Abstract: The present disclosure provides automated methods and systems for implementing a pipeline involving the training and deployment of a predictive model for predicting cellular diseased state (e.g., neurodegenerative disease state such as presence or absence of Parkinson's Disease). Such a predictive model distinguishes between morphological cellular phenotypes e.g., morphological cellular phenotypes elucidated using Cell Paint, exhibited by cells of different diseased states.

Abstract: The invention provides an automated system for producing induced pluripotent stem cells (iPSCs) from adult somatic cells. Further, the system is used for producing differentiated adult cells from stem cells.

Abstract: This invention concerns an integrated microfluidic system that utilizes microfluidic chip technology to receive a patient sample including cells, expand the cells, reprogram the expanded cells and then store the reprogrammed cells in a microfluidic chip. These microfluidic chips with stored reprogrammed cells may then be used in scenarios of genetic differentiation into specific cell types. Overall this system and workflow is suitable as a hospital based device that will allow the generation of iPSCs from every patient for downstream diagnostic or therapeutic use.

Abstract: This invention concerns an integrated microfluidic system that utilizes microfluidic chip technology to receive a patient sample including cells, expand the cells, reprogram the expanded cells and then store the reprogrammed cells in a microfluidic chip. These microfluidic chips with stored reprogrammed cells may then be used in scenarios of genetic differentiation into specific cell types. Overall this system and workflow is suitable as a hospital based device that will allow the generation of iPSCs from every patient for downstream diagnostic or therapeutic use.

Abstract: The present invention provides various improved systems and methods for obtaining, generating, culturing, and handling cells, such as stem cells (including induced pluripotent stem cells or iPSCs) and differentiated cells, as well as cells and cell panels produced using such systems and methods, and uses of such cells and cell panels.

Abstract: The present invention provides methods and compositions for the generation of microglial progenitor cells and microglial cells from pluripotent stem cells, such as embryonic stem cells and induced pluripotent stem cells. The present invention also provides cells produced using such methods, and both methods of treatment and methods of drug screening that use such cells. Also provided are various tissue culture media, tissue culture media supplements, and kits useful for the generation of human microglial progenitor cells and human microglial cells.

Abstract: The invention provides an automated system for producing induced pluripotent stem cells (iPSCs) from adult somatic cells. Further, the system is used for producing differentiated adult cells from stem cells.

Abstract: The present invention provides methods and compositions for the generation of microglial progenitor cells and microglial cells from pluripotent stem cells, such as embryonic stem cells and induced pluripotent stem cells. The present invention also provides cells produced using such methods, and both methods of treatment and methods of drug screening that use such cells. Also provided are various tissue culture media, tissue culture media supplements, and kits useful for the generation of human microglial progenitor cells and human microglial cells.

Abstract: The present invention provides various improved systems and methods for obtaining, generating, culturing, and handling cells, such as stem cells (including induced pluripotent stem cells or iPSCs) and differentiated cells, as well as cells and cell panels produced using such systems and methods, and uses of such cells and cell panels.

Abstract: The invention relates to methods and compositions for developing basal forebrain cholinergic neurons (BFCNs) from stem cells, and in particular, BFCNs having repaired electrophysiological defects relating to one or more mutations in PSEN2, and to the use of such BFCNs in cell-based therapies to treat Alzheimer's disease.

Abstract: The invention provides an automated system for producing induced pluripotent stem cells (iPSCs) from adult somatic cells. Further, the system is used for producing differentiated adult cells from stem cells.

Abstract: The invention relates to methods and compositions for developing basal forebrain cholinergic neurons (BFCNs) from stem cells, and in particular, BFCNs having repaired electrophysiological defects relating to one or more mutations in PSEN2, and to the use of such BFCNs in cell-based therapies to treat Alzheimer's disease.

Abstract: The present invention provides various improved systems and methods for obtaining, generating, culturing, and handling cells, such as stem cells (including induced pluripotent stem cells or iPSCs) and differentiated cells, as well as cells and cell panels produced using such systems and methods, and uses of such cells and cell panels.

Abstract: The invention provides an automated system for producing induced pluripotent stem cells (iPSCs) from adult somatic cells. Further, the system is used for producing differentiated adult cells from stem cells.

Abstract: This invention concerns an integrated microfluidic system that utilizes microfluidic chip technology to receive a patient sample including cells, expand the cells, reprogram the expanded cells and then store the reprogrammed cells in a microfluidic chip. These microfluidic chips with stored reprogrammed cells may then be used in scenarios of genetic differentiation into specific cell types. Overall this system and workflow is suitable as a hospital based device that will allow the generation of iPSCs from every isolating patient for downstream diagnostic or therapeutic use.

Abstract: The present invention provides various improved systems and methods for obtaining, generating, culturing, and handling cells, such as stem cells (including induced pluripotent stem cells or iPSCs) and differentiated cells, as well as cells and cell panels produced using such systems and methods, and uses of such cells and cell panels.

Abstract: The invention provides an automated system for producing induced pluripotent stem cells (iPSCs) from adult somatic cells. Further, the system is used for producing differentiated adult cells from stem cells. The invention system is useful for isolating somatic cells from tissue samples, producing iPSC lines from adult differentiated cells by reprogramming such cells, identifying the pluripotent reprogrammed adult cells among other cells, and expanding and screening the identified reprogrammed cells.

Abstract: The invention relates to methods and compositions for developing basal forebrain cholinergic neurons (BFCNs) from stem cells, and in particular, BFCNs having repaired electrophysiological defects relating to one or more mutations in PSEN2, and to the use of such BFCNs in cell-based therapies to treat Alzheimer's disease.

Abstract: The present invention provides methods and compositions for the generation of microglial progenitor cells and microglial cells from pluripotent stem cells, such as embryonic stem cells and induced pluripotent stem cells. The present invention also provides cells produced using such methods, and both methods of treatment and methods of drug screening that use such cells. Also provided are various tissue culture media, tissue culture media supplements, and kits useful for the generation of human microglial progenitor cells and human microglial cells.

Abstract: The present invention relates to the diagnosis, prognosis, progression, and treatment of Alzheimer's disease. In particular, Alzheimer's disease can be characterized by the differential expression of certain genes, including ASB9, BIK, C7orfl6, NDP, NLRP2, PLP1, SLC45A2, TBX2, TUBB4, ZNF300, ADM2, FLJ35024, MT2A, PTGS2, ABCC2, ECEL1, EGFL8, FSTL5, and SMOC1. The present invention also relates to systems and methods of analyzing Alzheimer's disease, methods of screening for treatment agents for Alzheimer's disease and kits for the analysis of Alzheimer's disease.