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ABSTRACT Introduction: Extracorporeal perfusion flow type requires further investigation. The aim of this study is to compare the effects of pulsatile and nonpulsatile flow on oxygenator fibers that were analyzed by scanning electron microscope (SEM) and to extensively study patients' coagulation profiles, inflammatory markers, and functional blood tests. Methods: Twelve patients who had open heart surgery were randomly divided into two groups; the nonpulsatile flow (group NP, six patients) and pulsatile flow (group P, six patients) groups. Both superficial view and axial sections of the oxygenator fiber samples were examined under SEM to compare the thickness of absorbed blood proteins and amount of blood cells on the surface of oxygenators. Platelet count, coagulation profile, and inflammatory predictors were also studied from the blood samples. Results: Fibrinogen levels after cardiopulmonary bypass were significantly lower in group NP (group P, 2.57±2.78 g/L; group NP; 2.39±0.70 g/L, P=0.03). Inflammatory biomarkers such as C-reactive protein, interleukin (IL)-6, IL-12, apelin, S100β, and tumor necrosis factor alpha were comparable in both groups. Axial sections of the oxygenator fiber samples had a mean thickness of 45.2 µm and 46.5 µm in groups P and NP, respectively, and this difference is statistically significant (P=0.006). Superficial view of the fiber samples showed obviously lower platelet, leukocyte, and erythrocyte levels in group P. Conclusion: Our study demonstrated that both cellular elements and protein adsorption on oxygenator fibers are lower in the group P than in the group NP. Pulsatile perfusion has better biocompatibility on extracorporeal circulation when analyzed by SEM technique.
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RESUMO Objetivo: Caracterizar as pressões, as resistências, a oxigenação e a eficácia da descarboxilação de dois oxigenadores associados em série ou em paralelo durante o suporte com oxigenação veno-venosa por membrana extracorpórea. Métodos: Usando os resultados de insuficiência respiratória grave em suínos associada à disfunção de múltiplos órgãos, ao modelo de suporte com oxigenação por membrana extracorpórea veno-venosa e à modelagem matemática, exploramos os efeitos na oxigenação, descarboxilação e pressões do circuito de associações de oxigenadores em paralelo e em série. Resultados: Testaram-se cinco animais com peso mediano de 80kg. Ambas as configurações aumentaram a pressão parcial de oxigênio após os oxigenadores. O teor de oxigênio da cânula de retorno também foi ligeiramente maior, mas o efeito na oxigenação sistêmica foi mínimo, usando oxigenadores com alto fluxo nominal (~ 7L/minuto). Ambas as configurações reduziram significativamente a pressão parcial de dióxido de carbono sistêmico. Como o fluxo sanguíneo na oxigenação por membrana extracorpórea aumentou, a resistência do oxigenador diminuiu inicialmente, com aumento posterior, com fluxos sanguíneos mais altos, mas pouco efeito clínico. Conclusão: A associação de oxigenadores em paralelo ou em série durante o suporte com oxigenação veno-venosa por membrana extracorpórea proporciona um modesto aumento na depuração da pressão parcial de dióxido de carbono, com leve melhora na oxigenação. O efeito das associações de oxigenadores nas pressões de circuitos extracorpóreos é mínimo.
ABSTRACT Objective: To characterize the pressures, resistances, oxygenation, and decarboxylation efficacy of two oxygenators associated in series or in parallel during venous-venous extracorporeal membrane oxygenation support. Methods: Using the results of a swine severe respiratory failure associated with multiple organ dysfunction venous-venous extracorporeal membrane oxygenation support model and mathematical modeling, we explored the effects on oxygenation, decarboxylation and circuit pressures of in-parallel and in-series associations of oxygenators. Results: Five animals with a median weight of 80kg were tested. Both configurations increased the oxygen partial pressure after the oxygenators. The return cannula oxygen content was also slightly higher, but the impact on systemic oxygenation was minimal using oxygenators with a high rated flow (~ 7L/minute). Both configurations significantly reduced the systemic carbon dioxide partial pressure. As the extracorporeal membrane oxygenation blood flow increased, the oxygenator resistance decreased initially with a further increase with higher blood flows but with a small clinical impact. Conclusion: Association of oxygenators in parallel or in series during venous-venous extracorporeal membrane oxygenation support provides a modest increase in carbon dioxide partial pressure removal with a slight improvement in oxygenation. The effect of oxygenator associations on extracorporeal circuit pressures is minimal.
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Abstract Objective: Hemodilution is a concern in cardiopulmonary bypass (CPB). Using a smaller dual tubing rather than a single larger inner diameter (ID) tubing in the venous limb to decrease prime volume has been a standard practice. The purpose of this study is to evaluate these tubing options. Methods: Four different CPB circuits primed with blood (hematocrit 30%) were investigated. Two setups were used with two circuits for each one. In Setup I, a neonatal oxygenator was connected to dual 3/16" ID venous limbs (Circuit A) or to a single 1/4" ID venous limb (Circuit B); and in Setup II, a pediatric oxygenator was connected to dual 1/4" ID venous limbs (Circuit C) or a single 3/8" ID venous limb (Circuit D). Trials were conducted at arterial flow rates of 500 ml/min up to 1500 ml/min (Setup I) and up to 3000 ml/min (Setup II), at 36°C and 28°C. Results: Circuit B exhibited a higher venous flow rate than Circuit A, and Circuit D exhibited a higher venous flow rate than Circuit C, at both temperatures. Flow resistance was significantly higher in Circuits A and C than in Circuits B (P<0.001) and D (P<0.001), respectively. Conclusion: A single 1/4" venous limb is better than dual 3/16" venous limbs at all flow rates, up to 1500 ml/min. Moreover, a single 3/8" venous limb is better than dual 1/4" venous limbs, up to 3000 ml/min. Our findings strongly suggest a revision of perfusion practice to include single venous limb circuits for CPB.
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Humans , Oxygenators/standards , Cardiopulmonary Bypass/instrumentation , Cannula/standards , Pediatrics/instrumentation , Reference Standards , Temperature , Time Factors , Venous Pressure/physiology , Blood Flow Velocity/physiology , Cardiopulmonary Bypass/methods , Reproducibility of Results , Equipment Design , Equipment Safety , Hemodilution , Models, CardiovascularABSTRACT
Abstract Objective: Usually only FDA-approved oxygenators are subject of studies by the international scientific community. The objective of this study is to evaluate two types of neonatal membrane oxygenators in terms of transmembrane pressure gradient, hemodynamic energy transmission and gaseous microemboli capture in simulated cardiopulmonary bypass systems. Methods: We investigated the Braile Infant 1500 (Braile Biomédica, São José do Rio Preto, Brazil), an oxygenator commonly used in Brazilian operating rooms, and compared it to the Dideco Kids D100 (Sorin Group, Arvada, CO, USA), that is an FDA-approved and widely used model in the USA. Cardiopulmonary bypass circuits were primed with lactated Ringer's solution and packed red blood cells (Hematocrit 40%). Trials were conducted at flow rates of 500 ml/min and 700 ml/min at 35ºC and 25ºC. Real-time pressure and flow data were recorded using a custom-based data acquisition system. For gaseous microemboli testing, 5cc of air were manually injected into the venous line. Gaseous microemboli were recorded using the Emboli Detection and Classification Quantifier. Results: Braile Infant 1500 had a lower pressure drop (P<0.01) and a higher total hemodynamic energy delivered to the pseudopatient (P<0.01). However, there was a higher raw number of gaseous microemboli seen prior to oxygenator at lower temperatures with the Braile oxygenator compared to the Kids D100 (P<0.01). Conclusion: Braile Infant 1500 oxygenator had a better hemodynamic performance compared to the Dideco Kids D100 oxygenator. Braile had more gaseous microemboli detected at the pre-oxygenator site under hypothermia, but delivered a smaller percentage of air emboli to the pseudopatient than the Dideco oxygenator.
Subject(s)
Humans , Infant, Newborn , Oxygenators, Membrane/standards , Cardiopulmonary Bypass/methods , Embolism, Air/prevention & control , Hemodynamics/physiology , Equipment Design , Models, CardiovascularABSTRACT
A oxigenação extracorpórea por membrana com desvio arterio-venoso (AV-ECMO), em seres humanos, é uma técnica de suporte à vida capaz de assumir em parte ou totalmente as funções dos pulmões, quando estes já não são capazes de promover uma adequada hematose. Para conhecer a viabilidade deste método em cães (Canis familiaris), o presente estudo aplicou a AV-ECMO em dez indivíduos adultos, sem raça definida, com uma expectativa de três horas de duração para cada experimento. No grupo 1 (n=4), ventilação mecânica e infusão contínua de dopamina foram associadas ao suporte extracorpóreo. No grupo 2 (n=6), nenhuma medida de terapia intensiva foi instituída concomitantemente à AV-ECMO. O comportamento dos parâmetros de gasometria e os níveis de lactato foram avaliados a cada 10 minutos e 1 hora, respectivamente, por meio de da avaliação de amostras sanguíneas arteriais. O suporte inotrópico foi capaz de promover uma melhor perfusão tecidual com sangue oxigenado, sugerida pelos níveis de lactato e pressão arterial média mensurados, assim como a hemogasometria revelou melhores resultados quando a ventilação mecânica foi utilizada simultaneamente à AV-ECMO. Portanto, aplicada conjuntamente com suporte da terapia intensiva, a AV-ECMO é uma técnica viável para o uso em cães com falência respiratória, refratária aos tratamentos convencionais.
In humans, arteriovenous extracorporeal membrane oxygenation (AV-ECMO) is a life support technique capable to assume in part or totally lungs functions, when these are not able to promote appropriated hematosis. To know the viability of this method in dogs (Canis familiaris), the present study applied AV-ECMO in ten adult mixed-breed dogs, with expected three hours of duration to each experiment. In Group 1 (n=4), mechanical ventilation and dopamine continuous infusion were associated with the extracorporeal support. In Group 2 (n=6), any other measure of intensive care was used concomitantly AV-ECMO. Blood gas analysis and lactate levels were evaluated every 10 minutes and one hour, respectively, from arterial blood samples. Inotropic support improved the blood flow through the circuit promoting a better tissue perfusion with oxygenated blood, suggested by the lactate and mean arterial pressure levels measured. Mechanical ventilation used simultaneously with AV-ECMO was able to further improve levels of blood gases. Therefore, if applied along intensive care support, AV-ECMO is a viable technique for use in dogs with respiratory failure refractory to conventional treatments.
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JUSTIFICATIVA E OBJETIVOS: O uso dos anestésicos inalatórios em cirurgia cardíaca não é recente. Desde a introdução do halotano na prática clínica, vários centros de cirurgia cardíaca passaram a fazer uso rotineiro destes anestésicos. CONTEÚDO: Nos últimos anos, um grande número de estudos vem demonstrando que os anestésicos inalatórios exercem um efeito protetor contra a disfunção isquêmica miocárdica. Evidências experimentais têm indicado que os halogenados apresentam efeitos cardioprotetores que não são explicados apenas por alterações de fluxo coronariano ou pelo balanço entre a oferta e o consumo de oxigênio pelo miocárdio. Aliado a este fato, o uso de anestésicos inalatórios durante a circulação extracorpórea (CEC) em cirurgia cardíaca tem um papel importante. O principal fato se deve às recentes pesquisas que confirmam as propriedades cardioprotetoras destes agentes, com melhores resultados quando se utiliza o anestésico inalatório durante todo o procedimento cirúrgico, inclusive durante a CEC. O uso destes agentes através de vaporizadores calibrados adaptados ao circuito da CEC por meio das membranas dos oxigenadores tem o seu uso cada vez mais frequente, fazendo com que os profissionais envolvidos, como anestesiologistas e perfusionistas, necessitem adquirir certos conhecimentos para elucidar possíveis dúvidas que possam surgir.
BACKGROUND AND OBJECTIVES: The use of volatile anesthetics in cardiac surgery is not recent. Since the introduction of halothane in clinical practice, several cardiac surgery centers started to use these anesthetics constantly. CONTENT: In the last years a great number of studies haveshown that the volatile anesthetics have a protecting effect against myocardial ischemic dysfunction. Experimental evidences have shown that the halogenated anesthetics have cardioprotective effects that cannot be only explained by coronary flow alterations or by the balance between myocardium available and consumed oxygen. In addition to that, the use of volatile anesthetics during extracorporeal circulation (ECC) in cardiac surgery plays an important role. Recent studies have proven that these agents have cardioprotective properties and produce better results when the volatile anesthetic is used during the whole surgery procedure, including ECC. The use of halogenated anesthetics through calibrated vaporizers adapted to the ECC circuit via oxygenator membranes has become popular. Therefore, the professionals involved such as anesthesiologists and perfusionists should learn specifcs in order to solve possible doubts.
JUSTIFICATIVA Y OBJETIVOS: El uso de los anestésicos inhalatorios en cirugía cardíaca no es algo reciente. Desde la introducción del halotano en la práctica clínica, varios centros de cirugía cardíaca han pasado a hacer uso de rutina de esos anestésicos. CONTENIDO: En los últimos años, un gran número de estudios ha venido demostrando que los anestésicos inhalatorios ejercen un efecto protector contra la disfunción isquémica miocárdica. Las evidencias experimentales han indicado que los halogenados presentan efectos cardioprotectores que no son explicados solamente por las alteraciones de flujo coronario o por el balance entre la oferta y el consumo de oxígeno por el miocardio. Junto con ese hecho, el uso de anestésicos inhalatorios durante la circulación extracorpórea (CEC) en cirugía cardíaca tiene un papel importante. El principal hecho se debe a las recientes investigaciones que confirman las propiedades cardioprotectoras de esos agentes, con mejores resultados cuando se utiliza el anestésico inhalatorio durante todo el procedimiento quirúrgico, inclusive durante la CEC. El uso de esos agentes a través de vaporizadores calibrados adaptados al circuito de la CEC por medio de las membranas de los oxigenadores, tiene un uso cada vez más frecuente, haciendo con que los profesionales involucrados, como los anestesiólogos y los perfusionistas, necesiten adquirir ciertos conocimientos para clarificar posibles dudas que puedan surgir.
Subject(s)
Humans , Anesthetics, Inhalation , Anesthesia, Inhalation/methods , Cardiac Surgical Procedures , Extracorporeal Circulation , Anesthesia, Inhalation/instrumentation , Equipment Design , Ischemic Postconditioning , Ischemic Preconditioning , VolatilizationABSTRACT
Objective To observe the oxygenation and heartbeat duration effect of peritoneal ventilation with oxygen on a rabbit asphyxia model so as to provide a basis for treatment of severe respiratory damage with peritoneal oxygenation technique. Methods Twenty-four New Zealand rabbits were randomized into control group,air group and oxygen group,eight rabbits per group.Trachea dissection and intubation,carotid artery and vein catheter and placement of peritoneal cavity in and out of air duct were performed.An asphyxia model was built by clamping the tracheal catheter and was administered with peritoneal ventilation (with air in air group and oxygen in oxygen group).Indices including blood gas and mean arterial pressure (MAP) before and at an interval of one minute after asphyxia and heartbeat duration were observed,and their differences between groups were compared. Results The arterial partial pressure of oxygen ( PaO2 ) in the oxygen group was higher than that in the control group within four minutes after asphyxia.The partial pressure of carbon dioxide ( PaCO2 ) [ (77.6 ± 11.2) mm Hg] in the oxygen group was significantly lower than (89.1 ± 10.1 )mm Hg in the control group at four minutes after asphyxia.The heartbeat duration [ (6.48 ± 0.89 ) minutes ] in the oxygen group was longer than (5.03 ± 0.51 ) minutes in the control group.MAP had no obvious changes in the three groups. Conclusion The transperitoneal ventilation with gaseous oxygen can alleviate the decrease of PaO2,increase of PaCO2 and prolong the duration of heartbeat in an asphyxia rabbit model.
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Open heart operations were successfully performed on six consecutive patients at the Philippine General Hospital. Total cardiopulmonary bypass was accomplished using disposable plastic oxygenators, five percent dextrose in distilled water prime, normothermia and a single sigmamotor pump (T-M2). The technic of perusion, clinical material, physiologic data gathered and the financial costs of these operations were discussed. All the patients survived their operations. No complication could be attributable to the method of cardiopulmonary bypass employed. The technic of cardiopulmonary bypass described appears practical, safe, and relatively inexpensive. This method of bypass has been adopted for use by the Department of Surgery for all types of open heart operations. (Author)