Indication |
For the treatment of primary hyperlipidaemia types IIa, IIb, III,
IV and V (Fredrickson classification) corresponding to groups I, II and
III of the European Atherosclerosis Society guidelines - when diet alone
or improvements in lifestyle such as increased exercise or weight
reduction do not lead to an adequate response. Also for the treatment of
secondary hyperlipidaemias, e.g. severe hypertriglyceridemias, when
sufficient improvement does not occur after correction of the underlying
disorder (e.g. diabetes mellitus). |
Pharmacodynamics |
Bezafibrate is an antilipemic agent that lowers cholesterol and
triglycerides. It decreases low density lipoproteins and increases high
density lipoproteins. Bezafibrate lowers elevated blood lipids
(triglycerides and cholesterol). Elevated VLDL and LDL are reduced by
treatment with bezafibrate, whilst HDL-levels are increased. The
activity of triglyceride lipases (lipoprotein lipase and hepatic
lipoproteinlipase) involved in the catabolism of triglyceride-rich
lipoproteins is increased by bezafibrate. In the course of the
intensified degradation of triglyceride-rich lipoproteins (chylomicrons,
VLDL) precursors for the formation of HDL are formed which explains an
increase in HDL. Furthermore, cholesterol biosynthesis is reduced by
bezafibrate, which is accompanied by a stimulation of the
LDL-receptor-mediated lipoprotein catabolism. Elevated fibrinogen
appears to be an important risk-factor, alongside the lipids, smoking
and hypertension, in the development of atheroma. Fibrinogen plays an
important role in viscosity, and therefore blood flow, and also appears
to play an important role in thrombus development and lysability.
Bezafibrate exerts an effect on thrombogenic factors. A significant
decrease in elevated plasma fibrinogen levels can be achieved. This may
lead, amongst other things, to a reduction in both blood and plasma
viscosity. Inhibition of platelet aggregation has also been observed. A
reduction in blood glucose concentration due to an increase in glucose
tolerance has been reported in diabetic patients. In the same patients,
the concentration of fasting and postprandial free fatty acids was
reduced by bezafibrate. |
Mechanism of action |
Like the other fibrates, bezafibrate is an agonist of PPARα; some
studies suggest it may have some activity on PPARγ and PPARδ as well. |
Absorption |
Bezafibrate is almost completely absorbed after oral
administration. The relative bioavailability of bezafibrate retard
compared to the standard form is about 70%. |
Volume of distribution |
Not Available |
Protein binding |
94-96% of bezafibrate is bound to protein in human serum. |
Metabolism |
Hepatic. |
Route of elimination |
Not Available |
Half life |
1-2 hours |
Clearance |
Not Available |
Toxicity |
Not Available |
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