The fibrates are a type of amphipathic carboxylic acids, belonging to the class of drugs used to lower serum cholesterol levels. They are currently the most important class of drugs combating the worldwide epidemic of atherogenic dyslipidemia. Statins help reduce the levels of low-density lipoprotein cholesterol (LDL) but do not have much effect on serum triglyceride or HDL levels, where the use of fibrates is required. Research shows that the effects of different fibrate medications, while essentially being the same, also differ slightly with regards to their impact on glucose metabolism, insulin resistance, intermittent claudication, microvascular effects of diabetes mellitus; this provides the option of tailoring therapy as per the needs of every patient.[1] The FDA approved indications of fibrates include :

• For use as an adjunct to dietary modifications (restricted in saturated fats and cholesterol) in adults with primary hypercholesterolemia or mixed dyslipidemia (Fredrickson type IIa and IIb). Fibrates help in reducing LDL, total cholesterol, triglycerides, apolipoprotein B (Apo-B), and in increasing high-density lipoprotein cholesterol (HDL).
• To be used, an adjunct to dietary modifications in adults with severe hypertriglyceridemia (Fredrickson type IV and V).

A non-FDA-approved use of fibrates is primary biliary cholangitis.

Fibrates work by a combination of the following mechanisms to cause their hypotriglyceridemic effects[2]:

• Reduce the availability of substrates to allow triglyceride synthesis in the liver.
• Reverse cholesterol movement and stimulate cellular fatty acid uptake and modulate low-density lipoprotein (LDL) receptor and ligand interaction. Fibrates promote receptor-mediated clearance of LDL after stimulating its secretion, causing this catabolism at a 20% greater rate as compared to an untreated patient. This action results in an overall decrease in very-low-density lipoproteins (VLDL).
• Small dense LDL, a fraction of LDL that produces the maximum peroxidation products, is reduced via the action of fibrates by activating lipoprotein lipase (LPL). Fibrates increase this LPL mediated lipolysis via activation of transcription factors for peroxisome proliferator-activated receptors (PPAR).[3]

Fibrates also work to increase high-density lipoprotein (HDL) levels by upregulating the production of Apo-AI and apo-AII in the liver.

Before starting fibrate therapy, patients should start on an adequate lipid-lowering diet. It should be used only as an adjunct to lipid-lowering diet and medication and not as a first-line mode of therapy. 

Fibrates are administered orally, ideally as once a day tablets. According to the FDA, the dosing of fibrates in adults is as follows, adjusted for the patient profile :

• Primary hypercholesterolemia or mixed dyslipidemia - Start with 120 mg daily.
• Severe hypertriglyceridemia - The dose ranges from 40 mg to 120 mg daily and adjusted according to lipid levels.
• Renally impaired patients - Initiate with 40 mg per day. Conduct regular renal function tests and serum cholesterol levels and up-titrate the drug as required.
• Geriatric patients - The dosing is per the renal function of the patient.

The above regime is for fenofibrate, which is available as 40 mg and 120 mg tablets. The patient's response to it must be measured every 4 to 8 weeks, followed by adjusting the drug dosage.

 The following is a list of adverse effects of fibrates:

• The most common adverse effects of this drug class include reporting of deranged AST, ALT levels, along with infrequent elevations in serum CPK (creatinine phosphokinase) levels during therapy.
• Most likely, due to the effect mediated by PPAR-alpha, fibrates can reversibly increase serum creatinine and homocysteine levels. But clinical trials have failed to prove renal failure associated with this.
• Patients can present with leg cramps, abdominal pain, etc. as fibrates can cause a slightly increased risk (less than 1.0%) of myopathy, cholelithiasis, and venous thrombosis.
• Fibrates generally should be avoided in combination with statins, since they can inhibit statin metabolism, causing an increased risk of myopathy. Recommendations are to always to measure serum creatinine levels and renal function before using the two drugs simultaneously. Gemfibrozil has proved to be unsafe for this interaction, whereas clinicians can still use bezafibrate and fenofibrate.
• Discontinue fibrate therapy or reduce the fibrate dose if a clinically significant elevation of serum creatinine occurs in the patient, after excluding all possible causes for the same.[4]

The contra-indications to the use of fibrate therapy are:

• Known hypersensitivity to the drug class.
• Active liver disease, as fibrates are shown to be hepatotoxic if pre-existing liver inflammatory states exist.[5]
• Active gall bladder disease as fibrates cause a PPAR-Alpha mediated downregulation in bile acid production, which, in turn, is responsible for an increased tendency to form gall stones.[6]
• Severe renal dysfunction, including patients receiving dialysis therapy.