Abstract
A Paracorporeal Artificial Lung (PAL) was designed and built by MC3 Corporation for high gas exchange efficiency and low blood flow resistance as a bridge to recovery or lung transplant. The initial PAL implanted in a pulmonary artery-to-artery (PA-PA) configuration supported gas exchange in normal sheep (n=8) up to 7 days. 4/8 sheep survived, but 4/8 experienced right heart failure. Following modifications to lower resistance with an inflow compliance chamber, 6/7 exhibited good cardiac function and total gas exchange for 72 h. We identified several additional complications including acute massive hemothorax (2/24), late (>24 h) hemothorax (4/24), cannula kinking (2/24), and anastomotic stricture (3/24). We addressed bleeding by a heparin free window and reduced dose, changed cannulae position and used Gore-Tex reinforced graft. We then encountered no hemothorax or outflow obstruction. Using our LD100 smoke/burn ARDS sheep model, we compared PAL (n=8) to volume-controlled mechanical ventilation (VCMV, n=6) in a prospective, randomized, controlled, unblinded, outcomes study to assess outcomes. Both groups were managed with a VCMV algorithm. 6/8 PAL vs. 1/6 VCMV sheep survived the 5-day study. Next, we will study impact on survival and pathophysiology from a LD100 smoke/burn injury using injection molded PALs with biocompatible surfaces.
Original language | English (US) |
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Pages (from-to) | 1583-1584 |
Number of pages | 2 |
Journal | Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings |
Volume | 2 |
State | Published - 2002 |
Event | Proceedings of the 2002 IEEE Engineering in Medicine and Biology 24th Annual Conference and the 2002 Fall Meeting of the Biomedical Engineering Society (BMES / EMBS) - Houston, TX, United States Duration: Oct 23 2002 → Oct 26 2002 |
Keywords
- ARDS
- Artificial lung
- Lung transplantation
ASJC Scopus subject areas
- Signal Processing
- Biomedical Engineering
- Computer Vision and Pattern Recognition
- Health Informatics