater at Day 30 in the DYSPORT® group compared to the placebo group as assessed by both Investigators and subjects (see Table 9).

Geriatric Subjects

  • In GL1, GL2, and GL3, there were 8 subjects aged 65 and older who were randomized to DYSPORT® 50 Units in 5 equal aliquots of 10 Units (4) or placebo (4). None of the geriatric DYSPORT® subjects were a treatment success at maximum frown at Day 30.

How Supplied

  • DYSPORT® for Injection is supplied in a sterile, single-use, 3 mL glass vial. DYSPORT® must be stored under refrigeration at 2–8°C (36–46°F). Protect from light.
  • Administer DYSPORT® within 24 hours of reconstitution; during this period reconstituted DYSPORT® should be stored under refrigeration at 2–8°C (36–46°F). Do not freeze after reconstitution.
  • Do not use after the expiration date on the vial. All vials, including expired vials, or equipment used with DYSPORT® should be disposed of carefully as is done with all medical waste.
  • DYSPORT® contains a unique hologram on the carton. If you do not see the hologram, do not use the product. Instead contact 1-855-463-5127.

Cervical Dystonia

  • 500 Unit Vial
  • Each vial contains 500 Units of freeze-dried abobotulinumtoxinA.
  • Box containing 1 vial—NDC 15054-0500-1
  • Box containing 2 vials—NDC 15054-0500-2
  • 300 Unit Vial
  • Each vial contains 300 Units of freeze-dried abobotulinumtoxinA.
  • Box containing 1 vial—NDC 15054-0530-6
  • Glabellar Lines
  • Each vial contains 300 Units of freeze-dried abobotulinumtoxinA.
  • Box containing 1 vial—NDC 99207-500-30

Storage

There is limited information regarding Botulinum toxin Storage in the drug label.

Images

Drug Images

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Patient Counseling Information

  • The physician should provide a copy of the FDA-Approved Patient Medication Guide and review the contents with the patient. Patients should be advised to inform their doctor or pharmacist if they develop any unusual symptoms (including difficulty with swallowing, speaking or breathing), or if any known symptom persists or worsens.
  • Patients should be counseled that if loss of strength, muscle weakness, blurred vision or drooping eyelids occur, they should avoid driving a car or engaging in other potentially hazardous activities.

Precautions with Alcohol

  • Alcohol-Botulinum toxin interaction has not been established. Talk to your doctor about the effects of taking alcohol with this medication.

Brand Names

Look-Alike Drug Names

Drug Shortage Status

Price

References

The contents of this FDA label are provided by the National Library of Medicine.

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