L-ZINEX DUO Montelukast Sodium / Levocetirizine Hydrochloride 10mg / 5mg Film-Coated Tablet 1's (2024)

Indications/Uses

MONTELUKAST PLUS LEVOCETIRIZINE is indicated for the relief of symptoms associated with seasonal and perennial allergic rhinitis.
Syrup:The treatment of asthma as add-on therapy in adults and adolescents from 15 years of age and older with mild to moderate persistent asthma. The prophylaxis of asthma in which the predominant component is exercise-induced bronchoconstriction. The relief of nasal and ocular symptoms of seasonal and perennial allergic rhinitis. The relief of symptoms of chronic idiopathic urticaria.

Dosage/Direction for Use

Adults:One tablet containing Montelukast 10 mg plus Levocetirizine 5 mg once daily. Or as prescribed by the physician.
Elderly:Dosages in the elderly should be adjusted in accordance with their renal function (see Patients with Renal Impairment as follows).
Patients with Renal Impairment:In adults and children 12 years of age and older with: Mild renal impairment (ClCr 50-80 mL/min): one tablet containing Montelukast 10 mg plus Levocetirizine 2.5 mg once daily.
Moderate renal impairment (ClCr 30-50 mL/min): one tablet containing Montelukast 10 mg plus Levocetirizine 2.5 mg once daily, every other day.
Patients with Hepatic Disease:No dosage adjustment is needed in patients solely with mild to moderate hepatic impairment. Usage is not recommended in patients with severe hepatic impairment.
Children and Adolescent:Children aged 15+: One film-coated tablet containing Montelukast sodium 10 mg plus Levocetirizine hydrochloride 5 mg once daily. Or as prescribed by the physician.
Syrup:This medicine should be taken orally.
For the children of 2-5 years: 2.5 mL is given once daily in the evening. For the children of 6-11 years: 5 mL is given once daily in the evening.
For the children of 12 years and above: 10 mL is given once daily in the evening.

Contraindications

MONTELUKAST PLUS LEVOCETIRIZINE is contraindicated in patients with known hypersensitivity to Montelukast or Levocetirizine, patients with severe renal (creatinine clearance less than 10 mL/min) or hepatic impairment, in children 6-11 years of age with renal impairment, and women who are pregnant or breastfeeding.

Special Precautions

Levocetirizine:The administration of Levocetirizine to infants and toddlers aged less than 2 years is not recommended. Therefore the use of MONTELUKAST PLUS LEVOCETIRIZINE is not recommended to infants and toddlers less than 2 years of age. In sensitive patients the simultaneous administration of cetirizine or Levocetirizine and alcohol or other CNS depressants may have effects on the central nervous system, although it has been shown that the racemate cetirizine does not potentiate the effect of alcohol. Comparative clinical trials have revealed no evidence that Levocetirizine at the recommended dose impairs mental alertness, reactivity or the ability to drive. Nevertheless, some patients do experience somnolence, fatigue and asthenia under therapy with Levocetirizine. Therefore, patients intending to drive, engage in potentially hazardous activities and operate machinery should take their response to the medicinal product into account.

Use In Pregnancy & Lactation

No well controlled trials have been performed with either Montelukast or Levocetirizine in women who are pregnant. Therefore, use of MONTELUKAST PLUS LEVOCETIRIZINE is not recommended in women who are pregnant. It is not known whether Montelukast or Levocetirizine are excreted in breast milk. Therefore, use of MONTELUKAST PLUS LEVOCETIRIZINE is not recommended in women who are breastfeeding.

Adverse Reactions

Montelukast:Montelukast has been evaluated for safety in approximately 2950 adult and adolescent patients 15 years of age and older in clinical trials. In placebo-controlled clinical trials, the following adverse experiences reported with Montelukast (M) occurred in greater than or equal to 1% of patients and at an incidence greater than that in patients treated with placebo (P), regardless of causality assessment; Body As A Whole; Asthenia/fatigue M (1.8%), P (1.2%). Fever: M (0.6%), P (3.0%)/Abdominal pain: M (2.9%), P (2.5%). Trauma: M (1.0%), P (0.8%). Digestive System Disorders; Dyspepsia M (2.1%), P (1.1%). Infectious gastroenteritis: M (2.1%), P (1.1%). Dental Pain: M (1.7%), P (1.0%). Nervous System/Psychiatric: Dizziness M (1.9%), P (1.4%). Headache: M (18.4%), P (18.1%). Respiratory System Disorder: Congestion, nasal M (1.6%), P (1.3%). Cough M (2.7%), P (2.4%). Influenza: M (4.2%), P (3.9%). Skin/Skin Appendages Disorder; Rash M (1.6%), P (1.2%). Laboratory Adverse Experiences; ALT increased M (2.1%), P (2.0%). AST increased M (1.6%), P (1.2%). Pyuria: M (1.0%), P (0.9%).
Levocetirizine:In therapeutic studies in women and men aged 12 to 71 years, 15.1% of the patients in the Levocetirizine 5 mg group had at least one adverse drug reactions compared to 11.3% in the placebo group. 91.6% of these adverse drug reactions were mild to moderate.
In therapeutic trials, the drop out rate due to adverse events was 1.0% (9/935) with Levocetirizine 5 mg and 1.8% (14/771) with placebo. Clinical therapeutic trials with Levocetirizine included 935 subjects exposed to the drug at the recommended dose of 5 mg daily. From this data, the following adverse drug reactions were reported at rates of 1% or greater during treatment with Levocetirizine 5 mg (L) or placebo (P); Headache; L (2.6%), P (3.2%). Somnolence: L (5.2%), P (1.4%). Dry mouth: L (2.6%), P (1.6%). Fatigue: L (2.5%), P (1.2%). Further uncommon incidences of adverse reaction like asthenia or abdominal pain were observed. The incidence of sedating adverse drug reaction such as somnolence, fatigue and asthenia was altogether more common (8.1%) with Levocetirizine 5 mg than with placebo (3.1%). In addition to the adverse reactions reported during clinical studies and listed previously, very rare cases of the following adverse reactions have been reported in post-marketing experience:Immune system disorders:hypersensitivity including anaphylaxis.
Psychiatric disorders:aggression, agitation.
Nervous system:visual disturbances.
Cardiac disorders:palpitations.
Respiratory, thoracic and mediastinal disorders:dyspnea.
Gastrointestinal disorders:nausea.
Hepatobiliary disorders:hepatitis.
Skin and subcutaneous disorders:angioneurotic edema, fixed drug eruption, pruritus, rash, urticaria.
Musculoskeletal, connective tissues, and bone disorders:myalgia.
Investigations:weight gain, abnormal liver function tests.

Drug Interactions

Montelukast:In drug interactions studies, the recommended clinical dose of Montelukast did not have clinically important effects on the pharmacokinetics of the following drugs: theophylline, prednisone, prednisolone, oral contraceptives (ethinyl estradiol/norethindrone 35/1), terfenadine, digoxin and warfarin. The area under the plasma concentration curve (AUC) for Montelukast was decreased approximately 40% in subjects with co-administration of phenobarbital. Since Montelukast is metabolized by CYP3A4, caution should be exercised, particularly in children, when Montelukast is coadministered with inducers of CYP3A4 such as phenytoin, phenobarbital and rifampicin. In vitro studies have shown that Montelukast is a potent inhibitor of CYP2C8. However, data from a clinical drug-drug interaction study involving Montelukast and rosiglitazone (a probe substrate representative of drugs primarily metabolized by CYP2C8) demonstrated that Montelukast does not inhibit CYP2C8 in vivo. Therefore, Montelukast is not anticipated to markedly alter the metabolism of drugs metabolized by this enzyme (e.g., paclitaxel, rosiglitazone and repaglinide).
Levocetirizine:In vitro data indicate that Levocetirizine is unlikely to produce pharmacokinetic interactions through inhibition or induction of liver drug-metabolizing enzymes. No in-vivo drug-drug interaction studies have been performed with Levocetirizine. In pharmacokinetic interaction studies performed with racemic cetirizine, cetirizine did not interact with antipyrine, pseudoephedrine, erythromycin, azithromycin, ketoconazole or cimetidine. A small decrease in the clearance of cetirizine was caused by a 400 mg dose of theophylline. Ritonavir increased the plasma AUC, half-life and decreased the clearance 42%, 53% and 29% respectively. The disposition of ritonavir was not altered by administration of cetirizine.

Storage

Store at temperatures not exceeding 30°C.
Protect from light.

Action

Pharmacology:Montelukast:The cysteinyl leukotrienes (LTC4, LTD4, LTE4) are potent inflammatory eicosanoids released from various cells including mast cells and eosinophils. These important mediators bind to cysteinyl leukotriene receptors. Cysteinyl leukotriene have been correlated with the pathophysiology of asthma and allergic rhinitis. In asthma, leukotriene mediated effects include bronchoconstriction, mucous secretion, vascular permeability and eosinophil recruitment. In allergic rhinitis, cysteinyl leukotrienes are released from nasal mucosa after allergen exposure during both early-and late-phase reactions and are associated with symptoms of allergic rhinitis. Intranasal challenge with cysteinyl leukotrienes has been shown to increase nasal airway resistance and symptoms of nasal obstruction. Montelukast is an orally active compound which binds with high affinity and selectively to the cysteinyl leukotriene type 1 receptor thereby preventing cysteinyl leukotriene from exerting their effects.
Levocetirizine:Levocetirizine, the active enantiomer of cetirizine, is an antihistamine. Its principal effects are mediated via selective inhibition of H1 receptors. The antihistamine activity of Levocetirizine has been documented in a variety of animal and human models.
Pharmacokinetics:Montelukast:Absorption: Montelukast is rapidly absorbed following oral administration. Mean peak plasma concentration (Cmax) is achieved 3 hours (Tmax) after administration of a 10 mg dose in adults in the fasted state. The mean oral bioavailability is 64%. The oral; bioavailability and (Cmax) are not influenced by a standard meal. Safety and efficacy were demonstrated in clinical trials where the 10 mg film-coated was administered without regard to the timing of food ingestion. Cmax is achieved in 2 hours after administration of the 5 mg chewable tablet in adults in the fasted state. The mean oral bioavailability is 73% and is decreased to 63% by a standard meal.
Distribution: Montelukast is more than 99% bound to plasma proteins. Steady-state volume of distribution of Montelukast averages 8-11 liters. Studies in rats with radio labeled Montelukast indicate minimal distribution across the blood-brain barrier. In addition, concentrations of radio labeled material at 24 hours post dose were minimal in all other tissues.
Metabolism: Montelukast is extensively metabolized. In studies with therapeutic doses, plasma concentrations of metabolites of Montelukast are undetected at steady state in adults and children. In vitro studies using human liver microsomes indicate that cytochrome P450 3A4, 2A6 and 2C9 are involved in the metabolism of Montelukast. Based on further in vitro results in human liver microsomes, therapeutic plasma concentrations of Montelukast do not inhibit cytochromes P450 3A4, 2C9 1A2, 2A6, 2C10 or 2D6. The contribution of metabolites to the therapeutic effect of Montelukast is minimal.
Elimination: The plasma clearance of Montelukast averages 45 mL/min in healthy adults. Following an oral dose of radio labeled Montelukast, 86% of the radioactivity was recovered in 5-day fecal collections and <0.2% was recovered in urine. Coupled with estimates of Montelukast oral bioavailability, this indicates that Montelukast and its metabolites are excreted almost exclusively via the bile.
Elderly: The pharmacokinetic profile and the oral bioavailability of a single 10 mg oral dose of Montelukast are similar in elderly and younger adults. The plasma half-life of Montelukast is slightly longer in the elderly. Due to the Levocetirizine component of Montelukast plus Levocetirizine however, dosage adjustment may be required in elderly patients (See Elderly under Dosage & Administration).
Patients with Renal Impairment: Since Montelukast and its metabolites are not excreted in the urine, the pharmacokinetics of Montelukast was not evaluated in patients with renal insufficiency. Due to the Levocetirizine component of MONTELUKAST PLUS LEVOCETIRIZINE however, dosage adjustment is required in patients with renal impairment (See Patients with Renal Impairment under Dosage & Administration).
Patients with Hepatic Impairment: Patients with mild to moderate hepatic insufficiency and clinical evidence of cirrhosis had evidence of decreased metabolism of Montelukast resulting in 41% (90% Cl=7%, 85%) higher mean Montelukast area under the plasma concentration curve (AUC) following a single 10 mg dose. The elimination of Montelukast was slightly prolonged compared with that in healthy subjects (mean half-life 7.4 hours). No dosage adjustment is required in patients with mild to moderate hepatic insufficiency. The pharmacokinetics of Montelukast in patients with more severe hepatic impairment or with hepatitis has not been evaluated.
Levocetirizine:Absorption: Levocetirizine is rapidly and extensively absorbed following oral administration. Peak plasma concentrations are achieved 0.9 h after dosing. Steady state is achieved after two days. Peak concentrations are 270 ng/mL and 308 ng/mL following a single and repeated 5 mg dose once daily, respectively. The extent of absorption is dose-independent and is not altered by food, but the peak concentration is reduced and delayed.
Distribution: No tissue distribution data are available in humans, neither concerning the passage of Levocetirizine through the blood-brain barrier. In rats and dogs, the highest tissue levels are found in liver and kidneys, the lowest in CNS compartment. Levocetirizine is 90% bound to plasma proteins. The distribution of Levocetirizine is restrictive, as the volume of distribution is 0.4 l/kg.
Metabolism: The extent of metabolism of Levocetirizine in humans is less than 14% of the dose and therefore differences resulting from genetic polymorphism or concomitant intake of enzyme inhibitors are expected to be negligible.
Metabolic pathways include aromatic oxidation, N- and O-dealkylation and taurine conjugation. Dealkylation pathways are primarily mediated by CYP 3A4 while aromatic oxidation involved multiple and/or unidentified CYP isoforms. Levocetirizine had no effect on the activities of CYP isoenzymes 1A2, 2C9, 2C19, 2D6, 2E1 and 3A4 at concentrations well above peak concentrations achieved following a 5 mg oral dose. Due to its low metabolism and absence of metabolic inhibition potential, the interaction of Levocetirizine with other substances, or vice-versa, is unlikely.
Elimination: The plasma half-life in adults is 7.9 ± 1.9 hours. The mean apparent total body clearance is 0.63 mL/min/kg. The major route of excretion of Levocetirizine and metabolites is via urine, accounting for a mean of 85.4% of the dose. Excretion via feces accounts for only 12.9% of the dose. Levocetirizine is excreted both by glomerular filtration and active tubular secretion.
Elderly: Limited pharmacokinetic data is available in elderly subjects. Following once daily repeated oral administration of 30 mg Levocetirizine for 6 days in 9 elderly subjects (74 - 75 years of age), the total body clearance was approximately 33% lower compared to that in younger adults. The disposition of racemic cetirizine has been shown to be dependent on renal function rather than age. Therefore, the dosage of Levocetirizine should be adjusted in accordance with renal function in elderly patients.
Patients with Renal Impairment: The apparent body clearance of Levocetirizine is correlated to the creatinine clearance. It is therefore recommended to adjust the dosage and frequency of dosage of Levocetirizine, based on creatinine clearance in patients with moderate and severe renal impairment (See Dosage & Administration).
Patients with Hepatic Impairment: Levocetirizine has not been studied in patients with hepatic impairment. The non-renal clearance (indicative of hepatic contribution) was found to constitute about 28% of the total body clearance in healthy adult subjects after oral administration. As Levocetirizine is mainly excreted unchanged by the kidney, it is unlikely that the clearance of Levocetirizine is significantly decreased in patients solely with hepatic impairment.

MedsGo Class

Antihistamines & Antiallergics

L-ZINEX DUO Montelukast Sodium / Levocetirizine Hydrochloride 10mg / 5mg Film-Coated Tablet 1's (2024)

FAQs

What is montelukast sodium 10mg and levocetirizine hydrochloride 5mg tablets used for? ›

Levocetirizine + Montelukast is a combination of two medicines: Levocetirizine and Montelukast, which relieves sneezing and runny nose due to allergies. Levocetirizine is an antiallergic which blocks a chemical messenger (histamine) responsible for runny nose, watery eyes and sneezing.

What is L Zinex Duo used for? ›

Syrup: The treatment of asthma as add-on therapy in adults and adolescents from 15 years of age and older with mild to moderate persistent asthma. The prophylaxis of asthma in which the predominant component is exercise-induced bronchoconstriction.

How long can montelukast be taken? ›

Take montelukast for as long as your doctor recommends it. It will only keep working while you're taking it. Do not stop taking montelukast without speaking to your doctor first, because your symptoms may get worse.

Why is montelukast taken in the evening? ›

Singulair (montelukast) has a short half-life of about 4-7 hours with blood levels peaking 3-4 hours after a dose. For these reasons, healthcare providers and the prescribing information for Singulair recommend taking it at night in order to match peak drug levels with symptom onset.

Does montelukast make you sleepy? ›

Does Montelukast Make You Sleepy? Montelukast can cause psychiatric-type effects that include aggression, agitation, anxiety, depression, hallucinations, and abnormal dreams. This medicine can also cause drowsiness and dizziness and affect your ability to drive or operate heavy machinery.

Can montelukast Levocetirizine make you sleepy? ›

MONTELUKAST+LEVOCETIRIZINE should be used with caution while driving as it may interfere with driving capabilities. You may feel drowsy or sleepy after taking MONTELUKAST+LEVOCETIRIZINE.

What is the difference between Xanax and L? ›

The main differences between Lorazepam and Xanax are:

Xanax has a quicker onset of effect, but a shorter duration of action (4 to 6 hours) compared with lorazepam's 8 hours. Sedative and performance-impairing effects may occur sooner with Xanax, but dissipate quicker than with lorazepam.

Can you take montelukast without food? ›

To work properly, montelukast must be taken at the same time each day, even if your asthma seems better. You may take this medicine with or without food.

What is Zinex used for? ›

Zinex is indicated for infections (caused by susceptible organisms) in lower respiratory tract infections including bronchitis and pneumonia, in upper respiratory tract infections including sinusitis and pharyngitis/tonsillitis, in otitis media, and in skin and soft tissue infections.

Who cannot take montelukast? ›

Montelukast is not suitable for some people. To make sure it's safe for you, tell your doctor if you: have ever had an allergic reaction to montelukast or any other medicine. have a rare hereditary problem of galactose intolerance (including Lapp lactase deficiency or glucose-galactose malabsorption)

Can montelukast cause weight gain? ›

Does montelukast cause weight gain or increased blood pressure? It shouldn't. In clinical studies, montelukast oral tablets weren't reported to cause weight gain or increased blood pressure. Steroid treatments for asthma, such as prednisone, may cause weight gain or increased blood pressure.

Why was Singulair taken off the market? ›

Why Were Singulair Products Recalled? Singulair products were not recalled. Instead, the FDA took action on March 4, 2020, requiring that the drug manufacturer add a Boxed Warning on prescribing information alerting prescribers of the potential dangers of mental health issues arising from Singulair use.

Why do doctors prescribe montelukast? ›

Montelukast is used to prevent wheezing, difficulty breathing, chest tightness, and coughing caused by asthma in adults and children 12 months of age and older. Montelukast is also used to prevent bronchospasm (breathing difficulties) during exercise in adults and children 6 years of age and older.

Is montelukast a high risk medication? ›

Although montelukast is considered to be a safe drug, there are concerns regarding adverse drug reactions, including the rare occurrence of Churg-Strauss syndrome and, despite insufficient data, the possibility of neuropsychiatric events such as anxiety, depression, sleep disturbance, and suicidality.

What is the most common side effect of montelukast? ›

Common side effects of montelukast may include:

fever or other flu symptoms; ear pain or full feeling, trouble hearing; headache; or. cold symptoms such as runny or stuffy nose, sinus pain, cough, sore throat.

When is the best time to take montelukast Levocetirizine? ›

Montelukast is recommended to be taken in the evening. The effectiveness of this drug to prevent exercise-induced bronchoconstriction (EIB) in children was already evaluated. However, there is no information to determine if this effectiveness could vary depending on dosage time.

Why is montelukast combined with Levocetirizine? ›

Montelukast when used as monotherapy is efficacious and improves quality of life. Combination therapy (montelukast plus levocetirizine) is a more effective strategy than monotherapy in the treatment of persistent allergic rhinitis.

What are the side effects of Levocetirizine on the heart? ›

abnormal heart rhythm (extra heartbeat, heart block) low blood pressure. high blood pressure (hypertension) difficult or painful urination.

What is montelukast sodium 10mg used for? ›

Montelukast is used to prevent wheezing, difficulty breathing, chest tightness, and coughing caused by asthma in adults and children 12 months of age and older. Montelukast is also used to prevent bronchospasm (breathing difficulties) during exercise in adults and children 6 years of age and older.

References

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