Everyone Healthy medication library

Biguanide Drug Class

Medicines in this drug class are grouped together in the Everyone Healthy medication database. This page is educational only and should not be used as personal prescribing advice.

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Caution: A drug class groups medicines that may share similar actions or uses. Individual medicines in the same class can still have different cautions, interactions and suitability.

Drug class overview

Biguanide overview

Biguanide

Biguanide can refer to a molecule, or to a class of drugs based upon this molecule. Biguanides can function as oral antihyperglycemic drugs used for diabetes mellitus or prediabetes treatment. They are also used as antimalarial drugs.

The disinfectant polyaminopropyl biguanide (PAPB) features biguanide functional groups.

Biguanide

IUPAC name [hide] imidodicarbonimidic diamide
other names[hide] Diguanide, 2-carbamimidoylguanidine
Identifiers
CAS number	56-03-1 ^Y
PubChem	5939
ChemSpider	5726
SMILES	[show] `C(=N)(N)NC(=N)N`
InChI	[show] 1/C2H7N5/c3-1(4)7-2(5)6/h(H7,3,4,5,6,7)
InChI key	XNCOSPRUTUOJCJ-UHFFFAOYAU
Properties
Molecular formula	C₂H₇N₅
Molar mass	101.11 g/mol
Y (what is this?) (verify) Except where noted otherwise, data are given for materials in their standard state (at 25 °C, 100 kPa)
Infobox references

Metformin

Buformin. Note extra butane at bottom right.

Phenformin. Note extra phenyl at right.

Examples

Examples of biguanides:

Metformin - widely used in treatment of diabetes mellitus type 2
Phenformin - withdrawn from the market in most countries due to toxic effects
Buformin - withdrawn from the market due to toxic effects
Proguanil - an antimalarial drug.

History

Galega officinalis (French lilac) was used for diabetes treatment in traditional medicine for centuries. In the 1920s, guanidine compounds were discovered in Galega extracts. Animal studies showed that these compounds lowered blood glucose levels. Some less toxic derivatives, synthalin A and synthalin B, were used for diabetes treatment, but after the discovery of insulin they were forgotten for the next several decades. Biguanides were reintroduced into Type 2 diabetes treatment in the late 1950s. Initially phenformin was widely used, but its potential for sometimes fatal lactic acidosis resulted in its withdrawal from pharmacotherapy in most pharmacopeias (in the U.S. in 1977). Metformin has a much better safety profile, and it is the principal biguanide drug used in pharmacotherapy worldwide.

Pharmacotherapy

Biguanides do not affect the output of insulin, unlike other hypoglycemic agents such as sulfonylureas and meglitinides. Therefore, not only are they effective in Type 2 diabetics but they can also be effective in Type 1 patients in concert with insulin therapy.

Mechanism of action

The mechanism of action of biguanides is not fully understood. However, in hyperinsulinemia, biguanides can lower fasting levels of insulin in plasma. Their therapeutic uses derive from their tendency to reduce gluconeogenesis in the liver, and, as a result, reduce the level of glucose in the blood. Biguanides also tend to make the cells of the body more willing to absorb glucose already present in the blood stream, and there again reducing the level of glucose in the plasma.

Side-effects and toxicity

The most common side-effect is diarrhea and dyspepsia, occurring in up to 30% of patients. The most important and serious side-effect is lactic acidosis. Phenformin and buformin are more prone to cause acidosis than metformin; therefore they have been practically replaced by it. However, when metformin is combined with other drugs (combination therapy), hypoglycemia and other side-effects are possible.

References

Rang et al., Pharmacology, 5th Edition, 2003, p 388

Linked medicines

0 medicines in this class

No linked medicines were found for this drug class in the detected link table. The drug class exists, but the drug-class-to-medicine link table may need a table-name or column-name adjustment.