RESUMO
The Spiral Pump (SP), a centrifugal blood pump for cardiopulmonary bypass (CPB), has been developed at the Dante Pazzanese Institute of Cardiology/Adib Jatene Foundation laboratories, with support from Sintegra Company (Pompeia, Brazil). The SP is a disposable pump with an internal rotor-a conically shaped fuse with double entrance threads. This rotor is supported by two ball bearings, attached to a stainless steel shaft fixed to the housing base. Worm gears provide axial motion to the blood column, and the rotational motion of the conically shaped impeller generates a centrifugal pumping effect, improving pump efficiency without increasing hemolysis. In vitro tests were performed to evaluate the SP's hydrodynamic performance, and in vivo experiments were performed to evaluate hemodynamic impact during usual CPB. A commercially available centrifugal blood pump was used as reference. In vivo experiments were conducted in six male pigs weighing between 60 and 90 kg, placed on CPB for 6 h each. Blood samples were collected just before CPB (T0) and after every hour of CPB (T1-T6) for hemolysis determination and laboratory tests (hematological and biochemical). Values of blood pressure, mean flow, pump rotational speed, and corporeal temperature were recorded. Also, ergonomic conditions were recorded: presence of noise, difficulty in removing air bubbles, trouble in installing the pump in the drive module (console), and difficulties in mounting the CPB circuit. Comparing the laboratory and hemolysis results for the SP with those of the reference pump, we can conclude that there is no significant difference between the two devices. In addition, reports made by medical staff and perfusionists described a close similarity between the two devices. During in vivo experiments, the SP maintained blood flow and pressure at physiological levels, consistent with those applied in cardiac surgery with CPB, without presenting any malfunction. Also, the SP needed lower rotational speed to obtain average blood flow and pressure, compared with the reference pump.
Assuntos
Circulação Assistida/instrumentação , Ponte Cardiopulmonar/instrumentação , Animais , Circulação Assistida/efeitos adversos , Ponte Cardiopulmonar/efeitos adversos , Desenho de Equipamento , Hemólise , Hidrodinâmica , Masculino , SuínosRESUMO
A new model of centrifugal blood pump for temporary ventricular assist devices has been developed and evaluated. The design of the device is based on centrifugal pumping principles and the usage of ceramic bearings, resulting in a pump with reduced priming (35 ± 2 mL) that can be applied for up to 30 days. Computational fluid dynamic (CFD) analysis is an efficient tool to optimize flow path geometry, maximize hydraulic performance, and minimize shear stress, consequently decreasing hemolysis. Initial studies were conducted by analyzing flow behavior with different impellers, aiming to determine the best impeller design. After CFD studies, rapid prototyping technology was used for production of pump prototypes with three different impellers. In vitro experiments were performed with those prototypes, using a mock loop system composed of Tygon tubes, oxygenator, digital flow meter, pressure monitor, electronic driver, and adjustable clamp for flow control, filled with a solution (1/3 water, 1/3 glycerin, 1/3 alcohol) simulating blood viscosity and density. Flow-versus-pressure curves were obtained for rotational speeds of 1000, 1500, 2000, 2500, and 3000 rpm. As the next step, the CFD analysis and hydrodynamic performance results will be compared with the results of flow visualization studies and hemolysis tests.
Assuntos
Coração Auxiliar , Centrifugação , Cerâmica/química , Coração Auxiliar/efeitos adversos , Hemólise , Humanos , Hidrodinâmica , Desenho de PróteseRESUMO
A new model of centrifugal blood pump for temporaryventricular assist devices has been developed andevaluated. The design of the device is based on centrifugalpumping principles and the usage of ceramic bearings,resulting in a pump with reduced priming (35 ± 2 mL) thatcan be applied for up to 30 days. Computational fluiddynamic (CFD) analysis is an efficient tool to optimizeflow path geometry, maximize hydraulic performance, andminimize shear stress, consequently decreasing hemolysis.Initial studies were conducted by analyzing flow behaviorwith different impellers, aiming to determine the bestimpeller design.After CFD studies, rapid prototyping technologywas used for production of pump prototypes withthree different impellers. In vitro experiments were performedwith those prototypes, using a mock loop systemcomposed of Tygon tubes, oxygenator, digital flow meter,pressure monitor, electronic driver, and adjustable clampfor flow control, filled with a solution (1/3 water, 1/3 glycerin,1/3 alcohol) simulating blood viscosity and density.Flow-versus-pressure curves were obtained for rotationalspeeds of 1000, 1500, 2000, 2500, and 3000 rpm.As the nextstep, the CFD analysis and hydrodynamic performanceresults will be compared with the results of flow visualizationstudies and hemolysis tests.
Assuntos
Bombas Centrífugas , SangueRESUMO
A new model of blood pump for cardiopulmonary bypass (CPB) application has been developed and evaluated in our laboratories. Inside the pump housing is a spiral impeller that is conically shaped and has threads on its surface. Worm gears provide an axial motion of the blood column. Rotational motion of the conical shape generates a centrifugal pumping effect and improves pumping performance. One annular magnet with six poles is inside the impeller, providing magnetic coupling to a brushless direct current motor. In order to study the pumping performance, a mock loop system was assembled. Mock loop was composed of Tygon tubes (Saint-Gobain Corporation, Courbevoie, France), oxygenator, digital flowmeter, pressure monitor, electronic driver, and adjustable clamp for flow control. Experiments were performed on six prototypes with small differences in their design. Each prototype was tested and flow and pressure data were obtained for rotational speed of 1000, 1500, 2000, 2500, and 3000 rpm. Hemolysis was studied using pumps with different internal gap sizes (1.35, 1.45, 1.55, and 1.7 mm). Hemolysis tests simulated CPB application with flow rate of 5 L/min against total pressure head of 350 mm Hg. The results from six prototypes were satisfactory, compared to the results from the literature. However, prototype #6 showed the best results. Best hemolysis results were observed with a gap of 1.45 mm, and showed a normalized index of hemolysis of 0.013 g/100 L. When combined, axial and centrifugal pumping principles produce better hydrodynamic performance without increasing hemolysis.
Assuntos
Ponte Cardiopulmonar/instrumentação , Coração Auxiliar , Hemólise , Animais , Velocidade do Fluxo Sanguíneo , Ponte Cardiopulmonar/efeitos adversos , Bovinos , Coração Auxiliar/efeitos adversos , Hemorreologia , Hidrodinâmica , Magnetismo , Teste de Materiais , Pressão , Desenho de Prótese , RotaçãoRESUMO
This article presents improvement on a physical cardiovascular simulator (PCS) system. Intraventricular pressure versus intraventricular volume (PxV) loop was obtained to evaluate performance of a pulsatile chamber mimicking the human left ventricle. PxV loop shows heart contractility and is normally used to evaluate heart performance. In many heart diseases, the stroke volume decreases because of low heart contractility. This pathological situation must be simulated by the PCS in order to evaluate the assistance provided by a ventricular assist device (VAD). The PCS system is automatically controlled by a computer and is an auxiliary tool for VAD control strategies development. This PCS system is according to a Windkessel model where lumped parameters are used for cardiovascular system analysis. Peripheral resistance, arteries compliance, and fluid inertance are simulated. The simulator has an actuator with a roller screw and brushless direct current motor, and the stroke volume is regulated by the actuator displacement. Internal pressure and volume measurements are monitored to obtain the PxV loop. Left chamber internal pressure is directly obtained by pressure transducer; however, internal volume has been obtained indirectly by using a linear variable differential transformer, which senses the diaphragm displacement. Correlations between the internal volume and diaphragm position are made. LabVIEW integrates these signals and shows the pressure versus internal volume loop. The results that have been obtained from the PCS system show PxV loops at different ventricle elastances, making possible the simulation of pathological situations. A preliminary test with a pulsatile VAD attached to PCS system was made.
Assuntos
Cardiopatias/fisiopatologia , Hemodinâmica , Modelos Cardiovasculares , Volume Sistólico , Função Ventricular Esquerda , Pressão Ventricular , Complacência (Medida de Distensibilidade) , Cardiopatias/terapia , Coração Auxiliar , Humanos , Teste de Materiais , Microcomputadores , Contração Miocárdica , Desenho de Prótese , Fluxo Pulsátil , Fatores de Tempo , Transdutores de Pressão , Resistência VascularRESUMO
This article presents improvement on a physical cardiovascular simulator (PCS) system. Intraventricular pressure versus intraventricular volume (PxV) loop was obtained to evaluate performance of a pulsatile chambermimicking the human left ventricle. PxV loop shows heart contractility and is normally used to evaluate heartperformance. In many heart diseases, the stroke volume decreases because of low heart contractility.This pathologicalsituation must be simulated by the PCS in order to evaluate the assistance provided by a ventricular assistdevice (VAD).The PCS system is automatically controlled by a computer and is an auxiliary tool for VAD controlstrategies development. This PCS system is according to a Windkessel model where lumped parameters are used for cardiovascular system analysis. Peripheral resistance, arteriescompliance, and fluid inertance are simulated.The simulator has an actuator with a roller screw and brushlessdirect current motor, and the stroke volume is regulated by the actuator displacement. Internal pressure and volume measurements are monitored to obtain the PxV loop. Left chamber internal pressure is directly obtained by pressure transducer; however, internal volume has been obtained indirectly by using a linear variable differential transformer, which senses the diaphragm displacement. Correlationsbetween the internal volume and diaphragm position are made. LabVIEW integrates these signals and shows the pressure versus internal volume loop. The results that have been obtained from the PCS system show PxV loops at different ventricle elastances, makingpossible the simulation of pathological situations. A preliminary test with a pulsatile VAD attached to PCS systemwas made.
Assuntos
Cardiologia , Pressão ArterialRESUMO
A new model of blood pump for cardiopulmonary bypass (CPB) application has been developed and evaluated in our laboratories. Inside the pump housing is a spiral impeller that is conically shaped and has threads on its surface. Worm gears provide an axial motion of the blood column. Rotational motion of the conical shape generates a centrifugal pumping effect and improves pumping performance. One annular magnet with six poles is inside the impeller, providing magnetic coupling to a brushless direct current motor. In order to study the pumping performance, a mock loop system was assembled. Mock loop was composed of Tygon tubes (Saint-Gobain Corporation, Courbevoie, France), oxygenator, digital flowmeter, pressure monitor, electronic driver, and adjustable clamp for flow control. Experiments were performed on six prototypes with small differences in their design. Each prototype was tested and flow and pressure data were obtained for rotational speed of 1000, 1500, 2000, 2500, and 3000 rpm. Hemolysis was studied using pumps with different internal gap sizes (1.35, 1.45, 1.55, and 1.7 mm). Hemolysis tests simulated CPB application with flow rate of 5 L/min against total pressure head of 350 mm Hg. The results from six prototypes were satisfactory, compared to the results from the literature. However, prototype #6 showed the best results. Best hemolysis results were observed with a gap of 1.45 mm, and showed a normalized index of hemolysis of 0.013 g/100 L. When combined, axial and centrifugal pumping principles produce better hydrodynamic performance without increasing hemolysis.
Assuntos
Bombas Centrífugas , Hemólise , SangueRESUMO
In the development of a ventricular assist device, computational fluid dynamics (CFD) analysis is an efficient tool to obtain the best design before making the final prototype. In this study, different designs of a centrifugal blood pump were developed to investigate flow characteristics and performance. This study assumed the blood flow as being an incompressible homogeneous Newtonian fluid. A constant velocity was applied at the inlet; no slip boundary conditions were applied at device wall; and pressure boundary conditions were applied at the outlet. The CFD code used in this work was based on the finite volume method. In the future, the results of CFD analysis can be compared with flow visualization and hemolysis tests.
Assuntos
Bombas Centrífugas , HemodinâmicaRESUMO
This article presents a back-electromotive force (BEMF)-based technique of detection for sensorless brushless direct current motor (BLDCM) drivers. The BLDCM has been chosen as the energy converter in rotary or pulsatile blood pumps that use electrical motors for pumping. However, in order to operate properly, the BLDCM driver needs to know the shaft position. Usually, that information is obtained through a set of Hall sensors assembled close to the rotor and connected to the electronic controller by wires. Sometimes, a large distance between the motor and controller makes the system susceptible to interference on the sensor signal because of winding current switching. Thus, the goal of the sensorless technique presented in this study is to avoid this problem. First, the operation of BLDCM was evaluated on the electronic simulator PSpice. Then, a BEMF detector circuitry was assembled in our laboratories. For the tests, a sensordependent system was assembled where the direct comparison between the Hall sensors signals and the detected signals was performed. The obtained results showed that the output sensorless detector signals are very similar to the Hall signals at speeds of more than 2500 rpm. Therefore, the sensorless technique is recommended as a responsible or redundant system to be used in rotary blood pumps.
Assuntos
Coração ArtificialRESUMO
In the development of a ventricular assist device, computational fluid dynamics (CFD) analysis is an efficient tool to obtain the best design before making the final prototype. In this study, different designs of a centrifugal blood pump were developed to investigate flow characteristics and performance. This study assumed the blood flow as being an incompressible homogeneous Newtonian fluid. A constant velocity was applied at the inlet; no slip boundary conditions were applied at device wall; and pressure boundary conditions were applied at the outlet. The CFD code used in this work was based on the finite volume method. In the future, the results of CFD analysis can be compared with flow visualization and hemolysis tests.
Assuntos
Biologia Computacional , Coração Auxiliar , Hemorreologia , Velocidade do Fluxo Sanguíneo , Pressão Sanguínea , Centrifugação , Simulação por Computador , Desenho Assistido por Computador , Desenho de Equipamento , Coração Auxiliar/efeitos adversos , Hemólise , Humanos , Teste de Materiais , Modelos Cardiovasculares , Estresse MecânicoRESUMO
This article presents a back-electromotive force (BEMF)-based technique of detection for sensorless brushless direct current motor (BLDCM) drivers. The BLDCM has been chosen as the energy converter in rotary or pulsatile blood pumps that use electrical motors for pumping. However, in order to operate properly, the BLDCM driver needs to know the shaft position. Usually, that information is obtained through a set of Hall sensors assembled close to the rotor and connected to the electronic controller by wires. Sometimes, a large distance between the motor and controller makes the system susceptible to interference on the sensor signal because of winding current switching. Thus, the goal of the sensorless technique presented in this study is to avoid this problem. First, the operation of BLDCM was evaluated on the electronic simulator PSpice. Then, a BEMF detector circuitry was assembled in our laboratories. For the tests, a sensor-dependent system was assembled where the direct comparison between the Hall sensors signals and the detected signals was performed. The obtained results showed that the output sensorless detector signals are very similar to the Hall signals at speeds of more than 2500 rpm. Therefore, the sensorless technique is recommended as a responsible or redundant system to be used in rotary blood pumps.
Assuntos
Coração Auxiliar , Algoritmos , Simulação por Computador , Desenho de Equipamento , Hemorreologia , Modelos Cardiovasculares , Fluxo Pulsátil , Processamento de Sinais Assistido por Computador , TorqueRESUMO
A "Spiral Pump" (SP) é uma bomba de sangue que utiliza, simultaneamente, os princípios de bombeamento axial e centrífugo, através da rotação de um fuso cônico. As características hidrodinâmicas da SP foram estudadas em diversas condições de bombeamento, utilizando um circuito composto de tubos e reservatório plásticos, com 500 ml de solução água-glicerina (37 por cento). O comportamento do fluxo foi estudado nas áreas mais importantes da bomba utilizando um plano de luz laser estroboscópica. Partículas plásticas, suspensas na solução, foram iluminadas pela luz laser durante o funcionamento da bomba. Vários testes de hemólise foram realizados "In Vitro" utilizando sangue bovino, simulando duas condições de bombeamento: bomba de assistência ventricular esquerda e bomba de circulação e oxigenação extracorpórea
Abstract: The Spiral Pump (SP) is a blood pump that utilizes the two well known centrifugai and axial pumping principies, simultaneously. The hydrodynamic performance of the pump was studied at severa! test conditions, using a closed circuit loop with plastic tubes and reservoir, filled with 500 mi of 37% glycerin-water solution. The results show that the SP has good pumping performance. The flow behavior was studied in the most important areas of the pump using a stroboscopic planar helium-neon laser light. Amberlite plastic particles (80 mesh) were used in suspension in the solution and were illuminated by the laser light during the pumping process. Severa! in vitro hemolysis tests were performed using bovine blood, simulating two pump conditions: as left ventricular assist device and as cardiopulmonary bypass
Assuntos
Bombas de Fluxo Axial , Bombas Centrífugas , Fluxo Pulsátil , Hemólise , Velocidade do Fluxo Sanguíneo , Disfunção Ventricular Esquerda , Segurança de EquipamentosRESUMO
O comportamento fluidodinâmico e a vida útil média de uma prótese vaivular cardíaca sao características muito importantes na escolha do modelo de prótese a ser implantada em um determinado paciente. Por esse motivo, foi realizado um estudo comparativo entre as válvulas biológicas de perfil alto e baixo, para se verificarem possíveis alteraçoes na vida média, gradiente de pressao e refluxo, causadas pela diminuiçao do perfil dessas próteses. Com o auxilio de um duplicador de pulso, foram analisadas cinco próteses de perfil alto e cinco de perfil baixo, todas tamanho 29, fabricadas no Instituto Dante Pazzanese de Cardiologia (IDPC). Mantendo-se a freqüência de batimentos em 100 bpm e a diferença de pressao em 1000 mmHg, verificou-se que a vida útil média da válvula de perfil baixo permaneceu equivalente à de perfil alto. Em outro equipamento, denominado simulador cardíaco, as próteses foram submetidas a condiçoes semelhantes às condiçoes fisiológicas de funcionamento para uma freqüência cardíaca de 75 bpm. Os resultados mostraram que o volume de retorno necessário para fechamento (refluxo), nas válvulas de perfil baixo, é menor do que nas de perfil alto. Isso traz um melhor aproveitamento do efeito de bombeamento do coraçao. As perdas de carga das válvulas foram comparadas através dos gradientes máximos de pressao visibilizados com a sobreposiçao dos sinais de pressao. Observou-se que as válvulas de perfil baixo oferecem menos resistência ao fluxo; assim, quando sao implantadas, possibilitam uma passagem mais livre e desobstruída do sangue.
Assuntos
Humanos , Bioprótese , Próteses Valvulares Cardíacas , Bioprótese/instrumentação , Próteses Valvulares Cardíacas/instrumentaçãoRESUMO
Um programa de computaçäo foi desenvolvido para auxiliar no preparo e operaçäo da máquina de circulaçäo extracorpórea para cirurgia cardíaca. Utilizou-se um computador ITAUTEC I-700 (64 kbytes de memória RAM, duas unidades de disquete de 8", face simples, dupla densidade, compatível com CPM 2.2) e uma impressora matricial. O programa fornece o tipo de oxigenador, diâmetro dos tubos de PVC e de cânulas arterial e venosa, fluxo sistêmico de acordo com a temperatura, volume e composiçäo do perfusato e de adiçöes durante a circulaçäo extracorpórea. O volume de infusäo de soluçäo cardioplégica é tambem indicado. Esse programa de computaçäo é útil quando da montagem e operaçäo da máquina de circulaçäo extracorpórea e ajuda na obtençäo de resultados satisfatórios e reproduzíveis
Assuntos
Humanos , Software , Circulação ExtracorpóreaRESUMO
Trata-se de um método de preservaçäo do conjunto coraçäo-pulmäo isolado em condiçöes fisiológicas. Após abertura do tórax, é instituída a autoperfusäo ex-corpore, que se obtém pela canulaçäo do tronco braquicefálico e veia cava superior, conectando-se a um reservatório situado a 1 metro de altura, de tal maneira que, pela contraçäo ventricular esquerda, o sangue é impulsionado ao reservatório, retorna ao coraçäo direito e segue as vías normais, passando pelos pulmöes, onde é oxigenado. A seguir, sem qualquer interrupçäo dos batimentos e da avaliaçäo, o bloco é retirado do tórax e accondicionado no Recipiente para Conservaçäo e Transporte do Conjunto Cardiopulmonar à temperatura normal. Foram empregados 28 cäes, com peso entre 18 e 28 kg, tendo sido feito 8 preservaçöes, para se testar o método, e 10 preservaçöes, para transplante cardiopulmonar em 10 cäes receptores. Foram monitorizados, continuamente, eletrocardiograma, pressäo intraórtica, pressäo ventricular esquerda, DP/DT, índice tempo-tensäo e trabalho cardíaco que mostram valores estáveis e satisfatórios, tanto na fase de preservaçäo, quanto após o transplante. Os gases sangüíneos guardam relaçäo com as diferentes misturas administradas à ventilaçäo. A análise microscópica de fragmentos do músculo cardíaco e tecido pulmonar retirado ao final dos procedimentos näo revelou alteraçöes significativas decorrentes do método