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Betaserc (betahistine): Guide to Treating Vertigo and Balance Disorders

Table of Contents

Betaserc is a brand name for betahistine, a medication used to treat vertigo and other balance disorders. It is thought to work by increasing blood flow to the inner ear and improving communication between the inner ear and the brain.

Contents

Betahistine dihydrochloride.
Betaserc (betahistine): Guide to Treating Vertigo and Balance Disorders
Betaserc (betahistine): Guide to Treating Vertigo and Balance Disorders

Description

The score line is only to facilitate breaking for ease of swallowing and not to divide into equal doses.
Excipients/Inactive Ingredients: Microcrystalline cellulose, mannitol (E421), citric acid monohydrate, colloidal anhydrous silica and talc.

Indications/Uses

Meniere’s Syndrome as defined by the following triad of core symptoms: vertigo (with nausea/vomiting), hearing loss (hardness of hearing), tinnitus (ringing in the ears).
Symptomatic treatment of vestibular vertigo.

Dosage/Direction for Use

The dosage for adults is 48 mg divided over the day.
24 mg tablets: 1 tablet 2 times/day.

Method of administration:

Betaserc 24 mg Tablet: Should be swallowed with water.
The dosage should be individually adapted according to the response. Improvement can sometimes only be observed after a couple of weeks of treatment. The best results are sometimes obtained after a few months. There are indications that treatment from the onset of the disease prevents the progression of the disease and/or the loss of hearing in later phases of the disease.
Pediatric population: Betaserc 24mg Tablet is not recommended for use in children under the age of 18 years due to insufficient data on safety and efficacy.
Geriatric population: Although there are limited data from clinical studies in this patient group, extensive post marketing experience suggests that no dose adjustment is necessary in this patient population.
Renal impairment: There are no specific clinical trials available in this patient group, but according to post marketing experience no dose adjustment appears to be necessary.
Hepatic impairment: There are no specific clinical trials available in this patient group, but according to post marketing experience no dose adjustment appears to be necessary.

Overdosage

A few overdose cases have been reported. Some patients experienced mild to moderate symptoms with doses up to 640 mg (nausea, somnolence and abdominal pain). More serious complications (e.g. convulsions, pulmonary and cardiac complications were observed) in cases of intentional overdose of betahistine especially in combination with other overdosed drugs.
Treatment of overdose should include standard supportive measures.

Contraindications

Hypersensitivity to the active substance or to any of the excipients.
Phaeochromocytoma.

Precautions

Patients with bronchial asthma and history of peptic ulcer need to be carefully monitored during the therapy.
Effects on Ability to Drive and Use Machines: Betahistine is indicated for Meniere’s syndrome defined by the triad of core symptoms vertigo, hearing loss, tinnitus and for symptomatic treatment of vestibular vertigo. Both diseases can negatively affect the ability to drive and use machines.
In clinical studies specifically designed to investigate the ability to drive and use machines betahistine had no or negligible effects.

Use In Pregnancy & Lactation

Pregnancy: There are no adequate data from the use of betahistine in pregnant women. Animal studies do not indicate direct or indirect harmful effects with respect to reproductive toxicity (see Pharmacology: Toxicology: Preclinical Safety Data under Actions). Betahistine should not be used during pregnancy unless clearly necessary.
Lactation: It is not known whether betahistine is excreted in human milk. Betahistine is excreted in rat milk. Effects seen post-partum in animal studies were limited to very high doses (see Pharmacology: Toxicology: Preclinical Safety Data under Actions). The importance of the drug to the mother should be weighed against the benefit of nursing and the potential risks for the child.
Fertility: Animal studies did not show effects on fertility in rats.

Adverse Reactions

The following undesirable effects have been experienced with the indicated frequencies as follows in betahistine-treated patients in placebo-controlled clinical trials: very common (≥1/10); common (≥1/100 to <1/10); uncommon (≥1/1,000 to <1/100); rare (≥/10,000 to <1/1,000); very rare (<1/10,000).
Gastrointestinal disorders: Common: nausea and dyspepsia.
Nervous System disorders: Common: headache.
In addition to those events reported during clinical trials, the following undesirable effects have been reported spontaneously during post-marketing use and in scientific literature. A frequency cannot be estimated from the available data and is therefore classified as “not known”.
Immune System disorders: Hypersensitivity reactions, e.g. anaphylaxis.
Gastrointestinal disorders: Mild gastric complaints (e.g. vomiting, gastrointestinal pain, abdominal distension and bloating). These can normally be dealt with by taking the dose during meals or by lowering the dose.
Skin and subcutaneous tissue disorders: Cutaneous and subcutaneous hypersensitivity reactions, in particular angioneurotic oedema, urticaria, rash and pruritus.

Drug Interactions

No in vivo interaction studies have been performed.
Based on in vitro data, no in vivo inhibition on Cytochrome P450 enzymes is expected.
In vitro data indicate an inhibition of betahistine metabolism by drugs that inhibit monoamine oxidase (MAO) including MAO subtype B (e.g. selegiline). Caution is recommended when using betahistine and MAO inhibitors (including MAO-B selective) concomitantly.
As betahistine is an analogue of histamine, interaction of betahistine with antihistamines may in theory affect the efficacy of one of these drugs.

Caution For Usage

Incompatibilities: Not applicable.
Further Information: Any unused product or waste material should be disposed of in accordance with local requirements. The information in this monograph is limited. For further information, contact a doctor or pharmacist.

Action

Pharmacotherapeutic group: Anti-vertigo preparations. ATC-Code: N07CA01.
Pharmacology: Pharmacodynamics: The mechanism of action of betahistine is only partly understood. There are several plausible hypotheses that are supported by animal studies and human data: Betahistine affects the histaminergic system:
Betahistine acts both as a partial histamine H1-receptor agonist and histamine H3-receptor antagonist also in neuronal tissue, and has negligible H2-receptor activity. Betahistine increases histamine turnover and release by blocking presynaptic H3-receptors and inducing H3-receptor downregulation.
Betahistine may increase blood flow to the cochlear region as well as to the whole brain: Pharmacological testing in animals has shown that the blood circulation in the striae vascularis of the inner ear improves, probably by means of a relaxation of the precapillary sphincters of the microcirculation of the inner ear. Betahistine was also shown to increase cerebral blood flow in humans.
Betahistine facilitates vestibular compensation: Betahistine accelerates the vestibular recovery after unilateral neurectomy in animals, by promoting and facilitating central vestibular compensation; this effect, characterized by an upregulation of histamine turnover and release, is mediated through H3-receptor antagonism. In human subjects, recovery time after vestibular neurectomy was also reduced when treated with betahistine.
Betahistine alters neuronal firing in the vestibular nuclei: Betahistine was also found to have a dose dependent inhibiting effect on spike generation of neurons in lateral and medial vestibular nuclei.
The pharmacodynamic properties as demonstrated in animals may contribute to the therapeutic benefit of betahistine in the vestibular system.
The efficacy of betahistine was shown in studies in patients with vestibular vertigo and with Meniere’s disease as was demonstrated by improvements in severity and frequency of vertigo attacks.
Pharmacokinetics: Absorption: Orally administered betahistine is readily and almost completely absorbed from all parts of the gastrointestinal tract.
After absorption, the drug is rapidly and almost completely metabolized into 2-pyridylacetic acid. Plasma levels of betahistine are very low. Pharmacokinetic analyses are therefore based on 2-PAA measurements in plasma and urine.
Under fed conditions Cmax is lower compared to fasted conditions. However, total absorption of betahistine is similar under both conditions, indicating that food intake only slows down the absorption of betahistine.
Distribution: The percentage of betahistine that is bound by blood plasma proteins is less than 5%.
Biotransformation: After absorption, betahistine is rapidly and almost completely metabolized into 2-PAA (which has no pharmacological activity).
After oral administration of betahistine the plasma (and urinary) concentration of 2-PAA reaches its maximum 1 hour after intake and declines with a half-life of about 3.5 hours.
Excretion: 2-PAA is readily excreted in the urine. In the dose range of 8 to 48 mg, about 85% of the original dose is excreted in the urine. Renal or fecal excretion of betahistine itself is of minor importance.
Linearity: Recovery rates are constant over the oral dose range of 8 – 48 mg indicating that the pharmacokinetics of betahistine are linear, and suggesting that the involved metabolic pathway is not saturated.
Toxicology: Preclinical Safety Data: Chronic toxicity: Adverse effects in the nervous system were seen in dogs and baboons after intravenous doses at and above 120 mg/kg.
Studies on the chronic oral toxicity of betahistine dihydrochloride were performed in rats over a period of 18 months and in dogs over 6 months. Doses of 500 mg/kg in rats and 25 mg/kg in dogs were tolerated without changes in the clinical chemical and hematological parameters. There were no histological findings related to treatment at these dosages. After increasing the dose to 300 mg/kg, the dogs showed vomiting.
In an investigational study with betahistine in rats over 6 months at 39 mg/kg and above hyperemia in some tissues was reported in the literature. Data presented in the publication are limited. Therefore, the impact of this finding in this study is not clear.
Mutagenic and carcinogenic potential: Betahistine does not have mutagenic potential.
Special carcinogenicity studies were not performed with betahistine dihydrochloride.
However, in the 18 months chronic toxicity studies in rats there was no indication of any tumors, neoplasms or hyperplasia in the histopathological examination. Therefore, betahistine dihydrochloride up to a dose of 500 mg/kg did not show any evidence for carcinogenic potential in this limited 18 months study.
Reproduction toxicity: Betahistine has no effects on fertility in male and female rats and is not teratogenic in rats and rabbits up to and including 1000 mg/kg for rats and 75 mg/kg in rabbits. In a pre- and postnatal development study in rats, lower pup weight, smaller litter size and lower viability in F1 pups and increased post implantation loss in F1 generation were seen at maternally toxic doses of 1000 mg.
Lower average force for startle response test was observed in F1 pups of 300 and 1000 mg/kg dose groups. At 100 mg/kg, no effects on pre- and postnatal development were noted. The relevance of changes noticed at higher doses to humans is unknown.
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Conclusion

Betaserc (betahistine) is a safe and effective medication for the treatment of vertigo and other balance disorders. It is generally well-tolerated, with few side effects. Betaserc can take several weeks to start working, so it is important to take it regularly.

If you are experiencing vertigo or other balance problems, talk to your doctor about whether Betaserc is right for you.

Frequent Asked Questions about Betaserc (betahistine)

What is Betaserc used for?

Betaserc is used to treat vertigo and other balance disorders. It is most commonly used to treat Ménière’s disease, a condition that causes episodes of vertigo, tinnitus (ringing in the ears), and hearing loss.

How does Betaserc work?

Betaserc is thought to work by increasing blood flow to the inner ear and improving communication between the inner ear and the brain. It may also help to widen blood vessels in the inner ear.

How long does it take for Betaserc to work?

It can take several weeks for Betaserc to start working. It is important to take Betaserc regularly, even if you don’t feel any improvement right away.

What are the side effects of Betaserc?

The most common side effects of Betaserc are headache, nausea, vomiting, diarrhea, stomach upset, skin rash, and flushing. These side effects are usually mild and go away on their own. More serious side effects are rare.

Who should not take Betaserc?

Betaserc should not be taken by people with pheochromocytoma, a rare tumor of the adrenal gland. Betaserc should also be used with caution in pregnant and breastfeeding women.

Can I drink alcohol while taking Betaserc?

Yes, you can drink alcohol while taking Betaserc. However, some people find that their vertigo symptoms improve when they avoid alcohol.

Can I drive while taking Betaserc?

Betaserc may cause dizziness, drowsiness, and blurred vision. Be careful when driving or operating machinery while taking Betaserc.

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