Determinants of Femur and Tibia Fragility in Diabetes Using Dexamethasone-Induced Insulin Resistance in Rats
Cheikh Ahmadou Bamba Mané, Maïmouna Touré, Cedric Wamba Koho, Herman Roger Sadie Foguieng, Khady Ngom, Hassane Malam Moussa Ahmet, Elvine Pami Nguelefack-Mbuyo, Abdoulaye Ba, Abdoulaye Samb, Télesphore Benoît Nguelefack

TL;DR
This study shows how insulin resistance and oxidative stress from diabetes weaken bones, especially in the tibia of rats.
Contribution
The study reveals the time- and severity-dependent effects of insulin impairment on bone fragility and its connection to oxidative stress.
Findings
Dexamethasone-induced insulin resistance increases blood glucose and disrupts bone matrix and collagen in rats.
Bone alterations are more pronounced in the tibia than the femur and correlate with oxidative stress and insulin resistance.
Disruption of phosphocalcic metabolism and bone structure is linked to the duration and severity of insulin resistance.
Abstract
Type 2 diabetes, mainly driven by insulin resistance (IR), represents 90% of diabetic cases and has been related to bone fragility and fractures. However, it is unclear how hyperglycaemia, IR and oxidative stress interplay to induce bone fragility. This study was then undertaken to examine the contribution and the interconnection of hyperglycaemia, insulinopenia, IR and oxidative stress to bone fragility, as well as the time- and severity-dependent effects of insulin impairment on bone fragility and its reversibility. IR was induced by dexamethasone in three different protocols: 1 mg/kg/day/im for 7 consecutive days; 500 μg/kg/day/im for 7 consecutive days, the dose was changed to 100 μg/kg/day/im for the following 14 days; and 200 μg/kg/day/im for 21 consecutive days. Fasting glycaemia, glucose tolerance test (GTT) and insulin tolerance test (ITT) were performed at the end of each…
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Taxonomy
TopicsBone health and osteoporosis research · Bone Metabolism and Diseases · Parathyroid Disorders and Treatments
