TY - JOUR
T1 - Transplantation of autologous minced bladder mucosa for a one-step reconstruction of a tissue engineered bladder conduit
AU - Reinfeldt Engberg, Gisela
AU - Lundberg, Johan
AU - Chamorro, Clara Ibel
AU - Nordenskjöld, Agneta
AU - Fossum, Magdalena
PY - 2013
Y1 - 2013
N2 - Surgical intervention is sometimes needed to create a conduit from the abdominal wall to the bladder for self-catheterization. We developed a method for tissue engineering a conduit for bladder emptying without in vitro cell culturing as a one-step procedure. In a porcine animal model bladder, wall tissue was excised and the mucosa was minced to small particles. The particles were attached to a tube in a 1 : 3 expansion rate with fibrin glue and transplanted back by attaching the tube to the bladder and through the abdominal wall. Sham served as controls. After 4-5 weeks, conduits were assessed in respect to macroscopic and microscopic appearance in 6 pigs. Two pigs underwent radiology before termination. Gross examination revealed a patent conduit with an opening to the bladder. Histology and immunostaining showed a multilayered transitional uroepithelium in all cases. Up to 89% of the luminal surface area was neoepithelialized but with a loose attachment to the submucosa. No epithelium was found in control animals. CT imaging revealed a patent channel that could be used for filling and emptying the bladder. Animals that experienced surgical complications did not form conduits. Minced autologous bladder mucosa can be transplanted around a tubular mold to create a conduit to the urinary bladder without in vitro culturing.
AB - Surgical intervention is sometimes needed to create a conduit from the abdominal wall to the bladder for self-catheterization. We developed a method for tissue engineering a conduit for bladder emptying without in vitro cell culturing as a one-step procedure. In a porcine animal model bladder, wall tissue was excised and the mucosa was minced to small particles. The particles were attached to a tube in a 1 : 3 expansion rate with fibrin glue and transplanted back by attaching the tube to the bladder and through the abdominal wall. Sham served as controls. After 4-5 weeks, conduits were assessed in respect to macroscopic and microscopic appearance in 6 pigs. Two pigs underwent radiology before termination. Gross examination revealed a patent conduit with an opening to the bladder. Histology and immunostaining showed a multilayered transitional uroepithelium in all cases. Up to 89% of the luminal surface area was neoepithelialized but with a loose attachment to the submucosa. No epithelium was found in control animals. CT imaging revealed a patent channel that could be used for filling and emptying the bladder. Animals that experienced surgical complications did not form conduits. Minced autologous bladder mucosa can be transplanted around a tubular mold to create a conduit to the urinary bladder without in vitro culturing.
KW - Animals
KW - Female
KW - Image Processing, Computer-Assisted
KW - Mucous Membrane/transplantation
KW - Plastic Surgery Procedures/methods
KW - Staining and Labeling
KW - Tissue Engineering/methods
KW - Transplantation, Autologous
KW - Urinary Bladder/pathology
U2 - 10.1155/2013/212734
DO - 10.1155/2013/212734
M3 - Journal article
C2 - 24288669
SN - 1741-5020
VL - 2013
SP - 212734
JO - International Journal of Biotechnology
JF - International Journal of Biotechnology
ER -