Benzonatatum

Benzonatatum Uses, Dosage, Side Effects, Food Interaction and all others data.

Benzonatatum is an oral antitussive drug used in the relief and suppression of cough in patients older than ten years of age. Currently, benzonatate is the only non-narcotic antitussive available as a prescription drug. It works to reduce the activity of cough reflex by desensitizing the tissues of the lungs and pleura involved in the cough reflex. Benzonatatum was approved by the FDA in 1958 under the market name Tessalon Perles. Because its chemical structure resembles that of the anesthetic agents in the para-amino-benzoic acid class (such as procaine and tetracaine), benzonatate exhibits anesthetic or numbing action. Although it not prone to drug misuse or abuse, benzonatate is associated with a risk for severe toxicity and overdose, especially in children.

Benzonatatum suppresses cough associated with both acute and chronic respiratory conditions. Its works by desensitizing the pulmonary stretch receptors involved in the cough reflex. There are limited clinical trials of benzonatate; however, earlier studies demonstrated inhibition of experimentally-induced cough and subjectively-measured pathological cough by benzonatate.

Benzonatatum has no inhibitory effects on the respiratory center in recommended dosage. Its onset of action is within 15 to 20 minutes following administration and its duration of effect is about 3 to 8 hours.

Trade Name Benzonatatum
Availability Prescription only
Generic Benzonatate
Benzonatate Other Names Benzonatat, Benzonatate, Benzonatato, Benzonatatum, Benzononatine
Related Drugs diphenhydramine, Benadryl, guaifenesin, codeine, dextromethorphan, Mucinex
Type
Formula C30H53NO11
Weight Average: 603.7419
Monoisotopic: 603.361861543
Protein binding

There is limited information on the protein binding profile of benzonatate.

Groups Approved
Therapeutic Class
Manufacturer
Available Country
Last Updated: September 19, 2023 at 7:00 am
Benzonatatum
Benzonatatum

Uses

Benzonatatum is a non-narcotic oral antitussive drug used to suppress coughing.

Benzonatatum is indicated for the symptomatic relief of cough.

Benzonatatum is also used to associated treatment for these conditions: Cough

How Benzonatatum works

Benzonatatum is a local anesthetic drug that acts peripherally by anesthetizing and reducing the activity of vagal stretch receptors or nerve fibres located in the respiratory passages, lungs, and pleura. Once the stretch receptors are stimulated, they send impulses to the cough centre located in the medulla via an afferent pathway consisting of sensory nerve fibres or the vagus nerve. The efferent signal is then generated that sends impulses to the expiratory muscles to produce a cough. Anesthetizing these receptors by benzonatate results in the inhibition of the cough reflex activity and cough production. Benzonatatum also inhibits the transmission of impulses of the cough reflex in the vagal nuclei of the medulla. There are several proposed mechanisms of benzonatate; it is also a potent voltage-gated sodium channel inhibitor.

Toxicity

The lowest published toxic dose (TDLo) from oral administration in man is 51 mg/kg. The oral LD50 is 400 mg/kg and the subcutaneous LD50 is 100 mg/kg in mice.

The signs and symptoms of overdose are typically observed within 15 to 20 minutes and can lead to neurological and cardiovascular toxicity, which is related to blocked sodium channels. Intentional and unintentional death from overdose may occur. The risk of overdose is highest in children and toxicity may result from the ingestion of 1 or 2 capsules in this age group. If capsules are chewed or dissolved in the mouth, oropharyngeal anesthesia will develop rapidly, which may cause choking and a compromised airway function. Symptoms arising from CNS stimulation include restlessness and tremors, which may lead to clonic convulsions followed by profound CNS depression. Within 1 hour following ingestion, convulsions, coma, cerebral edema and cardiac arrest leading to death have been reported.

Evacuation of gastric contents and administration of copious amounts of activated charcoal is advised. It is important to note that cough and gag reflexes may be significantly depressed even in conscious patients with overdose; special attention is needed to protect against aspiration of gastric contents. When intravenously administering short-acting barbiturates to treat convulsions, the dose should be carefully titrated for the smallest effective dose. Overdose should be managed with supportive care with continuous monitoring of neurologic and cardiovascular status. Intensive support of respiration and cardiovascular-renal function should be initiated for severe intoxication. Because benzonatate is structurally similar to local anesthetic agents, the use of intravenous lipid emulsion therapy in response to life-threatening cardiovascular collapse is also suggested.

Food Interaction

  • Take with or without food. The absorption is unaffected by food.

Benzonatatum Disease Interaction

Moderate: psychiatric conditions

Volume of Distribution

There is limited information on the volume of distribution of benzonatate.

Elimination Route

Following oral administration, benzonatate enters the systemic circulation via gastrointestinal absorption. The Cmax of benzonatate following oral administration of 100 mg in healthy Chinese volunteers was 1063 ± 460 ng/mL.

Half Life

The half life of benzonatate following oral administration of 100 mg in healthy Chinese volunteers was 1.01 ± 0.41 h.

Clearance

There is limited information on the clearance of benzonatate.

Elimination Route

There is limited information on the route of elimination of benzonatate.

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