BACKGROUND: To provide long-term ambulatory cardiopulmonary and respiratory support for adult patients, a novel wearable artificial pump-lung device has been developed. The design features and in vitro and acute in vivo performance of this device are reported. METHODS: This device features a uniquely designed hollow-fiber membrane bundle integrated with a magnetically levitated impeller that together form one ultracompact pump-lung device, which can be placed like current paracorporeal ventricular assist devices to allow ambulatory support. The device is 117 mm in length and 89 mm in diameter. and has a priming volume of 115 ml. In vitro hydrodynamic, gas transfer and biocompatibility experiments were carried out in mock flow-loops using ovine blood. Acute in vivo characterization was conducted in an ovine model by surgically implanting the device between right atrium and pulmonary artery. RESULTS: The in vitro results show that the device with a membrane surface area of 0.8 m(2) was capable of pumping blood from I to 4 liters/min against a wide range of pressures and transferring oxygen at a rate of up to 180 ml/min at a blood flow of 3.5 liters/min. Standard hemolysis tests demonstrated low hemolysis at the targeted operating condition. The acute in vivo results also confirmed that the device can provide sufficient oxygen transfer with excellent biocompatibility. CONCLUSIONS: Based on in vitro and acute in vivo study findings, this highly integrated wearable pump-lung device can provide efficient respiratory support with good biocompatibility and it is ready for long-term evaluation.

Zhang, T., Wei, X., Bianchi, G., Wong, P.m., Biancucci, B., Griffith, B.p., et al. (2012). A novel wearable pump-lung device: In vitro and acute in vivo study. THE JOURNAL OF HEART AND LUNG TRANSPLANTATION, 31(1), 101-105 [10.1016/j.healun.2011.08.022].

A novel wearable pump-lung device: In vitro and acute in vivo study

BIANCHI G
Writing – Original Draft Preparation
;
2012-01-01

Abstract

BACKGROUND: To provide long-term ambulatory cardiopulmonary and respiratory support for adult patients, a novel wearable artificial pump-lung device has been developed. The design features and in vitro and acute in vivo performance of this device are reported. METHODS: This device features a uniquely designed hollow-fiber membrane bundle integrated with a magnetically levitated impeller that together form one ultracompact pump-lung device, which can be placed like current paracorporeal ventricular assist devices to allow ambulatory support. The device is 117 mm in length and 89 mm in diameter. and has a priming volume of 115 ml. In vitro hydrodynamic, gas transfer and biocompatibility experiments were carried out in mock flow-loops using ovine blood. Acute in vivo characterization was conducted in an ovine model by surgically implanting the device between right atrium and pulmonary artery. RESULTS: The in vitro results show that the device with a membrane surface area of 0.8 m(2) was capable of pumping blood from I to 4 liters/min against a wide range of pressures and transferring oxygen at a rate of up to 180 ml/min at a blood flow of 3.5 liters/min. Standard hemolysis tests demonstrated low hemolysis at the targeted operating condition. The acute in vivo results also confirmed that the device can provide sufficient oxygen transfer with excellent biocompatibility. CONCLUSIONS: Based on in vitro and acute in vivo study findings, this highly integrated wearable pump-lung device can provide efficient respiratory support with good biocompatibility and it is ready for long-term evaluation.
2012
Zhang, T., Wei, X., Bianchi, G., Wong, P.m., Biancucci, B., Griffith, B.p., et al. (2012). A novel wearable pump-lung device: In vitro and acute in vivo study. THE JOURNAL OF HEART AND LUNG TRANSPLANTATION, 31(1), 101-105 [10.1016/j.healun.2011.08.022].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11365/1221400
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