Alterations of ultrastructures and anionic sites in basement membranes of myocardial cells and capillaries in patients with cyanotic congenital heart disease due to tetralogy of Fallot.

Electron microscopic cytochemical studies of the basement membranes of myocardial cells and capillaries were performed in 13 patients with tetralogy of Fallot who were divided into 2 groups. Group 1 included 7 patients in the early stage of the disease, ranging in age from 7 months to 5 years. Group 2 consisted of 6 patients in the far advanced stage of the disease, ranging in age from 30 to 46 years. The operatively excised infundibular muscles of the right ventricle were prepared for conventional electron microscopy and electron microscopic cytochemistry. The anionic sites in the basement membranes were characterized by cationic polyethyleneimine. The basement membrane ultrastructures of the myocardial cells and capillaries in the early stage of tetralogy of Fallot showed no apparent alterations with regular distribution of anionic sites, particularly in the external lamina of the basement membranes. In contrast, irregular thickening, wide splitting and lamination of the basement membranes of myocardial cells and capillaries, always associated with derangement and focal loss of anionic sites in the membranes were consistently observed in the far advanced stage of tetralogy of Fallot. The aforementioned results suggest that altered surface membrane integrity of myocardial cells and capillaries resulting from pathologic changes of the basement membranes are an important pathogenetic mechanism responsible for progressive degeneration of infundibular muscle cells and myocardial dysfunction in the course of tetralogy of Fallot.

[1]  B. Friedli,et al.  Factors affecting left ventricular function after correction of tetralogy of Fallot. , 1984, British heart journal.

[2]  R. Kavey,et al.  Right and left ventricular dysfunction and ventricular arrhythmias after repair of Tetralogy of Fallot , 1982 .

[3]  J. F. Keane,et al.  Left Ventricular Function After Repair of Tetralogy of Fallot and Its Relationship to Age at Surgery , 1980, Circulation.

[4]  J. Shakibi,et al.  The anatomic correlate of ventricular dysfunction in tetralogy of fallot. , 1979, Japanese heart journal.

[5]  I. Molenaar,et al.  The use of polyethyleneimine for demonstration of anionic sites in basement membranes and collagen fibrils. , 1978, Journal of Histochemistry and Cytochemistry.

[6]  G. Langer,et al.  The Myocardial Cell Surface, Its Histochemistry, and the Effect of Sialic Acid and Calcium Removal on Its Structure and Cellular Ionic Exchange , 1977, Circulation research.

[7]  V. Ferrans,et al.  Myocardial degeneration in congenital heart disease. Comparison of morphologic findings in young and old patients with congenital heart disease associated with muscular obstruction to right ventricular outflow. , 1977, American Journal of Cardiology.

[8]  I. Molenaar,et al.  Polyethyleneimine as tracer particle for (immuno) electron microscopy. , 1977, The journal of histochemistry and cytochemistry : official journal of the Histochemistry Society.

[9]  S. Kaplan,et al.  Response to Exercise in Patients after Total Surgical Correction of Tetralogy of Fallot , 1976, Circulation.

[10]  J. Jarmakani,et al.  Right Ventricular Function in Children with Tetralogy of Fallot before and after Aortic‐to‐Pulmonary Shunt , 1976, Circulation.

[11]  D. Gros,et al.  The coating of mouse myocardial cells. A cytochemical electron microscopical study. , 1975, The journal of histochemistry and cytochemistry : official journal of the Histochemistry Society.

[12]  A. Vliers,et al.  Cardiac function early after repair of tetralogy of Fallot. , 1975, The Journal of thoracic and cardiovascular surgery.

[13]  W. Roberts,et al.  Ultrastructure of Crista Supraventricularis Muscle in Patients With Congenital Heart Diseases Associated with Right Ventricular Outflow Tract Obstruction , 1975, Circulation.

[14]  A. Martínez-Palomo,et al.  SELECTIVE DEPOSITION OF LANTHANUM IN MAMMALIAN CARDIAC CELL MEMBRANES , 1973, The Journal of cell biology.

[15]  S. Epstein,et al.  Hemodynamic Abnormalities in Response to Mild and Intense Upright Exercise following Operative Correction of an Atrial Septal Defect or Tetralogy of Fallot , 1973, Circulation.

[16]  P. Jewett,et al.  Left Heart Function in Children with Tetralogy of Fallot before and after Palliative or Corrective Surgery , 1972, Circulation.

[17]  C. Higgins,et al.  Tetralogy of Fallot in the adult. , 1972, The American journal of cardiology.

[18]  T. Matsukawa,et al.  Morphological comparison of infundibular pulmonary stenosis and tetralogy of Fallot. , 1971, Japanese heart journal.

[19]  G. Langer,et al.  Specific Uncoupling of Excitation and Contraction in Mammalian Cardiac Tissue by Lanthanum , 1970, The Journal of general physiology.

[20]  V. Ferrans,et al.  A comparative histochemical and electron microscopic study of the surface coatings of cardiac muscle cells , 1970 .

[21]  T. Matsukawa,et al.  Morphological and Histochemical Observations on Right Ventricular Outflow Tract of Tetralogy of Fallot , 1969 .

[22]  T. Matsukawa,et al.  Morphological and histochemical observations on right ventricular outflow tract of tetralogy of Fallot. With a brief reference to hemdynamic viewpoint. I. , 1969, Japanese Heart Journal.

[23]  Muir Ar,et al.  The effects of divalent cations on the ultrastructure of the perfused rat heart. , 1967 .

[24]  A R Muir,et al.  The effects of divalent cations on the ultrastructure of the perfused rat heart. , 1967, Journal of anatomy.

[25]  L. D. Krymsky,et al.  Pathologic Anatomy of Congenital Heart Disease , 1965, Circulation.