Serum biochemical changes in rabbits on a regular diet with and without flax lignan complex following a high-cholesterol diet

 

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Abstract

BACKGROUND: Flax lignan complex (FLC) isolated from flaxseed suppresses development of hypercholesterolemic atherosclerosis. It does not produce regression of atherosclerosis, but prevents its regular diet-induced acceleration following a high-cholesterol diet. It is not known if replacement of a high-cholesterol diet with a regular diet has deleterious effects on body organs.

OBJECTIVES: To determine if short-term use of a high-cholesterol diet, and a regular diet with or without FLC following the high- cholesterol diet, have any adverse effects on serum electrolytes, glucose and enzymes related to the liver, kidneys, skeletal muscle and intestines.

METHODS: Blood samples were collected from the rabbits before and at various intervals during the high-cholesterol diet, and while on the regular diet with or without FLC, following the high-cholesterol diet. Measurements of serum total cholesterol, glucose, aspartate amino- transferase (AST), alkaline phosphatase (ALP), alanine aminotrans- ferase (ALT), gamma-glutamyltransferase (GGT), albumin, creatinine, electrolytes (sodium [Na], potassium [K], chloride [Cl]) and carbon dioxide (CO₂) were taken.

RESULTS: The high-cholesterol diet produced hypercholesterolemia, which was associated with reductions in serum glucose and no significant changes in serum Na, K, Cl, CO₂, ALT, ALP, AST, GGT, albumin or creatinine. Regular diet with or without FLC, following the high- cholesterol diet, reduced serum total cholesterol and glucose, increased serum Na, Cl and creatinine, but produced no significant alterations in serum K, CO₂, ALT, AST, GGT or albumin. FLC reduced serum ALP, but regular diet produced no significant change.

CONCLUSION: Short-term use of a high-cholesterol diet, or a regular diet with or without FLC following the high-cholesterol diet, does not produce deleterious effects in the liver, kidneys, skeletal muscle, intestine or bone, as shown by changes in serum electrolytes, glucose and enzymes.