Serum cytokine profile during subcutaneous implantation of the decellularized esophagus matrix in rats.

Aim: to study non-specific immune response characteristics (serum cytokine profile) in rats after subcutaneous implantation of the decellularized esophagus matrix.

Methods: Data were obtained in Wistar rats. The rats underwent subcutaneous implantation of decellularized esophagus (DE) and native allogeneic esophagus (NE).

Morphological Evaluation of the Tissue Reaction to Subcutaneous Implantation of Decellularized Matrices.

Based on the data of morphological analysis, we performed histological evaluation of rat tissue reaction to subcutaneous implantation of decellularized matrices of intrathoracic organs and tissues. Cell composition of the inflammatory infiltrate was analyzed, and the dynamics of macrophage and T and B lymphocyte content was assessed on days 7 and 14 of the experiment. It was found that the reaction to implantation depended not only on the quality of decellularization and efficiency of removal of antigen molecules, but also on the original histological structure and quality of preimplantation processing of the transplant.

[Experimental development and rationale for a renal decellularization protocol with subsequent comprehensive assessment of the biological scaffold].

Unlabelled: Chronic renal failure (CRF) is one of the most challenging problems of contemporary medicine. Patients with chronic renal failure usually need renal replacement therapy as either hemodialysis, peritoneal dialysis or a kidney transplant. The latter is the most promising option for end-stage kidney disease.

Modification of Rat Lung Decellularization Protocol Based on Dynamic Conductometry of Working Solution.

We modified the protocol of obtaining of biological scaffolds of rat lungs based on dynamic recording of specific resistivity of working detergent solution (conductometry) during perfusion decellularization. Termination of sodium deoxycholate exposure after attaining ionic equilibrium plateau did not impair the quality of decellularization and preserved structural matrix components, which was confirmed by morphological analysis and quantitative assay of residual DNA.

Orthotopic transplantation of a tissue engineered diaphragm in rats.

The currently available surgical options to repair the diaphragm are associated with significant risks of defect recurrence, lack of growth potential and restored functionality. A tissue engineered diaphragm has the potential to improve surgical outcomes for patients with congenital or acquired disorders. Here we show that decellularized diaphragmatic tissue reseeded with bone marrow mesenchymal stromal cells (BM-MSCs) facilitates in situ regeneration of functional tissue.