Patrick R Bilbo

US Patent:

20070250177, Oct 25, 2007

Filed:

Feb 21, 2007

Appl. No.:

11/677448

Inventors:

Patrick Bilbo - Sudbury MA, US

Assignee:

ORGANOGENESIS, INC. - Canton MA

International Classification:

A61F 2/02

US Classification:

623023720

Abstract:

This invention is directed to tissue engineered prostheses made from processed tissue matrices derived from native tissues that are biocompatible with the patient or host in which they are implanted. When implanted into a mammalian host, these prostheses can serve as a functioning repair, augmentation, or replacement body part or tissue structure.

US Patent:

20090311298, Dec 17, 2009

Filed:

Oct 18, 2006

Appl. No.:

12/090631

Inventors:

Andrew J. Nixon - East Wareham MA, US
Ginger A. Abraham-Freel - Hanover MA, US
Patrick R. Bilbo - Sudbury MA, US

Assignee:

Oranogenesis, In.c - Massachusetts

International Classification:

A61F 2/00
C12N 11/00
C12N 5/06

US Classification:

424423, 435174, 435325

Abstract:

Bioengineered collagen constructs with antimicrobial properties are provided. The bioengineered collagen constructs comprise a sheet-like layer of purified collagenous tissue matrix derived from a tissue source, such as the tunica submucosa of small intestine or a processed intestinal collagen layer derived from the tunica submucosa of small intestine, treated with an antimicrobial agent. The constructs are biocompatible. The present invention has a variety of applications, including wound dressing and surgical repair devices. Methods for treating a damaged or diseased soft tissue are provided. Methods for treating a wound in need of care and treatment are also disclosed.

US Patent:

20090317441, Dec 24, 2009

Filed:

Feb 7, 2007

Appl. No.:

12/278701

Inventors:

Patrick R. Bilbo - Sudbury MA, US
Dario C. Eklund - Canton MA, US

International Classification:

A61F 2/00
A61K 35/12

US Classification:

424423, 424 937

Abstract:

Cultured tissue constructs comprising cultured cells and endogenously produced extracellular matrix components without the requirement of exogenous matrix components or network support or scaffold members. Some tissue constructs of the invention are comprised of multiple cell layers or more than one cell type. The tissue constructs of the invention have morphological features and functions similar to tissues their cells are derived and their strength makes them easily handleable. Preferred cultured tissue constructs of the invention are prepared in defined media, that is, without the addition of chemically undefined components. These tissue constructs are used to repair cardiac tissues.

US Patent:

20120135045, May 31, 2012

Filed:

Jun 21, 2011

Appl. No.:

13/165101

Inventors:

Andrew J. Nixon - East Wareham MA, US
Ginger A. Abraham-Freel - Hanover MA, US
Patrick R. Bilbo - Sudbury MA, US

Assignee:

Organogenesis, Inc. - Canton MA

International Classification:

A61K 35/38
A61P 43/00
A61K 9/00
A61P 31/00
B82Y 5/00

US Classification:

424400, 424551, 977810, 977915

Abstract:

Bioengineered collagen constructs with antimicrobial properties are provided. The bioengineered collagen constructs comprise a sheet-like layer of purified collagenous tissue matrix derived from a tissue source, such as the tunica submucosa of small intestine or a processed intestinal collagen layer derived from the tunica submucosa of small intestine, treated with an antimicrobial agent. The constructs are biocompatible. The present invention has a variety of applications, including wound dressing and surgical repair devices. Methods for treating a damaged or diseased soft tissue are provided. Methods for treating a wound in need of care and treatment are also disclosed.

US Patent:

20020103542, Aug 1, 2002

Filed:

Sep 18, 2001

Appl. No.:

09/956499

Inventors:

Patrick Bilbo - Sudbury MA, US

International Classification:

A61F002/02

US Classification:

623/023720, 008/094110, 623/023750

Abstract:

This invention is directed to tissue engineered prostheses made from processed tissue matrices derived from native tissues that are biocompatible with the patient or host in which they are implanted. When implanted into a mammalian host, these prostheses can serve as a functioning repair, augmentation, or replacement body part or tissue structure.