Long-term Transplant Function After Thrombolytic Treatment Ex Vivo of Donated Kidneys Retrieved 4 to 5 H After Circulatory Death.

Background: Using a novel thrombolytic technique, we present long-term transplant function, measured by creatinine and iohexol clearance, after utilizing kidneys from porcine donors with uncontrolled donation after circulatory deaths, with 4.5-5 h of warm ischemia.

Methods: Pigs in the study group were subjected to simulated circulatory death.

Novel Ex-Vivo Thrombolytic Reconditioning of Kidneys Retrieved 4 to 5 Hours After Circulatory Death.

Background: Due to organ shortage, many patients do not receive donor organs. The present novel thrombolytic technique utilizes organs from donors with uncontrolled donation after circulatory deaths (uDCD), with up to 4-5 h warm ischemia, without advanced cardiopulmonary resuscitation (aCPR) or extracorporeal circulation (EC) after death.

Methods: The study group of pigs (n = 21) underwent simulated circulatory death.

Characterization of Decellularized Implants for Extracellular Matrix Integrity and Immune Response Elicitation.

Biological scaffold is a popular choice for the preparation of tissue-engineered organs and has the potential to address donor shortages in clinics. However, biological scaffolds prepared by physical or chemical agents cause damage to the extracellular matrix (ECM) by potentially inducing immune responses after implantation. The current study explores the fate of the decellularized (DC) scaffolds using a cocktail of chemicals following implantation without using immunosuppressants.

Combined Use of Detergents and Ultrasonication for Generation of an Acellular Pig Larynx.

The larynx is a fairly complex organ comprised of different muscles, cartilages, mucosal membrane, and nerves. Larynx cancer is generally the most common type of head and neck cancer. Treatment options are limited in patients with total or partial laryngectomy.

Differential Activation of Immune Cells for Genetically Different Decellularized Cardiac Tissues.

The immunogenicity of the extracellular matrix (ECM) from genetically similar (syngeneic) and dissimilar (allogeneic and xenogeneic) species has puzzled the scientific community for many years. After implantation, the literature describes an absorption of ECM material since it is biodegradable. However, no clear insight really exists to substantiate how the underlying immune and biological responses result in absorption of ECM materials.

Regeneration of Decellularized Pig Esophagus Using Human Amniotic Stem Cells.

Decellularization of esophagus was studied using three different protocols. The sodium deoxycholate/DNase-I (SDC/DNase-I) method was the most successful as evidenced by histology and DNA quantification of the acellular scaffolds. Acellular scaffolds were further analyzed and compared with native tissue by histology, quantitative analysis of DNA, and extracellular matrix (ECM) proteins.