Artificial organs
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Case Reports Observational Study
Limitations of Current Near-Infrared Spectroscopy Configuration in Detecting Focal Cerebral Ischemia During Cardiac Surgery: An Observational Case-Series Study.
Cerebral oximetry using near-infrared spectroscopy (NIRS) allows for continuous monitoring of cerebral perfusion and immediate treatment of hemodynamic perturbations. In configurations used in current clinical practice, NIRS optodes are placed on the patient`s forehead and cerebral oxygen saturation (ScO2 ) is determined in bilateral frontal cortical samples. However, focal cerebral ischemic lesions outside of the NIRS field of view may remain undetected. ⋯ Intraoperative ScO2 values were entirely unremarkable or nonindicative for brain damage. Our results indicate that uneventful intraoperative NIRS monitoring does not exclude severe cerebral ischemia due to the limited field of view of commercially available NIRS devices. False negative NIRS may occur as a consequence of stroke localized outside the frontal cortex.
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The purpose of this study was to compare the Capiox FX15 oxygenator with integrated arterial filter to the Capiox RX15 oxygenator with separate Capiox AF125 arterial filter in terms of hemodynamic properties and gaseous microemboli (GME) capturing. Trials were conducted at varying flow rates (2.0 L/min, 3.0 L/min, 4.0 L/min), temperatures (30°C, 35°C), and flow modalities (pulsatile, nonpulsatile). Pressure and flow waveforms were recorded using a custom-made data acquisition system. ⋯ There was a slight generation of surplus hemodynamic energy (SHE) at the pre-oxygenator site for both oxygenators under "nonpulsatile mode." However, higher pre-oxygenator SHE levels were recorded for both groups with "pulsatile mode." The RX15 and FX15 groups were both able to remove all microemboli from the circuit at 2 L/min and 3 L/min in "nonpulsatile mode." Microemboli were delivered to the patient at 4 L/min with pulsatile flows in both groups. The RX15 oxygenator with separate AF125 arterial filter and FX15 oxygenator with integrated arterial filter performed similarly in terms of hemodynamic performance and microemboli capturing. Pulsatile flows at 4 L/min produced instantaneous flow rates that surpassed the documented maximum flow rates of the oxygenators and might have contributed to the delivery of GME to the pseudo-patient.
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In-Series Versus In-Parallel Mechanical Circulatory Support for the Right Heart: A Simulation Study.
Right heart failure (RHF) is a serious health issue with increasing incidence and high mortality. Right ventricular assist devices (RVADs) have been used to support the end-stage failing right ventricle (RV). Current RVADs operate in parallel with native RV, which alter blood flow pattern and increase RV afterload, associated with high tension in cardiac muscles and long-term valve complications. ⋯ The results demonstrated that sRVAD more effectively unloads the RV and restores the balance between RV oxygen supply and demand in RHF patients. In comparison to simulated pRVAD and published clinical and in silico studies, the sRVAD was able to provide comparable restoration of key hemodynamic parameters and demonstrated superior afterload and volume reduction. This study concluded that in-series support was able to produce effective afterload reduction and preserve the valve functionality and native blood flow pattern, eliminating complications associated with in-parallel support.
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Randomized Controlled Trial
Quantification of Operational Learning in Minimal Invasive Extracorporeal Circulation.
Minimal invasive extracorporeal circulation (MiECC) has initiated important new efforts within science and technology towards a more physiologic perfusion. In this study, we aim to investigate the learning curve of our center regarding MiECC. We studied a series of 150 consecutive patients who underwent elective coronary artery bypass grafting by the same surgical team during the initial phase of MiECC application. ⋯ We identified that advantages of MiECC technology in terms of reduced hemodilution and improved end-organ protection and clinical outcome are evident from the first patient. Optimal results are obtained with 50 cases; this refers mainly to significant reduction in the need for intraoperative blood transfusion. Teamwork from surgeons, anesthesiologists, and perfusionists is of paramount importance in order to maximize the clinical benefits from this technology.
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Extracorporeal membrane oxygenation (ECMO) has traditionally been and, for the most part, still is being performed using roller pumps. Use of first-generation centrifugal pumps has yielded controversial outcomes, perhaps due to mechanical properties of the same and the ensuing risk of hemolysis and renal morbidity. Latest-generation centrifugal pumps, using magnetic levitation (ML), exhibit mechanical properties which may have overcome limitations of first-generation devices. ⋯ Patients supported with ML had a trend toward higher hospital survival (1/7 vs. 12/26, P = 0.07) and significantly higher late survival (0/7 vs. 10/26, P = 0.05). The present experience shows that V-A ECMO for cardiac indications using centrifugal pumps in infants and children yields outcomes absolutely comparable to international registry (ELSO) data using mostly roller pumps. Although changes in practice may have contributed to these results, use of ML centrifugal pumps appears to further improve end-organ recovery and hospital and late survival.