Clowes oxygenator
1.XIJING-87 Bubble Oxygenator with Warm Cardiopulmonary Bypass in Open Heart Surgery
2.Clinical Application of Baxter OXIM-Ⅱ 06 Plus Infant/Pediatric Membrane Oxygenator--Report of 201 cases
3.aquatic plant with deep green foliage useful as an aquarium oxygenator; sometimes placed in genus Egeria.
4.The relationship between isoflurane part ial pressures in arterial blood and in oxygenator outlet gas during cardiopu lmonary bypass.
5.We found the pump oxygenator to be extraordinarily efficient, reliable, of great capacity and also simple to operate.
6.found in still or slow-moving fresh or brackish water; useful oxygenator for cool water ponds and aquaria.
7.RESULTS Counts of gaseous microemboli after different membrane oxygenator and after arterial filter were as following:(155.9 ±15.2) and(69.8±6.7) for Affinity,(336.0±14.7) and(135.3±6.1) for Edwards,(114.6±12.1) and(52.8±5.5) for Terumo.
8.Extra-luminal flow hollow fiber membrane oxygenator(ELFHFMO) has been widely applied in cardiopulmonary bypass(CPB) and extracorporeal membrane oxygenation(ECMO) or extracorporeal life support(ECLS) because of its advantages over other types of MO.But its low hemocompatibility and durability are the major problems in clinical application that even have limited its wide application.In this paper,we reviewed the recent researches on how to improve the hemocompatibility and durability of ELFHFMO.
9.Water gas transfer of MINIMAX PLUS TM oxygenators before and after surgery use was inverstigated based on a home built membrane oxygenator water gas transfer equipment. The structural factors, α and β , were thus obtained. And the rate of oxygen transfer to blood was calculated according to Mockros Leonard, semi empirical theoretical model of oxygen transfer.
10.In this paper, an equation for the local blood-side Sherwood number is derived from the advancing front theory (AFT) for mass transfer of oxygen in a parallel plate membrane oxygenator. The maximum deviation of the approximate solution in comparison to the classical Graetz-Leveque solution is reduced to 6.58% from 22.3% by srinivasan et al. The simple analytical expressions enable analysis of the effect of oxygen reaction and membrane resistance on mass transfer.
