Stereological methods to assess tissue response for tissue-engineered scaffolds

## Abstract Biodegradable macroporous cryogels with highly open and interconnected pore structures were produced from dextran modified with oligo L‐lactide bearing hydroxyethylmethacrylate (HEMA) end groups in moderately frozen solutions. Tissue responses to these novel scaffolds were evaluated in

## Abstract Our purpose was to evaluate the __in vivo__ endosseous response to three starch‐based scaffolds implanted in rats (__n__ = 54). We implanted the three scaffold groups; a 50/50 (wt %) blend of corn starch and ethylene‐vinyl alcohol (SEVA‐C), the same composition coated with a biomimetic

In designing scaffolds for tissue regeneration, the principal objective is to recapitulate extracellular matrix (ECM) function in a temporally coordinated and spatially organised structure. A key issue is to encode required biological signals within the scaffold so that all aspects of cell response-

## Abstract Gene delivery from tissue engineering scaffolds has potential to promote localized transgene expression that can induce the formation of functional tissues. Substrate‐mediated delivery, an alternative delivery strategy to sustained release, is based on immobilization of DNA complexes to

## Abstract Porous polyester thermoset xerogels have been produced via sol–gel chemistry as a first step in the development of sol–gel derived tissue engineering scaffolds templated by replica molding and/or salt leaching. The pore structure of these untemplated thermosets is tunable and can be alt

## Abstract Biocompatibility and cell seeding capability of a new cell scaffold made of textured polylactic acid (PLA) fibers was investigated as a new material for tissue engineering of anterior cruciate ligaments (ACL). Adhesion and proliferation of human mesenchymal progenitor cells (MPC) was in