Wisconsin Alumni Research Foundation

Technology

MYELOPOISIS FROM STEM CELLS

A method for efficient generation of neutrophils, eosinophils, macrophages, osteoclasts, dendritic cells an Langerhans cells from human embryonic stem cells is disclosed.
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Igor Slukvin, Maksym Vodyanyk, Kyung-Dal Choi | P09078US02

Technology

METHOD FOR CULTURING STEM CELLS

A three-dimensional microwell system that supports long term pluripotent cell culture and formation of homogeneous embryoid bodies (EBs) is described. Microwell-cultured pluripotent cells remain viabl...
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Timothy Kamp, Jianhua Zhang, Jeffrey Mohr, Juan DePablo, Sean Palecek | P08310US02

Technology

In Vitro Model Of Spinal Muscular Atrophy

A population of iPS cells derived from somatic cells from a spinal muscular atrophy patient is disclosed. In one embodiment of the invention, the cells have been cultured to produce neural cells. In a...
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Clive Svendsen, Allison Ebert | P09194US02

Technology

Hydrogel Compositions For Use In Promoting Tubulogenesis

Hydrogel Compositions and methods of using hydrogel compositions are disclosed. Advantageously, the hydrogel compositions offer the ability to rapidly screen substrate components for influencing cell ...
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William Murphy, Eric Nguyen, Michael Schwartz, Hamisha Ardalani, Matthew Zanotelli, Matthew Parlato, David Belair, William Daly, Ngoc Nhi T. Le, Stefan Zorn | P140314US02

Technology

Simplified Basic Media For Human Pluripotent Cells

Fully defined media that support pluripotent cell viability, proliferation, cloning, and derivation, as well as methods and compositions including these media are described. Methods for deriving iPS c...
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James Thomson, Guokai Chen | P120133US01

WARF