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==Overview==
==Overview==
'''Respiratory acidosis''' is [[acidosis]] (abnormal acidity of the blood) due to decreased [[Ventilation (physiology)|ventilation]] of the [[lung|pulmonary]] [[alveoli]], leading to elevated [[artery|arterial]] [[carbon dioxide]] concentration (''Pa''CO<sub>2</sub>).
[[Respiratory acidosis]] is a clinical [[condition]] that occurs when the [[Lung|lungs]] are not able to remove enough of the [[carbon dioxide]] (CO2) produced by the body. [[Respiratory acidosis]] can be encountered in the [[inpatient]] units and [[emergency department]] , as well as in [[intensive care]] and postoperative units.[[Respiratory acidosis|Respiratory acidosis]] may become life-threatening if left untreated.
==Historical Perspective==
[[Respiratory acidosis]] was first described by Henderson–Hasselbalch and Bronsted–Lowry In the early 1950s.
==Pathophysiology==
[[Respiratory acidosis]] is an result of  [[imbalance]] between [[acid-base]] due to [[alveolar]] [[hypoventilation]].The normal range is 35-45 mm Hg  for PaCO<sub>2</sub>.Increase in the production of [[carbon dioxide]] due to  failure of [[ventilation]] results in sudden increase of the [[partial pressure]] of arterial [[carbon dioxide]] ([[PaCO2|PaCO<sub>2</sub>]]) above the normal range. [[Alveolar]] [[hypoventilation]] is one of the cause to increased PaCO<sub>2</sub> which is is called [[hypercapnia]]. [[Hypercapnia]] and respiration [[acidosis]] occur while [[impairment]] in air flow happens and the elimination of [[carbon dioxide]] by the [[respiratory system]] is much less than the production of [[carbon dioxide]] in the [[tissues]]
==Causes==
Common causes of [[respiratory acidosis]] include [[chronic obstructive pulmonary disease]] ([[COPD]]), [[neuromuscular]] diseases, [[chest wall]] disorders, obesity-hypoventilation syndrome, [[obstructive sleep apnea]] (OSA), the [[central nervous system]] (CNS) depression, [[lung]], airway diseases, [[laryngeal]] and [[tracheal stenosis]], [[Interstitial lung disease]]. [[Respiratory acidosis]] seen with past history of [[chronic lung disease]], sleep problems, [[neuromuscular]] disorder, [[smoking]] history, travel history and any history of recent [[trauma]].
==Classification==
[[Respiratory acidosis]] may be classified into two groups: [[Acute]] [[respiratory acidosis]] and [[Chronic]] [[respiratory acidosis]].
==Differential Diagnosis==
 
 
==Epidemiology and Demographics==
The [[prevalence]] of [[respiratory acidosis]] in patients with acute [[COPD]] is approximately  75 (95% CI 61 to 90) per 100 000/year in [[men]] aged 45-79 and 57 (95% CI 46 to 69) per 100 000 in [[women]]. The incidence of [[respiratory acidosis]] increases with [[age]] because the range for a normal gradient increases with [[age]].
 
==Natural History, Complications & Prognosis==
[[Respiratory acidosis]] (primary [[hypercapnia]]), is the [[acid]]-[[Base (chemistry)|base]] ailment that consequences from an increase in  [[carbon dioxide]] in the body. [[Acute]] [[respiratory acidosis]] happens with [[respiratory failure]], which could result from any unexpected [[respiratory]] parenchymal, airways (eg, [[chronic obstructive pulmonary disease]]), [[pleural]], [[chest wall]], [[neuromuscular]] eg, [[spinal cord injury]], or [[central nervous system]] disorders. [[Chronic]] [[respiratory acidosis]] can result from several procedures and is typified by way of a sustained increase in [[arterial partial pressure]] of [[carbon dioxide]], ensuing in [[renal]] adaptation, and an extra marked increase in [[plasma]] [[bicarbonate]].
Different mechanisms of [[respiratory acidosis]] include increased [[carbon dioxide]] production, [[alveolar hypoventilation]], abnormal breathing drive, abnormalities of the [[chest wall]] and [[respiratory muscles]].
Common complications of [[respiratory acidosis]] include [[pulmonary]], [[neurologic]] and [[cardiovascular]] complications such as [[Anxious]], [[Dyspnea]], Daytime [[somnolence]], Alterations in [[sensorium]] like [[delirium]] and [[paranoia]], [[Asterixis]], [[Myoclonus]], [[Seizure|Seizures]] and [[Papilledema]].
Depending on the level of the [[carbon-dioxide]] levels at the time of diagnosis and the disease causing the [[respiratory acidosis]] defines the [[prognosis]].
==Diagnosis==
 
===History and Symptoms===
[[Respiratory acidosis]] or [[acute]] [[hypercapnia]] is often [[asymptomatic]], leading to delayed [[diagnosis]] of the condition. Symptoms may include [[confusion]],  [[fatigue]], [[lethargy]], shortness of breath, [[sleepiness]] or daytime [[somnolence]].The medical manifestations of [[respiratory acidosis]] are regularly the ones of the underlying disorder.
===Physical Examination===
[[Physical examination]] may vary, relying on the severity of the disorder and on the rate of development of [[hypercapnia]]. Mild to moderate [[hypercapnia]] that develops slowly generally has minimum [[symptoms]].
===Laboratory Findings===
Laboratory findings consistent with the [[diagnosis]] of [[respiratory acidosis]] include [[arterial blood gas]] (ABG), [[complete blood count]](CBC), [[toxicology screen]], [[thyroid function tests]], [[creatine phosphokinase]] which are helpful in the diagnosis of respiratory acidosis.
 
=== X-ray===
An [[x-ray]] may be helpful in the [[diagnosis]] of [[respiratory acidosis]] which underlying lung [[pathology]]. Findings of an [[x-ray]] suggestive [[respiratory acidosis]] include hyperinflation, [[Diaphragm|diaphragmatic]] flattening, Infiltrates, [[Pneumothorax]].
=== CT Scan===
CT scan may be helpful in the diagnosis of respiratory acidosis. Findings on CT scan help in identifying etiologies of specific condition that include [[Central nervous system]] [[tumor]], [[Stroke]],[[CNS]] [[trauma]] and [[Brainstem]] lesions.
 
=== MRI ===
[[MRI]] may be helpful in identifying abnormalities that not found on [[CT scans]], especially in the [[brainstem]].
 
===Other Diagnostic Studies===
Other [[Diagnosis|diagnostic]] studies for [[respiratory acidosis]] include [[pulmonary function tests]], which are necessary for the diagnosis of the [[Chronic obstructive pulmonary disease|chronic obstructive lung disease]].
 
==Treatment==
The mainstay of treatment for [[respiratory acidosis]] is treating the underlying disorder which is responsible for the condition. While correcting [[hypercapnia]] extra care should be taken because rapid correction of the [[hypercapnia]] can result in [[metabolic]] [[Alkali|alkalemia]] and can result in [[Seizure|seizures]] especially when [[cerebrospinal fluid]] (CSF) becomes [[alkaline]]. Indications for admitting the patient in [[intensive care unit]] (ICU) when a patient presents with a low [[pH]] of (< 7.25), [[confusion]], [[lethargy]] and [[respiratory]] [[muscle]] weakness.
===Medical Therapy===
Pharmacologic medical therapy is recommended for patients who are taking [[Sedative|sedatives]]. For patients suspected of drug overdose, administration of antidote should be considered. Supportive therapy for [[respiratory acidosis]] includes [[Bag valve mask|bag-valve-mask]] [[Ventilation (physiology)|ventilation]]. In patients with severe [[hypoxemia]] it is necessary to administer oxygen to avoid life threatening [[complications]].
===Surgery===
Surgical [[Intervention (counseling)|intervention]] is not recommended for the management of [[respiratory acidosis]].
 
===Prevention===
There are no established measures for the [[primary prevention]] of [[respiratory acidosis]].
 
 
==References==
==References==
{{reflist|2}}
{{reflist|2}}

Latest revision as of 16:26, 18 September 2020

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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1] ; Associate Editor(s)-in-Chief: Vamsikrishna Gunnam M.B.B.S [2] Nasrin Nikravangolsefid, MD-MPH [3]


Overview

Respiratory acidosis is a clinical condition that occurs when the lungs are not able to remove enough of the carbon dioxide (CO2) produced by the body. Respiratory acidosis can be encountered in the inpatient units and emergency department , as well as in intensive care and postoperative units.Respiratory acidosis may become life-threatening if left untreated.

Historical Perspective

Respiratory acidosis was first described by Henderson–Hasselbalch and Bronsted–Lowry In the early 1950s.

Pathophysiology

Respiratory acidosis is an result of imbalance between acid-base due to alveolar hypoventilation.The normal range is 35-45 mm Hg for PaCO2.Increase in the production of carbon dioxide due to failure of ventilation results in sudden increase of the partial pressure of arterial carbon dioxide (PaCO2) above the normal range. Alveolar hypoventilation is one of the cause to increased PaCO2 which is is called hypercapnia. Hypercapnia and respiration acidosis occur while impairment in air flow happens and the elimination of carbon dioxide by the respiratory system is much less than the production of carbon dioxide in the tissues

Causes

Common causes of respiratory acidosis include chronic obstructive pulmonary disease (COPD), neuromuscular diseases, chest wall disorders, obesity-hypoventilation syndrome, obstructive sleep apnea (OSA), the central nervous system (CNS) depression, lung, airway diseases, laryngeal and tracheal stenosis, Interstitial lung disease. Respiratory acidosis seen with past history of chronic lung disease, sleep problems, neuromuscular disorder, smoking history, travel history and any history of recent trauma.

Classification

Respiratory acidosis may be classified into two groups: Acute respiratory acidosis and Chronic respiratory acidosis.

Differential Diagnosis

Epidemiology and Demographics

The prevalence of respiratory acidosis in patients with acute COPD is approximately 75 (95% CI 61 to 90) per 100 000/year in men aged 45-79 and 57 (95% CI 46 to 69) per 100 000 in women. The incidence of respiratory acidosis increases with age because the range for a normal gradient increases with age.

Natural History, Complications & Prognosis

Respiratory acidosis (primary hypercapnia), is the acid-base ailment that consequences from an increase in carbon dioxide in the body. Acute respiratory acidosis happens with respiratory failure, which could result from any unexpected respiratory parenchymal, airways (eg, chronic obstructive pulmonary disease), pleural, chest wall, neuromuscular eg, spinal cord injury, or central nervous system disorders. Chronic respiratory acidosis can result from several procedures and is typified by way of a sustained increase in arterial partial pressure of carbon dioxide, ensuing in renal adaptation, and an extra marked increase in plasma bicarbonate. Different mechanisms of respiratory acidosis include increased carbon dioxide production, alveolar hypoventilation, abnormal breathing drive, abnormalities of the chest wall and respiratory muscles. Common complications of respiratory acidosis include pulmonary, neurologic and cardiovascular complications such as Anxious, Dyspnea, Daytime somnolence, Alterations in sensorium like delirium and paranoia, Asterixis, Myoclonus, Seizures and Papilledema. Depending on the level of the carbon-dioxide levels at the time of diagnosis and the disease causing the respiratory acidosis defines the prognosis.

Diagnosis

History and Symptoms

Respiratory acidosis or acute hypercapnia is often asymptomatic, leading to delayed diagnosis of the condition. Symptoms may include confusion, fatigue, lethargy, shortness of breath, sleepiness or daytime somnolence.The medical manifestations of respiratory acidosis are regularly the ones of the underlying disorder.

Physical Examination

Physical examination may vary, relying on the severity of the disorder and on the rate of development of hypercapnia. Mild to moderate hypercapnia that develops slowly generally has minimum symptoms.

Laboratory Findings

Laboratory findings consistent with the diagnosis of respiratory acidosis include arterial blood gas (ABG), complete blood count(CBC), toxicology screen, thyroid function tests, creatine phosphokinase which are helpful in the diagnosis of respiratory acidosis.

X-ray

An x-ray may be helpful in the diagnosis of respiratory acidosis which underlying lung pathology. Findings of an x-ray suggestive respiratory acidosis include hyperinflation, diaphragmatic flattening, Infiltrates, Pneumothorax.

CT Scan

CT scan may be helpful in the diagnosis of respiratory acidosis. Findings on CT scan help in identifying etiologies of specific condition that include Central nervous system tumor, Stroke,CNS trauma and Brainstem lesions.

MRI

MRI may be helpful in identifying abnormalities that not found on CT scans, especially in the brainstem.

Other Diagnostic Studies

Other diagnostic studies for respiratory acidosis include pulmonary function tests, which are necessary for the diagnosis of the chronic obstructive lung disease.

Treatment

The mainstay of treatment for respiratory acidosis is treating the underlying disorder which is responsible for the condition. While correcting hypercapnia extra care should be taken because rapid correction of the hypercapnia can result in metabolic alkalemia and can result in seizures especially when cerebrospinal fluid (CSF) becomes alkaline. Indications for admitting the patient in intensive care unit (ICU) when a patient presents with a low pH of (< 7.25), confusion, lethargy and respiratory muscle weakness.

Medical Therapy

Pharmacologic medical therapy is recommended for patients who are taking sedatives. For patients suspected of drug overdose, administration of antidote should be considered. Supportive therapy for respiratory acidosis includes bag-valve-mask ventilation. In patients with severe hypoxemia it is necessary to administer oxygen to avoid life threatening complications.

Surgery

Surgical intervention is not recommended for the management of respiratory acidosis.

Prevention

There are no established measures for the primary prevention of respiratory acidosis.


References

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