Abstract
Diabetic vascular complication is a leading cause of end-stage renal failure, acquired blindness, a variety of neuropathies and accelerated atherosclerosis, which could account for disabilities and high mortality rates in patients with diabetes. Recent large prospective clinical studies have shown that intensive glucose control reduces effectively microvascular complications among patients with diabetes, and insulin resistance and postprandial hyperglycemia seem to be involved in diabetic macrovascular complications. Chronic hyperglycemia is a major initiator of diabetic vascular complications. Indeed, high glucose, via various mechanisms such as increased production of advanced glycation end products, activation of protein kinase C, stimulation of the polyol pathway and enhanced reactive oxygen species generation, regulates vascular inflammation, altered gene expression of growth factors and cytokines, and platelet and macrophage activation, thus playing a central role in the development and progression of diabetic vascular complications. This article summarizes the molecular mechanisms of diabetic vascular complications and the potential therapeutic interventions that may prevent these disorders even in the presence of hyperglycemia, control of which is often difficult with current therapeutic options.
Keywords: diabetic vascular complications, atherosclerosis, ages, oxidative stress, pkc, polyol pathway, renin-angiotensin system, insulin resistance
Current Pharmaceutical Design
Title: Diabetic Vascular Complications: Pathophysiology, Biochemical Basis and Potential Therapeutic Strategy
Volume: 11 Issue: 18
Author(s): Sho-ichi Yamagishi and T. Imaizumi
Affiliation:
Keywords: diabetic vascular complications, atherosclerosis, ages, oxidative stress, pkc, polyol pathway, renin-angiotensin system, insulin resistance
Abstract: Diabetic vascular complication is a leading cause of end-stage renal failure, acquired blindness, a variety of neuropathies and accelerated atherosclerosis, which could account for disabilities and high mortality rates in patients with diabetes. Recent large prospective clinical studies have shown that intensive glucose control reduces effectively microvascular complications among patients with diabetes, and insulin resistance and postprandial hyperglycemia seem to be involved in diabetic macrovascular complications. Chronic hyperglycemia is a major initiator of diabetic vascular complications. Indeed, high glucose, via various mechanisms such as increased production of advanced glycation end products, activation of protein kinase C, stimulation of the polyol pathway and enhanced reactive oxygen species generation, regulates vascular inflammation, altered gene expression of growth factors and cytokines, and platelet and macrophage activation, thus playing a central role in the development and progression of diabetic vascular complications. This article summarizes the molecular mechanisms of diabetic vascular complications and the potential therapeutic interventions that may prevent these disorders even in the presence of hyperglycemia, control of which is often difficult with current therapeutic options.
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Cite this article as:
Yamagishi Sho-ichi and Imaizumi T., Diabetic Vascular Complications: Pathophysiology, Biochemical Basis and Potential Therapeutic Strategy, Current Pharmaceutical Design 2005; 11 (18) . https://dx.doi.org/10.2174/1381612054367300
DOI https://dx.doi.org/10.2174/1381612054367300 |
Print ISSN 1381-6128 |
Publisher Name Bentham Science Publisher |
Online ISSN 1873-4286 |
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