ABSTRACT
A correção cirúrgica de algumas cardiopatias congênitas complexas envolve a reconstrução da via de saída do ventrículo direito com a interposição de homoenxertos, biopróteses, enxertos de jugular bovina ou outros condutos valvulados entre o ventrículo direito e o tronco da artéria pulmonar. Apesar de essas cirurgias poderem ser realizadas com baixa mortalidade, a vida útil das válvulas ou dos condutos implantados é normalmente pequena (< 10 anos), seja por degeneração e/ou calcificação. Graus variáveis de estenose pulmonar na maioria das vezes associada a insuficiência pulmonar são consequências da degeneração dos condutos. Em 2000, Bonhoeffer et al. foram os primeiros a relatar o implante transcateter de bioprótese valvular pulmonar (ITVP) com um dispositivo que posteriormente foi denominado de válvula Melody® (Medtronic, Minneapolis, Estados Unidos). A técnica foi inicialmente desenvolvida para limitar a necessidade de múltiplos procedimentos cirúrgicos, substituindo, em última análise, uma nova troca cirúrgica valvular. Estudos subsequentes na Europa e Estados Unidos atestaram para a segurança e eficácia dessa técnica em um número maior de pacientes. Como a Agência Nacional de Vigilância Sanitária (Anvisa) concedeu a aprovação para o uso clínico da válvula biológica pulmonar transcateter Melody® em fevereiro de 2013, consideramos necessária e oportuna a avaliação judiciosa da utilização dessa nova tecnologia antes que ela fosse aplicada em larga escala em nosso país. O objetivo deste estudo foi realizar uma revisão sistemática da literatura sobre o ITVP em pacientes com disfunções de homoenxertos, condutos valvulados e biopróteses implantados cirurgicamente na via de saída do ventrículo direito.
Surgical repair of some complex congenital heart diseases involves reconstruction of the right ventricular outflow tract using homografts, bioprostheses, bovine jugular grafts or other valved conduits between the right ventricle and the main pulmonary artery. Although these surgical procedures may be performed with low mortality rates, the life span of these implanted valves or conduits is usually short (< 10 years) due to either degeneration and/or calcification. Variable degrees of pulmonary stenosis, often associated with pulmonary insufficiency, are consequences of conduit degeneration. In 2000, Bonhoeffer et al. were the first to report the transcatheter pulmonary valve implantation (TPVI) of a bioprosthetic pulmonary valve later named Melody® valve (Medtronic, Minneapolis, USA). The technique was initially developed to limit the need for multiple surgical procedures, and, ultimately, to work as a surrogate of a new surgical valve replacement. Subsequent clinical studies in Europe and the United States confirmed the safety and efficacy of this technique in a larger number of patients. Since the National Sanitary Surveillance Agency (Agência Nacional de Vigilância Sanitária - Anvisa) granted approval for clinical use of the Melody® transcatheter pulmonary biological valve in February 2103, we deemed that a judicious assessment of this new technology was timely and necessary before the widespread use in our country. The objective of this study was to perform a systematic literature review on the use of TPVI in patients with dysfunctional homografts, valved conduits and bioprostheses implanted surgically in the right ventricular outflow tract.
Subject(s)
Humans , Cardiac Catheterization/methods , Prostheses and Implants , Heart Valve Prosthesis , Pulmonary Valve/surgery , Heart Defects, Congenital/surgery , Review Literature as TopicABSTRACT
We report a case in which the Amplatzer device for percutaneous occlusion of ductus arteriosus was successfully used for occluding a large systemic-pulmonary collateral vessel in a patient who had previously undergone surgery for correction of pulmonary atresia and ventricular septal defect (Rastelli technique), and was awaiting the change of a cardiac tube. In the first attempt, the device embolized to the distal pulmonary bed and, after being rescued with a Bitome, it was appropriately repositioned with no complications and with total occlusion of the vessel
Subject(s)
Humans , Male , Adolescent , Prostheses and Implants , Balloon Occlusion , Ductus Arteriosus, Patent , Pulmonary ArteryABSTRACT
Ebstein's anomaly is an uncommon congenital heart defect, with a prevalence of 0.3-0.5 percent. Its association with an imperforate tricuspid valve is an even more rare situation (less than 10 percent of cases). Prenatal diagnosis of this association by means of fetal echocardiography has not been reported. We describe here this association diagnosed before birth and confirmed after birth. The diagnostic potential and importance of fetal echocardiography during prenatal evaluation of cardiac malformations allows for adequate perinatal planning and management, with an obvious impact on morbidity and mortality