Glibomet

Glibomet Uses, Dosage, Side Effects, Food Interaction and all others data.

Glibenclamide is an orally effective hypoglycaemic agent that reduces blood sugar concentration by stimulating secretion of endogenous insulin from the pancreatic β-cells. It stimulates the mobilization of endogenous insulin with a lower dosage and with few incidence of side effects that any available anti-diabetic. Hypoglycaemic action associated with short-term therapy appears to include reduction of basal hepatic glucose production and enhancement of peripheral insulin action at target sites.

Glyburide is a second generation sulfonylurea that stimulates insulin secretion through the closure of ATP-sensitive potassium channels on beta cells, raising intracellular potassium and calcium ion concentrations. Glibenclamide has a long duration of action as it is given once daily, and a wide therapeutic index as patients are started at doses as low as 0.75mg but that can increase as high as 10mg or more. Patients taking glyburide should be cautioned regarding an increased risk of cardiovascular mortality as seen with tolbutamide, another sulfonylurea.

Trade Name Glibomet
Generic Glyburide + Metformin (HCl)
Weight 2.5mg, 400mg,
Type Tablet
Therapeutic Class
Manufacturer Searle Pakistan (pvt,) Ltd,, A,menarini India
Available Country Pakistan, India
Last Updated: September 19, 2023 at 7:00 am
Glibomet
Glibomet

Uses

Glibenclamide is used in the treatment of non insulin dependent diabetes melitus (NIDDM). It is ineffective in completely pancreatectomized patients and in juvenile-onset type of diabetes, in which the pancreas has lost all or nearly all of its capacity to secrete insulin. Such patients require insulin and attempts to control them with oral therapy are dangerous and doomed to failure.

Glibomet is also used to associated treatment for these conditions: Gestational Diabetes Mellitus (GDM), Glycemic Control, Type 2 Diabetes Mellitus

How Glibomet works

Glyburide belongs to a class of drugs known as sulfonylureas. These drugs act by closing ATP-sensitive potassium channels on pancreatic beta cells. The ATP-sensitive potassium channels on beta cells are known as sulfonylurea receptor 1 (SUR1).

Under low glucose concentrations, SUR1 remains open, allowing for potassium ion efflux to create a -70mV membrane potential.

Normally SUR1 closes in response to high glucose concentrations, the membrane potential of the cells becomes less negative, the cell depolarizes, voltage gated calcium channels open, calcium ions enter the cell, and the increased intracellular calcium concentration stimulates the release of insulin containing granules.

Glyburide bypasses this process by forcing SUR1 closed and stimulating increased insulin secretion.

Dosage

Glibomet dosage

Initially stabilization dosage: Glibenclamide half tablet (2.5 mg) should be taken initially during or immediately after breakfast. 3-5 days after initiation of the drug, the blood sugar level and urine sugar level should be checked. Daily dose of ½ tablet (2.5 mg) may be continued as maintenance therapy if good control has been achieved. If the result is not good, increment of daily dose in steps of ½ tablet (2.5 mg) is necessary at intervals of 3-5 days up to a maximum of 3 tablets. Daily doses in excess of 10 mg may be taken in 2 divided doses. Patients should be given ½ to 1 tablet of Glibenclamide in changing over from other oral anti-diabetics with a similar action.

Change over from insulin to Glibenclamide:The mildly diabetic patient whose insulin requirement is fewer than 20 units daily, can be started on the initial dosage of Glibenclamide with immediate discontinuation of insulin. If the insulin requirement is moderate or high, the changeover should be made gradually by giving insulin and Glibenclamide simultaneously and slowly cutting down the dose of insulin.

When insulin requirements are increased as in fever, surgical interventions or trauma, the Glibenclamide alone is inadequate and the patient must be given insulin to carry him or her through such critical situation.

This changeover from insulin to Glibenclamide is strictly for NIDDM of fairly recent onset which is being controlled on small doses of insulin. This should preferably be done in hospital or with daily medical supervision.

Side Effects

Glibenclamide is well tolerated. Few side effects that may arise include nausea, vomiting, epigastric pain, dizziness, weakness, paraesthesia and headache. Allergic skin reactions and haemopoietic reactions (leukopenia, thrombocytopenia, etc.) are occasionally observed.

Toxicity

The oral LD50 in rats is >3200mg/kg, in mice is >1500mg/kg, in rabbits is >10,000mg/kg, and in guinea pigs is >1500mg/kg.

Patients experiencing an overdose may present with hypoglycemia. Mild hypoglycemia should be treated with oral glucose and adjustments to drug doses or meal schedules. Severe hypoglycemia may present with coma, seizure, and neurological impairment. This should be treated immediately in hospital with intravenous glucose and monitoring for 24-48 hours.

Precaution

Weight reduction is of the greatest importance in the treatment of diabetes. A vigorous effort must be made by the patient and the physician to reduce the patient's weight as an integral part of diabetic treatment, irrespective of the drug chosen.

Interaction

Alcohol, cyclophosphamide, dicoumarol, monoamino oxidase inhibitors, phenylbutazone, propranolol and other beta-adrenergic blocking agents and certain long-acting sulphonamides may enhance the hypoglycemic effect of Glibenclamide

Volume of Distribution

Elderly patients have a volume of distribution of 19.3-52.6L, while younger patients have a volume of distribution of 21.5-49.3L.

Elimination Route

Elderly patients taking glyburide reached a Cmax of 211-315ng/mL with a Tmax of 0.9-1.0h, while younger patients reached a Cmax of 144-302ng/mL with a Tmax of 1.3-3.0h. Patients taking glyburide have and AUC of 348ng*h/mL.

Half Life

Elderly patients have a terminal elimination half life of 4.0-13.4h, while younger patients have a terminal elimination half life of 4.0-13.9h.

Clearance

Elderly patients have a clearance of 2.70-3.55L/h, while younger patients have a clearance of 2.47-4.11L/h.

Elimination Route

Unlike other sulfonylureas, glyburide is 50% excreted in the urine and 50% in the feces. Glyburide is mainly excreted as the metabolite 4-trans-hydroxyglyburide.

Pregnancy & Breastfeeding use

There is no information on the use of Glibenclamide in human pregnancy but it has been in wide, general use for many years without apparent ill consequence. Animal studies have shown no hazard. It has not yet been established whether Glibenclamide is transferred to human milk. However, other sulphonylureas have been found in milk and there is no evidence to suggest that Glibenclamide differs from the group in this respect.

Contraindication

Severe metabolic de-compensation with acidosis, pre-comatose states and diabetic coma, severe renal or hepatic dysfunction or serious impairment of typhoid or adrenal function; pregnancy, diabetes mellitus complicated by fever, trauma or gangrene.

Acute Overdose

Symptoms: Hypoglycaemia.

Management: Mild hypoglycaemic symptoms without loss of consciousness or neurologic findings may be treated with oral glucose and adjust drug dosage and/or meal patterns.

Storage Condition

Should be stored in a dry place below 30˚ C.

Innovators Monograph

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*** Taking medicines without doctor's advice can cause long-term problems.
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