publication venue for
- Function Follows Form: Modeling Ventricular Assist Device-Mediated Blood Flow.. 67:734-736. 2021
- A Method for Creating Artificial Thrombi In Vitro Using a Rotating Mechanical Surface.. 62:252-260. 2016
- Temporary left ventricular assist device through an axillary access is a promising approach to improve outcomes in refractory cardiogenic shock patients.. 61:253-258. 2015
- Comparative pathology of an implantable left atrial pressure sensor.. 59:486-492. 2013
- Two-day control of pulmonary blood flow with an adjustable systemic-pulmonary artery shunt.. 57:225-230. 2011
- The adjustable systemic-pulmonary artery shunt provides precise control of flow in vivo.. 56:73-76. 2010
- Constitutive framework for biodegradable polymers with applications to biodegradable stents.. 54:295-301. 2008
- Evaluation of a new cardiac recovery system in a bovine model of volume overload heart failure.. 50:557-562. 2004
- Thrombogenicity of mechanical aortic valves in an animal model: site specific testing is crucial.. 50:376-380. 2004
- Complications common to ventricular assist device support are rare with 90 days of DeBakey VAD support in calves.. 47:288-292. 2001
- A bovine model for detecting high intensity transient signals originating from mechanical heart valves.. 46:344-350. 2000
- COMPARATIVE EVALUATION OF A STEROID ELUTING, TRANSVENOUS CARDIAC PACEMAKER LEAD IN CANINE AND OVINE MODELS. 46:166-166. 2000
- PROGRESS IN THE DEVELOPMENT OF A TRILEAFLET MECHANICAL HEART VALVE (MHV). 46:167-167. 2000
- A genetically engineered, nonthrombogenic cellular lining for LVADs: in vitro preconditioning before in vivo implantation.. 45:172-177. 1999
- Surface texturing and coating of biomaterial implants: effects on tissue integration and fibrosis.. 45:281-287. 1999
- In vivo evaluation of a trileaflet mechanical heart valve.. 40:M707-M713. 1994
- Human intraperitoneal response to a left ventricular assist device with a Ti-6AI-4V alloy surface.. 38:M543-M549. 1992
- Assay development for a portable fiberoptic biosensor.. 42:942-946.
- Harvi Cardiovascular Modeling Accurately Predicts Hemodynamic Improvements Produced by a New Direct Cardiac Compression Device