In Vivo Evaluation of Noble Porous Apatite Disks Implanted in Rat Critical-size Calvarial Defects by Micro-CT and Histological Observations

Wataru Hatakeyama, M. Taira, K. Ikeda, Kyoko Takafuji, Hidemichi Kihara, H. Kondo, Masayuki Hattori
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引用次数: 1

Abstract

13 INTRODUCTION Apatite block and granule that are produced by high-temperature sintering with macro dimensions of mm are basically non-absorbable in osseous defects. It takes much time beyond one to two years to replace these apatite materials by natural bone in vivo. One the contrary, as Watari et al. reported, nano-size apatite via high-temperature method becomes bio-absorbable because phagocytes (neutrophil and monocytes) can dissolve apatite nano particles. We have also already reported that self-blended commercial nanoapatite (n-HAP)/collagen disks in rat cranial defects were moderately osteoconductive in the period up to 4 weeks, but its trend declined during the period from 4 weeks to 8 weeks, reflecting In Vivo Evaluation of Noble Porous Apatite Disks Implanted in Rat Critical-size Calvarial Defects by Micro-CT and Histological Observations
显微ct及组织学观察对大鼠临界尺寸颅骨缺损植入贵重多孔磷灰石盘的体内评价
高温烧结产生的宏观尺寸为mm的磷灰石块状和颗粒状,在骨缺损中基本不被吸收。在体内用天然骨代替这些磷灰石材料需要一到两年以上的时间。相反,正如Watari等人报道的那样,纳米尺寸的磷灰石通过高温方法变得可生物吸收,因为吞噬细胞(中性粒细胞和单核细胞)可以溶解磷灰石纳米颗粒。我们也已经报道了自混合商业纳米磷灰石(n-HAP)/胶原蛋白盘在大鼠颅骨缺损中在4周内具有中等的骨导向性,但在4周至8周期间呈下降趋势,这反映了Micro-CT和组织学观察对大鼠临界尺寸颅骨缺损植入的高级多孔磷灰石盘的体内评价
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