Anthrax medical therapy: Difference between revisions

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: João André Alves Silva, M.D. [2]

Overview

Medical therapy of anthrax infection includes antibiotic and antitoxin drugs. Patients should be treated with a multiple antibiotic regimen (≥3 drugs) for 60 days to avoid the creation of drug resistant species and ensure the elimination of remaining spores of the bacteria. These patients should be monitored at all times to evaluate the need for supportive care measures, such as hemodynamic support, mechanical ventilation, corticosteroids, procedures, and surgical interventions in certain occasions.

Medical Therapy

The treatment of anthrax infection includes antibiotic and antitoxin agents. This treatment and postexposure prophylaxis differs from other bacterial infections because anthrax is associated with:^[1]

• Production of toxin
• Potential antibiotic resistance
• Frequent occurrence of meningitis
• Presence of latent spores that must be taken into account when selecting post-exposure prophylaxis or a combination of antibiotics for treatment of anthrax

Antibiotic Treatment

Cutaneous Anthrax without Systemic Involvement

Choice of Antibiotics

• Uncomplicated cutaneous anthrax has been successfully treated with a single oral antimicrobial drug.
• Oral fluoroquinolones (ciprofloxacin, levofloxacin, and moxifloxacin) and doxycycline are equivalent first-line agents.
• Clindamycin is an alternative option if fluoroquinolones and doxycycline are contraindicated or unavailable.
• Given the long history of successful treatment of localized uncomplicated cutaneous anthrax with penicillin, amoxicillin and penicillin VK are also alternative therapeutic options if the isolate is known to be susceptible to penicillin. However, adequate dosages must be used because of the potential for development of drug resistance during treatment with subtherapeutic dosing.

Duration of the Treatment

• Duration of treatment for localized or uncomplicated cutaneous disease depends on the B. anthracis exposure source:
  • Naturally acquired (e.g., animals with anthrax, products such as hides from animals with anthrax): 7–10-day course
  • Bioterrorism-related exposure or an aerosol exposure is suspected: 60 days (because the patient is likely to have also inhaled spores.)

Systemic Anthrax When Meningitis Has Been Excluded

Systemic Anthrax with Possible/Confirmed Meningitis

Hospitalized patients for systemic anthrax should be immediately treated with a combination of broad-spectrum intravenous antibiotic drug treatment pending confirmatory test results because any delay may prove fatal.

Because meningitis and hemorrhagic brain parenchymal infection was observed in ≤50% of cases, meningitis must be considered in all cases of systemic anthrax. Therefore antibiotics to treat possible meningitis must have good penetration of the central nervous system (CNS).^[1] Empiric therapy for anthrax in which anthrax meningitis is suspected or cannot be ruled out should include ≥3 antibiotics with activity against Bacillus anthracis, in which:^[1]

• ≥1 drug should have bactericidal activity

• ≥1 should be a protein synthesis inhibitor

• All should have good CNS penetration

Given the high mortality rate associated with meningitis, 3 weeks of treatment for patients in whom meningitis could not be ruled out is preferred. Because of the presence of a spore form of Bacillus anthracis, antibiotic therapy should be continued for 60 days to clear germinating organisms.^[1]

Hospitalization is warranted for all patients with systemic cutaneous anthrax; gastrointestinal, injection, or inhalation anthrax; or anthrax meningitis or bacteremia.

Patients with systemic anthrax commonly have debilitating symptoms, followed first by transitory improvement and then by precipitous hemodynamic deterioration. Because of this potential for sudden decompensation, hospitalized patients should have careful hemodynamic monitoring.^[2]

▸ Click on the following categories to expand treatment regimens.^[3][4][5]

Follow-up Oral Treatment for Systemic Disease

Once patients with systemic illness who were exposed to aerosolized spores have completed the initial combination treatment, they should be transitioned to a single-agent oral treatment to prevent relapse from surviving Bacillus anthracis spores.

Antitoxins

An antitoxin should be added to combination antibiotic treatment for any patient for whom there is a high level of clinical suspicion for systemic anthrax. Given that systemic anthrax has a high case-fatality rate and the risk for antitoxin treatment appears to be low, the potential benefit achieved by adding antitoxin to combination antibiotic treatment outweighs the potential risk.

Currently there are 2 antitoxins in the CDC Strategic National Stockpile: raxibacumab and Anthrax Immune Globulin Intravenous (AIGIV). Both antitoxins inhibit binding of Protective Antigen (PA) to anthrax toxin receptors and translocation of the 2 primary toxins (Lethal Toxin (LT) and Edema Toxin (ET)) into cells.^[1]

Raxibacumab

Raxibacumab is a recombinant, fully humanized, IgG1λ monoclonal antibody. It appeared safe and well tolerated in 333 healthy adults who received the recommended dose of 40 mg/kg.

Most adverse events were transient and mild to moderate in severity. Pruritis was noted in 2.1% of persons treated with raxibacumab and in none treated with placebo. Although raxibacumab has not been given to patients with systemic anthrax, it is FDA-approved for postexposure prophylaxis PEP.^[1]

Anthrax Immune Globulin

AIGIV is a human polyclonal antiserum made from plasma of persons immunized with Anthrax Vaccine Absorbed (AVA), which might have some direct effect on Lethal Factor (LF) and Edema Factor (EF). It was evaluated in 74 healthy adult volunteers and appears safe and well tolerated at all doses tested.

The most frequently reported adverse events were headache pharyngolaryngeal pain, and nausea.

AIGIV is not FDA approved and could be made available under an Investigational New Drug protocol or an Emergency Use Authorization during a declared emergency.^[1]

Supportive Treatment

Hemodynamic Support

Standard sepsis and septic shock guidelines should be followed for anthrax patients. Common complications of anthrax infections including microangiopathic hemolytic anemia, coagulopathy, thrombocytopenia, and hemorrhage must be aggressively managed, since they might pose contraindications to invasive central catheter placement.^[6]

Fresh frozen plasma and plasmapheresis should be considered, and fibrinogen levels should be kept >100 mg/dL.

An echocardiogram might be needed to identify pericardial effusions.^[7]

Mechanical Ventilation

In addition to the need for mechanical ventilation for respiratory distress or airway protection for persons with altered mental status, some patients with anthrax might require respiratory support for airway edema. Substantial edema with fatal outcome can occur with cutaneous lesions involving the head, neck, or thorax, and with oropharyngeal lesions.^[8]

In inhalation anthrax, although respiratory failure is more consistent with reaccumulating pleural effusions than with adult respiratory distress syndrome, standard mechanical ventilator principles apply.^[9] The need for ventilation in some patients and the duration of ventilation in others may be reduced by pleural space drainage.

Adjunctive Corticosteroids

There are limited data on steroid use for documented anthrax meningitis, however, adjunctive intravenous dexamethasone is the standard of care for patients with suspected bacterial meningitis and should be started at the time of initial antibiotic therapy to prevent neurologic sequelae.^[10]

Adjunctive corticosteroids should be considered in patients who had a history of use of:^[11][12]

• Endocrine
• Corticosteroid therapy
• Edema, especially of the head or neck
• Evidence of anthrax meningitis
• Vasopressor-resistant shock

Interventions

Procedures

Drainage of pleural fluid and ascites is believed to improve survival by reducing the toxin level and by decreasing mechanical lung compression. These data support the need for early and aggressive drainage of any clinically or radiographically apparent pleural effusions; chest tube drainage is recommended over thoracentesis because many effusions will require prolonged drainage. ^[1]

Thoracotomy or video-assisted thoracic surgery might be required to remove gelatinous or loculated collections. Ascites should also be drained and monitored for reaccumulation.^[1]

Surgery

Surgery for cutaneous anthrax can lead to dissemination and poor outcome. Surgery is contraindicated for acute disease, with the exception of tracheotomy for airway obstruction and surgical intervention for large or circumferential extremity lesions causing compartment syndrome.

Surgery may be indicated for gastrointestinal anthrax to identify and address potentially fatal complications, such as bowel ischemia, necrosis, and perforation.^[13]

For injection anthrax, surgery is used to obtain diagnostic specimens to differentiate the infection from necrotizing fasciitis and to remove the necrotic nidus of infection, which may be a toxin and spore reservoir. Surgery for injection anthrax should be more limited than that for necrotizing fasciitis, and resection should be performed only to healthy tissue. Compression of soft tissues can be released by incision, excision, or fasciotomy and might be required for treatment of compartment syndrome.^[14]

References

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