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Management of Hyperlipoprotinaemia

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1 Management of Hyperlipoprotinaemia

2 Lipoprotein metabolism
Absorbed cholesterol and TGs are transported in plasma as chylomicrons. TGs is hydrolyzed by lipoprotein lipase into FFA which enter the tissue and utilized. The chylomicrons remnants (containing mainly cholesterol) pass to the liver where cholesterol is stored, oxidized to bile acids, or secreted in the bile. Alternatively, it may enter the synthesis of VLDL.

3 In the endogenous pathway, cholesterol and newly synthesized TGs are assembled as VLDL and delivered to the blood where TGs core is hydrolyzed by lipoprotein lipase into FFA. The smaller VLDL particles having less TGs and more cholesterol are now termed LDL. Cholesterol in the LDL may be: Utilized by the tissues Returns again to the liver Deposited in sub intimal in blood vessels and cause atherosclerosis.

4

5 Classification of hyperlipidemia
Primary (familial; hereditary) hyperlipidemia: is genetically determined. Secondary (acquired) hyperlipidemia: Hypercholesterolemia: hypothyroidism, nephrotic syndrome, and drugs. Hypertriglyceridemia: DM, alcohol, gout, chronic renal failure. Class Increased lipoprotein Synonym Type I ↑ chylomicrons Familial chylomicronemia Type IIa IIb ↑ LDL ↑ LDL and VLDL Familial hypercholesterolemia Familial combined hyperlipidemia Type III ↑ IDL Familial dysbetalipoproteinemia Type IV ↑ VLDL Familial hypertriglyceridemia Type V ↑ VLDL and chylomicrons Familial mixed hyperlipedemia

6 Management of hyperlipidemia
Non-drug therapy = life style modification: Diet control: Total fat and calorie restriction. Antioxidants. Weight reduction. Stop smoking and alcohol. Encourage exercise. Control of risk factors: e.g. DM, obesity, renal diseases, etc. Avoid drugs that ↑ plasma lipids e.g. contraceptive pills, corticosteroids, thiazides, and β-blockers.

7 B. Drug therapy Drug therapy is indicated in:
Failure of non-drug therapy. Primary (hereditary) hyperlipidemia. Classification of hypolipidemic drugs: Inhibitors of intestinal cholesterol absorption: Bile acid binding resins: cholestyramine, colestipol, Ezetimibe. Activators of plasma lipoprotein lipase: fibric acid derivatives HMG-CoA reductase inhibitors: statins. Inhibitors of hepatic lipid production: nicotinic acid Other drugs: d-thyroxin

8 1. Inhibitors of intestinal cholesterol absorption
A. Cholestyramine and colestipol Mechanism of action: They form complexes with bile acids in the intestine and ↓ enterohepatic absorption of bile salts and ↓ absorption of cholesterol.

9 Therapeutic uses: Hypercholesterolemia. Diarrhea due to bile acid malabsorption. Pruritus due to obstructive jaundice. Adverse effects: Nausea, vomiting and steatorrhea (due to ↓ fat absorption). ↓ absorption of fat-soluble vitamins. ↓ absorption of anionic drugs e.g. digitalis and warfarin.

10 B. Ezetimibe: Mechanism of action It is a selective inhibitor of intestinal cholesterol absorption. Therapeutic uses: Hypercholesterolemia. Adverse effects: Reversible hepatic dysfunction.

11 2. HMG-CoA reductase inhibitors (Statins)
(Atorvastatin, lovastatin) Mechanism of action: Competitive inhibition (HMG-CoA) reductase → ↓ cholesterol synthesis and ↑ hepatic uptake of LDL. Therapeutic uses Hypercholesterolemia. With other drugs for combined hyperlipidemia .

12 Adverse effects Hepatic dysfunction (especially with lovastatin). Myopathy and myositis . Nausea, vomiting, anorexia . Cataract. Rhabdomyolysis (especially with lovastatin).

13 3. Fibric acid derivatives (Fibrates)
(Clofibrate, Fenofibrate, Bezafibrate, Gemfibrozil) Mechanism of action: It↑ synthesis of lipoprotein lipase → ↑ peripheral catabolism of VLDL and chylomicrons (TGs). Therapeutic uses: Hypertriglyceridemia..

14 Adverse effects: GIT upsets: nausea, vomiting. Increase formation of cholesterol gallstones. Hepatic dysfunction . It increase the risk of myopathy if used in combination with statins. Skin rash and dermatologic reactions.

15 4. Nicotinic acid (Niacin; vitamin B3)
Mechanism of action: Niacin inhibits lipolysis in adipose tissue and inhibits fatty acid synthesis by the liver → ↓ hepatic VLDL and LDL synthesis. Therapeutic uses: In combination with other drugs for all types of hyperlipidemia (except type I which is mainly treated by diet control).

16 Adverse effects: Skin flushing and burning sensation (the most common). Gastric irritation (should be avoided in peptic ulcer). Hyperglycemia, hyperuricemia, and reversible increase in serum transaminases.

17 Effects of Drugs on Lipids
Effect on LDL Effect on HDL Effect on TG Bile acid-binding resins ↓↓↓ Reductase inhibitors Fibrates ↓↓ Niacin ↑↑↑

18 Treatment with drug combinations
Hypercholesterolemia Cholestyramine + Reductase inhibitors Hypertriglyceridemia Niacin + Fibrates Familial combined hyperlipidemia Cholestyramine + Fibrates. Cholestyramine + Niacin. Reductase inhibitors + Fibrates (but this combination may ↑ risk of myopathy).

19 Good luck


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