Optimization of CPB Circuits and Techniques Minimize the Total Number of Intraoperative Emboli Delivery in Congenital Heart Surgery Patients

Abstract

Get full access to this article

View all access options for this article.

References

Twedt

Hage

Hammel

, et al. Most high-intensity transient signals are not associated with specific surgical maneuvers. World J Pediatr Congenit Heart Surg. 2020;11(4):401–408.

Wang

Rosenthal

Kunselman

Ündar

. Evaluation of different diameter arterial tubing and arterial cannulae in simulated neonatal/pediatric CPB circuits. Artif Organs. 2015;39(1):43–52.

Wang

Miller

Myers

Ündar

. “Stolen” blood flow: the effects of an open arterial filter purge line in a simulated neonatal CPB model. ASAIO J. 2008;54(4):432–435.

Sathianathan

Nasir

Wang

Kunselman

Ündar

. In-vitro evaluation of Capiox FX05 and RX05 oxygenators in neonatal cardiopulmonary bypass circuits with varying venous reservoir and VAVD levels. Artif Organs. 2020;44(1):28–39.

Clark

Qui

Guan

Myers

Ündar

. Microemboli detection and classification during pediatric cardiopulmonary bypass. World J Pediatr Congenit Heart Surg. 2011;2(1):111–114.

Ündar

Wang

Palanzo

, et al. Impact of translational research on optimization of neonatal CPB circuits and techniques—the Penn State Health Approach. Artif Organs. 2017;41(3):218–223.

Win

Wang

Ündar

. Microemboli generation, detection and characterization during CPB procedures in neonates, infants, and small children. ASAIO J. 2008;54(5):486–490.