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Quintessence Publishing: Journals: OCTE

 

Oral & Craniofacial Tissue Engineering

Edited by Ole T. Jensen, DDS, MS

Official Journal of the Tissue Engineering Society, the Chinese Society of Oral Biomedicine, and the Japanese Society of Regenerative Medicine

ISSN (print) 2158-3722 • ISSN (online) 2158-3706

Publication:
Oral & Craniofacial Tissue Engineering
Winter 2012
Volume 2 , Issue 4

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Topical Application of Slow-Release Simvastatin as a Bone Substitute in Bone Defects in the Rat Tibia: A Pilot Study

Heli Rushinek, DMD/Michael Alterman, DMD/Amir Laviv, DMD/Ervin I. Weiss, DMD/ Michael Friedman, PhD/Nardy Casap, DMD, MD

Pages: 303-308
DOI: 10.11607/octe.0057

Purpose: It is hypothesized that local application of statins positively affects bone formation. The aim of this study was to evaluate the potential effect of topical slow-release simvastatin as a bone substitute on the healing of bone defects in rat tibia. Materials and Methods: Granules of slow-releasing hydroxypropyl methylcellulose, with or without simvastatin, were inserted into critical-size defects in the tibiae of 16 rats (8 in the study group, 8 in the control group). Bone static and dynamic histomorphometric variables were examined at 2, 4, 6, and 8 weeks postsurgery. Results: All indices examined in the study group indicated improved healing relative to the control group, although statistical significance was not demonstrated for all variables. In the static histomorphometric analysis, osteoid thickness and volume were significantly higher in the study group, but the fraction of trabecular surface covered with active osteoblasts, the fraction of trabecular surface covered with osteoid, and total calcified bone volume were not significantly higher in the experimental group. In the dynamic histomorphometric analysis, the mineral apposition rate, determined by time-repeated calcein labeling, was significantly higher in the study group than in the control group. Experimental time and dosage effects were observed for most bone values in the study group. Conclusion: The findings indicate that topical application of simvastatin for the treatment of bone defects enhances the process of healing. Dosage and the methodology of administration require further calibration. Oral Craniofac Tissue Eng 2012;2:303308. doi: 10.11607/octe.0057

Key words: animal study, bone healing, bone substitutes, simvastatin, statins

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