Extrahepatic transplantation of 3D cultured stem cell-derived islet organoids on microporous scaffolds.

Stem cell differentiation methods have been developed to produce cells capable of insulin secretion which are showing promise in clinical trials for treatment of type-1 diabetes. Nevertheless, opportunities remain to improve cell maturation and function. Three-dimensional (3D) culture has demonstrated improved differentiation and metabolic function in organoid systems, with biomaterial scaffolds employed to direct cell assembly and facilitate cell-cell contacts.

MHC class II genotype-by-pathogen genotype interaction for infection prevalence in a natural rodent-Borrelia system.

MHC genes are extraordinarily polymorphic in most taxa. Host-pathogen coevolution driven by negative frequency-dependent selection (NFDS) is one of the main hypotheses for the maintenance of such immunogenetic variation. Here, we test a critical but rarely tested assumption of this hypothesis-that MHC alleles affect resistance/susceptibility to a pathogen in a strain-specific way, that is, there is a host genotype-by-pathogen genotype interaction.

Integration of Islet/Beta-Cell Transplants with Host Tissue Using Biomaterial Platforms.

Cell-based therapies are emerging for type I diabetes mellitus (T1D), an autoimmune disease characterized by the destruction of insulin-producing pancreatic β-cells, as a means to provide long-term restoration of glycemic control. Biomaterial scaffolds provide an opportunity to enhance the manufacturing and transplantation of islets or stem cell-derived β-cells. In contrast to encapsulation strategies that prevent host contact with the graft, recent approaches aim to integrate the transplant with the host to facilitate glucose sensing and insulin distribution, while also needing to modulate the immune response.

Human lung organoids develop into adult airway-like structures directed by physico-chemical biomaterial properties.

Tissues derived from human pluripotent stem cells (hPSCs) often represent early stages of fetal development, but mature at the molecular and structural level when transplanted into immunocompromised mice. hPSC-derived lung organoids (HLOs) transplantation has been further enhanced with biomaterial scaffolds, where HLOs had improved tissue structure and cellular differentiation. Here, our goal was to define the physico-chemical biomaterial properties that maximally enhanced transplant efficiency, including features such as the polymer type, degradation, and pore interconnectivity of the scaffolds.

A Christian Case for Farmed Animal Welfare.

It is now common to blame Christianity for broader society's general inattention to the needs and comfort of animals in general, and farmed animals in particular. This critique of Christianity claims that certain biblical themes and particular biblical passages form the foundation for an anti-animal position that Christianity has imposed on Christians and on wider Western society. This article concedes that Christianity has often been used to justify exploitation of animals, but argues that it is a mistake to consider Christianity inevitably opposed to concern for animals.