Presented is an airway organ bioreactor apparatus, and methods of use thereof, as well as bioartificial airway organs produced using the methods, and methods of treating subjects using the bioartificial airway organs. The bioreactor comprises: an organ chamber: an ingres line connecting the organ chamber and a reservoir system and comprising an arterial line, a venous line and a tracheal line; an egress line connecting the chamber and the reservoir system, pumps in ingress and egress lines; a controller to control fluid exchange; a chamber pressure sensor connected to the organ chamber.

Presented is an airway organ bioreactor apparatus, and methods of use thereof, as well as bioartificial airway organs produced using the methods, and methods of treating subjects using the bioartificial airway organs. The bioreactor comprises: an organ chamber: an ingres line connecting the organ chamber and a reservoir system and comprising an arterial line, a venous line and a tracheal line; an egress line connecting the chamber and the reservoir system, pumps in ingress and egress lines; a controller to control fluid exchange; a chamber pressure sensor connected to the organ chamber.

The present invention provides a REGEND001 cell autologous deliverable preparation, and a use thereof for improving the pulmonary function of a patient suffering from idiopathic pulmonary fibrosis. The preparation is prepared by collection, in vitro isolation and culture and amplification of the patient's autologous bronchial basal cells.

The present invention provides a REGEND001 cell autologous deliverable preparation, and a use thereof for improving the pulmonary function of a patient suffering from idiopathic pulmonary fibrosis. The preparation is prepared by collection, in vitro isolation and culture and amplification of the patient's autologous bronchial basal cells.

A sheet structure comprising two joined extracellular matrix (ECM) tissue or sheet layers and a physiological sensor disposed therebetween; the ECM tissue being derived from a mammalian tissue source that includes small intestine submucosa (SIS), urinary bladder submucosa (UBS), stomach submucosa (SS), urinary basement membrane (UBM), liver basement membrane (LBM), amniotic membrane, mesothelial tissue, placental tissue and cardiac tissue.

A composition composed of xylooligosaccharide, arabinogalactan, inulin, Ganoderma lucidum beta glucan, insoluble yeast β (1, 3/1, 6)-glucan, soluble oat β (1,3/1, 4)-glucan, and insoluble dried Saccharomyces cerevisiae fermentate, with a Bacillus coagulans component, for use in improving or maintaining digestive health, weight and glucose balance and boosting immunity is provided.

The present disclosure provides compositions and methods related to antiviral therapeutics. In particular, the present disclosure provides novel compositions and methods for treating and/or preventing viral infections using vesicles derived from lung spheroid cells (LSCs). LSC-derived vesicles can be used as viral decoy nanoparticles for therapeutic applications, as virus-like particles (VLPs) for vaccine production, and as an antiviral drug delivery platform.

The present disclosure provides compositions and methods related to antiviral therapeutics. In particular, the present disclosure provides novel compositions and methods for treating and/or preventing viral infections using vesicles derived from lung spheroid cells (LSCs). LSC-derived vesicles can be used as viral decoy nanoparticles for therapeutic applications, as virus-like particles (VLPs) for vaccine production, and as an antiviral drug delivery platform.

A method of treating a subject in need of a non-syngeneic cell or tissue graft is disclosed. The method comprising: (a) transplanting into a subject a dose of T cell depleted immature hematopoietic cells, wherein the T cell depleted immature hematopoietic cells comprise less than 5×10.sup.5 CD3.sup.+ T cells per kilogram body weight of the subject, and wherein the dose comprises at least about 5×10.sup.6 CD34+ cells per kilogram body weight of the subject; and subsequently (b) administering to the subject a therapeutically effective amount of cyclophosphamide, wherein the therapeutically effective amount comprises 25-200 mg per kilogram body weight, thereby treating the subject.

A method of treating a subject in need of a non-syngeneic cell or tissue graft is disclosed. The method comprising: (a) transplanting into a subject a dose of T cell depleted immature hematopoietic cells, wherein the T cell depleted immature hematopoietic cells comprise less than 5×10.sup.5 CD3.sup.+ T cells per kilogram body weight of the subject, and wherein the dose comprises at least about 5×10.sup.6 CD34+ cells per kilogram body weight of the subject; and subsequently (b) administering to the subject a therapeutically effective amount of cyclophosphamide, wherein the therapeutically effective amount comprises 25-200 mg per kilogram body weight, thereby treating the subject.