Department of Biomedical Engineering, University of Alberta, Edmonton, Alberta, Canada.
J Pharm Pharm Sci. 2013;16(1):52-64. doi: 10.18433/j3c59h.
We investigated elemental strontium and/or bisphosphonate drug incorporation upon the compositional and biomechanical properties of vertebral bone, in a rat model of Osteoporosis secondary to ovariectomy.
Six month old female rats were ovariectomized (OVX) and divided into untreated OVX-Vehicle, OVX-RIS (Risedronate bisphosphonate [BP] treated), OVX-SrR (Strontium Ranelate [Protos®] treated), combination OVX-RIS+SrR, and sham-operated controls. After 16 weeks of treatment, rats were euthanized and lumbar vertebra were dissected. Micro-Computed Tomography (micro-CT), Electron Probe Micro-Analysis (EPMA), mechanical testing in compression and nano-indentation testing were then undertaken to evaluate bone morphometry, elemental composition, material properties and strength.
Bone Volume was significantly reduced in the OVX-Vehicle (133±10 mm(3)) compared with OVX-RIS (169±22 mm(3)), OVX-SrR (145±2 mm(3)), and OVX-RIS+SrR (172±8 mm(3)). EPMA mapped elemental Sr deposition to the periosteal surface of cortical bone (50-100 µm thick), endosteal trabecular surfaces (20 µm thick), as well as to both vertebral growth plates. The atomic ratios of (Ca+Sr)/P were significantly reduced with SrR treatment (2.4%-6.6%), indicating Sr incorporation into bone mineral. No significant differences were measured in vertebral bone reduced modulus by nano-indentation. Conversely, all BP-dosed groups had significantly increased structural bone strength.
Thus, we conclude that BP drugs dominate the conservation of trabecular geometry and structural strength in OP rats, whereas Sr drugs likely influence bone volume and material composition locally.
我们研究了锶元素和/或双磷酸盐药物在骨质疏松继发于卵巢切除大鼠模型的椎骨的组成和生物力学特性中的掺入情况。
6 月龄雌性大鼠行卵巢切除术(OVX),并分为未治疗 OVX-载体、OVX-RIS(雷奈酸锶[Protos®]治疗)、OVX-SrR(双膦酸盐[BP]治疗)、OVX-RIS+SrR 联合治疗和假手术对照。治疗 16 周后,处死大鼠并解剖腰椎。然后进行微计算机断层扫描(micro-CT)、电子探针微分析(EPMA)、压缩力学测试和纳米压痕测试,以评估骨形态计量学、元素组成、材料性能和强度。
与 OVX-RIS(169±22mm3)、OVX-SrR(145±2mm3)和 OVX-RIS+SrR(172±8mm3)相比,OVX-载体(133±10mm3)的骨体积显著减少。EPMA 将元素 Sr 沉积映射到皮质骨的骨膜表面(50-100µm 厚)、骨小梁内表面(20µm 厚)以及两个椎骨生长板。锶治疗后(Ca+Sr)/P 的原子比显著降低(2.4%-6.6%),表明 Sr 掺入到骨矿物质中。通过纳米压痕法测量,椎骨的降低模量没有明显差异。相反,所有 BP 处理组的结构性骨强度均显著增加。
因此,我们得出结论,BP 药物主要影响 OP 大鼠的小梁几何形状和结构强度的保持,而 Sr 药物可能局部影响骨体积和材料组成。
