Abstract: Disclosed herein are light sheet imaging systems for imaging fluorescent samples. Also disclosed herein are sample holder systems for high throughput light sheet imaging of multiple three-dimensional samples without user intervention. Further disclosed herein are automated image processing methods to identify and quantify fluorescent particles within three-dimensional image sets without user intervention or user bias.

Abstract: Disclosed herein are devices and systems comprising a) a substrate comprising at least 100 microwells and a plurality of beads, wherein a plurality of the at least 100 microwells each contain a single bead, and wherein the ratio of the average diameter of the microwells to the diameter of the beads ranges from about 1.2 to about 1.8; b) a flow cell in fluid communication with the substrate; and c) at least one inlet port and at least one outlet port, wherein the at least one inlet port and at least one outlet port are capable of directing a flow of a fluid through the flow cell, thereby contacting the microwells with the fluid.

Abstract: Methods of regenerating tissue using progenitor cells in combination with primary cells from a target tissue are disclosed. The progenitor cells catalyze proliferation and tissue production by primary cells allowing the use of fewer primary cells from a target tissue for effective tissue regeneration. Cell-based therapies combining progenitor cells and primary cells can be used for repair and regeneration of damaged tissue and organs for treating bodily injuries and degenerative diseases. In particular, adipose-derived stem cells and chondrocytes, co-encapsulated in a mixed culture in a polyethylene glycol-based hydrogel comprising an extracellular matrix molecule such as chondroitin sulfate methacrylate, hyaluronic acid methacrylate, or heparan sulfate methacrylate, effectively produce cartilage that can be used for treatment of traumatic injuries or diseases involving cartilage degeneration.

Abstract: Methods of regenerating tissue using progenitor cells in combination with primary cells from a target tissue are disclosed. In particular, progenitor cells catalyze proliferation and tissue production by primary cells allowing the use of fewer primary cells from a target tissue for effective tissue regeneration. Cell-based therapies combining progenitor cells and primary cells can be used for repair and regeneration of damaged tissue and organs for treating bodily injuries and degenerative diseases. For example, adipose-derived stem cells and neonatal articular chondrocytes, co-encapsulated in mixed or bilayered cultures in a hydrogel comprising chondroitin sulfate methacrylate and poly(ethylene)glycol diacrylate, generated cartilage that could be used for treatment of traumatic injuries or diseases involving cartilage degeneration.

Abstract: The present invention provides a genetically-modified non-human animal whose somatic and germ cells contain a gene encoding an altered form of an DHX36 gene, the altered DHX36 haviang been targeted to replace a wild-type DHX36 gene into the animal or an ancestor of the animal at an embyonic stage using embryonic stem cells. An ideal use of the genetically-modified non-human animal of the invention is the use as an experimental model for muscular dystrophy, e.g. spinal muscular atrophy, to identify e.g. new treatments for muscular dystrophy and or study its pathogenesis.