Litcius/Paper detail

Engineering multi-tissue units for regenerative Medicine: Bone-tendon-muscle units of the rotator cuff

Dan Wang, Xu Zhang, Shuting Huang, Yang Liu, Sai‐Chuen Fu, Kinglun Kingston Mak, Anna Blocki, Patrick Shu‐Hang Yung, Rocky S. Tuan, Dai Fei Elmer Ker

2021Biomaterials65 citationsDOIOpen Access PDF

Abstract

Our body systems are comprised of numerous multi-tissue units. For the musculoskeletal system, one of the predominant functional units is comprised of bone, tendon/ligament, and muscle tissues working in tandem to facilitate locomotion. To successfully treat musculoskeletal injuries and diseases, critical consideration and thoughtful integration of clinical, biological, and engineering aspects are necessary to achieve translational bench-to-bedside research. In particular, identifying ideal biomaterial design specifications, understanding prior and recent tissue engineering advances, and judicious application of biomaterial and fabrication technologies will be crucial for addressing current clinical challenges in engineering multi-tissue units. Using rotator cuff tears as an example, insights relevant for engineering a bone-tendon-muscle multi-tissue unit are presented. This review highlights the tissue engineering strategies for musculoskeletal repair and regeneration with implications for other bone-tendon-muscle units, their derivatives, and analogous non-musculoskeletal tissue structures.

Topics & Concepts

Rotator cuffTissue engineeringTendonBiomedical engineeringBiomaterialLigamentMedicineRegeneration (biology)Regenerative medicineMuscle tissueAnatomyBiologyStem cellGeneticsCell biologyShoulder Injury and TreatmentTendon Structure and TreatmentSurgical Sutures and Adhesives