The aetiology and pathophysiology of non-union is still unclear, but in this condition there is an abnormal bone metabolism. The paracrine matrix RAS has been implicated in the regulation of bone remodeling and injury responses, possibly via its effects on kinins. The influence of the local RAS or the genetic influence of the ACE/ BK2R genes to bone remodelling may thus be central to the disorder, or augmented in these conditions. We thus compared the distribution of the ACE I/D and BK2R “+9/-9” functional polymorphisms in patients with non-union and compared them to appropriate control.

Gene analysis was performed on buccal cells collected from all subjects and the data was analysed for 59 patients (46 males, 13 females; mean age 40.1±15.7 years) with non-union and 81 control subjects (49 males, 32 females; mean age 51.4±22.81 years. The overall genotype distribution was consistent with Hardy-Wein-berg equilibrium for the overall and individual groups for ACE (p0.16), B1BKR (p0.68) and B2BKR genotypes (p0.12)

As the -9 allele is associated with greater gene transcription and higher mRNA expression of the receptor we combined the -9/-9 homozygous and -9/+9 heterozygous groups and compared them with the homozygous +9/+9 groups. This showed a significant difference between the non-union and control groups, with the +9/+9 homozygous being less prominent in the former (p=0.03)

The B2BKR -9 allele is associated with the incidence of non-union in fracture healing, in this first study to address this question. We found no association with either the ACE I/D or B1BKR genotypes.

In conclusion, with previous findings that the absence of the -9 allele of the B2BKR +9/-9 polymorphism is associated with greater gene transcription and higher mRNA expression of the receptor our findings are suggestive that increased BK activity via the B2BKR may predispose to the development of non-union.

Aims: To examine the relationship between the Interleukin 6 (IL-6) −174 G> C promoter polymorphism and exercise-induced femoral cortical bone resorption. Methods: The skeletal response to exercise was assessed in 130 male Caucasian army recruits. Five cross-sectional magnetic resonance images of the right femur were obtained before and after a 10 week period of basic physical training, and changes in cross-sectional cortical area calculated. Recruits were genotyped for the −174 G> C IL-6 promoter polymorphism. Results: Genotype frequencies (GG 36%, GC 47%, CC 22 17%) were in Hardy-Weinberg Equilibrium. The mean percentage change in proximal femoral cross sectional cortical area was strongly IL-6 genotype-dependent, with GG homozygotes losing 6.8 ± 3.82% in cortical area, GC gaining +5.5 ± 4.88%, and CC gaining +17.3 ± 9.46% (p=0.007 for linear trend). These changes persisted throughout the right femur and were significant in the femur as a whole (p=0.03). Conclusion: This study demonstrates a linear relationship between a functional polymorphism in the IL-6 gene and femoral cortical remodelling during strenuous physical exercise. Previous studies have suggested an important role for IL-6 in the regulation of bone mass in postmenopausal women, and in the invasion of bone by metastatic tumour deposits. These data extend these observations to the regulation of bone mass in healthy males, supporting a fundamental role for IL-6 in the regulation of bone mass and bone remodelling in humans.

Aims: Hormone replacement therapy (HRT) reverses the menopausal decline in bone mineral density (BMD).We investigate if part of this response is through modulation of Interleukin-6 (IL-6) activity, which is known to be reduced by HRT. Methods: We have examined the association of the -174 G/C functional promoter polymorphism of the IL-6 gene with the BMD response to HRT (Prempak C: 0.625mg oestrogen per day and 0.15mg norgestrel). 65 women were genotyped for the IL-6 polymorphism, and differences in genotype related to changes in BMD over a one year follow up period. Results: Baseline BMD (0.75 g/cm²) was independent of IL-6 genotype. The rise in BMD with HRT (5% ± 3%, p < 0.00005 by paired t-test) was genotype-dependent, with BMD rising least amongst those of GG genotype (6% ± 3% for ≥1 C allele vs 4% ± 2% GG, p=0.03). In the HRT group, BMD rose most amongst those with the putatively ‘lowest IL-6’ genotype combination- namely ≥ 1 ACE I allele and ≥ 1 IL-6 C allele (n=14) (7% ± 3%), when compared with other genotype combinations (4% ± 2%) (n=16) (p=0.003). Conclusion: These are the first data to demonstrate an influence for IL-6 genotype in influencing response to oestrogen therapy, rather than its physiological withdrawal.

We have investigated the effect of currents induced by electromagnetic fields on the healing of the tibia of sheep after osteotomy, using objective and quantifiable criteria wherever possible. A battery-powered, induction apparatus was developed and was enclosed within the cast applied to the limb, so that the treated fractures received pulsed magnetic fields for 24 hours a day while the animals were freely mobile. In all, 13 sheep were treated and 13 were used as controls. The response was assessed by radiography of the limb and of the excised bone, by histology, including measurement of the areas of callus, fibrocallus and cortical bone, and by measurement of the uptake and extraction of bone-seeking mineral. All the bones healed and no statistically significant differences between the treated animals and the controls were discovered except (at only P less than 0.05) in the uptake of bone-seeking mineral; this increased more rapidly in treated animals over the two to three weeks after osteotomy, although at six weeks the uptake in both groups was the same.