Inventor
OBERHAUSER JAMES
US29 patents
⚠️ This page may combine multiple inventors who share the name “OBERHAUSER JAMES”. Patents are grouped by organization below to help distinguish them — per-person disambiguation is on the roadmap.
ABBOTT CARDIOVASCULAR SYSTEMS
10 patentsUS7770467B1Aug 10, 2010
Fixture for mechanical analysis of a hollow tube
ABBOTT CARDIOVASCULAR SYSTEMS48 citations97
US8006568B2Aug 30, 2011
Fixture for mechanical analysis of a hollow tube
ABBOTT CARDIOVASCULAR SYSTEMS12 citations83
US9283097B2Mar 15, 2016
Bioabsorbable scaffold with particles providing delayed acceleration of degradation
ABBOTT CARDIOVASCULAR SYSTEMS3 citations73
US8703038B2Apr 22, 2014
Method to minimize chain scission and monomer generation in processing of poly(L-lactide) stent
ABBOTT CARDIOVASCULAR SYSTEMS4 citations73
US9277983B2Mar 8, 2016
Drug delivery device for peripheral artery disease
ABBOTT CARDIOVASCULAR SYSTEMS0 citations52
US8961862B2Feb 24, 2015
Method of improving fracture toughness of implantable medical devices through annealing
ABBOTT CARDIOVASCULAR SYSTEMS0 citations52
US9278470B2Mar 8, 2016
Method to minimize molecular weight drop of poly(L-lactide) stent during processing
ABBOTT CARDIOVASCULAR SYSTEMS0 citations51
US9168677B2Oct 27, 2015
Controlling moisture in and plasticization of bioresorbable polymer for melt processing
ABBOTT CARDIOVASCULAR SYSTEMS0 citations51
US8882825B2Nov 11, 2014
Stents including poly(L-lactide) formulations that minimize molecular weight drop during processing
ABBOTT CARDIOVASCULAR SYSTEMS0 citations51
US9211682B2Dec 15, 2015
Controlling crystalline morphology of a bioabsorbable stent
ABBOTT CARDIOVASCULAR SYSTEMS1 citations50
WANG YUNBING
8 patentsUS8119704B2Feb 21, 2012
Implantable medical device comprising copolymer of L-lactide with improved fracture toughness
WANG YUNBING32 citations91
US9199408B2Dec 1, 2015
Uniform crimping and deployment methods for polymer scaffold
WANG YUNBING8 citations84
US8709070B2Apr 29, 2014
Bioabsorbable scaffold with particles providing delayed acceleration of degradation
WANG YUNBING3 citations63
US8496865B2Jul 30, 2013
Method to minimize chain scission and monomer generation in processing of poly(L-lactide) stent
WANG YUNBING4 citations63
US8394317B2Mar 12, 2013
Method of improving fracture toughness of implantable medical devices through annealing
WANG YUNBING3 citations63
US8337739B2Dec 25, 2012
Improving fracture toughness of medical devices with a stereocomplex nucleating agent
WANG YUNBING5 citations63
US9889238B2Feb 13, 2018
Biodegradable stent with adjustable degradation rate
WANG YUNBING1 citations52
US8747728B2Jun 10, 2014
Method and system for manufacturing a polymer endoprosthesis by injection molding and blow molding
WANG YUNBING0 citations52
ABBOTT CARDIOVASCULAR SYSTEMS INC
7 patentsUS9844612B2Dec 19, 2017
Method of making a poly(L-lactide) stent with tunable degradation rate
ABBOTT CARDIOVASCULAR SYSTEMS INC2 citations73
US9687594B2Jun 27, 2017
Method of treating with poly(L-lactide) stent with tunable degradation rate
ABBOTT CARDIOVASCULAR SYSTEMS INC1 citations63
US9681972B2Jun 20, 2017
Uniform crimping and deployment methods for polymer scaffold
ABBOTT CARDIOVASCULAR SYSTEMS INC0 citations52
US9498321B2Nov 22, 2016
Drug delivery device for peripheral artery disease
ABBOTT CARDIOVASCULAR SYSTEMS INC0 citations52
US10213949B2Feb 26, 2019
Controlling moisture in and plasticization of bioresorbable polymer for melt processing
ABBOTT CARDIOVASCULAR SYSTEMS INC0 citations51
US10709589B2Jul 14, 2020
Accelerated aging for polymeric scaffolds
ABBOTT CARDIOVASCULAR SYSTEMS INC0 citations48
US10143572B2Dec 4, 2018
Assessment of a drug eluting bioresorbable vascular scaffold
ABBOTT CARDIOVASCULAR SYSTEMS INC1 citations47