Strontium-containing mineralized phospholipid coatings improve osseointegration in osteoporotic rats.

Hiskell Francine Fernandes E Oliveira, Owen Addison, Fernanda C Yogui, Marcos Antonio Eufrásio Cruz, Lucas Fabricio Bahia Nogueira, Roberta Okamoto, Ana Carla Gonçales Souza, Ana Paula Ramos, Fellippo Ramos Verri
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Abstract

Surface treatments play an important role in enhancing the osseointegration of Titanium (Ti) and its alloys. This study introduces a method employing biomimetic hydroxyapatite (Hap) deposition guided by molecularly organized phospholipids, affixed to the metal implant surface. Using the Langmuir-Blodgett technique, phospholipids were deposited onto Ti-screws by using CaCl2 or CaCl2/SrCl2 aqueous solution in the subphase of a Langmuir trough in the target proportion (i.e. 10 and 90 mol% of Sr2+ in relation of Ca2+) followed by immersion in phosphate buffer and in supersaturated simulated body fluid. Coating composition and morphology were evaluated using infrared spectroscopy and scanning electron microscopy, respectively, while contact angle measurements assessed coating wettability and surface energy. Randomized screws were then implanted into the tibias of healthy and osteoporotic female rats (G1: Control-Machined, G2: Hap, G3: HapSr10, G4: HapSr90). Osseointegration, assessed 60 days post-implantation, included reverse torque, fluorochrome area, bone tissue-screw contact area, and linear extent of bone-screw contact. Results, grouped by surface treatment (Machined, Hap, HapSr10, HapSr90), revealed that the deposition of Hap, HapSr10, and HapSr90 resulted in thin and rough coatings composed of hydroxyapatite (Hap) on the screw surface with nanoscale pores. The coatings resulted in increased wettability and surface energy of Ti surfaces. The minerals are chemically similar to natural bone apatite as revealed by FTIR analysis. In vivo analyses indicated higher torque values for strontium-containing surfaces in the osteoporotic group (p = 0.02) and, in the control group superior torque for screw removal on the Hap surface (p = 0.023). Hydroxyapatite-treated surfaces enhance morphology, composition, and reactivity, promoting screw osseointegration in healthy and osteoporotic female rats. The incorporation of strontium into the mineral phase has been proposed to not only stimulate osteoblast activity but also reduce osteoclastic resorption, which may explain the improved outcomes observed here in experimental osteoporotic conditions.

含锶矿化磷脂涂层可改善骨质疏松大鼠的骨结合。
表面处理在增强钛(Ti)及其合金的骨结合方面发挥着重要作用。本研究介绍了一种采用仿生羟基磷灰石(Hap)沉积的方法,该方法由粘附在金属植入物表面的分子组织磷脂引导。利用 Langmuir-Blodgett 技术,在 Langmuir 槽的底相中使用 CaCl2 或 CaCl2/SrCl2 水溶液,按照目标比例(即相对于 Ca2+ 的 10 摩尔和 90 摩尔的 Sr2+)将磷脂沉积到 Ti-螺丝上,然后浸入磷酸盐缓冲液和过饱和模拟体液中。分别使用红外光谱和扫描电子显微镜对涂层成分和形态进行了评估,而接触角测量则评估了涂层的润湿性和表面能。然后将随机螺钉植入健康和骨质疏松雌性大鼠的胫骨(G1:Control-Machined;G2:Hap;G3:HapSr10;G4:HapSr90)。植入后 60 天的骨整合评估包括反向扭矩、荧光面积、骨组织-螺钉接触面积以及骨-螺钉接触的线性范围。按表面处理(机械加工、Hap、HapSr10、HapSr90)分组的结果显示,Hap、HapSr10 和 HapSr90 的沉积会在螺钉表面形成由羟基磷灰石(Hap)组成的薄而粗糙的涂层,并带有纳米级孔隙。这些涂层增加了 Ti 表面的润湿性和表面能。傅立叶变换红外分析显示,这些矿物的化学性质与天然骨磷灰石相似。体内分析表明,骨质疏松症组中含锶表面的扭矩值更高(p = 0.02),而对照组中 Hap 表面的螺钉移除扭矩更高(p = 0.023)。经羟基磷灰石处理的表面可改善形态、成分和反应性,促进健康和骨质疏松雌性大鼠的螺钉骨结合。在矿物相中加入锶不仅能刺激成骨细胞的活性,还能减少破骨细胞的再吸收,这可能是在实验性骨质疏松情况下观察到的更好结果的原因。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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