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Bin William Huang, 575935 Abbotts Run Trl, Duluth, GA 30097

Known as:
Bin W Huang Bin E Huang Bing Huang

Bin Huang Phones & Addresses

5935 Abbotts Run Trl, Duluth, GA 30097    770-4958293    770-4958411    770-4970875   

Lawrenceville, GA   

Suwanee, GA   

1319 Deer Trl, Alpharetta, GA 30004    678-3190770   

Johns Creek, GA   

Salt Lake City, UT   

Willimantic, CT   

Hamden, CT   

Spring, TX   

Wallingford, CT   

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Bin Huang resumes & CV records

Resumes

Bin Huang Photo 38

Marketing Manager

Industry:
Plastics
Work:
Wah Fung Industrial Company
Marketing Manager
Bin Huang Photo 39

Bin Huang

Bin Huang Photo 40

Bin Huang

Bin Huang Photo 41

Information Technology Analyst

Work:

Information Technology Analyst

Publications & IP owners

Us Patents

Method Of Making Polymer-Bioceramic Composite Implantable Medical Devices

US Patent:
8309114, Nov 13, 2012
Filed:
May 5, 2011
Appl. No.:
13/101920
Inventors:
David C. Gale - Kennesaw GA, US
Yunbing Wang - Sunnyvale CA, US
Syed Faiyaz Ahmed Hossainy - Hayward CA, US
Bin Huang - Pleasanton CA, US
Garth L. Wilkes - Blacksburg VA, US
Vincent J. Gueriguian - San Francisco CA, US
Assignee:
Advanced Cardiovascular Systems, Inc. - Santa Clara CA
International Classification:
A61F 2/02
A61F 2/82
US Classification:
424423, 424426
Abstract:
Methods and devices relating to polymer-bioceramic composite implantable medical devices are disclosed.

Stents With Enhanced Fracture Toughness

US Patent:
8323329, Dec 4, 2012
Filed:
May 3, 2010
Appl. No.:
12/772698
Inventors:
David C. Gale - Kennesaw GA, US
Bin Huang - Pleasanton CA, US
Timothy Limon - Cupertino CA, US
Vincent J. Gueriguian - San Francisco CA, US
Assignee:
Advanced Cardiovascular Systems, Inc. - Santa Clara CA
International Classification:
A61F 2/82
US Classification:
623 116
Abstract:
Stents and methods of manufacturing a stents with enhanced fracture toughness are disclosed.

Drug Delivery After Biodegradation Of The Stent Scaffolding

US Patent:
8398706, Mar 19, 2013
Filed:
Apr 13, 2011
Appl. No.:
13/086308
Inventors:
David C. Gale - Kennesaw GA, US
Bin Huang - Pleasanton CA, US
Assignee:
Advanced Cardiovascular Systems, Inc. - Santa Clara CA
International Classification:
A61F 2/82
US Classification:
623 142, 623 115, 623 146
Abstract:
Disclosed herein is a stent comprising: a bioabsorbable polymeric scaffolding; and a coating comprising a bioabsorbable material on at least a portion of the scaffolding, wherein the degradation rate of all or substantially all of the bioabsorbable polymer of the scaffolding is faster than the degradation rate of all or substantially all of the bioabsorbable material of the coating.

Methods Of Treatment With Drug Delivery After Biodegradation Of The Stent Scaffolding

US Patent:
8469968, Jun 25, 2013
Filed:
Jul 18, 2011
Appl. No.:
13/185370
Inventors:
David C. Gale - Kennesaw GA, US
Bin Huang - Pleasanton CA, US
Assignee:
Abbott Cardiovascular Systems Inc. - Santa Clara CA
International Classification:
A61F 11/00
A61F 2/82
US Classification:
606108, 623 115, 623 138, 623 142
Abstract:
Disclosed is a stent comprising a bioabsorbable polymeric scaffolding; and a plurality of depots in at least a portion of the scaffolding, wherein the plurality of depots comprise a bioabsorbable material, wherein the degradation rate of all or substantially all of the bioabsorbable polymer of the scaffolding is faster than the degradation rate of all or substantially all of the bioabsorbable material of the depots.

Methods Of Fabricating Stents With Enhanced Fracture Toughness

US Patent:
2010028, Nov 18, 2010
Filed:
Jul 28, 2010
Appl. No.:
12/845536
Inventors:
DAVID C. GALE - Kennesaw GA, US
Bin Huang - Pleasanton CA, US
Timothy A. Limon - Cupertino CA, US
Vincent J. Gueriguian - San Francisco CA, US
Assignee:
Advanced Cardiovascular Systems, Inc. - Santa Clara CA
International Classification:
B29C 49/08
US Classification:
264534
Abstract:
Stents and methods of manufacturing a stents with enhanced fracture toughness are disclosed.

Polymer Metal And Composite Implantable Medical Devices

US Patent:
2011030, Dec 15, 2011
Filed:
Jul 7, 2011
Appl. No.:
13/178364
Inventors:
David C. Gale - Kennesaw GA, US
Bin Huang - Pleasanton CA, US
John M. Capek - Los Gatos CA, US
Houdin Dehnad - EI Granada CA, US
Assignee:
Abbott Cardiovascular Systems Inc. - Santa Clara CA
International Classification:
A61F 2/82
US Classification:
623 142, 623 146
Abstract:
A device and a method of manufacturing an implantable medical device, such as a stent, are described herein. The device includes a metallic region composed of a bioerodable metal and a polymer region composed of a biodegradable polymer contacting the metallic region. The metallic region may erode at a different rate when exposed to bodily fluids than the polymer region when exposed to bodily fluids. In certain embodiments, the polymer region is an outer layer and the metallic region is an inner layer of the device.

Polymer Metal And Composite Implantable Medical Devices

US Patent:
2011031, Dec 22, 2011
Filed:
May 27, 2011
Appl. No.:
13/117550
Inventors:
David C. Gale - Kennesaw GA, US
Bin Huang - Pleasanton CA, US
John M. Capek - Los Gatos CA, US
Assignee:
Abbott Cardiovascular Systems Inc. - Santa Clara CA
International Classification:
A61F 2/82
US Classification:
623 115, 623 134
Abstract:
A device and a method of manufacturing an implantable medical device, such as a stent, are described herein. The device includes a metallic region composed of a bioerodable metal and a polymer region composed of a biodegradable polymer contacting the metallic region. The metallic region may erode at a different rate when exposed to bodily fluids than the polymer region when exposed to bodily fluids. In certain embodiments, the polymer region is an outer layer and the metallic region is an inner layer of the device. A further aspect of the invention includes device and a method of manufacturing the device that includes a mixture of a biodegradable polymer and bioerodable metallic particles. The mixture may be used to fabricate an implantable medical device or to coat an implantable medical device. In some embodiments, the metallic particles are metallic nanoparticles.

Rgd Peptide Attached To Bioabsorbable Stents

US Patent:
2012013, May 31, 2012
Filed:
Feb 3, 2012
Appl. No.:
13/366235
Inventors:
David C. Gale - Kennesaw GA, US
Bin Huang - Pleasanton CA, US
Kleine Klaus - Los Gatos CA, US
Assignee:
ADVANCED CARDIOVASCULAR SYSTEMS, INC. - Santa Clara CA
International Classification:
B05D 7/00
B05D 5/00
US Classification:
427 225, 427 21
Abstract:
Provided herein is a method of forming medical device that includes RGD attached to the device via a spacer compound. The method comprises providing a spacer compound comprising a hydrophobic moiety and a hydrophilic moiety, grafting or embedding the spacer compound to the surface layer of the polymer to cause the hydrophobic moiety to be grafted to or embedded within the surface layer of polymer, and attaching a chemo-attractant to the hydrophilic moiety.

Possible Relatives

Cynthia M Huang  David T Huang  Dawei Huang  Dayong Huang  Da Huang  Daijie D Huang  Daisy Huang  Bin J Le  Bin Li  Bin Lin 

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