Gabriele G Niederauer, Age 6123507 Wilderness Paw, San Antonio, TX 78261

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Gabriele Niederauer Phones & Addresses

23507 Wilderness Paw, San Antonio, TX 78261 (210) 497-0515

18810 Red River Dr, San Antonio, TX 78259 (210) 497-0515 (210) 497-0534

Salt Lake City, UT

Corpus Christi, TX

Ames, IA

Work

Position: Professional/Technical

Education

Degree: Associate degree or higher

Mentions for Gabriele G Niederauer

Gabriele Niederauer videos

Youtube

Gabriele Niederauer, Ceo, Bluegrass Vascular Technologies | Lsi Usa '22 Emerging Medtech Summit

Duration:

8m 36s

Description:

Gabriele Niederauer, CEO of Bluegrass Vascular Technologies, was a presenter at the LSI USA '22 Emerging Medtech Summit,...

Lara Cwass With Brandon Niederauer Band 5/21/2022

Duration:

18m 23s

Description:

At Sidney Smith Birthday Party New Orleans, La. Video By John DuBois for New Orleans Musicians Hall of Fame ...

Brandon 'Taz' Niederauer Rips A Solo On His New Signature Model | Namm 2019 | D'angelico Guitars

Duration:

2m 1s

Description:

Guitar - Brandon 'Taz' Niederauer Model - D'Angelico Deluxe Brandon Niederauer Atlantic - About...

"Let Your Soul Be Free" Brandon Taz Niederauer

Duration:

10m 31s

Description:

Brandon "Taz" Niederauer "My Revival" | Cme Sessions | D'angelico Guitars

Duration:

5m 11s

Description:

15 year old, Brandon "Taz" Niederauer is, "Just a kid who enjoys playing music!" The guitar wunderkind and band stopped by...

Brandon 'Taz' Niederauer Shows Off His Signature Atlantic At #Namm2020 | D'angelico Guitars

Duration:

13m 40s

Description:

NAMM 2020 | Rising guitar legend Brandon Niederauer walks us through his signature Atlantic at NAMM 2020. Premier Taz...

Gabriele Niederauer resumes & CV records

Resumes

Vice-President, R&D At C2M Medical, Inc.

Position:

Vice-President, R&D at C2M Medical, Inc.

Location:

San Antonio, Texas Area

Industry:

Medical Devices

Work:

C2M Medical, Inc.
Vice-President, R&D

Education:

Clemson University 1982 - 1987

Vice President R&D At Entrigue Surgical, Inc.

Position:

Vice President R&D at ENTrigue Surgical, Inc.

Location:

San Antonio, Texas Area

Industry:

Medical Devices

Work:

ENTrigue Surgical, Inc.
Vice President R&D

Education:

Iowa State University 1987 - 1993

Chief Executive Officer And President

Location:

23507 Wilderness Paw, San Antonio, TX 78261

Industry:

Medical Devices

Work:

Bluegrass Vascular Technologies
Chief Executive Officer and President Arthrocare Corporation Jul 2013 - Aug 2014
Vice President, R and D of Ent-Sinus Entrigue Surgical May 2007 - Jul 2013
Senior Vice President, Technology and Development C2M Medical Jan 2007 - Dec 2008
Vice-President of R and D Osteobiologics Sep 1995 - Nov 2006
Director, R and D Smith & Nephew 2006 - 2006
Director of R and D

Education:

Ut Health San Antonio 1993 - 1995
Iowa State University 1988 - 1993
Master of Science, Doctorates, Masters, Doctor of Philosophy, Biomedical Engineering, Engineering, Materials Science Clemson University 1982 - 1987
Bachelors, Bachelor of Science, Engineering T. C. Roberson High School

Skills:

Medical Devices, Fda, R&D, Commercialization, Product Development, Orthopedic, Biotechnology, Iso 13485, Cross Functional Team Leadership, Biomaterials, Surgery, Product Launch, Biomedical Engineering, Clinical Research, Clinical Trials, Clinical Development, Market Development, Orthopedics, Marketing Strategy, Patents, Capa, Life Sciences, Pharmaceutical Industry, V&V, Lifesciences, Manufacturing, Design Control, Healthcare, Product Marketing, Technology Transfer, Oncology, Regulatory Affairs, Venture Capital, Validation, Research and Development, U.s. Food and Drug Administration, Proposal Writing, Product Design

Interests:

Health
Science and Technology
Children
Economic Empowerment

Languages:

English
German
French

Certifications:

License 909232
Aatb, License 909232
Certified Tissue Bank Specialist

Vice-President, R And D

Location:

San Antonio, TX

Work:

Vice-President, R and D

Vice President R And D

Location:

San Antonio, TX

Work:

Vice President R and D

Publications & IP owners

Us Patents

Biodegradable Implant Material Comprising Bioactive Ceramic

US Patent:

6344496, Feb 5, 2002

Filed:

Oct 5, 1999

Appl. No.:

09/412559

Inventors:

Gabriele Niederauer - San Antonio TX
Kristine Kieswetter - San Antonio TX
Neil C. Leatherbury - San Antonio TX
David C. Greenspan - Gainesville FL

Assignee:

OsteoBiologics, Inc. - San Antonio TX
USBiomaterials Corporation - Alachua FL

International Classification:

C08K 332

US Classification:

523113, 523115, 523124, 523128, 524414, 524417, 524494, 525415, 525450, 623 16, 623 16 C

Abstract:

Biodegradable polymeric therapeutic substantially nonporous implant materials incorporating bioactive ceramics such as BioglassÂ ceramic are provided. These implants provide increased mechanical properties and pH control, enabling the use of these materials to design porous and nonporous therapeutic implants used as cell scaffolds for healing of tissue defects or fixation devices, having desired degradation times, mechanical properties, elasticity and biocompatibility.

Fiber-Reinforced, Porous, Biodegradable Implant Device

US Patent:

6511511, Jan 28, 2003

Filed:

Oct 25, 1999

Appl. No.:

09/426686

Inventors:

Michael Slivka - San Antonio TX
Gabriele G. Niederauer - San Antonio TX
Kristine Kieswetter - San Antonio TX
Neil C. Leatherbury - San Antonio TX

Assignee:

OsteoBiologics, Inc. - San Antonio TX

International Classification:

A61F 202

US Classification:

623 2375, 623 1611

Abstract:

A fiber-reinforced, polymeric implant material useful for tissue engineering, and method of making same are provided. The fibers are preferably aligned predominantly parallel to each other, but may also be aligned in a single plane. The implant material comprises a polymeric matrix, preferably a biodegradable matrix, having fibers substantially uniformly distributed therein. In preferred embodiments, porous tissue scaffolds are provided which facilitate regeneration of load-bearing tissues such as articular cartilage and bone. Non-porous fiber-reinforced implant materials are also provided herein useful as permanent implants for load-bearing sites.

Biodegradable Polymeric Film

US Patent:

6514286, Feb 4, 2003

Filed:

May 5, 1999

Appl. No.:

09/305546

Inventors:

Neil C. Leatherbury - San Antonio TX
Kristine Kieswetter - San Antonio TX
Michael A. Slivka - San Antonio TX
Gabriele Niederauer - San Antonio TX

Assignee:

Osteobiologics, Inc. - San Antonio TX

International Classification:

A61F 202

US Classification:

623 1111, 623 664, 623 2359, 623 2375

Abstract:

This invention provides biodegradable, biocompatible polymeric films having uniform selected thicknesses between about 60 micrometers and about 5 mm useful in the manufacture of therapeutic implants for insertion into a patients body. The films may be shaped to cover implants made of other materials to improve their biocompatibility. The films may be coated with or incorporate bioactive agents. They may have differing properties, e. g. , porosity, thickness, and degradation rate, in different areas.

Fiber-Reinforced, Porous, Biodegradable Implant Device

US Patent:

6783712, Aug 31, 2004

Filed:

Nov 4, 2002

Appl. No.:

10/288400

Inventors:

Michael Slivka - San Antonio TX
Gabriele G. Niederauer - San Antonio TX
Kristine Kieswetter - San Antonio TX
Neil C. Leatherbury - San Antonio TX

Assignee:

Osteobiologics, Inc. - San Antonio TX

International Classification:

B29C 4402

US Classification:

264 51, 264102, 264108, 264321

Abstract:

Fiber-Reinforced, Porous, Biodegradable Implant Device

US Patent:

7524335, Apr 28, 2009

Filed:

Aug 31, 2004

Appl. No.:

10/931474

Inventors:

Michael A. Slivka - Taunton MA, US
Gabriele G. Niederauer - San Antonio TX, US
Kristine Kieswetter - San Antonio TX, US
Neil C. Leatherbury - San Antonio TX, US

Assignee:

Smith & Nephew, Inc. - Memphis TN

International Classification:

A61F 2/02

US Classification:

623 2375, 623 1111, 623 1611

Abstract:

A fiber-reinforced, polymeric implant material useful for tissue engineering, and method of making same are provided. The fibers are preferably aligned predominantly parallel to each other, but may also be aligned in a single plane. The implant material comprises a polymeric matrix, preferably a biodegradable matrix, having fibers substantially uniformly distributed therein. Inorganic particles may also be included in the implant material. In preferred embodiments, porous tissue scaffolds are provided which facilitate regeneration of load-bearing tissues such as articular cartilage and bone. Non-porous fiber-reinforced implant materials are also provided herein useful as permanent implants for load-bearing sites.

Methods And Systems For Medializing A Turbinate

US Patent:

8192450, Jun 5, 2012

Filed:

Sep 17, 2009

Appl. No.:

12/561707

Inventors:

Donald A. Gonzales - San Antonio TX, US
Gabriele G. Niederauer - San Antonio TX, US
Jeffrey S. Wrana - San Antonio TX, US

Assignee:

ENTrigue Surgical, Inc. - San Antonio TX

International Classification:

A61B 17/08

US Classification:

606151, 606213, 606215, 623 10

Abstract:

Methods and systems for medializing a turbinate. Exemplary embodiments comprise methods and systems for repositioning a turbinate proximal to a septum. Certain embodiments comprise an implant and a flexible member coupled to the implant. Embodiments may also comprise an insertion device to install the implant in a desired location.

Biodegradable Polymeric Film

US Patent:

2003011, Jun 19, 2003

Filed:

Jan 28, 2003

Appl. No.:

10/353719

Inventors:

Neil Leatherbury - San Antonio TX, US
Kristine Kieswetter - San Antonio TX, US
Michael Slivka - San Antonio TX, US
Gabriele Niederauer - San Antonio TX, US

International Classification:

A61F002/02

US Classification:

623/023720, 623/023750, 264/041000, 264/049000

Abstract:

This invention provides biodegradable, biocompatible polymeric films having uniform selected thicknesses between about 60 micrometers and about 5 mm useful in the manufacture of therapeutic implants for insertion into a patient's body and methods of making them. The films may be shaped to cover implants made of other materials to improve their biocompatibility. The films may be coated with or incorporate bioactive agents. They may have differing properties, e.g., porosity, thickness, and degradation rate, in different areas.

Bone-Tendon-Bone Implant

US Patent:

2005015, Jul 21, 2005

Filed:

Jan 18, 2005

Appl. No.:

11/037702

Inventors:

Fred Dinger - San Antonio TX, US
Daniel Lee - San Antonio TX, US
Gabriele Niederauer - San Antonio TX, US
Jeffrey Wrana - San Antonio TX, US

International Classification:

A61F002/08

US Classification:

623013140

Abstract:

An implant for repairing soft tissue injuries is provided comprising at least one channel for receiving a soft tissue graft such as a tendon, ligament, or other soft tissue, to be implanted in a patient. The implant assembled with the graft is designed to fit into a bony defect, such as a graft tunnel, formed in bone of a patient. The implant can be biodegradable, and the implant-graft assembly has a pull-out strength sufficient to withstand everyday use during patient recovery.

Possible Relatives

David B Niederauer Gabriele M Jones Gabriele G Kramer Gabriele A Meyer Gabriele S Miller Gabriele D Williams Gabriele B Thomas Gabriele Rossi Gabriele B Weber Gabriele Wood

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