Xet Cr Plus

Xet Cr Plus Uses, Dosage, Side Effects, Food Interaction and all others data.

Chemically, clonazepam is a benzodiazepine derivative. It exhibits several pharmacologic properties, which are characteristics of the benzodiazepine class of drugs. In human it is capable of suppressing the spike and wave discharge in absence seizure (petit mal) and decreasing the frequency, amplitude, duration and spread of discharge in minor motor seizure.

The pharmacodynamic properties of clonazepam are common among benzodiazepines and include anticonvulsive, sedative, muscle relaxing and anxiolytic effects . Animal data and electroencephalographic investigations in man have shown that clonazepam rapidly suppresses many types of paroxysmal activity including the spike and wave discharge in absence seizures (petit mal), slow spike wave, generalized spike wave, spikes with temporal or other locations, as well as irregular spikes and waves . Moreover, the agent can also decrease the frequency, amplitude, duration, and spread of discharge in minor motor seizures .

Generalized EEG abnormalities are more readily suppressed by clonazepam than are focal EEG abnormalities such as focal spikes . Clonazepam has beneficial effects in generalized and focal epilepsies .

The efficacy of Paroxetine is presumed to be linked to potentiation of serotonergic activity in the central nervous system resulting from inhibition of neuronal reuptake of serotonin (5-hydroxy-tryptamine, 5 HT). Studies at clinically relevant doses in humans have demonstrated that paroxetine blocks the uptake of serotonin into human platelets. In vitro studies in animals also suggest that paroxetine is a potent and highly selective inhibitor of neuronal serotonin reuptake and has only very weak effects on norepinephrine and dopamine neuronal reuptake. In vitro radioligand binding studies indicate that paroxetine has little affinity for muscarinic, alpha1, alpha2, beta adrenergic, dopamine (D2), 5-HT1, 5 HT2 and histamine (H1)-receptors; antagonism of muscarinic, histaminergic and alpha1-adrenergic receptors has been associated with various anticholinergic, sedative and cardiovascular effects for other psychotropic drugs. Because the relative potencies of paroxetine’s major metabolites are at most 1/50 of the parent compound, they are essentially inactive.

Paroxetine treats the symptoms of depression, various anxiety disorders, posttraumatic stress disorder, obsessive-compulsive disorder, and the vasomotor symptoms of menopause via the inhibition of serotonin reuptake. The onset of action of paroxetine is reported to be approximately 6 weeks.

Due its serotonergic activity, paroxetine, like other SSRI drugs, may potentiate serotonin syndrome. This risk is especially high when monoamine oxidase (MAO) inhibitors are given within 2 weeks of paroxetine administration. Upon cessation of MAO inhibitors, a 2-week interval before paroxetine administration is recommended. Do not coadminister these agents.

Trade Name Xet Cr Plus
Generic Paroxetine + Clonazepam
Weight 12.5mg, 25mg,
Type Capsule
Therapeutic Class
Manufacturer Zydus Cadila Healthcare Ltd
Available Country India
Last Updated: September 19, 2023 at 7:00 am
Xet Cr Plus
Xet Cr Plus

Uses

Clonazepam (Oral) is used for:

Tablet:

• Anxiety disorders (Generalized, Phobic & Panic disorders)

• Insomnia and sleep disturbances

• Labile arterial hypertension

• Peri and Post menopausal anxiety (Anxiety in middle aged women)

• Burning Mouth Syndrome

• Peri and Post menopausal anxiety (Anxiety in middle aged women)

• Postoperative anxiety disorder

• Post traumatic stress disorder

• Anxiety in cancer patient (palliative treatment)

• Tension Headache

• Restless legs syndrome (RLS) or Wittmaack–Ekbom syndrome

• Nocturnal myoclonus

• Tourette's syndrome

• Bipolar affective disorder

• Resistant depression

• Drug-induced dyskinesia

• Choreiform movement

• Fulgurant pain

• Trigeminal neuralgia

• Epilespsy

Injection:

• Epilepsy

• Status epilepticus

• Myoclonic seizure

• Typical and atypical absences (Lennox-Gastaut syndrome)

• Infantile spasm

• Tonic-clonic seizure

• Partial seizure

• Absence seizure

• Focal seizure

Paroxetine is used for:

  • Major Depressive Disorder
  • Obsessive Compulsive Disorder
  • Panic Disorder
  • Social Anxiety Disorder
  • Generalized Anxiety Disorder
  • Posttraumatic Stress Disorder.

Xet Cr Plus is also used to associated treatment for these conditions: Akinetic seizures, Burning Mouth Syndrome, Gilles de la Tourette's Syndrome, Lennox-Gastaut Syndrome (LGS), Mixed manic depressive episode, Panic Disorder, Rapid Eye Movement Sleep Disorder, Restless Legs Syndrome (RLS), Tardive Dyskinesia (TD), Tremor, Essential, Acute Manic episode, Myoclonic seizures, Refractory absence SeizuresGeneralized Anxiety Disorder (GAD), Irritable Bowel Syndrome (IBS), Major Depressive Disorder (MDD), Obsessive Compulsive Disorder (OCD), Panic Disorder, Post Traumatic Stress Disorder (PTSD), Premature Ejaculation, Premenstrual Dysphoric Disorder, Social Anxiety Disorder (SAD), Vasomotor Symptoms Associated With Menopause

How Xet Cr Plus works

Gamma-Aminobutyric acid (GABA) is considered the principal inhibitory neurotransmitter in the human body . When GABA binds to GABA(a) receptors found in neuron synapses, chloride ions are conducted across neuron cell membranes via an ion channel in the receptors . With enough chloride ions conducted, the local, associated neuron membrane potentials are hyperpolarized - making it more difficult or less likely for action potentials to fire, ultimately resulting in less excitation of the neurons .

Subsequently, benzodiazepines like clonazepam can bind to benzodiazepine receptors that are components of various varieties of GABA(a) receptors . This binding acts to enhance the effects of GABA by increasing GABA affinity for the GABA(a) receptor, which ultimately enhances GABA ligand binding at the receptors . This enhanced ligand binding of the inhibitory neurotransmitter GABA to the receptors increases the aforementioned chloride ion conduction (perhaps reportedly via an increase in the frequency of the chloride channel opening), resulting in a hyperpolarized cell membrane that prevents further excitation of the associated neuron cells . Combined with the notion that such benzodiazepine receptor associated GABA(a) receptors exist both peripherally and in the CNS, this activity consequently facilitates various effects like sedation, hypnosis, skeletal muscle relaxation, anticonvulsant activity, and anxiolytic action .

In particular, when out of the ordinary rapid and repetitive electrical signals are released in the CNS, it is proposed that the brain can become over-stimulated and ordinary functions are disrupted - resulting in seizure activity . By enhancing the neuro-inhibitory activity of GABA, it is believed that clonazepam can facilitate in decreasing any excessive electrical nerve activity in the CNS that might be contributing to seizures . Concurrently, it is also believed that clonazepam's actions in enhancing GABA effects may inhibit neuronal activity proposed to occur in amygdala-centered fear circuits - therefore assisting in the management of anxiety or panic .

Paroxetine enhances serotonergic activity via the inhibition presynaptic reuptake of serotonin by the serotonin (SERT) receptor. This inhibition raises the level of serotonin in the synaptic cleft, relieving various symptoms. This drug has been demonstrated to be a stronger inhibitor of serotonin reuptake than other members of the same drug class, including Citalopram, Fluoxetine, and Fluvoxamine. The mechanism of action of paroxetine in relieving the vasomotor symptoms of menopause is unknown, according to the Brisdelle prescribing information, but may occur due to its effects on thermoregulation.

Paroxetine shows a clinically insignificant affinity for adrenergic alpha-1 and alpha-2 receptors and β-adrenergic receptors, dopamine D1 and D2 receptors, histamine H1 receptors and serotonin 5-HT1A, 5-HT2A and 5-HT2C receptors. This drug shows some affinity for muscarinic cholinergic receptors and 5-H2B receptors. The delayed onset of paroxetine therapeutic effects may be explained by the initial paroxetine actions on the 5-HT neurons. In rats, paroxetine activates 5-HT1A receptors when it is first administered, inhibiting the stimulation of the 5-HT neurons and subsequent release of serotonin at the synaptic cleft.

Dosage

Xet Cr Plus dosage

Tablet:

Infants and children

Initial dose: 0.01 - 0.03 mg/kg/day. Up to 1 year: 0.25 mg daily in divided dose, not to exceed 0.05 mg/kg/days increase gradually to 0.5 - 1 mg.

Increment dose: not more than 0.25 - 0.5 mg 1 - 5 years: 0.25 mg daily in divided dose, at intervals of 3 days increase to 1 - 3 mg.

Maintenance dose: 0.1 - 0.2 mg/kg/day. 5 - 12 years: 0.5 mg daily in divided dose,

Dosing interval: b.i.d. / t.i.d. increase to 3 - 6 mg.

Adults and elderly

Initial dose: 1 mg daily in divided dose (Elderly 0.5 mg), not to exceed 1.5 mg/day

Increment dose: 0.5 - 1 mg at intervals of 3 days

Maintenance dose: 4 - 8 mg/day

Maximum dose: 20 mg/day should be administered with caution

Dosing interval: b.i.d. / t.i.d.

Initial dose should be low and increased gradually to a maintenance dose that controls seizure without toxic effects. During discontinuation, the dose should be tapered.

Injection:

Infants and children: half of a vial (0.5 mg) by slow IV injection or by IV infusion. Adults: 1 vial (1 mg) by slow IV injection or by IV infusion. This dose can be repeated as required (1 - 4 mg are usually sufficient to reverse the status). In adults, the rate of injection must not exceed 0.25 - 0.5 mg per minute (0.5 – 1.0 mL of the prepared solution) and a total dose of 10 mg should not be exceeded.

Slow intravenous injection: The contents of the vial must be diluted with 1 mL of water for injection prior to administration so as to avoid local irritation of the veins. The injection solution should be prepared immediately before use. IV injection should be administered slowly with continuous monitoring of EEG, respiration and blood pressure.

Intravenous infusion: Clonazepam (the vial) can be diluted for infusion in a ratio of 1 vial (1 mg) to at least 85 mL diluting media. The diluting media can be any of the following: sodium chloride 0.9%; sodium chloride 0.45% + glucose 2.5%; glucose 5% or glucose 10%. These mixtures are stable for 24 hours at room temperature. Infusion bags other than PVC should be used for infusing Clonazepam. If PVC infusion bags are used then the mixture should be infused immediately or within 4 hours. The infusion time should not exceed 8 hours. Do not prepare Clonazepam infusions using sodium bicarbonate solution, as precipitation of the solution may occur.

Intramuscular injection: The IM route should be used only in exceptional cases or if IV administration is not feasible.

Major Depressive Disorder:

  • Usual Initial Dosage: Paroxetine (Paroxetine hydrochloride) should be administered as a single daily dose with or without food, usually in the morning. The recommended initial dose is 20 mg/day. Some patients not responding to a 20 mg dose may benefit from dose increases, in 10 mg/day increments, up to a maximum of 50 mg/day. Dose changes should occur at intervals of at least 1 week.
  • Maintenance Therapy: Systematic evaluation of the efficacy of Paroxetine hydrochloride has shown that efficacy is maintained for periods of up to 1 year with doses that averaged about 30 mg.

Obsessive Compulsive Disorder (OCD):

  • Usual Initial Dosage: Paroxetine (Paroxetine hydrochloride) should be administered as a single daily dose with or without food, usually in the morning. The recommended dose of Paroxetine in the treatment of OCD is 40 mg daily. Patients should be started on 20 mg/day and the dose can be increased in 10 mg/day increments. Dose changes should occur at intervals of at least 1 week.
  • Maintenance Therapy: Dosage adjustments should be made to maintain the patient on the lowest effective dosage, and patients should be periodically reassessed to determine the need for continued treatment.

Panic Disorder:

  • Usual Initial Dosage: Paroxetine should be administered as a single daily dose with or without food, usually in the morning. The target dose of Paroxetine in the treatment of panic disorder is 40 mg/day. Patients should be started on 10 mg/day. Dose changes should occur in 10 mg/day increments and at intervals of at least 1 week. The maximum dosage should not exceed 60 mg/day.
  • Maintenance Therapy: Dosage adjustments should be made to maintain the patient on the lowest effective dosage, and patients should be periodically reassessed to determine the need for continued treatment.

Social Anxiety Disorder (SAD):

  • Usual Initial Dosage: Paroxetine should be administered as a single daily dose with or without food, usually in the morning. The recommended initial dosage is 20 mg/day.
  • Maintenance Therapy: Dosage adjustments should be made to maintain the patient on the lowest effective dosage, and patients should be periodically reassessed to determine the need for continued treatment.

Generalized Anxiety Disorder (GAD):

  • Usual Initial Dosage: Paroxetine should be administered as a single daily dose with or without food, usually in the morning. The recommended starting dosage and the established effective dosage is 20 mg/day.
  • Maintenance Therapy: Dosage adjustments should be made to maintain the patient on the lowest effective dosage, and patients should be periodically reassessed to determine the need for continued treatment.

Posttraumatic Stress Disorder (PTSD):

  • Usual Initial Dosage: Paroxetine should be administered as a single daily dose with or without food, usually in the morning. The recommended starting dosage and the established effective dosage is 20 mg/day. Dose changes, if indicated, should occur in 10 mg/day increments and at intervals of at least 1 week.
  • Maintenance Therapy: Dosage adjustments should be made to maintain the patient on the lowest effective dosage, and patients should be periodically reassessed to determine the need for continued treatment.

Side Effects

Tablet:

The most frequently occurring side effects of clonazepam are referable to CNS depression, drowsiness, fatigue, dizziness, muscle hypotonia, co-ordination disturbance, hypersalivation in infants, paradoxical aggression, irritability and mental change.

Injection:

Some side effects, like: fatigue, muscle weakness, dizziness, somnolence, light-headedness, ataxia, restlessness, hypersalivation in infants, paradoxical aggression, reduced co-ordination may occur with Clonazepam therapy but these effects are transient and generally disappears in the course of the treatment. Respiratory depression may occur in patients with pre-existing airways obstruction, or brain damage, or if other medications which depress respiration have been given. As a rule, this effect can be avoided by careful adjustment of the dose to individual requirements.

Major depressive disorder: Asthenia, sweating, nausea, decreased appetite, somnolence, dizziness, insomnia, tremor, nervousness, ejaculatory disturbance and other male genital disorders.

Obsessive compulsive disorder: Nausea, dry mouth, decreased appetite, constipation, dizziness, somnolence, tremor, sweating, impotence and abnormal ejaculation.

Panic disorder: Asthenia, sweating, decreased appetite, decreased libido , tremor, abnormal ejaculation, female genital disorders and impotence.

Social anxiety disorder: Sweating, nausea, dry mouth, constipation, decreased appetite, somnolence, tremor, decreased libido, yawn, abnormal ejaculation, female genital disorders and impotence.

Generalised anxiety disorder: Asthenia, infection, constipation, decreased appetite, dry mouth, nausea, decreased libido, somnolence, tremor, sweating and abnormalejaculation.

Post-traumatic stress disorder: Asthenia, sweating nausea, dry mouth, diarrhoea, decreased appetite, somnolence, decreased libido, abnormal ejaculation, female genital disorders and impotence.

Toxicity

Benzodiazepines like clonazepam commonly cause drowsiness, ataxia, dysarthria, and nystagmus. Overdose with clonazepam is generally not life-threatening if the drug is taken alone, but may lead to areflexia, apnea, hypotension, cardiorespiratory depression, and coma. Coma, if it does occur, usually lasts a few hours but it can become more protracted and cyclical, especially in elderly patients. Increased frequency of seizures may occur in patients at supratherapeutic plasma concentrations. Benzodiazepine respiratory depressant effects are more serious when compounded in patients with respiratory disease.

An increased risk of congenital malformations associated with the use of benzodiazepine drugs like clonazepam has been suggested in several studies . There may also be non-teratogenic risks associated with the use of benzodiazepines during pregnancy . There have been reports of neonatal flaccidity, respiratory and feeding difficulties, and hypothermia in children born to mothers who have been receiving benzodiazepines late in pregnancy . In addition, children born to mothers receiving benzodiazepines late in pregnancy may be at some risk of experiencing withdrawal symptoms during the postnatal period . In general, it is best for patients who are of childbearing potential and also use benzodiazepines like clonazepam to discuss such matters with their health care professionals as careful consideration must be undertaken regarding the intersection of the risks of untreated seizure potential in the patient and any possible toxicity to the fetus .

Although the active ingredient of clonazepam has been found to pass into the maternal milk in small amounts only, mothers receiving clonazepam should not breast-feed their infants .

Since the possibility that adverse effects on the physical or mental development of the child could become apparent only after a number of years, the risk-benefit consideration of the long-term use of clonazepam in pediatric patients younger than five years of age is important .

The pharmacological effects of benzodiazepines like clonazepam appear to be greater in elderly patients than in younger patients even at similar plasma benzodiazepine concentrations, possibly because of age-related changes in drug-receptor interactions, post-receptor mechanisms, and organ function . In general elderly patients should be started on the lowest possible dose of clonazepam and observed closely . There is an increased risk for falls and fractures among elderly and debilitated benzodiazepine users . The risk is increased in those taking concomitant sedatives, including substances like benzodiazepines, alcoholic beverages, and so on .

Some oral LD50 values documented are >4000 mg/kg for the mouse model, >4000 mg/kg for the adult rat model, and >2000 mg/kg for the rabbit model .

The acute LD50 in mice and rats is 350 mg/kg.

Overdose information

The lowest dose of paroxetine reported to lead to a fatal outcome is approximately 400 mg. The largest reported paroxetine overdose from which a patient has survived and recovered is a dose of 2000 mg. Common manifestations in a paroxetine overdose include fatigue, fever, insomnia hypertension, tachycardia, nausea, vomiting, somnolence, tremor, dizziness, agitation, confusion, anxious symptoms, headache, insomnia, hyperhidrosis, dilated pupils, seizures, paresthesia, serotonin syndrome, involuntary muscle contraction, and change in mental status. It should be noted that in some cases, patients may have consumed alcohol in addition to taking an overdose of paroxetine. Some of these symptoms may also be seen with clinical use. There is no specific antidote to an overdose of paroxetine.

Precaution

Tablet:

When used in patients in whom several different types of seizure disorders coexist, clonazepam may increase the incidence or precipitate the onset of generalized tonic-clonic seizures (grand mal). This may require the addition of appropriate anticonvulsants or an increase in their dosages. The concomitant use of valproic acid and clonazepam may produce absence status. Periodic blood counts and liver function tests are advisable during long term therapy with clonazepam.

The abrupt withdrawal of clonazepam, particularly in those patients on long-term, high-dose therapy, may precipitate status epilepticus. Therefore when discontinuing clonazepam, gradual withdrawal is essential.

Clonazepam may produce an increase in salivation. This should be considered before giving the drug to patients who have difficulty handling secretions. Because of this and the possibility of respiratory depression, clonazepam should be used with caution in patients with chronic respiratory diseases.

Because of the possibility that adverse effects on physical or mental development could become apparent only after many years, a benefit-risk consideration of the long-term use of clonazepam is important in pediatric patients.

Injection:

The concomitant use of Clonazepam with alcohol and CNS depressants should be avoided. Such concomitant use has the potential to increase the clinical effects of Clonazepam, such as: severe sedation, respiratory and cardiac depression. In some cases, dose adjustment of other medications is necessary. Clonazepam may produce an increase in salivation. This should be considered before giving the drug to patients who have difficulty handling secretions. Clonazepam is adviced to use with caution in patients with chronic respiratory diseases. Because of the possibility that adverse effects on physical or mental development could become apparent only after many years, a benefit-risk consideration of the long-term use of clonazepam is important in pediatric patients.

Cardiac conditions: Paroxetine does not produce clinically significant changes in blood pressure, heart rate and ECG. Nevertheless, as with all psychoactive drugs, caution is advised when treating patients with cardiac conditions.

Epilepsy: As with other antidepressants, Paroxetine should be used with caution in-patients with epilepsy.

Seizures: Overall, the incidence of seizures is < 0.1% in patients treated with Paroxetine. Paroxetine should be discontinued in any patient who develops seizures.

ECT: There is little clinical experience of concurrent administration of Paroxetine with ECT.

Ability to drive/use machines: Clinical experience has shown that therapy with Paroxetine is not associated with impairment of cognitive or psychomotor function. However, as with all psychoactive drugs, patients should be cautioned about their ability to drive a car and operate machinery.

Discontinuation of Treatment with Paroxetine: Recent clinical trials supporting the various approved indications of Paroxetine employed a taper phase regimen, rather than an abrupt discontinuation of treatment. The taper phase regimen used in GAD and PTSD clinical trials involved an incremental decrease in the daily dose by 10 mg/day at weekly intervals. When a daily dose of 20 mg/day was reached, patients were continued on this dose for 1 week before treatment was stopped.

Interaction

Interactions have been reported between some benzodiazepines and other anticonvulsants, with changes in the serum concentration of the benzodiazepine or anticonvulsant.

Food/antacids: The absorption and pharmacokinetics of Paroxetine are not affected by food or antacids.

Tryptophan: As with other 5-HT re uptake inhibitors, animal studies indicate that an interaction between Paroxetine and Tryptophan may occur, resulting in a ‘serotonin syndrome’ suggested by a combination of agitation, restlessness and gastrointestinal symptoms including diarrhoea.

Drug metabolizing enzyme inducers /inhibitors: The metabolism and pharmacokinetics of Paroxetine may be affected by drugs, which induce or inhibit hepatic drug metabolizing enzymes. When Paroxetine is to be coadministered with a known drug metabolizing inhibitor, consideration should be given to using doses at the lower end of the range. No initial dosage adjustment of Paroxetine is considered necessary when it is to be co-administered with known drug metabolizing enzyme inducers. Any subsequent dosage adjustment should be guided by clinical effect (tolerabilityand efficacy).

Alcohol: Although Paroxetine does not increase the impairment of mental and motor skill caused by alcohol, the concomitant use of Paroxetine and alcohol in depressed patients is not advised.

Haloperidol/amylobarbitone/oxazepam: Experience in a limited number of healthy subjects has shown that Paroxetine did not increase the sedation and drowsiness associated with haloperidol, amylobarbitone or oxazepam when given in combination.

MAOls: As with other 5-HT re uptake inhibitors, animal studies indicate that an interaction between Paroxetine and monoamine oxidase (MAO) inhibitors may occur.

Lithium: Since there is little clinical experience, and there have been reports of interaction of lithium with other 5-HT re-uptake inhibitors, the concurrent administration of Paroxetine and lithium should be undertaken with caution.

Lithium levels should be monitored. Phenytoin / anticonvulsants: Co-administration of Paroxetine and phenytoin is associated with decreased plasma concentrations of Paroxetine and increased adverse experiences. Co-administration of Paroxetine with other anticonvulsants may also be associated with an increased incidence of adverse experiences.

Warfarin: Preliminary data suggest that there may be a pharmacodynamic interaction between Paroxetine and warfarin, which may result in increased bleeding in the presence of unaltered prothrombin times. Paroxetine should therefore be administered with great caution to patients receiving oral anticoagulants.

Volume of Distribution

Clonazepam distributes very rapidly to various organs and body tissues with preferential uptake by brain structures . The apparent volume of distribution has been documented as approximately 3 L/kg .

Paroxetine has a large volume of distribution and is found throughout the body, including in the central nervous system. Only 1% of the drug is found in the plasma. Paroxetine is found in the breast milk at concentrations similar to the concentrations found in plasma.

Elimination Route

Clonazepam is rapidly and almost entirely absorbed after oral administration as tablets . Peak plasma concentrations of clonazepam administered by the oral route are reached within 1-4 hours and the associated absorption half-life is about 25 minutes . The absolute bioavailability is approximately 90% - but with substantially large differences between individuals .

Paroxetine is readily absorbed from the gastrointestinal tract. Due to the first-pass metabolism, the bioavailability ranges from 30-60%. Cmax is attained 2 to 8 hours after an oral dose. Mean Tmax is 4.3 hours in healthy patients. The steady-state concentration of paroxetine is achieved within 7 to 14 days of oral therapy. In a pharmacokinetic study, AUC in healthy patients was 574 ng·h/mL and 1053 ng·h/mL in those with moderate renal impairment.

Half Life

The mean elimination half-life determined for clonazepam is independent of the dose given and has been documented as being about 30-40 hours .

The mean elimination half-life of paroxetine is about 21 hours. In healthy young subjects, mean elimination half-life was found to be 17.3 hours.

Clearance

The documented clearance for clonazepam is approximately 55 ml/min regardless of gender . Nevertheless, clearance values normalized by weight decline with increasing body weight .

The apparent oral clearance of paroxetine is 167 L/h. The clearance of paroxetine in patients with renal failure is significantly lower and dose adjustment may be required, despite the fact that it is mainly cleared by the liver. Dose adjustments may be required in hepatic impairment.

Elimination Route

Approximately 50-70% of a clonazepam dose is excreted in the urine and 10-30% is excreted in the feces as metabolites . The excretion of unchanged clonazepam in the urine is typically less than 2% of the administered dose . Metabolites of clonazepam are present in urine as both free and conjugated (glucuronide and sulfate) compounds .

About 2/3 of a single paroxetine dose is found to be excreted in the urine and the remainder is found to be excreted in feces. Almost all of the dose is eliminated as metabolites; 3% is found to be excreted as unchanged paroxetine. About 64% of a 30 mg oral dose was found excreted in the urine, with 2% as the parent drug and 62% appearing as metabolites. Approximately 36% of the dose was found to be eliminated in the feces primarily as metabolites and less than 1% as the parent compound.

Pregnancy & Breastfeeding use

The use of clonazepam during pregnancy or lactation should be avoided. Clonazepam is excreted into the breast milk and should therefore be avoided in breast-feeding mothers.

This drug should be used during pregnancy only if the potential benefit justifies the potential risk to the fetus.

Labor and Delivery: The effect of Paroxetine on labor and delivery in humans is unknown.

Nursing Mothers: Like many other drugs, Paroxetine is secreted in human milk, and caution should be exercised when Paroxetine hydrochloride is administered to a nursing woman.

Contraindication

Clonazepam should not be used in patients with a history of sensitivity to benzodiazepine, nor in patients with clinical or biochemical evidence of significant liver disease. It may be used in patients with open angle glaucoma who are receiving appropriate therapy, but is contraindicated in acute narrow angle glaucoma.

Concomitant use in patients taking either monoamine oxidase inhibitors (MAOIs) or thioridazine is contraindicated. This is contraindicated in patients with a hypersensitivity to Paroxetine.

Special Warning

Dosage for Elderly or Debilitated, and Patients with Severe Renal or Hepatic Impairment: The recommended initial dose is 10 mg/day for elderly patients, debilitated patients, and/or patients with severe renal or hepatic impairment. Increases may be made if indicated. Dosage should not exceed 40 mg/day.

Acute Overdose

Tablet:

Symptoms of clonazepam overdosage, like those produced by other CNS depressants, include somnolence, confusion, coma and diminished reflexes.

Injection:

Symptoms of Clonazepam overdosage, like those produced by other CNS depressants, include: somnolence, confusion, coma and diminished reflexes.

Storage Condition

Store at 25°C.

Keep out of the reach of children. Store at a cool and dry place. Protect from light and moisture.

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