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iPSC-Derived Cells
Advances in human induced pluripotent stem cell (iPSC) technology have allowed the generation of donor-derived healthy and diseased cell lines, enabling the study of human disease phenotypes that are challenging to replicate in animal models.
The Power of iPSCs and iPSC-Derived Cells
- Cell therapy: iPSCs are being explored in various cell therapy applications for the purpose of reversing injury or disease.
- Disease modelling: By generating iPSCs from patients with disease of interest and differentiating them into disease-specific cells, iPSCs can effectively create disease models "in a dish".
- Drug development and discovery: iPSCs have the potential to transform drug discovery by providing physiologically relevant cells for target validation, compound identification and screening.
- Personalized medicine: Combining iPSCs with genome editing technology adds a new dimension to personalized medicine.
- Toxicology testing: iPSCs can be used for toxicology screening, that is, using stem cells or their derivatives to evaluate the safety of compounds in living cells.
- Other applications of iPSCs and iPSC-derived cells include their use as research products, as well as their integration into tissue engineering, and increasingly, meat production.
Available Products & Services
Creative Bioarray enables research applications by providing iPSCs, iPSC-derived cells and gene-edited iPSCs. Creative Bioarray's expertise includes: reprogramming donor cells into iPSCs, editing genes of interest, differentiating them into all major cell subtypes and validating their phenotype-related function and pharmacology.
Description: Mesenchymal stem cells (MSCs) are non-haematopoietic, multipotent stromal stem cells...
Description: Human iPSC-Derived Neural Stem Cells are a homogeneous and multipotent population...
Description: Human iPSC-derived Alveolar Epithelial Cells are Type 2 Alveolar Epithelial Cells...
Description: Human iPSC-derived motor neurons express typical markers of motor neurons, e.g. HB9...
Description: Human iPSC-Derived Skeletal Muscle Myoblasts are valuable tools for biochemical analysis...
Description: Human iPSC-Derived Renal Proximal Tubular Cells are derived from integration-free...
Description: Human iPSC-derived macrophages are derived from iPSCs that have undergone an intermediate...
Description: Human iPSC-derived Microglia provide a reproducible, physiologically-relevant model...
Description: Human iPSC-derived Astrocyte Progenitors are designed to generate mature astrocytes...
Description: Human iPSC-derived Sensory Neurons are derived from human dermal cells, using human...
Description: Human iPSC-derived Schwann Cells are reprogrammed from human iPSC-derived multipotent...
Description: Osteoblasts synthesize collagen and express specialized proteins such as osteoclacin...
Description: Human iPSC-derived Keratinocytes are derived from human dermal-fibroblast cells,...
Description: Human iPSC-derived Melanocytes are derived from human induced pluripotent stem cell...
Description: Human iPSC-derived Dopaminergic Neurons are derived from human dermal cells, using...
Description: Human iPSC-derived Cortical Neurons are derived from human dermal cells, using integration-free...
Description: Human iPSC-derived Oligodendrocyte Progenitor Cells (OPCs) are induced oligodendrocyte...
Description: Human iPSC-derived GABA neurons are induced oligodendrocyte progenitors reprogrammed...
