Gliclazide Chemical Name: 1-(3-azabicyclo[3.3.0]oct-3-yl)-3-p-tolylsulphonylurea. Structural Formula: Molecular Formula: C15H21N3O3S Molecular Weight: 323.4 CAS Registry Number: 21187-98-4
Gliclazide is a white or almost white powder which is practically insoluble in water. Gliclazide tablets are intended for oral administration. Each tablet contains gliclazide 80 mg. They are round, white, flat-sided tablets with bevelled edges, engraved "APO" over "80" on one side, cross-scored on the other side. In addition, each tablet contains the following inactive ingredients: croscarmellose sodium, magnesium stearate, colloidal anhydrous silica, lactose, microcrystalline cellulose.
Gliclazide is a sulfonylurea hypoglycaemic agent which restores the diminished first-phase of insulin secretion noted in non-insulin dependant diabetes mellitus. Gliclazide stimulates insulin secretion from functional pancreatic -cells and increases the sensitivity of the -cells to a glucose stimulus (some residual -cell function is therefore necessary). Any long-term hypoglycaemic activity of gliclazide is primarily due to its ability to maintain an effect on insulin secretion, although extrapancreatic effects may also be involved. Extrapancreatic effects demonstrated for gliclazide include improvement in insulin mediated glucose utilisation and potentiation of postreceptor insulin sensitive pathways. At normal therapeutic doses in man, gliclazide reduces platelet adhesiveness and aggregation.
Absorption
Following the absorption of gliclazide peak serum concentrations are reached within 4 to 6 hours. Single dose studies have demonstrated that maximal falls in blood glucose levels (23% for an 80 mg dose; 30% for a 160 mg dose) occur approximately five hours after drug administration. Following a dose of 160mg, a 20% reduction in blood glucose levels was still evident after nine hours. The half-life of gliclazide is approximately 12 hours.
Distribution
Gliclazide is distributed to the extracellular fluid. In animals, high concentrations of the drug were found in the liver, kidneys, skin, lungs, skeletal muscle, intestinal and cardiac tissue. Penetration of gliclazide into the central nervous system was negligible. Gliclazide crosses the placental barrier and penetrates the foetus. The apparent volume of distribution of gliclazide (20 to 40% expressed as a percentage bodyweight) is low and probably reflects the high degree of protein binding (94.2% at a plasma concentration of approximately 8 mg/mL).
Metabolism and Excretion
Little information is available on the metabolism of gliclazide. At least eight metabolites (three major) have been identified by thin layer and gas-liquid chromatography. Some of these are glucuronic acid conjugates; only one of the metabolites has been identified rho-toluene sulfonamide). The liver is the probable site of metabolism. Approximately 70% of the administered dose appears to be excreted in the urine and 11% in the faeces. The urinary excretion of the drug is slow and the maximum rates do not occur until 7 to 10 hours after initial administration. The metabolic products are detectable in the urine 120 hours after oral administration. Faecal elimination is usually complete within 144 hours of oral administration.
Diabetes mellitus of the maturity onset type, which cannot be controlled by diet alone.
Diabetes complicated by acidosis, ketosis, pre-coma or coma, or in patients with a history of repeated episodes of ketoacidosis or coma. Juvenile onset (Type I) diabetes, unstable or brittle diabetes - sulfonylurea hypoglycaemic agents are not effective in these conditions. Severe renal or hepatic insufficiency. Known hypersensitivity to gliclazide, other sulfonylureas, sulfonamides, or any of the inactive ingredients listed under PRESENTATION AND STORAGE CONDITIONS. Treatment with miconazole (refer to Interactions with Other Medicines) Pregnancy and lactation (refer to PRECAUTIONS - Use in Pregnancy and Use in Lactation). It is generally not recommended to use this agent in combination with phenylbutazone or danazol (refer to Interactions with Other Medicines).
These acute complications provoke additional metabolic stress, which accentuate the predisposition to hyperglycaemia and ketosis. Patients presenting with such conditions may require insulin to maintain control. It is not appropriate to increase the dosage of gliclazide.
The prescriber needs to educate the patient to be alert to the signs and symptoms of hypoglycaemia (refer to ADVERSE EFFECTS and OVERDOSAGE), and discuss prevention/treatment strategies with the patient at consultation. Hypoglycaemia may occur following administration of sulfonylureas. Rarely hypoglycaemia may be severe and prolonged, and may require hospitalisation where glucose infusion may need to be continued for several days. Careful selection of patients and of the dose used are necessary to avoid hypoglycaemic episodes. Experience with sulfonylureas shows that hypoglycaemia can recur even when measures such as the intake of carbohydrate such as sugar are initially effective. If a hypoglycaemic episode is severe or prolonged, and even if it is temporarily controlled by intake of sugar, immediate medical treatment or even hospitalisation is required. Patients must be warned that artificial sweeteners are not recommended in the treatment of hypoglycaemia as they have negligible effect. Patients who may be particularly sensitive to antidiabetic agents include those who are elderly, undernourished or who have poor general health, and patients with adrenal insufficiency or hypopituitarism. Hypoglycaemia may be difficult to recognise in elderly patients and those receiving beta-blockers. Close observation and careful initiation and adjustment of dosage is mandatory in patients who are elderly and debilitated, malnourished, semistarved or simply neglecting dietary restrictions. In such patients severe hypoglycaemia may occur with all sulfonylureas and may require corrective therapy over a period of several days. Certain conditions such as alcoholism, insulinoma, adrenal thyroid and pituitary insufficiency increase the sensitivity to sulfonylureas and may dispose to hypoglycaemia. This treatment should only be prescribed if the patient is likely to have a regular food intake (including breakfast). It is important to have a regular carbohydrate intake due to the increased risk of hypoglycaemia if a meal is delayed, an inadequate amount of food is consumed or the food is low in carbohydrate. Hypoglycaemia is more likely to occur during periods of low-calorie diet, following prolonged or strenuous exercise, following alcohol intake or during treatment with a combination of hypoglycaemic agents.
Blood glucose control in treated patients may be jeopardised by: fever, trauma, infection or surgical intervention. It may be necessary to discontinue treatment and to administer insulin in these cases. The efficacy of oral antidiabetic agents often decreases in the long term. This may be due to progression in the severity of the diabetes, or to a reduced response to treatment. This phenomenon is known as secondary failure and should be distinguished from primary failure, when the drug is ineffective as first-line treatment. However, before classifying the patient as a secondary failure, dose adjustment and reinforcement of dietary measures should be considered.
Treatment of patients with G6PD-deficiency with sulfonylurea agents can lead to haemolytic anaemia. Since gliclazide belongs to the chemical class of sulfonylurea drugs, caution should be used in patients with G6PD-deficiency and a non-sulfonylurea alternative should be considered.
Due to the presence of lactose, patients with rare hereditary problems of galactose intolerance, glucose galactose malabsorption, or the Lapp lactase deficiency should not take this medicinal product.
Glycated haemoglobin should be monitored regularly. Blood glucose measurement may also be useful.
As with other antidiabetic therapies, patients must be under close medical supervision. Particular care must be taken during the initial period of stabilisation. Patients treated with gliclazide should be monitored regularly to ensure optimal control of the diabetic state, and where necessary, for adjustment of dosage. It is not generally recommended that insulin treated patients be transferred to gliclazide. Patients who have been previously treated with sulfonylureas or biguanides alone or in combination may be transferred to gliclazide. When gliclazide is administered as sole therapy to patients who have previously required combination therapy (e.g. biguanides and sulfonylureas), careful observation is essential during the transitional phase.
Severe renal or hepatic insufficiency may affect the distribution of gliclazide and hepatic insufficiency may also reduce the capacity for neoglucogenesis. These two effects increase the risk of severe hypoglycaemic reactions. A hypoglycaemic episode in these patients may be prolonged and appropriate management should be initiated.
Comprehensive instructions must be given to the patient about the nature of the disease and what must be done to detect and prevent complications.
Gliclazide should not be used in pregnant women. It is important to achieve strict normoglycaemia during pregnancy. Oral hypoglycaemic agents should be replaced by insulin. The sulfonylureas may enter the foetal circulation and cause neonatal hypoglycaemia. In animal studies embryotoxicity and/or birth defects have been demonstrated. Gliclazide should not be used in pregnant women although animal studies of gliclazide have not shown any teratogenic effect. From a clinical point of view, there are no adequate data to allow evaluation of the possible malformative or foetotoxic effects of gliclazide, when administered during pregnancy.
In the absence of data on the transfer of gliclazide into breast milk, and given the risk of neonatal hypoglycaemia, breast-feeding is contra-indicated during treatment with this product.
No animal studies have been performed that investigate the carcinogenic potential of gliclazide.
Patients should be made aware of the signs and symptoms of hypoglycaemia and should be careful if driving or operating machinery, especially at the beginning of treatment.
1 .
Australian Categorisation Definition of Category C
: Drugs which, owing to their pharmacological effects, have caused or may be suspected of causing, harmful effects on the human foetus or neonate without causing malformations. These effects may be reversible
Disturbances of Blood Sugar Control Thiazide diuretics may aggravate the diabetic state and caution should be used when administering thiazide diuretics to patients on gliclazide therapy. Other drugs which may adversely affect blood sugar control with hypoglycaemic agents include barbiturates, chlorpromazine, danazol, glucocorticoids, oestrogens and progestogens, salbutamol, terbutaline.
Potentiation of Hypoglycaemic Effect
Certain drugs may potentiate the effect of gliclazide and thereby increase the risk of hypoglycaemia. These include insulin, acarbose, biguanides, sulfonamides, oxyphenbutazone, phenylbutazone, clofibrate, salicylates (high doses), coumarin derivates, chloramphenicol, MAOIs, -blockers, cimetidine, ACE inhibitors, ethanol, fluconazole and miconazole (Note: miconazole is contra-indicated with gliclazide), H2 receptor antagonists and nonsteroidal anti-inflammatory agents. Warn the patient and emphasise the importance of self-monitoring of blood glucose levels. It may be necessary to adjust the dose of the antidiabetic agent during treatment with these substances.
Sulphonylureas may lead to potentiation of anticoagulation during concurrent treatment. Adjustment of the anticoagulant may be necessary
Alcohol
Acute alcohol intoxication potentiates the hypoglycaemic action of all sulfonylurea agents. Furthermore, ingestion of alcohol may cause a disulfiram-like reaction with characteristic flushing of the face, throbbing headache, giddiness, tachypnoea, tachycardia or angina pectoris. Chronic alcohol abuse may, as a result of liver enzyme induction stimulate the metabolism of sulfonylurea drugs and shorten plasma half life and duration of action.
Adverse reactions have occurred in some 12% of cases in clinical studies. However, approximately 2% of patients were withdrawn from therapy because of adverse reactions, notably hypoglycaemia, gastrointestinal disturbances (constipation, nausea, epigastric discomfort and heartburn), dermatological reactions (rash and transient itching), and biochemical abnormalities (elevated serum creatinine, increased serum alkaline phosphatase, raised serum AST, elevated BUN and raised serum bilirubin). Headache, slight disulfiram like reactions and lassitude have also been reported. Serious reactions which have been reported with other sulfonylureas are leucopenia, thrombocytopenia, agranulocytosis, pancytopenia, haemolytic anaemia, cholestatic jaundice and gastrointestinal haemorrhage. These reactions have not been reported with gliclazide. (see also Class attribution effects, near the end of this section).
Hypoglycaemia (refer to PRECAUTIONS and OVERDOSAGE)
As is the case with all sulfonylurea drugs, hypoglycaemic reactions have been reported following gliclazide administration. However, a number of studies have shown that hypoglycaemia is less common with gliclazide than with glibenclamide. In long-term comparative studies, the percentage of patients experiencing hypoglycaemic episodes was similar between patients treated with gliclazide MR (11.6%) and those treated with gliclazide 80 mg (11.1%). Possible signs and symptoms of hypoglycaemia are: headache, intense hunger, nausea, vomiting, lassitude, sleep disorders, agitation, aggression, poor concentration, reduced awareness and slowed reactions, depression, confusion, visual and speech disorders, aphasia, tremor, paresis, sensory disorders, dizziness, feeling of powerlessness, loss of self-control, delirium, convulsions, shallow respiration, bradycardia, drowsiness and loss of consciousness, possibly resulting in coma and/or death. In addition, signs and symptoms of hypoglycaemic adrenergic counter-regulation may be observed: sweating, clammy skin, anxiety, tachycardia, hypertension, palpitations, angina pectoris and cardiac arrhythmia. Adverse events that were reported in at least 2.0% of patients, in long-term controlled clinical studies, are presented in the following table. The most frequent adverse events were not specifically related to the disease (such as respiratory infections or back pain).
Treatment emergent adverse events * (listed by body system) occurring in >= 2.0% of patients in long-term controlled clinical trials
| Gliclazide 80 mg (n=734) % | Gliclazide MR (n=728) % | |
| Resistance mechanism Viral infection | 5.6 | 7.7 |
| Respiratory | 4.6 | 4.4 |
| Rhinitis | ||
| Bronchitis | 4.6 | 4.4 |
| Pharyngitis | 3.5 | 4.3 |
| Upper respiratory infection | 3.7 | 3.3 |
| Coughing | 2.0 | 2.1 |
| Musculo-skeletal | 4.1 | 5.2 |
| Back pain | ||
| Arthralgia | 3.5 | 3.0 |
| Arthrosis | 2.2 | 2.2 |
| Secondary term Inflicted injury | 4.5 | 4.3 |
| Body as a whole | 4.6 | 3.8 |
| Headache | ||
| Asthenia | 2.6 | 2.2 |
| Cardiovascular | 3.7 | 3.2 |
| Hypertension | ||
| Angina pectoris | 2.2 | 2.1 |
| Urinary Urinary tract infections | 3.0 | 2.6 |
| Gastrointestinal Diarrhoea | 2.0 | 2.5 |
| Central, peripheral, nervous system Dizziness | 2.3 | 2.2 |
| Metabolism & nutrition Hyperglycaemia | 2.2 | 1.9 |
* whatever the relationship to treatment Gastrointestinal disturbances (reported with gliclazide), including nausea, dyspepsia, diarrhoea and constipation may be avoided or minimised if gliclazide is taken with breakfast. The following adverse events have been rarely reported in patients taking gliclazide:
Skin and mucosae reactions: pruritus, urticaria, maculopapular rashes, rash, erythema and bullous reactions
Haematological disorders (as with other sulfonylurea drugs): a few rare cases of anaemia, leucopenia, thrombocytopenia and agranulocytosis
Occasional elevations of serum creatinine, blood urea nitrogen, serum bilirubin and hepatic enzymes (AST, ALT, alkaline phosphatase) levels, and exceptionally, hepatitis. Treatment should be discontinued if cholestatic jaundice appears.
These symptoms usually disappear after discontinuation of treatment. Because of the glucose-lowering effect of gliclazide, transient visual disturbances may occur on initiation of treatment due to changes in blood glucose levels.
Class attribution effects
Cases of erythrocytopenia haemolytic anaemia, pancytopenia, hyponatraemia and allergic vasculitis, have been described for sulphonylureas. With sulphonylureas cases were also observed of elevated liver enzyme levels and even impairment of liver function (e.g. with cholestasis and jaundice) and hepatitis which regressed after withdrawal of the sulphonylurea or led to life-threatening liver failure in isolated cases.
The dosage of gliclazide should be carefully titrated to maintain optimal control at the various possible dose levels. Dosage should be initiated at 40 mg (1/2 tablet) daily and may be increased if necessary up to 320 mg (4 tablets) daily. Doses up to 160 mg daily may be taken in a single dose but preferably at the same time each morning. Doses in excess of 160 mg should be taken in divided doses in the morning and evening. In general, the dosage will depend on the severity of the glycaemia. Ongoing adjustments should be made in order to obtain the optimal response at the lowest dosage. Treatment with gliclazide does not obviate the necessity of maintaining standard dietary regulations Transferring to gliclazide: Patients who have been previously treated with sulfonylureas or biguanides alone or in combination may be transferred to gliclazide. When gliclazide is administered as sole therapy to patients who have previously required combination therapy (e.g. biguanides and sulfonylureas), careful observation is essential during the transitional phase.
Manifestations of severe hypoglycaemia result from overdosage. Hypoglycaemia caused by sulfonylurea agents differs in several aspects from insulin coma. Warning symptoms are often absent, neurological syndromes are frequent and coma is often prolonged.
Moderate symptoms of hypoglycaemia (without loss of consciousness or neurological signs), should be corrected by carbohydrate intake, dose adjustment and/or modification of diet. Strict monitoring should be continued until the doctor is sure that the patient is out of danger. Severe hypoglycaemic reactions are possible (with coma, convulsions or other neurological disorders) and should be treated as a medical emergency, requiring immediate hospitalisation. If hypoglycaemic coma is diagnosed or suspected, the patient should be given a rapid I.V. injection of 50mL of concentrated glucose solution (20 to 30%). This should be followed by continuous infusion of a more dilute glucose solution (10%) at a rate necessary to maintain blood glucose levels above 5mmol/L. It is recommended that patients should be monitored closely for a 48 hour period at least. Plasma clearance of gliclazide may be prolonged in patients with hepatic disease. However, due to the strong binding of gliclazide to proteins, dialysis is not effective in these patients.
Round, white, flat-sided tablets with bevelled edges, engraved "APO" over "80" on one side, cross-scored on the other side. Blister pack in cartons containing 100 tablets. AUST R Number 80085 * Not all strengths, pack types and/or pack sizes may be available.
Store below 25degC.
Apotex Pty Ltd 16 Giffnock Avenue Macquarie Park NSW 2113 Chemmart is a registered trade mark of Symbion Pty Ltd.
S4 - Prescription Only Medicine.
7 August 2002