Borah Babul, Dufresne Thomas E, Chmielewski Paula A, Johnson Troy D, Chines Arkadi, Manhart Michael D
Procter & Gamble Pharmaceuticals, Cincinnati, OH 45201, USA.
Bone. 2004 Apr;34(4):736-46. doi: 10.1016/j.bone.2003.12.013.
The deterioration of trabecular microarchitecture induced by elevated bone turnover is increasingly recognized as a factor in the pathogenesis of osteoporotic fractures. We investigated the effect of the reduction of turnover with risedronate on trabecular architecture in postmenopausal women with osteoporosis. Iliac crest bone biopsy specimens taken before and after 3 years of treatment from patients receiving risedronate 5 mg daily (n = 21) or placebo (n = 17) were analyzed using 3-D microcomputed tomography. We found a significant correlation between baseline bone turnover and bone loss in the placebo group, providing evidence that higher turnover induced higher bone loss leading to a greater degree of architectural degradation. When patients were classified into two groups based on baseline bone turnover (MS/BS less than or greater than the median value for the entire cohort), significant decreases in trabecular bone volume (BV/TV, P = 0.009) and trabecular thickness (Tb.Th*, P = 0.008) and an increase in marrow star volume (Ma.St.V, P = 0.008), a measure of trabecular porosity, were observed in the higher turnover (MS/BS> median) placebo-treated patients. The trabecular structure shifted from plates to rods as shown by an increase in structure model index (SMI, P = 0.028) and bone surface to bone volume ratio (BS/BV, P = 0.006). The changes from baseline in the lower turnover (MS/BS<median) placebo patients were variable and not statistically significant. In the risedronate group, the bone volume and the architectural parameters did not change significantly from baseline values in either the higher or the lower turnover groups. Comparing the pair-wise changes from baseline in the higher turnover group, the placebo group experienced decreases in BV/TV (P = 0.071) and Tb.Th* (P = 0.012), and increase in Ma.St.V (P = 0.043), compared to the risedronate-treated women. Also, in comparison to the risedronate group, the trabecular structures in the placebo group were more rod-like, indicated by higher SMI (P = 0.009) and BS/BV (P = 0.02). The results demonstrated that trabecular architecture deteriorated significantly in the placebo-treated women who had higher bone turnover at baseline, and this deterioration was prevented by 3 years of risedronate treatment, presumably because of the reduction in bone turnover. The preservation of architecture may be a contributory mechanism by which risedronate reduces the risk of vertebral fractures in osteoporotic women.
骨转换率升高引起的小梁微结构恶化日益被认为是骨质疏松性骨折发病机制中的一个因素。我们研究了利塞膦酸盐降低骨转换率对绝经后骨质疏松妇女小梁结构的影响。使用三维微型计算机断层扫描分析了每日接受5mg利塞膦酸盐治疗的患者(n = 21)或安慰剂治疗的患者(n = 17)在治疗3年前后获取的髂嵴骨活检标本。我们发现安慰剂组基线骨转换率与骨丢失之间存在显著相关性,这表明较高的骨转换率导致更高的骨丢失,进而导致更大程度的结构退化。当根据基线骨转换率将患者分为两组(MS/BS小于或大于整个队列的中位数)时,在骨转换率较高(MS/BS>中位数)的安慰剂治疗患者中,观察到小梁骨体积(BV/TV,P = 0.009)和小梁厚度(Tb.Th*,P = 0.008)显著降低,以及骨髓星体积(Ma.St.V,P = 0.008,小梁孔隙率的一个指标)增加。小梁结构从板状转变为杆状,表现为结构模型指数(SMI,P = 0.028)和骨表面积与骨体积比(BS/BV,P = 0.006)增加。骨转换率较低(MS/BS<中位数)的安慰剂患者与基线相比的变化各不相同且无统计学意义。在利塞膦酸盐组中,无论骨转换率高低,骨体积和结构参数与基线值相比均无显著变化。比较骨转换率较高组与基线的成对变化,与接受利塞膦酸盐治疗的女性相比,安慰剂组的BV/TV(P = 0.071)和Tb.Th*(P = 0.012)降低,Ma.St.V增加(P = 0.043)。此外,与利塞膦酸盐组相比,安慰剂组的小梁结构更呈杆状,表现为较高的SMI(P = 0.009)和BS/BV(P = 0.02)。结果表明,在基线骨转换率较高的安慰剂治疗女性中,小梁结构显著恶化,而利塞膦酸盐治疗3年可预防这种恶化,推测是由于骨转换率降低。结构的保留可能是利塞膦酸盐降低骨质疏松女性椎体骨折风险的一个促成机制。
