CORRELATION BETWEEN MICRO-CT SECTIONS AND HISTOLOGICAL SECTIONS OF MOUSE SKULL DEFECTS IMPLANTED WITH ENGINEERED CARTILAGE.

Gravitational and space biology bulletin : publication of the American Society for Gravitational and Space Biology Pub Date : 2009-09-01

P J Duke, L Doan, H Luong, C Kelley, W Leboeuf, Q Diep, E Johnson, D D Cody

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Abstract

One advantage of using cartilage to replace/repair bone is that the implant disappears as bone is formed by endochondral ossification. Previously, we showed that cartilage spheroids, grown in a rotating bioreactor (Synthecon, Inc.) and implanted into a 2 mm skull defect, contributed to healing of the defect. Skulls with or without implants were subjected to microCT scans. Mineralized regions from microCT sections correlated with regions of bone in histological sections of the defect region of demineralized skulls. Recently, sections from microCT scans of live mice were compared to histological sections from the same mice. The area of the defect staining for bone in histological sections of demineralized skulls was the same region shown as mineralized in microCT sections. Defects without implants were not healed. This study demonstrates that microCT scans are an important corollary to histological studies evaluating the use of implants in healing of bony defects.

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工程软骨植入小鼠颅骨缺损的显微ct切片与组织学切片的相关性研究。

使用软骨代替/修复骨的一个优点是，当骨通过软骨内成骨形成时，植入物消失。先前，我们展示了在旋转生物反应器(Synthecon, Inc.)中生长的软骨球体，并将其植入2mm的颅骨缺损，有助于缺损的愈合。植入或不植入的颅骨进行微ct扫描。显微ct切片上的矿化区域与脱矿颅骨缺损区组织学切片上的骨区域相关。最近，活体小鼠的微ct扫描切片与同一小鼠的组织学切片进行了比较。脱矿颅骨组织切片骨缺损染色区域与微ct切片矿化区域相同。没有植入物的缺损不能愈合。本研究表明，显微ct扫描是评估植入物在骨缺损愈合中的应用的组织学研究的重要推论。

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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Gravitational and space biology bulletin : publication of the American Society for Gravitational and Space Biology

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