AI Article Synopsis
- Diabetes leads to impaired fracture healing, particularly affecting the transition from cartilage to bone, as shown in a study with diabetic mice.
- Although initial fracture callus formation is similar in diabetic and normoglycemic mice, significant differences emerge by day 16, including smaller callus size and increased cartilage loss in diabetic mice, which can be normalized with insulin treatment.
- The study highlights the role of increased chondrocyte apoptosis and osteoclastogenesis in diabetes, which negatively impacts cartilage retention and bone formation during healing, with insulin effectively mitigating these issues.
Article Abstract
Fracture healing in diabetic individuals and in animal models of diabetes is impaired. To investigate mechanisms by which diabetes may affect fracture healing we focused on the transition from cartilage to bone, a midpoint in the fracture healing process. Femoral fractures were induced in mice rendered diabetic by multiple low dose streptozotocin treatment and compared to matching normoglycemic mice. One group of diabetic animals was treated with slow release insulin to maintain normal serum glucose levels. The results indicate that there was relatively little difference in the initial formation of the fracture callus on day 10. However, on day 16 the diabetic group had significantly smaller callus, greater loss of cartilage and enhanced osteoclastogenesis that was normalized by treatment with insulin when assessed by histomorphometric analysis. Chondrocyte apoptosis was significantly higher in diabetic mice and this increase was blocked by insulin. These changes were accompanied by diabetes-increased mRNA levels of RANKL, TNF-alpha, and ADAMTS-4 and -5 measured by real-time PCR, which was reversed by insulin treatment. On days 16 and 22 bone formation within the callus of diabetic mice was significantly less than the normoglycemic and brought to normal levels by insulin treatment. These results suggest that a significant effect of diabetes on fracture healing is increased chondrocyte apoptosis and osteoclastogenesis that accelerates the loss of cartilage and reduces the anlage for endochondral bone formation during fracture repair. That insulin reverses these effects demonstrates that they are directly related to the diabetic condition.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2700945 | PMC |
| http://dx.doi.org/10.1016/j.bone.2008.10.042 | DOI Listing |
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