A scaffold, constructed from a bi-layer silk fibroin skeleton (BSFS) and a bladder acellular
matrix hydrogel (BAMH) encapsulated with adipose-derived stem cells (ASCs), was …

The unfavourable clinical outcomes of host cell-seeded scaffolds for bladder augmentation
warrant improved bioactive biomaterials. This study aimed to examine the feasibility of …

With advances in tissue engineering, various synthetic and natural biomaterials have been
widely used in tissue regeneration of the urinary bladder in rat models. However …

Background Due to the multilineage differentiation ability and paracrine role of adipose-
derived stem cells (ASCs) for bladder defect repair, various scaffolds have been applied in …

Bladder acellular matrix graft-alginate dialdehyde-gelatin hydrogel-silk mesh (BAMG-HS)
encapsulated with adipose-derived stem cells (ASCs) was evaluated in a rat model of …

Cell-seeded scaffolds are a common route of cell transplantation for bladder repair and
reconstruction. However, when cell suspensions are harvested, proteolytic enzymes often …

Tissue engineering brings new hope for the reconstruction of injured bladders. The aim of
the present study was to evaluate human adipose-derived mesenchymal stem cells …

Reconstruction of the bladder wall via in vitro differentiated stem cells on an appropriate
scaffold could be used in such conditions as cancer and neurogenic urinary bladder. This …

The bladder patch constructed with the bladder acellular matrix (BAM) and adipose-derived
stem cells (ASCs) was incubated with the omentum for bladder reconstruction in a rat model …

We developed a stromal cell–derived factor‐1 alpha (SDF‐1α)‐aligned silk fibroin (SF)/three‐
dimensional porous bladder acellular matrix graft (3D‐BAMG) composite scaffold for long …