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Committed to Prolonging Life

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Presentations

"Dynamic Stability Analysis of a Rotary Blood Pump," NISH-FDA Workshop on Computational Methods for Medical Devices, Bethesda, MD.

 

"Pre-Clinical Evaluation of MiTiHeart LVAD," ASAIO Annual Meeting, Dallas, TX.

 

"Deisgn and Evaluation of a Small Centrifugal Blood Pump," International Society for Rotary Blood Pumps," Houston TX.

 

"Design and Performance Evaluation of a Hybrid Magnetic Bearing for a Rotary Blood Pump," International Mechanical Engineering Congress and Exposition, Seattle, WA.

 

"Design and Performance Evaluation of MiTiHeart LVAD," International Society for Rotary Blood Pumps, Sydney, Australia.

 

"Design and Performance Evaluation of a Hybrid Magnetic Bearing for a Rotary Blood Pump," International Joint Tribology Conference, San Diego, CA.

 

"Design of a Small Centrifugal LVAD," International Society for Rotary Blood Pumps, Leuven, Belgium.

MiTi Research & Development

Newsletter Vol. 28

"Pre-Clinical Evaluation of the MiTiHeart LVAD"

 

 

 

MiTi Research & Development Newletter Vol. 24

"Magnetically Suspended Rotary Blood Pump"

 

 

 

MiTiHeart Corporation

announces successful implant of its new blood pump prototype

 

MiTiHeart Corporation

announces the formation of its

Medical Advisory Board

 

Hooshang Heshmat

was featured in the Tribology & Lubrication Technology Article

"20 minutes with Hooshang Heshmat" (PDF - 8.38 MB)

 

 

 

Said Jahanmir

was featured in the Tribology & Lubrication Technology Article

"20 minutes with Said Jahanmir"

(PDF - 5.28 MB)

 

 

MiTiHeart Corporation

announces successful implant of its blood pump

September 17, 2003

 

Mohawk Innovative Technology, Inc. announces the formation of

MiTiHeart Corporation

its first subsidiary

- May 10, 2003

News Archives

Volume 28 (PDF) Volume 24 (PDF) 20 Minutes with HH 20 Minutes with SJ MiTi_Logo2001

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Website by Christina Jewell

Notable

MiTiHeart Corporation Left Ventricular Assist Device Designed for Destination Therapy

Brochure

Experimental Validation of a Physiologic Control Algorithm for a Left Ventricular Assist Device

Poster