Avaliação dos mecanismos adaptativos do miocárdio durante sobrecarga de pressão induzida com o uso de bandagem do tronco pulmonar: participação da proliferação celular / Assessment of myocardial adaptive mechanisms during pressure overload induced by pulmonary artery banding: contribution of cell proliferation

AUTOR(ES)
DATA DE PUBLICAÇÃO

2006

RESUMO

INTRODUCTION: Rapid ventricular conditioning induced by pulmonary artery banding (PAB) has been indicated to those patients with transposition of the great arteries (TGA) who have lost the chance for arterial switch operation ? Jatene?s procedure ? aiming at induce myocardial mass increase. However, with time, hypertrophied chamber may exhibit contractile dysfunction, so that, it is important to assess quality of the prepared tissue, once it is of knowledge that both cardiomyocytes (CMC) and interstitial/vessel (I/V) cells are capable of proliferating after neonatal period. Based on fitness of athletes and considering that cardiac and skeletal muscles are both striated, there is the hypothesis that the type of ventricular prepare may influence the characteristics of the training myocardium. OBJECTIVES: Through CMC and I/V cells analysis, identifies the type of adaptive mechanism (hypertrophy/ hyperplasia) involved in rapid prepare of subpulmonary ventricle submitted to pressure overload by PAB, and verifies if there are differences in relation to the kind of training (continuous x intermittent), comparing them to the controls. METHODS: Twenty-one goats, beyond neonatal period, were experimentally studied. They were divided in three groups: C (control group, n = 7, with no surgical procedure); CS (continuous stimulation group, n = 7, with progressive and permanent PAB, during 96 hours); IS (intermittent stimulation group, n = 7, with progressive PAB, 12 hours/day, totalizing 48 hours). All the animals were submitted to basal echocardiograms and those from CS and IS groups to diary echocardiograms to verify right ventricular (RV) muscular mass acquisition. After the study, goats were killed, hearts excised and histological sections from RV, left ventricle (LV) and ventricular septum (VS) were formalin fixed and histologically processed. Collagen area fraction (through Picro-sirius red staining), CMC and respective nuclei diameter, and number of CMC and I/V cells Ki-67 positive were studied. Marked cells were analysed per high-power fields and by index (Ki-67 positive cells/2000 cells). The statistical significant level was set at 5%. RESULTS: Both stimulated groups presented significant RV muscular mass increase (p <0.05). There were no augmentation in RV collagen area fraction in training groups (p = 0.403). Considering the RV, CS and IS groups showed an increase in CMC diameter compared to the control group (p <0.01), occurring the same to respective nuclei (EI x C: p <0.001 e EC x C: p = 0.005). Number of CMC marked with Ki-67 was greater in RV from stimulated groups in relation to LV (p = 0.009, proliferation index; p = 0.001, number/high-power fields); the same occurred to I/V cells (proliferation index and number/high-power fields: p <0.001). CONCLUSIONS: Both cell hypertrophy and hyperplasia are involved in adaptation of the pulmonary ventricle submitted to pressure overload through PAB. Both types of conditioning (continuous and intermittent) caused CMC hypertrophy and hyperplasia, besides induced I/V cells mitosis, without interstitial collagen deposition at the end of experiment.

ASSUNTO(S)

proliferação de células transposição dos grandes vasos thoracic surgery right ventricular hypertrophy ki-67 antigen cardiopatias congênitas cell proliferation hipertrofia ventricular direita transposition of great vessels congenital heart defects antígeno ki-67 cirurgia torácica

ACESSO AO ARTIGO

Documentos Relacionados