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KMID : 1377020150120050379
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Tissue Engineering and Regenerative Medicine
2015 Volume.12 No. 5 p.379 ~ p.385
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Quantification of bone regeneration by virtual slices using non-destructive synchrotron X-ray microtomography
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Kim Yong-Gun
Bark Chung-Wung
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Abstract
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This study demonstrates a non-destructive histomorphometric analysis technique that uses virtual tissue slices obtained with synchrotron radiation X-ray microtomography (SR-¥ìCT), and compared the results to those obtained using conventional hematoxylin-eosin (H&E) photomicrography of regenerated bone in rat calvarial defects grafted with deproteinized bovine bone substitute (Bio-Oss¢ç). Calvarial defects (diameter, 4 mm) were created in 8 adult male Spraque-Dawley rats and filled with Bio-Oss¢ç. The percentage of newly formed bone (NB%) was evaluated histomorphometrically using SR-¥ìCT images and photomicrographs (H&E) 3 weeks postoperatively. Osteoconductive new bone formation was observed in the calvarial central defect. Histomorphometric analysis revealed no NB% differences between the SR-¥ìCT and photomicrograph (H&E) groups at 3 weeks (p=0.959). The mean new bone area fractions were 17.62% and 17.95% in the analysis using SR-¥ìCT virtual slices and conventional H&E-stained slices, respectively. Therefore, Bio-Oss¢ç bone regeneration can be quantified non-destructively using SR-¥ìCT at an accuracy comparable to that obtained using conventional photomicrography.
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KEYWORD
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Bone substitute, Radiation X-ray microtomography, Photomicrograph (H&E), Histomorphometry
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