Mechanical evaluation and design of a multilayered collagenous repair biomaterial

## Abstract Human recombinant osteogenic protein‐1 (rhOP‐1) is osteoinductive. Efforts are made to develop carrier biomaterials with improved space‐keeping properties. Bovine collagen type I matrix charged with rhOP‐1 was suggested to be an advantageous device of relative liquid quality. We hypothe

## Abstract A new acellular, natural, biodegradable matrix has been discovered in the cholecyst‐derived extracellular matrix (CEM). This matrix is rich in collagen and contains several other macromolecules useful in tissue remodeling. In this study, the principal material axes, collagen fiber orien

Despite extensive research in the design of biomaterials for articular cartilage repair, there remains a need for the development of materials with the mechanical compliance to function synergistically with healthy cartilage, but porous enough to allow for tissue integration. In this study, superpor

## Abstract A fiber‐reinforced degradable scaffold for replacement of meniscal tissue was designed, fabricated, and mechanically evaluated. The hypotheses were that (1) the fiber network design would share a portion of compressive loads via the generation of circumferential tensile loads, and (2) t

This paper focuses on the design and performance evaluation of a new mechanism, named Distributed Contention Control (DCC), for the adaptive contention reduction in LAN networks that utilize random access MAC protocols. The proposed mechanism could be executed on the top of a preexistent access prot