1
Darwin J Prockop, David C Colter, Ichiro Sekiya: Early stage multipotential stem cells in colonies of bone marrow stromal cells. Tulane University, Philadelphia Heath and Education Corporation, Drinker Biddle & Reath, June 6, 2006: US07056738 (21 worldwide citation)

Marrow stromal cells (MSCS) are adult stem cells from bone marrow that can differentiate into multiple non-hematopoietic cell lineages. Colonies of human MSCs were shown to contain both small, rapidly self-renewing stem cells (RS cells) and large, more mature cells (mMSCs). Samples enriched for RS c ...


2
Ian R Harris, Darin J Messina, Anthony J Kihm, Agnieszka Seyda, David C Colter: Postpartum cells derived from umbilical tissue and methods of making and using the same. DePuy Synthes Products, Bernard F Plantz, Johnson & Johnson, August 26, 2014: US08815587 (6 worldwide citation)

Cells derived from human umbilical cords are disclosed along with methods for their therapeutic use. Isolation techniques, culture methods and detailed characterization of the cells with respect to their cell surface markers, gene expression, and their secretion of trophic factors are described.


3
David C Colter, Anna Gosiewska: Repair and regeneration of renal tissue using human umbilical cord tissue-derived cells. Advanced Technologies And Regenerative Medicine, Patton Boggs, October 11, 2011: US08034329 (4 worldwide citation)

Methods for treating a patient having a disease or damage to at least one kidney are provided. The methods comprise administering cells obtained from human umbilical cord tissue, or administering pharmaceutical compositions comprising such cells or prepared from such cells. When administered, the ce ...


4
Charito S Buensuceso, David C Colter, Brian C Kramer, Agnieszka Seyda: Encapsulated kidney tissue. Advanced Technologies and Regenerative Medicine, Philip S Johnson, Johnson & Johnson, May 27, 2014: US08734527 (1 worldwide citation)

Provided are therapeutic implants comprising renal tissue encapsulated within a polymer bead. Also disclosed are methods for treating a disease state in a subject comprising implanting within said subject a therapeutic implant comprising renal tissue encapsulated within a polymer bead. Also provided ...


5
David C Colter, Charito Buensuceso, Christian C Kazanecki, Anna Gosiewska: Mammary artery derived cells and methods of use in tissue repair and regeneration. Advanced Technologies and Regenerative Medicine, December 4, 2012: US08323972 (1 worldwide citation)

An isolated mammalian internal mammary artery-derived cell is disclosed. Furthermore, methods of isolating the mammalian internal mammary artery-derived cell are disclosed. The cell is useful in tissue engineering technologies, specifically in vascular tissue engineering.


6
Kevin Cooper, Iksoo Chun, David C Colter, Sridevi Dhanaraj, Anna Gosiewska, Agnieszka Seyda, Carrie H Fang, Chunlin Yang: Tissue engineered blood vessel. CORDIS CORPORATION, March 22, 2016: US09290742

Compositions and methods of using tissue engineered blood vessels to repair and regenerate blood vessels of patients with vascular disease are disclosed.


7
Charito S Buensuceso, David C Colter, Brian C Kramer, Agnieszka Seyda: Encapsulated kidney tissue. DePuy Synthes Products, Johnson & Johnson, February 28, 2017: US09579348

Provided are therapeutic implants comprising renal tissue encapsulated within a polymer bead. Also disclosed are methods for treating a disease state in a subject comprising implanting within said subject a therapeutic implant comprising renal tissue encapsulated within a polymer bead. Also provided ...


8
David C Colter, Charito Buensuceso, Christian C Kazanecki, Anna Gosiewska: Mammary artery derived cells and methods of use in tissue repair and regeneration. DEPUY SYNTHES PRODUCTS, May 16, 2017: US09650611

An isolated mammalian internal mammary artery-derived cell is disclosed. Furthermore, methods of isolating the mammalian internal mammary artery-derived cell are disclosed. The cell is useful in tissue engineering technologies, specifically in vascular tissue engineering.


9
Ian Ross Harris, Darin J Messina, Anthony J Kihm, Agnieszka Seyda, David C Colter: Postpartum cells derived from umbilical cord tissue, and methods of making and using the same. Ethicon, Woodcock Washburn, October 5, 2006: US20060223177-A1

Cells derived from human umbilical cords are disclosed along with methods for their therapeutic use. Isolation techniques, culture methods and detailed characterization of the cells with respect to their cell surface markers, gene expression, and their secretion of trophic factors are described.


10
Darwin J Prockop, David C Colter, Ichiro Sekiya: Early-stage multipotential stem cells in colonies of bone marrow stromal cells. Drexel University, Drinker Biddle & Reath, October 5, 2006: US20060223106-A1

Marrow stromal cells (MSCs) are adult stem cells from bone marrow that can differentiate into multiple non-hematopoietic cell lineages. Colonies of human MSCs were shown to contain both small, rapidly self-renewing stem cells (RS cells) and large, more mature cells (mMSCs). Samples enriched for RS c ...



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