James E Hauschild

US Patent:

8239017, Aug 7, 2012

Filed:

Nov 17, 2008

Appl. No.:

12/272198

Inventors:

Ying Sun - Belle Mead NJ, US
Jeffrey M. Wu - Warrington PA, US
James E. Hauschild - Cranbury NJ, US

Assignee:

Johnson & Johnson Consumer Companies, Inc. - Skillman NJ

International Classification:

A61N 1/30

US Classification:

604 20

Abstract:

The present invention features a device having a barrier membrane contacting surface, the device containing: a power source; a first conductive electrode; a second conductive electrode; and a carrier; wherein the power source is in electric communication with the first conductive electrode and the second conductive electrode, wherein the first conductive electrode and the second conductive electrode are in ionic communication with the carrier, and wherein the carrier is in communication with the barrier membrane contacting surface.

US Patent:

8475689, Jul 2, 2013

Filed:

Oct 31, 2006

Appl. No.:

11/590380

Inventors:

Ying Sun - Belle Mead NJ, US
Jeffrey M. Wu - Warrington PA, US
James E. Hauschild - Cranbury NJ, US

Assignee:

Johnson & Johnson Consumer Companies, Inc. - Skillman NJ

International Classification:

H01B 1/02
H01B 1/22
A61K 9/16
A61K 9/50
A61K 33/34
A61K 33/32
A01N 59/20
A01N 59/16

US Classification:

25251951, 252512, 2525195, 424490, 424630, 424641, 427 58

Abstract:

A topical composition containing galvanic particulates consisting of a first conductive material that is zinc and a second conductive material that is copper is provided.

US Patent:

20040267237, Dec 30, 2004

Filed:

Oct 14, 2003

Appl. No.:

10/685282

Inventors:

Ying Sun - Belle Mead NJ, US
Jeffrey Wu - Warrington PA, US
James Hauschild - Cranbury NJ, US

International Classification:

A61M031/00

US Classification:

604/501000

Abstract:

The present invention features a method of treating acne or rosacea by applying to the skin electrochemically generated zinc ions. In one embodiment, the method includes topically applying a device including an anode containing zinc.

US Patent:

20050148996, Jul 7, 2005

Filed:

Dec 22, 2004

Appl. No.:

11/019557

Inventors:

Ying Sun - Belle Mead NJ, US
Jeffrey Wu - Warrington PA, US
James Hauschild - Cranbury NJ, US

International Classification:

A61N001/30

US Classification:

604501000, 604020000

Abstract:

The present invention features a device having a barrier membrane contacting surface, the device containing: a power source; a first conductive electrode; a second conductive electrode; and a reservoir; wherein said power source is in electric communication with said first conductive electrode and said second conductive electrode, wherein said first conductive electrode and said second conductive electrode are arranged such that they are both capable of being in ionic communication with a carrier upon the inclusion of said carrier to said reservoir; and the use thereof.

US Patent:

20100209515, Aug 19, 2010

Filed:

Sep 17, 2008

Appl. No.:

12/680105

Inventors:

Jeannette Chantalat - Pennington NJ, US
James E. Hauschild - Cranbury NJ, US
Xintian Ming - Bridgewater NJ, US
Michael Southall - Lawrenceville NJ, US
Ying Sun - Belle Mead NJ, US

International Classification:

A61K 33/24
B32B 15/02
B05D 5/12
H01B 1/02
A01N 59/20
A01N 59/16
A61K 9/16
A61K 33/34
A61P 1/00
A61P 1/12
A01P 1/00

US Classification:

424490, 428548, 427 58, 252512, 252514, 424630, 424641

Abstract:

The invention features a galvanic particulate including a first conductive material and a second conductive material, wherein both the first conductive material and the second conductive material are exposed on the surface of the particulate, wherein the particle size of the particulate is from about 10 nanometers to about 100 micrometers, wherein the second conductive material comprises from about 0.01 percent to about 10 percent, by weight, of the total weight of the particulate, and wherein the difference of the standard potentials of the first conductive material and the second conductive material is at least about 0.2 V.

US Patent:

20100249927, Sep 30, 2010

Filed:

Mar 25, 2010

Appl. No.:

12/731848

Inventors:

Chunlin Yang - Belle Mead NJ, US
Ying Sun - Belle Mead NJ, US
Saumen N. Bar - Hillsborough NJ, US
James E. Hauschild - Cranbury NJ, US
Uri Herzberg - Bridgewater NJ, US
Yufu Li - Bridgewater NJ, US
Xintian Ming - Bridgewater NJ, US
Wei Kong - Bridgewater NJ, US

International Classification:

A61F 2/02
H01B 1/22
B32B 5/16
B05D 3/00

US Classification:

623 1111, 252512, 252514, 428328, 427 21, 523113

Abstract:

Implantable medical devices having galvanic particulates are disclosed. The particulates may be coated onto at least part of a surface of the medical device. In addition, the galvanic particulates may be contained in the material used to manufacture the antimicrobial medical devices, or may be embedded into the surface of the medical devices. The present invention also provides novel coating methods and processing methods. The devices may have advantageous characteristics and effects including anti-microbial, anti-inflammatory, and tissue regeneration promoting.

US Patent:

20100268335, Oct 21, 2010

Filed:

Apr 16, 2010

Appl. No.:

12/761601

Inventors:

Chunlin Yang - Belle Mead NJ, US
Ying Sun - Belle Mead NJ, US
Saumen N. Bar - Hillsborough NJ, US
James E. Hauschild - Cranbury NJ, US
Uri Herzberg - Bridgewater NJ, US
Yufu Li - Bridgewater NJ, US
Xintian Ming - Bridgewater NJ, US
Wei Kong - Bridgewater NJ, US
Jeannette Chantalat - Pennington NJ, US
Michael Southall - Lawrenceville NJ, US

International Classification:

A61F 2/02
H01B 1/22
B32B 5/16
A61F 2/28
B05D 5/00

US Classification:

623 1111, 252512, 428402, 252514, 428328, 523113, 427 224

Abstract:

Implantable medical devices having galvanic particulates are disclosed. The particulates may be coated onto at least part of a surface of the medical device. In addition, the galvanic particulates may be contained in the material used to manufacture the antimicrobial medical devices, or may be embedded into the surface of the medical devices. The present invention also provides novel coating methods and processing methods. The devices may have advantageous characteristics and effects including anti-microbial, anti-inflammatory, and tissue regeneration promoting.

US Patent:

20110060419, Mar 10, 2011

Filed:

Sep 27, 2010

Appl. No.:

12/890881

Inventors:

Jennifer Hagyoung Kang Choi - Jersey City NJ, US
Chunlin Yang - Belle Mead NJ, US
Ying Sun - Belle Mead NJ, US
Xintian Ming - Bridgewater NJ, US
James E. Hauschild - Cranbury NJ, US
Saumen N. Bar - Hillsborough NJ, US
Frank R. Cichocki - Easton PA, US
Jeannette Chantalat - Pennington NJ, US
Carrie H. Fang - Pittstown NJ, US

International Classification:

A61F 2/28
B05D 3/10

US Classification:

623 2349, 427 226

Abstract:

Implantable medical devices having galvanic particulates are disclosed. The particulates may be coated onto at least part of a surface of the medical device. In addition, the galvanic particulates may be contained in the material used to manufacture the antimicrobial medical devices, or may be embedded into the surface of the medical devices. The present invention also provides novel coating methods and processing methods. The devices may have advantageous characteristics and effects including anti-microbial, anti-inflammatory, and tissue regeneration promoting. The medical devices may be used as bone implants.