Abstract: The invention relates to the surprising find that low density lipoprotein receptor-deficient mice (LDLr?/?) mice when fed with high energy diets produce controllable and consistent diabetic complications, especially renal damage, similar to the human pathophysiology and biological response. The invention thus comprises a method for discovering a preventive or therapeutic regimen for the prevention or treatment of diabetic micro- or macrovascular complications, comprising the steps of: a. feeding LDLr?/? mice, which have not been treated with streptozotocin, with a high energy diet; b. before, during and/or after this diet treating the mice with the preventive or therapeutic regimen; c. checking whether any change in the micro- or macrovascular system of the animal occurs. Specifically in such a method renal damage is assessed. Also use of said mice fed with a high energy diet for studying the diabetic micro- and macrovascular complications is part of the invention.

Abstract: The invention relates to the surprising find that low density lipoprotein receptor-deficient mice (LDLr?/?) mice when fed with high energy diets produce controllable and consistent diabetic complications, especially renal damage, similar to the human pathophysiology and biological response. The invention thus comprises a method for discovering a preventive or therapeutic regimen for the prevention or treatment of diabetic micro- or macrovascular complications, comprising the steps of: a. feeding LDLr?/? mice, which have not been treated with streptozotocin, with a high energy diet; b. before, during and/or after this diet treating the mice with the preventive or therapeutic regimen; c. checking whether any change in the micro- or macrovascular system of the animal occurs. Specifically in such a method renal damage is assessed. Also use of said mice fed with a high energy diet for studying the diabetic micro- and macrovascular complications is part of the invention.

Abstract: The invention relates to the surprising find that low density lipoprotein receptor-deficient mice (LDLr?/?) mice when fed with high energy diets produce controllable and consistent diabetic complications, especially renal damage, similar to the human pathophysiology and biological response. The invention thus comprises a method for discovering a preventive or therapeutic regimen for the prevention or treatment of diabetic micro- or macrovascular complications, comprising the steps of: a. feeding LDLr?/? mice, which have not been treated with streptozotocin, with a high energy diet; b. before, during and/or after this diet treating the mice with the preventive or therapeutic regimen; c. checking whether any change in the micro- or macrovascular system of the animal occurs. Specifically in such a method renal damage is assessed. Also use of said mice fed with a high energy diet for studying the diabetic micro- and macrovascular complications is part of the invention.

Abstract: The invention relates to the surprising find that low density lipoprotein receptor-deficient mice (LDLr?/?) mice when fed with high energy diets produce controllable and consistent diabetic complications, especially renal damage, similar to the human pathophysiology and biological response. The invention thus comprises a method for discovering a preventive or therapeutic regimen for the prevention or treatment of diabetic micro- or macrovascular complications, comprising the steps of: a. feeding LDLr?/? mice, which have not been treated with streptozotocin, with a high energy diet; b. before, during and/or after this diet treating the mice with the preventive or therapeutic regimen; c. checking whether any change in the micro- or macrovascular system of the animal occurs. Specifically in such a method renal damage is assessed. Also use of said mice fed with a high energy diet for studying the diabetic micro- and macrovascular complications is part of the invention.

Abstract: Disclosed is the use of a composition comprising docosahexaenoic acid (DHA) and/or arachidonic acid (ARA) in human subjects that are on the typical ‘Western-type” high-fat high-sugar diet. It was found, in a humanized animal model, that said composition is capable of compensating for one or more of the adverse health effects of said diet. Particularly, an effect was found in body weight reduction, without a lowering of food intake. The composition can be administered as an oral (pharmaceutical) dosage unit, as a nutritional supplement, or as a component in a food or drink.