Prospective, double blind, randomized, controlled trial of simvastatin in human fracture healing.

Although statins are widely prescribed as cholesterol-lowering drugs, a number of studies suggest that these compounds may have anabolic effects on bone. Our aim was to assess whether simvastatin affects the rate of fracture healing in humans. A prospective, double-blind, randomized controlled trial was performed. Individuals who had sustained an undisplaced, extra-articular fracture of the distal radial metaphysis were recruited from a trauma clinic. Patients were randomized to receive simvastatin 20 mg once daily or a placebo. Regular clinical and radiological follow-up was undertaken for a 12 week period. Dual-energy X-ray absorptiometry assessment of bone mineral density was conducted at 2 and 12 weeks postinjury. Biochemical markers of bone turnover were assayed during the study period. Time to fracture union was defined as the time to cortical bridging in four cortices on plain radiographs. In addition, the rate of trabecular union was assessed. Eighty patients were recruited, of which 62 completed the study (31 in each group). Study cohorts were matched for age and gender. For patients receiving simvastatin therapy, the mean time to fracture union was 71.6 days (SD 22.2 days, SEM 3.8 days). This compared to 71.3 days (SD 21.3, SEM 4.1 days) for the control cohort (p = 0.6481). There was no significant difference between bone mineral density or bone biochemical markers between groups (p > 0.05). Despite promising results from in vivo and in vitro animal studies, simvastatin at a treatment dose of 20 mg once daily does not affect the rate of fracture healing in humans.

Neutralisation of TGF beta or binding of VLA-4 to fibronectin prevents rat tendon adhesion following transection.

Following tendon injury, severe loss of function often occurs either as a result of obliteration of the synovial canal with fibrous scar tissue or from rupture of the repaired tendon. The role of cell engineering in tendon repair is to promote strong and rapid healing of tendon whilst at the same time facilitating rapid reconstitution of the synovial canal. Modification of the immediate inflammatory response around healing tendon has been found to be of value. Experimentally this has been achieved by neutralisation of transforming growth factor-beta over the first 3 days following injury, or by blockade of inflammatory cell binding to the CS-1 locus on fibronectin with an anti-VLA-4 antibody, or with the synthetic VLA-4 inhibitor, CS-1 peptide, in a rat model of tendon transection. It is concluded from this pilot study that the treatments described hold promise in improving outcomes of the common clinical problem of tendon injury in man.