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Abstract

Grant Number: 5R44HL061072-03
PI Name: GARTNER, MARK J.
PI Email: mgartner@ension.com
PI Title:
Project Title: Active Mixing Membrane Oxygenator Phase II

Abstract: DESCRIPTION (provided by applicant): Ension, Inc. and its development partner, the University of Pittsburgh, have developed and patented an active mixing membrane oxygenator (AMMO), which has been proven to be highly efficient in terms of oxygenation and decarbonation (5-8 times that of oxygenators currently in use), capable of pumping blood and atraumatic to blood. The AMMO achieves its efficiency by rotating flow-through discs of microporous hollow fiber membranes, which are mounted on a double lumen shaft, through blood significantly minimizing fluid phase resistance. In vitro and in vivo data have been collected to substantiate our claims of highly efficient mass transfer and blood pumping with minimal blood damage. Our proposed Phase II plan includes refinement of current AMMO designs to provide at least 7.0 Lpm of blood flow and adequate gas transfer, oxygen transfer of 400 ml/min and carbon dioxide transfer of 250 ml/min, in a device with 0.5 sq. m. fiber surface area. These capabilities should be sufficient to support adult patients during open-heart surgery. Fabrication methods will be moved from the development laboratory to a semi-automated manufacturing process that will enable the production of high quality devices in numbers adequate to support full evaluation per MMI standards. In vivo testing in calves (12 per year) will commence with acute testing of improved devices and move to experiments that follow current FDA guidelines. Finally, it is proposed that 6 animal experiments in Yr. 02 be conducted on our final prototype and this data, in addition to that generated in the Phase III development, be submitted to the FDA to support our claim of device readiness for a human clinical trial. PROPOSED COMMERCIAL APPLICATION: Membrane oxygenators remain as the gold standard for heart lung bypass procedures. Approximately 1,000,000 open heart procedures are performed each year. Each operation also requires some type of pumping device. AMMO has been shown to be highly efficient at gas transfer and performs the pumping function as well. It should cost no more to produce than current oxygenators. This market represents about $400 million in sales per year. AMMO should garner significant market share.

Thesaurus Terms:
bioengineering /biomedical engineering, biomedical equipment development, blood flow, blood oxygenator, circulatory assist, clinical biomedical equipment, method development
cow, immature animal

Institution: ENSION
240 WILLIAM PITT WAY
PITTSBURGH, PA 15238
Fiscal Year: 2003
Department:
Project Start: 29-SEP-1998
Project End: 31-JAN-2004
ICD: NATIONAL HEART, LUNG, AND BLOOD INSTITUTE
IRG: ZRG1

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