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A preclinical large-animal model for the assessment of critical-size load-bearing bone defect reconstruction.

David S SparksSiamak SaifzadehFlavia Medeiros SaviConstantin Edmond DlaskaArne BernerJan HenkelJohannes C ReichertMartin WullschlegerJiongyu RenAmaia CipitriaJacqui Anne McGovernRoland SteckMichael WagelsMaria Ann WoodruffMichael A SchuetzDietmar Werner Hutmacher
Published in: Nature protocols (2020)
Critical-size bone defects, which require large-volume tissue reconstruction, remain a clinical challenge. Bone engineering has the potential to provide new treatment concepts, yet clinical translation requires anatomically and physiologically relevant preclinical models. The ovine critical-size long-bone defect model has been validated in numerous studies as a preclinical tool for evaluating both conventional and novel bone-engineering concepts. With sufficient training and experience in large-animal studies, it is a technically feasible procedure with a high level of reproducibility when appropriate preoperative and postoperative management protocols are followed. The model can be established by following a procedure that includes the following stages: (i) preoperative planning and preparation, (ii) the surgical approach, (iii) postoperative management, and (iv) postmortem analysis. Using this model, full results for peer-reviewed publication can be attained within 2 years. In this protocol, we comprehensively describe how to establish proficiency using the preclinical model for the evaluation of a range of bone defect reconstruction options.
Keyphrases
  • bone mineral density
  • patients undergoing
  • soft tissue
  • bone loss
  • bone regeneration
  • postmenopausal women
  • randomized controlled trial
  • stem cells
  • mesenchymal stem cells
  • human health