The present disclosure provides methods of preparing a biological specimen for imaging analysis, comprising fixing and clearing the biological specimen and subsequently analyzing the cleared biological specimen using microscopy. Also included are methods of quantifying cells, for example, active populations of cells in response to a stimulant. The present disclosure also provides devices for practicing the described methods. A flow-assisted clearing device provides rapid clearing of hydrogel-embedded biological specimens without the need of specialized equipment such as electrophoresis or perfusion devices.

Materials and methods for cell-mimetics having mechanical properties of biological neural axons are provided. A cell-mimetic device includes an array of fibers comprised of hexanediol diacrylate (HDDA) or an HDDA derivative, and at least one derivative of polyethylene glycol (PEG) selected from the group consisting of: PEG-acrylate, PEG-diacrylate, and any multi-arm PEG-acrylate.

The present invention relates to a method of culturing primitive macrophages from stem cells. Specifically, the method comprises contacting and incubating stem cells with a serum-free culture media comprising a GSK3 inhibitor to differentiate stem cells into cell of the mesoderm lineage, contacting and incubating cells of the mesoderm lineage with a culture media comprising DKK1 to differentiate the cells into the hematopoietic lineage, maturing the cells of the hematopoietic lineage and contacting and incubating these cells with a culture media comprising M-CSF to drive differentiation into primitive-like macrophages. The invention also relates to a primitive-like macrophage, use of the primitive-like macrophage and a kit when used in the method of the invention.

The present disclosure provides antibodies that specifically bind to human FAM19A5 and compositions comprising such antibodies. Also provided herein are methods for treating fibrosis or cancer using the anti-FAM19A5 antibodies.

The invention disclosed herein generally relates to methods and systems for converting stem cells into specific tissue(s) or organ(s) through directed differentiation. In particular, the invention disclosed herein relates to methods and systems for promoting human self-organizing single-rosette spheroids (SOSRS), a type of brain organoid, comprising neuroepithelium having either a dorsal cell fate or a ventral cell fate formation from pluripotent stem cells.

Provided are cortical interneurons and other neuronal cells and in vitro methods for producing such cortical interneurons and other neuronal cells by the directed differentiation of stem cells and neuronal progenitor cells. The present disclosure relates to novel methods of in vitro differentiation of stem cells and neural progenitor cells to produce several type neuronal cells and their precursor cells, including cortical interneurons, hypothalamic neurons and pre-optic cholinergic neurons. The present disclose describes the derivation of these cells via inhibiting SMAD and Wnt signaling pathways and activating SHH signaling pathway. The present disclosure relates to the novel discovery that the timing and duration of SHH activation can be harnessed to direct controlled differentiation of neural progenitor cells into either cortical interneurons, hypothalamic neurons or pre-optic cholinergic neurons. The present disclosure also relates to compositions of cortical interneurons, hypothalamic neurons or pre-optic cholinergic neurons, and their precursors, that are highly enriched and can be used in variety of application. These cells can be used therapeutically to treat neurodegenerative and neuropsychiatric disorders, and can be used for disease modeling and drug screening.

The disclosure provides a method for analyzing compounds extracted from Cannabis. The method comprises extracting cannabinoids or terpenes from a sample using a C.sub.1-C.sub.4 alcohol or C.sub.5-C.sub.8 solvent as an extraction solvent to produce a supernatant, drying the supernatant to produce a dried extract, and dissolving the dried extract in a second C.sub.1-C.sub.4 alcohol or C.sub.5-C.sub.8 solvent, separating the cannabinoids or terpenes by gas chromatography using a capillary column with hydrogen as a carrier gas; and detecting the cannabinoids or terpenes using a mass spectrometer. The disclosure also provides a method of determining an effect of one or more Cannabis-derived compounds on intracellular calcium concentration in a cell using a microfluidic device.

The present invention is directed to methods and compositions for treating Glioblastoma multiforme (GBM). The risk of developing therapy resistant GBM may be assessed by detecting the presence of ABCB5 in the GBM cells. Therapeutic interventions utilizing an ABCB5 blockade to sensitize the GBM cells to therapeutic agents such as temozolomide are provided.

Exemplary embodiments provide in vitro brain models, such as in vitro models of a neurovascular unit or a functionally connected trineural pathway, and systems, devices and methods of use thereof. The present invention provides in vitro brain models, systems, devices and methods that mimic in vivo conditions to, for example, determine the effect of a test compound, such as a drug candidate or a toxin, on various biological responses, such as for example, cell viability, cell growth, migration, differentiation and maintenance of cell phenotype, metabolic activity, structural remodeling and tissue level pre-stress, a neural activity, such as an electrophysiological activity.

Provided herein is a dual cell aggregate culture of retinal epithelial cells and photoreceptors for use as a research tool, such as the screening of compounds or model for study of retinal diseases, as well as a therapeutic for treating ocular diseases.