1
Sanjay Mistry, Darin J Messina, Ian Ross Harris, Alexander M Harmon, Agnieszka Seyda, Chin Feng Yi, Anna Gosiewska: Treatment of retinitis pigmentosa with human umbilical cord cells. Ethicon Incorporated, Woodcock Washburn, August 19, 2008: US07413734 (87 worldwide citation)

Cells derived from postpartum umbilicus and placenta are disclosed. Pharmaceutical compositions, devices and methods for the regeneration or repair of ocular tissue using the postpartum-derived cells are also disclosed.


2
Alexander M Harmon, Ian Ross Harris, Anthony J Kihm, Sanjay Mistry, Darin J Messina, Agnieszka Seyda, Chin Feng Yi, Anna Gosiewska: Soft tissue repair and regeneration using postpartum-derived cells. Ethicon Incorporated, Patton Boggs, July 14, 2009: US07560276 (36 worldwide citation)

Cells derived from postpartum tissue having the potential to support cells of and/or differentiate to cells of a soft tissue lineage, and methods of preparation and use of those postpartum tissue-derived cells, are provided by the invention. The invention also provides methods for the use of such po ...


3
Darin J Messina, Sanjay Mistry, Alexander M Harmon, Ian Ross Harris, Anthony J Kihm, Agnieszka Seyda, Chin Feng Yi: Regeneration and repair of neural tissue using postpartum-derived cells. Ethicon Incorporated, Patton Boggs, April 28, 2009: US07524489 (23 worldwide citation)

Cells derived from postpartum umbilicus and placenta are disclosed. Pharmaceutical compositions, devices and methods for the regeneration or repair of neural tissue using the postpartum-derived cells are also disclosed.


4
Sanjay Mistry, Anthony J Kihm, Ian Ross Harris, Alexander M Harmon, Darin J Messina, Agnieszka Seyda, Anna Gosiewska: Postpartum cells derived from umbilical cord tissue, and methods of making and using the same. Advanced Technologies and Regenerative Medicine, Toni Junell Herbert, November 27, 2012: US08318483 (16 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.


5
Darin J Messina, Sanjay Mistry, Alexander M Harmon, Ian Ross Harris, Anthony J Kihm, Agnieszka Seyda, Chin Feng Yi, Anna Gosiewska: Regeneration and repair of neural tissue using postpartum-derived cells. Advanced Technologies and Regenerative Medicine, Toni Junell Herbert, October 2, 2012: US08277796 (15 worldwide citation)

Cells derived from postpartum umbilicus and placenta are disclosed. Pharmaceutical compositions, devices and methods for the regeneration or repair of neural tissue using the postpartum-derived cells are also disclosed.


6
Darin J Messina, Alexander M Harmon, Ian R Harris, Anthony J Kihm, Sanjay Mistry, Agnieszka Seyda, Chin Feng Yi, Anna Gosiewska: Regeneration and repair of neural tissue using postpartum-derived cells. DePuy Synthes Products, Philip S Johnson, Johnson & Johnson, February 25, 2014: US08658152 (9 worldwide citation)

Cells derived from postpartum umbilicus and placenta are disclosed. Pharmaceutical compositions, devices and methods for the regeneration or repair of neural tissue using the postpartum-derived cells are also disclosed.


7
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 (8 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.


8
Takashi Kurokawa, Christopher W Widenhouse, Agnieszka Seyda, Jeffrey S Swayze, Foster B Stulen, Mark H Ransick, Richard W Timm, Shailendra K Parihar, Shelby L Cook Kornbluth: Multi-chamber therapeutic cell applicator instrument. Ethicon Endo Surgery, Frost Brown Todd, October 29, 2013: US08568446 (1 worldwide citation)

A surgical device comprises a housing, a plurality of media reservoirs, an end effector, and a pumping device. Each media reservoir is configured to receive at least one component of a tissue repair composition. The end effector is configured for insertion into a lumen to deliver a tissue repair com ...


9
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 ...


10
Agnieszka Seyda, Anna Gosiewska: Treatment of neurological injury by administration of human umbilical cord tissue-derived cells. DePuy Synthes Products, Johnson & Johnson, March 14, 2017: US09592258

Methods, pharmaceutical compositions and kits for regenerating or repairing neural tissue, decreasing apoptosis and improving neurological function following injury using human umbilical cord tissue-derived cells are disclosed.