Consumer medicine information

ZEFFIX ORAL SOLUTION

Lamivudine

BRAND INFORMATION

Brand name

Zeffix

Active ingredient

Lamivudine

Schedule

S4

 

Consumer medicine information (CMI) leaflet

Please read this leaflet carefully before you start using ZEFFIX ORAL SOLUTION.

What is in this leaflet?

Please read this leaflet carefully before you take Zeffix Oral Solution.

This leaflet answers some common questions about Zeffix Oral Solution. It does not contain all of the available information.

It does not take the place of talking to your doctor or pharmacist.

All medicines have risks and benefits. Your doctor has weighed the expected benefits of you taking Zeffix against the risks this medicine could have for you.

If you have any concerns about taking this medicine, ask your doctor or pharmacist.

Keep this leaflet with the medicine. You may need to read it again.

What is Zeffix used for?

Zeffix belongs to a group of medicines called antivirals.

Zeffix is used to treat patients 2 years of age or over with long term (chronic) viral infection of the liver caused by hepatitis B.

Hepatitis B is a virus which damages the liver. Treatment with Zeffix can reduce the amount of hepatitis B virus in your body. This should lead to less liver damage.

Zeffix has not been shown to reduce the risk of passing hepatitis B to others. You will still be able to pass on the hepatitis virus by sexual contact or through your blood. You should use appropriate precautions.

Your doctor may have prescribed Zeffix for another reason.

Zeffix is not addictive.

If you are already taking this medicine lamivudine for HIV infection (3TC®, Combivir®), your doctor will continue to treat you with the higher dose for that treatment.

Before you take Zeffix

Do not take if:

You must not take Zeffix if:

  • you have ever had an allergic reaction to lamivudine or any of the ingredients listed toward the end of this leaflet. (See "Ingredients")
  • you are taking zalcitabine.
  • the expiry date (EXP) printed on the pack has passed.
  • the packaging is torn or shows signs of tampering

Tell your doctor if:

You must tell your doctor if:

  • you are allergic to foods, dyes, preservatives or any other medicines.
  • you have, or have ever had, kidney problems
  • you have, or have ever had, problems with your pancreas.
  • you are taking any other medicines, including medicines you buy without a prescription.
  • you are breastfeeding, pregnant or trying to become pregnant.

How do I take Zeffix?

How much to take

Take Zeffix as directed by your doctor or pharmacist.

The normal dose for adults and children aged 12 years or above is 20 mL of the solution, equivalent to 100 mg of lamivudine, once a day. For younger children, aged 2 years or above, the correct dose of Zeffix will depend on their weight in kilograms (kg). Your doctor will tell you exactly how much medicine is needed to give the correct dose.

If you are a diabetic, please note that each dose of Zeffix (100 mg =20 mL) contains 4 g sugar.

Your doctor may prescribe a different dosage, for example if you have kidney problems. Each patient responds to the treatment differently. Your doctor will check you by taking regular blood samples. The results will help decide when you should stop taking Zeffix.

How to take it

Zeffix oral solution can be swallowed if desired with a glass of water, and can be taken with or without food.

To measure your dose of Zeffix oral solution accurately use the oral dosing syringe supplied with the pack as follows:

  1. Remove the bottle cap. Keep it safely.
  2. Hold the bottle firmly. Push the plastic adapter into the neck of the bottle.
  3. Insert the syringe firmly into the adapter.
  4. Turn the bottle upside down.
  5. Pull out the syringe plunger until the syringe contains the first part of your full dose.
  6. Turn the bottle the correct way up. Remove the syringe from the adapter.
  7. Put the syringe into your mouth, placing the tip of the syringe against the inside of your cheek. Slowly push the plunger in, allowing time to swallow. Don't push too hard and squirt the liquid into the back of your throat or you may choke.
  8. Repeat steps 3 to 7 in the same way until you have taken your whole dose. For example, if your dose is 15 mL, you need to take one and a half syringe-fulls of medicine.
  9. Take the syringe out of the bottle and wash it thoroughly in clean water. Let it dry completely before you use it again.
  10. Close the bottle tightly with the cap, leaving the adaptor in place.

How long to take it for

Zeffix oral solution helps control your condition, but does not cure it. Therefore you must take Zeffix oral solution every day. Continue taking the solution for as long as your doctor tells you to.

What do I do if I take too much? (Overdose)

Immediately telephone your doctor or Poisons Information Centre (telephone 131126) for advice, if you think you or anyone else may have taken too much Zeffix, even if there are no signs of discomfort or poisoning.

If you are not sure what to do, contact your doctor or pharmacist.

While you are taking Zeffix

Things you must do

Tell your doctor if, for any reason, you have not taken your medicine exactly as directed. Otherwise, your doctor may think that it was not working as it should and change your treatment unnecessarily.

If you forget to take a dose, do not take a double dose to make up for the dose that you missed.

Things you must not do

Do not stop taking Zeffix oral solution, or change the dose without first checking with your doctor. If you stop taking Zeffix your hepatitis may get worse.

This can cause serious illness particularly if your liver is already not working very well. If you do have to stop taking Zeffix your doctor is likely to arrange tests over the following four months to check how well your liver is working.

Do not give this medicine to anyone else, even if their symptoms seem similar to yours.

Do not use Zeffix to treat any other complaints unless your doctor says to.

What are the side-effects?

Check with your doctor as soon as possible if you think you are experiencing any side effects or allergic reactions due to taking Zeffix, even if the problem is not listed below.

Like other medicines, Zeffix can cause some side-effects. If they occur, they are most likely to be minor and temporary. However, some may be serious and need medical attention.

The most commonly reported side-effects are:

  • Headache.
  • Vomiting and Diarrhoea.
  • Nausea.
  • Fatigue/tiredness.
  • Abdominal discomfort and pain.
  • Coughing, with phlegm, not associated with a cold or flu.
  • Dizziness
  • Abnormal Liver function tests
  • Muscle disorders, (including muscle pain and cramps).

Tell your doctor immediately if you notice any of the following:

Wheezing, swelling of the lips/mouth, difficulty in breathing, hayfever, lumpy rash (hives) or fainting. These could be symptoms of an allergic reaction.

This is not a complete list of all possible side-effects. Others may occur in some people and there may be some side-effects not yet known.

Do not be alarmed by this list of possible side-effects. You may not experience any of them.

How do I store Zeffix?

Keep this medicine where children cannot reach it, such as in a locked cupboard.

Do not leave in a car, on a window sill or in the bathroom.

Keep Zeffix oral solution in a cool, dry place where it stays below 25°C.

Keep Zeffix oral solution in the bottle with the cap tightly closed until it's time to take it.

Return any unused or expired medicine to your pharmacist.

Product description

What Zeffix oral solution looks like

The oral solution is a clear, colourless to pale yellow solution with strawberry and banana flavouring.

Zeffix oral solution is supplied in a white polyethylene bottle with a child resistant cap. The bottle contains 240 mL of solution for oral use and is in a carton.

The pack includes an oral dosing syringe and syringe-adapter.

Ingredients

Zeffix oral solution contains 5 mg of lamivudine in each mL. Your oral solution also contains the following inactive ingredients:

Sugar (20% sucrose), methyl hydroxybenzoate, propyl hydroxybenzoate, citric acid, propylene glycol, sodium citrate dihydrate, artificial strawberry flavouring, artificial banana flavouring and purified water.

Supplier

Your Zeffix is supplied by:

Arrow Pharma Pty Ltd
15-17 Chapel Street
Cremorne VIC 3121
Australia.

Where to go for further information

Pharmaceutical companies are not in a position to give people an individual diagnosis or medical advice. Your doctor or pharmacist is the best person to give you advice on the treatment of your condition.

This leaflet was prepared in May 2016

The information provided applies only to: Zeffix®oral solution.

Zeffix oral solution: AUST R 66829

Version 4.0

Published by MIMS January 2017

BRAND INFORMATION

Brand name

Zeffix

Active ingredient

Lamivudine

Schedule

S4

 

1 Name of Medicine

Lamivudine.

2 Qualitative and Quantitative Composition

Lamivudine is a white to off white crystalline solid which is highly soluble in water.
Zeffix tablets contain 100 mg of lamivudine.
Zeffix oral solution contains 5 mg/mL lamivudine.
For the full list of excipients, see Section 6.1 List of Excipients.

3 Pharmaceutical Form

Tablets.

Zeffix tablets are butterscotch coloured, film coated, capsule shaped, biconvex and engraved “LV” on one side and “100” on the other side.

Oral solution.

Zeffix oral solution contains 240 mL of Zeffix solution, for oral use only, and is in a carton. The pack includes a clear polypropylene oral dosing syringe and polyethylene syringe-adapter.

4 Clinical Particulars

4.1 Therapeutic Indications

Zeffix (lamivudine) is indicated for the treatment of children (2 years and above), adolescent and adult patients with chronic hepatitis B and evidence of hepatitis B virus (HBV) replication.
This indication is based on changes in serological and histological markers in clinical studies of up to 2 years duration in adult patients with compensated liver disease and serological data up to 18 months in children and adolescents. Children and adolescents also require evidence of active hepatic inflammation (see Section 5.1 Pharmacodynamic Properties, Clinical trials).
The safety and efficacy of Zeffix (lamivudine) have not been established in patients with decompensated liver disease in placebo controlled studies. However, Zeffix (lamivudine) has been shown to reduce HBV DNA levels prior to and postliver transplantation.

4.2 Dose and Method of Administration

Adults and adolescents 12* years and older.

The recommended dosage of Zeffix is 100 mg once daily.

Children from 2 to 11 years*.

The recommended dose is 3 mg/kg once daily up to a maximum of 100 mg daily.
*The effectiveness of treatment beyond 1 year in children aged from 2-17 years and the optimum duration of treatment for this group has not been established (see Section 5.1 Pharmacodynamic Properties, Clinical trials).

Children less than 2 years.

There are insufficient data available to propose specific dosage recommendations in this age group.
Zeffix oral solution is available for use in children and for those patients for whom the tablets are inappropriate.
Food reduces the Cmax and extends the Tmax but the amount of drug absorbed is not reduced. These changes to the pharmacokinetic parameters are not statistically or clinically significant (see Section 5.2 Pharmacokinetic Properties).
Discontinuation of Zeffix may be considered in immunocompetent patients when HBeAg and/or HBsAg seroconversion occurs. Discontinuation may also be considered when loss of efficacy occurs, as indicated by recurrent signs of hepatitis. There are limited data regarding the maintenance of seroconversion long-term after stopping treatment with Zeffix.
Patient compliance should be monitored while on Zeffix therapy. If Zeffix is discontinued, patients should be periodically monitored for evidence of recurrent hepatitis (see Section 4.4 Special Warnings and Precautions for Use).

Renal insufficiency.

Lamivudine serum concentrations are increased in patients with moderate to severe renal impairment due to decreased renal clearance. The dosage should therefore be reduced for patients with a creatinine clearance of < 50 mL/minute (see Table 1 for adults and Table 2 for children 2-11 years of age). When doses less than 100 mg are required, Zeffix oral solution should be used. The same percentage reduction in dose applies for children with renal impairment (see Table 2).
Data available in patients undergoing intermittent haemodialysis (4 hrs dialysis 2-3 times weekly) indicate that following the initial dosage reduction of Zeffix to correct for the patient's creatinine clearance, no further dosage adjustments are required while undergoing dialysis.

Hepatic insufficiency.

Data obtained in patients with hepatic impairment, including those with endstage liver disease awaiting transplant, show that lamivudine pharmacokinetics are not significantly affected by hepatic dysfunction. Based on these data, no dose adjustment is necessary in patients with hepatic impairment unless accompanied by renal impairment.

4.3 Contraindications

Zeffix is contraindicated in patients with known hypersensitivity to lamivudine or to any ingredient of the preparation.

4.4 Special Warnings and Precautions for Use

During initiation and maintenance of treatment patients should be monitored regularly by a physician experienced in the management of chronic hepatitis B.
There are limited data on the use of lamivudine in patients receiving concurrent immunosuppressive regimens, including cancer chemotherapy, and therefore close monitoring of this group is required.

Pancreatitis and neuropathy.

In patients with HIV infection, cases of pancreatitis and peripheral neuropathy (or paraesthesia) have been reported although no relationship to treatment with lamivudine (3TC) has been clearly established. In patients with chronic hepatitis B there was no observed difference in the incidence of these events between placebo and lamivudine 100 mg daily treated patients.

Lactic acidosis and severe hepatomegaly.

Cases of lactic acidosis, usually associated with severe hepatomegaly and hepatic steatosis, have been reported with the use of combination nucleoside analogue therapy in patients with HIV. A majority of these cases have been in women. Obesity and prolonged nucleoside exposure may be risk factors.
There have been occasional reports of these adverse events in hepatitis B patients with decompensated liver disease, however there is no evidence that these events were related to treatment with lamivudine.
Particular caution should be exercised when administering Zeffix to any patient with known risk factors for liver disease; however, cases have also been reported in patients with no known risk factors. Treatment with Zeffix should be suspended in any patient who develops clinical or laboratory findings suggestive of lactic acidosis or pronounced hepatotoxicity (which may include hepatomegaly and steatosis even in the absence of marked transaminase elevations).

Cirrhotic liver disease/hepatitis B virus.

If Zeffix is discontinued or there is a loss of efficacy, some patients may experience clinical or laboratory evidence of recurrent hepatitis. Exacerbation of hepatitis has primarily been detected by serum ALT elevations, in addition to the re-emergence of HBV DNA. Most events appear to have been self limited. Fatalities are very rare and the causal relationship to discontinuation of lamivudine treatment is unknown.
If lamivudine is discontinued, patients should be periodically monitored both clinically and by assessment of serum liver function tests (ALT and bilirubin levels), for at least four months for evidence of recurrent hepatitis; patients should then be followed as clinically indicated. For patients who develop evidence of recurrent hepatitis post-treatment, there are insufficient data on reinitiation of lamivudine treatment.
Transplantation recipients and patients with advanced liver disease are at greater risk from active viral replication. Due to marginal liver function in these patients, hepatitis reactivation at discontinuation of lamivudine or loss of efficacy during treatment may induce severe and even fatal decompensation. It is recommended that these patients are monitored for parameters associated with hepatitis B, for liver and renal function, and for antiviral response during treatment. If treatment is discontinued for any reason, it is recommended that these patients are monitored for at least 6 months postcessation of treatment. Patients experiencing signs of hepatic insufficiency during or post-treatment should be monitored frequently, as appropriate.
HBV viral subpopulations (YMDD variant HBV) with reduced susceptibility to lamivudine have been identified during extended therapy. In a minority of cases this variant can lead to recurrent hepatitis. In controlled trials, when patients developed YMDD mutant HBV, they had a rise in HBV DNA and ALT from previous on treatment levels. Progression of hepatitis B has been reported in some patients with YMDD mutant HBV. The long-term clinical significance of these variants is yet to be fully established.

Coinfection with HIV.

There are no adequate clinical data on the treatment with lamivudine of patients coinfected with HIV and hepatitis B virus. Zeffix (lamivudine 100 mg) once daily is not an appropriate dose or dose frequency for use in the treatment of patients with HIV infection. Coinfected patients requiring lamivudine therapy for HIV should be treated with the dose, dose frequency and appropriate use as set out in the product information for lamivudine 150 mg tablets (3TC) and lamivudine/ zidovudine combination tablets (Combivir).

Information for patients.

There are no clinical data on the efficacy of lamivudine 100 mg daily in patients coinfected with hepatitis B virus and delta virus. There is no information available on maternal foetal transmission of hepatitis B virus in pregnant women receiving treatment with lamivudine 100 mg. The standard recommended procedures for hepatitis B virus immunisation in infants should be followed.
Patients should be advised that therapy with lamivudine 100 mg has not been proven to reduce the risk of transmission of hepatitis B virus to others and therefore, appropriate precautions should still be taken.

Diabetes (oral solution only).

Diabetic patients should be advised that each dose of oral solution (100 mg = 20 mL) contains 4 g of sucrose.

Animal toxicity.

Administration of lamivudine in animal toxicity studies at high doses was not associated with any major organ toxicity. At the highest dosage levels, minor effects on indicators of liver and kidney function were seen together with occasional reduction in liver weights. Reduction of erythrocytes and neutrophil counts were identified as the effects most likely to be of clinical relevance. These events were seen infrequently in clinical studies.

Use in renal impairment.

In patients with moderate to severe renal impairment, serum lamivudine concentrations (AUC) are increased due to decreased renal clearance, therefore the dose should be reduced for patients with a creatinine clearance of < 50 mL/minute (see Section 4.2 Dose and Method of Administration).

Use in the elderly.

No data available.

Paediatric use.

No data available.

Effects on laboratory tests.

No data available.

4.5 Interactions with Other Medicines and Other Forms of Interactions

The likelihood of metabolic interactions is low due to limited metabolism and plasma protein binding and almost complete renal elimination of unchanged drug.
Lamivudine is predominantly eliminated by active organic cationic secretion. The possibility of interactions with other drugs administered concurrently should be considered, particularly when their main route of elimination is active renal secretion via the organic cationic transport system, e.g. trimethoprim. Other drugs (e.g. ranitidine, cimetidine) are eliminated only in part by this mechanism and were shown not to interact with lamivudine.
Drugs shown to be predominately excreted either via the active organic anionic pathway, or by glomerular filtration are unlikely to yield clinically significant interactions with lamivudine.
Administration of trimethoprim, as trimethoprim/sulfamethoxazole 160 mg/800 mg, causes an increase of about 40% in lamivudine plasma levels. However, unless the patient has renal impairment, no dosage adjustment of lamivudine is necessary. Lamivudine has no effect on the pharmacokinetics of trimethoprim/sulfamethoxazole. Administration of lamivudine in patients with renal impairment should be assessed carefully.
A modest increase in Cmax (28%) was observed for zidovudine when administered with lamivudine, however overall exposure (AUC) was not significantly altered. Zidovudine had no effect on the pharmacokinetics of lamivudine (see Section 5.2 Pharmacokinetic Properties).
Lamivudine has no pharmacokinetic interaction with alpha-interferon when the two drugs are concurrently administered. There were no observed clinically significant adverse interactions in patients taking Zeffix concurrently with commonly used immunosuppressant drugs (e.g. cyclosporin A). However, formal interaction studies have not been performed.
Lamivudine may inhibit the intracellular phosphorylation of zalcitabine when the two medicinal products are used concurrently. Zeffix is therefore not recommended to be used in combination with zalcitabine.
Lamivudine may inhibit the intracellular phosphorylation of emtricitabine when the two medicinal products are used concurrently. Lamivudine is not recommended for use in combination with emtricitabine.

4.6 Fertility, Pregnancy and Lactation

Effects on fertility.

No evidence of impaired fertility was seen in rats administered lamivudine at oral doses up to 2000 mg/kg BID, resulting in a maximum systemic exposure (based on Cmax) of at least 59 times those observed at the clinical dosage.
This reproductive study in rats has shown no effect on male or female fertility.
(Category B3)
There are limited data available on the safety of lamivudine in human pregnancy. Studies in humans have confirmed that lamivudine crosses the placenta. Lamivudine concentrations in infant serum at birth were similar to those in maternal and cord serum at delivery.
Lamivudine crosses the placenta in rats and rabbits. No evidence of teratogenicity was observed in rats and rabbits at oral doses up to 2000 and 500 mg/kg BID, respectively, resulting in systemic exposures of at least 51 and 45 times (based on Cmax), respectively, of those observed at the clinical dosage. However, embryonic loss was increased, with consequent reduction in litter size, in rabbits at oral doses of 20 mg/kg BID and above, resulting in systemic exposures (based on both Cmax and AUC) comparable to those observed at the clinical dosage. No embryonic loss occurred in rats at systemic exposures of at least 51 times the clinical exposure (Cmax).
The safety of lamivudine has not been established in human pregnancy. Use in pregnancy should be considered only if the benefit outweighs the risk. Although the results of animal studies are not always predictive of human response, the findings in the rabbit suggest a potential risk of early embryonic loss. Consequently, Zeffix administration is not recommended during the first three months of pregnancy.
For patients who are being treated with lamivudine and subsequently become pregnant, consideration should be given to the possibility of a recurrence of hepatitis on discontinuation of lamivudine (see Section 4.4 Special Warnings and Precautions for Use).
Following oral administration lamivudine was excreted in human breast milk at similar concentrations to those found in serum (range 1-8 microgram/mL). The safety of lamivudine has not been established in breastfed infants. No effects were observed in neonatal rats which received lamivudine via maternal milk and supplemented with oral (gavage) dosing, resulting in systemic exposures (Cmax) of 16 to 19 times those observed at the clinical dosage.
Lamivudine should only be used in a nursing mother if the expected benefit justifies the potential risk to the infant. A decision must be made whether to discontinue breastfeeding or to discontinue/abstain from lamivudine therapy, taking into account the benefit of breastfeeding for the child and the benefit of therapy for the woman.

4.7 Effects on Ability to Drive and Use Machines

There have been no studies to investigate the effect of lamivudine on driving performance or the ability to operate machinery. Further, a detrimental effect on such activities cannot be predicted from the pharmacology of the drug. Nevertheless, the clinical status of the patient and the adverse event profile of lamivudine should be borne in mind when considering the patient's ability to drive or operate machinery.

4.8 Adverse Effects (Undesirable Effects)

Clinical trial information.

Adults.

In clinical studies of patients with chronic hepatitis B, lamivudine 100 mg was well tolerated. The incidence of adverse events and laboratory abnormalities (with the exception of elevations of ALT and CPK, see below) were similar between placebo and lamivudine 100 mg treated patients. The most common adverse events reported were malaise and fatigue, respiratory tract infections, headache, abdominal discomfort and pain, nausea, vomiting and diarrhoea. The clinical adverse events occurring at an incidence of 1% or greater in controlled clinical trials and considered to be possibly, probably or almost certainly related to lamivudine are shown in Table 3. A dash represents an incidence of less than 1%.

Children and adolescents.

In clinical studies of paediatric and adolescent patients with chronic hepatitis B, lamivudine 100 mg was well tolerated. The incidence of adverse events was similar between placebo and lamivudine 100 mg treated patients and is consistent with those seen in the adult patient population. The most common adverse events reported were abdominal discomfort and pain and headache. The clinical adverse events occurring at an incidence of 3% or greater in controlled clinical trials and considered to be possibly, probably or almost certainly related to lamivudine are shown in Table 4.
Adverse reactions are listed below by system organ class and frequency. Frequency categories are only assigned to those adverse reactions considered to be at least possibly causally related to lamivudine. Frequencies are defined as: very common (≥ 1/10), common (≥ 1/100 to < 1/10), uncommon (≥ 1/1000 to < 1/100), rare (≥ 1/10,000 to < 1/1000) and very rare (< 1/10,000).
The frequency categories assigned to the adverse reactions below are estimates: for most events, suitable data for calculating incidence are not available. Very common and common adverse drug reaction frequency categories were determined from clinical trial data and the background incidence of placebo groups was not taken into account. Adverse drug reactions identified through postmarketing surveillance were categorised as rare or very rare.

Hepatobiliary disorders.

Very common: elevations of ALT.
Elevations in ALT were more common post-treatment in patients treated with Zeffix than placebo. In controlled trials in patients with compensated liver disease, however, there was no appreciable difference post-treatment in clinically severe ALT elevations associated with bilirubin elevations and/or signs of hepatic insufficiency, between Zeffix and placebo treated patients. The relationship of these recurrent hepatitis events to Zeffix treatment or to the previous underlying disease is uncertain (see Section 4.4 Special Warnings and Precautions for Use).

Musculoskeletal and connective tissue disorders.

Common: elevations of CPK.

Postmarketing data.

In addition to adverse events reported from clinical trials, the following events have been identified during postapproval use of Zeffix.

Blood and lymphatic system disorders.

Very rare: thrombocytopenia.

Musculoskeletal and connective tissue disorders.

Common: muscle disorders, including myalgia and cramps.
Very rare: rhabdomyolysis.

Reporting suspected adverse effects.

Reporting suspected adverse reactions after registration of the medicinal product is important. It allows continued monitoring of the benefit-risk balance of the medicinal product. Healthcare professionals are asked to report any suspected adverse reactions at www.tga.gov.au/reporting-problems.

4.9 Overdose

Administration of lamivudine at very high dose levels in acute animal studies did not result in any organ toxicity. Limited data are available on the consequences of ingestion of acute overdoses in humans. No fatalities occurred, and the patients recovered. No specific signs or symptoms have been identified following such overdose.
If overdose occurs the patient should be monitored, and standard supportive treatment applied as required. Since lamivudine is dialysable, continuous haemodialysis could be used in the treatment of overdose, although this has not been studied.
For information on the management of overdose, contact the Poisons Information Centre on 13 11 26 (Australia).

5 Pharmacological Properties

5.1 Pharmacodynamic Properties

Mechanism of action.

Lamivudine is an antiviral agent which is highly active against hepatitis B virus in virus transfected human hepatoma cell lines and in experimentally infected animals.
Lamivudine is metabolised by both hepatitis B virus transfected and nontransfected hepatoma cells to the triphosphate (TP) derivative which is the active form of the parent compound. The intracellular half-life of the triphosphate in hepatoma cells is 17-19 hours in vitro. Lamivudine-TP acts as a substrate for the HBV viral polymerase. It is considered that the formation of further viral DNA is blocked by incorporation of lamivudine-TP into the chain and subsequent chain termination.
Lamivudine-TP does not interfere with cellular deoxynucleotide metabolism. It is also a weak inhibitor of mammalian DNA polymerases alpha and beta. Furthermore, lamivudine-TP has little effect on mammalian cell DNA content.
In assays relating to potential drug effects on mitochondrial structure and DNA content and function, lamivudine lacked appreciable toxic effects. It has a very low potential to decrease mitochondrial DNA content, is not permanently incorporated into mitochondrial DNA, and does not act as an inhibitor of mitochondrial DNA polymerase gamma.

Clinical trials.

Adults.

The safety and efficacy of lamivudine were evaluated in five controlled studies. One of the studies (NUCB3014) was conducted in HBeAg negative/HBV DNA positive patients.
NUCA3010 was a randomised, double blind comparison in 143 patients in the USA of lamivudine 100 mg once daily vs. placebo for 52 weeks followed by a 16 week no treatment period in treatment naive patients. The primary endpoint was improvement in liver histology. After 52 weeks of treatment a significantly greater number of patients who received lamivudine demonstrated an improvement in necroinflammatory score compared to placebo (53% lamivudine vs. 24% placebo; p < 0.001). HBeAg seroconversion occurred significantly more frequently in lamivudine patients (17%) than in placebo treated patients (6%) (p < 0.05). Significantly more lamivudine treated patients demonstrated a sustained HBV DNA response (defined as negative HBV DNA on two consecutive occasions without two consecutive positive values to end week 52) compared to placebo (44 vs. 16% respectively; p < 0.001). Similarly, a significantly greater number of lamivudine treated patients (41%) demonstrated a sustained normalisation of ALT (defined as two consecutive ALT values < ULN maintained to week 52) compared to placebo (7%; p < 0.001).
NUCB3009 was a randomised, double blind comparison of lamivudine 25 mg daily vs. lamivudine 100 mg daily vs. placebo for 52 weeks in 358 Asian patients. The primary endpoint was improvement in liver histology. After 52 weeks of treatment a significantly greater number of patients who received lamivudine 100 mg demonstrated an improvement in necroinflammatory score compared to placebo (56% lamivudine vs. 25% placebo; p < 0.001). HBeAg seroconversion occurred significantly more frequently in lamivudine 100 mg patients (16%) than in placebo treated patients (4%) (p < 0.05). Significantly more lamivudine 100 mg treated patients demonstrated a sustained HBV DNA response compared to placebo (57% vs. 3% respectively; p < 0.001). Similarly, a significantly greater number of lamivudine 100 mg treated patients (72%) demonstrated a sustained normalisation of ALT compared to placebo (24%; p < 0.001).
NUCB3010 was a randomised, partially blind comparison in 230 predominantly Caucasian patients of lamivudine 100 mg once daily for 52 weeks vs. placebo once daily for 8 weeks followed by placebo once daily plus interferon alpha monotherapy (10 MU subcutaneously three times weekly) for 16 weeks vs. lamivudine 100 mg once daily for 8 weeks followed by lamivudine 100 mg once daily plus interferon alpha monotherapy (10 MU subcutaneously three times weekly) for 16 weeks. The primary endpoint was HBeAg seroconversion with concomitant clearance of HBV DNA. There was no statistically significant difference in the rates of HBeAg seroconversion demonstrated by the three treatment groups (18% lamivudine, 19% interferon alpha, 29% lamivudine plus interferon alpha). A greater proportion of patients in the lamivudine treated group demonstrated a sustained ALT normalisation than in the interferon alpha alone group (40% vs. 17% respectively; p < 0.01) but there was no difference between lamivudine and the combination group. The safety profile of lamivudine 100 mg daily alone was superior to the interferon alpha containing treatment regimens.
NUCB3018 was a randomised, double blind, placebo controlled follow on study of NUCB3009. The primary endpoint was sustained suppression of HBV DNA. Fifty-two percent of patients receiving lamivudine for two years achieved a sustained suppression in HBV DNA through to week 104 compared to 5% of patients who received lamivudine for one year followed by placebo (p < 0.001). Sustained ALT response was evident in 50% of patients after 104 weeks lamivudine compared to 8% in patients randomised to placebo after the first 52 weeks of lamivudine (p < 0.001). HBeAg seroconversion was observed in 27% (25/93) of patients.
NUCB3014 was a randomised, double blind comparison of lamivudine 100 mg once daily for 52 weeks vs. placebo for 26 weeks (nonresponders were withdrawn at week 26) in 125 predominantly Caucasian patients with HBeAg negative/HBV DNA positive chronic hepatitis B. The primary endpoint was combined clearance of HBV DNA and ALT normalisation. Sustained suppression of HBV DNA at 52 weeks occurred significantly more often in the lamivudine group (71%) than in the placebo group (15%) (p < 0.001) demonstrating that lamivudine is effective at suppressing HBV replication in patients infected with precore mutant HBV. Sustained normalisation of serum ALT occurred in a significantly greater proportion of lamivudine treated patients (67%) compared to placebo (5%) (p < 0.001).
In the analysis of NUCB3009 and NUCA3010 progression of fibrosis occurred in more patients receiving placebo compared to patients receiving lamivudine 100 mg (NUCB3009: 15% vs. 3%, p = 0.009; NUCA3010: 27% vs. 6%, p = 0.004). However, given the slow progression of fibrosis, the long-term clinical significance of these results is not known.
In patients who have not HBeAg seroconverted during treatment, discontinuation of Zeffix results in a return of HBV replication with both HBV DNA and serum aminotransferases returning towards pretreatment levels within 2-6 months.
In small uncontrolled studies in patients with decompensated liver disease due to chronic hepatitis B, lamivudine 100 mg daily has been administered prior to, during and postliver transplantation, to suppress existing or recurrent HBV. In some of these patients, lamivudine 100 mg daily demonstrated HBV suppression and normalisation of serum aminotransferase.
HBV viral subpopulations with reduced susceptibility to lamivudine in vitro have been identified. In the sensitive polymerase chain reaction (PCR) assay YMDD variant HBV was detected in a minority of chronic hepatitis B patients who experienced a return of detectable serum HBV DNA levels whilst on lamivudine 100 mg daily treatment. YMDD variant HBV was detected in a minority of chronic hepatitis B patients without decompensated liver disease treated with lamivudine 100 mg once daily for 52 weeks (16-32%). The incidence of YMDD variant HBV detected by PCR increases with duration of treatment (42% at 2 years) and may be influenced by the immune status of the patient. A higher proportion of immunosuppressed patients had detectable YMDD variant HBV during treatment of hepatitis B recurrence following liver transplantation.
Despite the emergence of YMDD mutant HBV, patients treated for one year had significantly lower serum HBV DNA and ALT levels and improved liver histology compared to patients on placebo. After 2 years of Zeffix treatment, patients with YMDD mutant HBV maintained lower serum HBV DNA and ALT levels than their pretreatment values. The adverse event profile is similar for patients with or without YMDD mutant HBV.
Following the development of YMDD mutant HBV, the withdrawal of lamivudine 100 mg daily was followed by a re-emergence of wild type HBV which is sensitive to lamivudine 100 mg (see Section 4.4 Special Warnings and Precautions for Use). Therefore, despite the development of YMDD mutants, continuation of lamivudine 100 mg therapy will suppress residual wild type HBV and may provide continued benefit in these patients. YMDD mutant HBV appears to be less replication competent in vitro and in vivo and therefore may be less virulent than wild type HBV.

Children and adolescents.

In a randomised, double blind, placebo controlled study of 286 patients aged 2 to 17 years with chronic hepatitis B who were HBsAg positive for at least 6 months, HBeAg positive, with detectable HBV DNA, ALT ≥ 1.3 x ULN and liver biopsy evidence of inflammation. Patients were randomised (2:1) to receive 52 weeks of lamivudine 3 mg/kg once daily to a maximum of 100 mg once daily or placebo.
Patients treated with lamivudine for one year had a significantly better complete virological response (loss of HBeAg and HBV DNA) compared with patients receiving placebo (23% (44/191) vs. 13% (12/95) p = 0.037). Normalisation of serum ALT was more frequent in patients treated with lamivudine compared with placebo (55% (100/183) vs. 13% (11/88) p < 0.001). In a stratified follow on study for 6 months, complete virological response was maintained in 83% (33/40) of patients who had responded after one year of treatment with lamivudine and then stopped therapy.
Lamivudine treated patients who did not respond after one year continued treatment for a further 6 months resulting in an additional 10% (12/123) of patients achieving complete virological response and a cumulative complete virological response of 28% (45/163) over 18 months. The complete virological response rate in the last 6 months of treatment was consistent with the placebo response rate, a benefit from continuing treatment in children beyond 52 weeks has not been established.
The incidence of YMDD variant HBV was 18% (30/166) at week 52 and up to 45% (53/118) in patients treated continuously for 18 months. No HBeAg seroconversion was observed in patients with YMDD variant HBV.

5.2 Pharmacokinetic Properties

Absorption.

Lamivudine is well absorbed from the gut, and the bioavailability of oral lamivudine in adults is normally between 80 and 85%. Following oral administration, the mean time (Tmax) to maximal serum concentrations (Cmax) is about an hour. At therapeutic dose levels, i.e. 100 mg once daily, Cmax is in the order of 1-1.5 microgram/mL and trough levels were 0.015-0.020 microgram/mL.
The 100 mg tablet was administered orally to 16 healthy subjects on two occasions, once in the fasted state and once with food (standard meal: 967 kcal; 67 g fat, 33 g protein, 58 g carbohydrate). There was no significant difference in systemic exposure (AUCinf) in the fed and fasted states. A reduction in Cmax (about 10%) and delay in Tmax (0.25 hrs) with the ingestion of a high fat meal were not statistically or clinically significant.

Distribution.

From intravenous studies, the mean volume of distribution is 1.3 L/kg. Lamivudine exhibits linear pharmacokinetics over the therapeutic dose range and displays low plasma protein binding to albumin.
Limited data show relatively low penetration of lamivudine into the central nervous system. The mean ratio CSF/serum lamivudine concentration 2 to 4 hours after oral administration was approximately 0.12.

Metabolism.

Lamivudine is predominately cleared by renal excretion of unchanged drug. The likelihood of metabolic drug interactions with lamivudine is low due to limited metabolism and plasma protein binding and almost complete renal clearance. An interaction with trimethoprim, a constituent of cotrimoxazole (trimethoprim with sulfamethoxazole) causes a 40% increase in lamivudine exposure at therapeutic doses.

Excretion.

The mean systemic clearance of lamivudine is approximately 0.3 L/h/kg. The observed half-life of elimination is 5 to 7 hours. The majority of lamivudine is excreted unchanged in the urine via glomerular filtration and active secretion (organic cationic transport system). Renal clearance accounts for about 70% of lamivudine elimination.

Special populations.

Lamivudine pharmacokinetics were evaluated in a 28 day dose ranging study in 53 paediatric patients with chronic hepatitis B. Patients aged 2 to 12 years were randomised to receive lamivudine 0.35 mg/kg twice daily, 3 mg/kg once daily, 1.5 mg/kg twice daily, or 4 mg/kg twice daily. Patients aged 13 to 17 years received lamivudine 100 mg once daily. Lamivudine was rapidly absorbed (Tmax 0.5 to 1 hour). In general, both Cmax and exposure (AUC) showed dose proportionality in the dose range studied. Weight correct oral clearance was highest at age 2 and declined from 2 to 12 years, where values were similar to those seen in adults. A dose of 3 mg/kg given once daily produced a steady-state lamivudine AUC (mean 5953 nanogram.hour/mL ± 1562 SD) similar to that associated with a dose of 100 mg/day in adults.
Studies in patients with renal impairment show there is a linear relationship between lamivudine clearance and renal function. Dose reduction in patients with a creatinine clearance of < 50 mL/min is necessary (see Section 4.2 Dose and Method of Administration).
A study in non-HIV and non-HBV infected hepatically impaired patients (n = 16) showed lamivudine is well tolerated in this patient group with no changes in laboratory parameters or the adverse event profile of lamivudine. The pharmacokinetics of lamivudine are unaffected by hepatic impairment. Limited data in patients undergoing liver transplantation (n = 14), show that impairment of hepatic function does not impact significantly on the pharmacokinetics of lamivudine unless accompanied by renal dysfunction.
In elderly patients (n = 6) the pharmacokinetic profile of lamivudine suggests that normal ageing with accompanying renal decline has no clinically significant effect on lamivudine exposure, except in patients with creatinine clearance of < 50 mL/min (see Section 4.2 Dose and Method of Administration).
Following oral administration, lamivudine pharmacokinetics in late pregnancy were similar to nonpregnant adults.

5.3 Preclinical Safety Data

Genotoxicity.

Lamivudine was not mutagenic in Salmonella typhimurium or E. coli reverse mutation assays with and without metabolic activation but did induce mutations at the thymidine kinase locus of the mouse lymphoma L5178Y cells without metabolic activation and was clastogenic in human peripheral blood lymphocytes, with and without metabolic activation in vitro. In rats, an oral dose of lamivudine 2000 mg/kg did not cause chromosomal aberrations in bone marrow cells, nor unscheduled DNA synthesis in primary hepatocytes in vivo. Three consecutive daily oral doses of lamivudine 2000 mg/kg in rats, resulting in a systemic exposure (based on Cmax) of at least 56 times the clinical exposure, did not induce micronuclei in bone marrow in vivo.
Lamivudine was not genotoxic in vivo at doses that gave plasma concentrations around 60-70 times higher than the anticipated clinical plasma levels. As the in vitro mutagenic activity of lamivudine could not be confirmed by in vivo tests, it is concluded that lamivudine should not represent a genotoxic hazard to patients undergoing treatment.

Carcinogenicity.

When lamivudine was administered orally to separate groups of rodents at doses of up to 2000 (mice and male rats) or 3000 (female rats) mg/kg/day, there was no evidence of a carcinogenic effect in the mouse study, nor in male rats (at 37 and 133 times the estimated human exposure, based on AUC, respectively). In female rats, no increase in tumours was observed at the intermediate dose of 1000 mg/kg/day, which resulted in a systemic exposure based on AUC 78 times the estimated human exposure. However, there was an increase in endometrial tumours in female rats at the highest dose (9% tumour incidence) compared with controls (4% incidence). The high dose in female rats resulted in a systemic exposure 220 times the estimated human exposure based on AUC. The relationship of the increase in tumours to treatment is uncertain.

6 Pharmaceutical Particulars

6.1 List of Excipients

Zeffix tablets contain microcrystalline cellulose, sodium starch glycollate, magnesium stearate, hypromellose (464), titanium dioxide (171), macrogol, polysorbate 80 (433), yellow iron oxide CI77192 and red iron oxide CI77491.
Zeffix oral solution contains sucrose, methyl hydroxybenzoate, propyl hydroxybenzoate, citric acid, propylene glycol, sodium citrate dihydrate, strawberry 57883 AP0551 (PI 2480), banana flavour 59256 AP0551 (PI 2481), and purified water.
See Section 2 Qualitative and Quantitative Composition.

6.2 Incompatibilities

Incompatibilities were either not assessed or not identified as part of the registration of this medicine.

6.3 Shelf Life

In Australia, information on the shelf life can be found on the public summary of the Australian Register of Therapeutic Goods (ARTG). The expiry date can be found on the packaging.

6.4 Special Precautions for Storage

Tablets.

Store below 30°C.

Oral solution.

Store below 25°C.

6.5 Nature and Contents of Container

Tablets.

Zeffix tablets are supplied in blister packs (AI/AI material) containing 28 tablets or 84 tablets*.
*Pack size not currently marketed.

Oral solution.

Zeffix oral solution is supplied in an opaque white HDPE bottle, with a child-resistant cap.

6.6 Special Precautions for Disposal

In Australia, any unused medicine or waste material should be disposed of by taking to your local pharmacy.

6.7 Physicochemical Properties

Chemically, lamivudine is the free base of (2R-cis)-4- amino-1-(2- hydroxymethyl-1,3- oxathiolan-5-yl)-(1H)- pyrimidin-2-one.
The molecular formula of lamivudine is C8H11N3O3S and it has a relative molecular mass of 229.3.

Chemical structure.

Lamivudine has the following structural formula:

CAS number.

CAS Registry Number: 134678-17-4.

7 Medicine Schedule (Poisons Standard)

S4.

Summary Table of Changes