This study reports that hMSC can be manipulated in order to engineer a bone organ, characterised by mature osseous and vascular components and capable to recruit, host and maintain functional HSCs. Bone tissue engineering strategies are typically based on methods involving adult human Mesenchymal Stromal Cells (hMSC) in a process resembling intramembranous ossification. However, most bones develop and repair through endochondral ossification. In addition, endochondral ossification presents several advantages for regenerative purposes such as osteogenic activity, capability to drive formation of the Hematopoietic Stem Cell (HSC) niche, resistance to hypoxia, intrinsic vasculogenic potential and, consequently, efficiency of engraftment. In this study, we aimed at developing an endochondral bone organ model characterised by functional osseous and hematopoietic compartments by using hMSC.Summary Statement
Introduction
In this study, massive rotator cuff tears were treated using an absorbable collagen-based patch or a non-absorbable synthetic patch. Results demonstrated the efficacy of the use of the synthetic prolene patch especially for elderly patients The treatment of massive rotator cuff tears presents a challenging problem in shoulder surgery. Traditional repair techniques are associated with high rupture rates due to excessive tension on the repair and the presence of degenerated tendon tissue. These factors have led to attempts to reconstruct the rotator cuff with grafts, using synthetic materials or biologic tissues. The purpose of this study was to compare the efficacy of the use of pericardium patch with the use of prolene patch in the repair of extensive rotator cuff tears.Summary Statement
Introduction
