Hostname: page-component-78c5997874-fbnjt Total loading time: 0 Render date: 2024-11-02T18:49:13.453Z Has data issue: false hasContentIssue false
  • English
  • Français

The myocardial and coronary histopathology and pathogenesis of hypoplastic left heart syndrome

Published online by Cambridge University Press:  08 July 2015

Charles R. Cole  and
Pirooz Eghtesady
Charles R. Cole
Affiliation:
University of Cincinnati, Cincinnati, Ohio, United States of America
Pirooz Eghtesady*
Affiliation:
Washington University in St. Louis, St. Louis, Missouri, United States of America
*
Correspondence to: P. Eghtesady MD, PhD, Division of Pediatric Cardiothoracic Surgery, Washington University School of Medicine, Campus Box 8234, St. Louis, MO 63110, United States of America. Tel: +314 454 6165; Fax: +314 454 2381; E-mail: [email protected]
Get access Rights & Permissions [Opens in a new window]

Abstract

Hypoplastic left heart syndrome has the greatest mortality rate among all CHDs and without palliation is uniformly fatal. Despite noble efforts, the aetiology of this syndrome is unknown and a cure remains elusive. The genetic and anatomic heterogeneity of hypoplastic left heart syndrome supports a rethinking of old hypotheses and warrants further investigation into the histological and vascular variations recognised with this syndrome. In an effort to elucidate the pathogenesis of hypoplastic left heart syndrome, this review will focus on its unique myocardial and coronary pathology as well as evaluate the association of hypoplastic left heart syndrome with the endocardial fibroelastosis reaction.

Keywords

Hypoplastic left heart syndromeendocardial fibroelastosiscoronary arteriesmyocardial morphologyCHD
Type
Review Articles
Information
Cardiology in the Young , Volume 26 , Issue 1 , January 2016 , pp. 19 - 29
Check for updates
Copyright
© Cambridge University Press 2015 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

1. Rosamond, W, Flegal, K, Furie, K, et al. Heart disease and stroke statistics–2008 update: a report from the American Heart Association Statistics Committee and Stroke Statistics Subcommittee. Circulation 2008; 117: e25e146.Google Scholar
2. Barron, DJ, Kilby, MD, Davies, B, Wright, JG, Jones, TJ, Brawn, WJ. Hypoplastic left heart syndrome. Lancet 2009; 374: 551564.Google Scholar
3. Sedmera, D, Cook, AC, Shirali, G, McQuinn, TC. Current issues and perspectives in hypoplasia of the left heart. Cardiol Young 2005; 15: 5672.Google Scholar
4. Sinha, SN, Rusnak, SL, Sommers, HM, Cole, RB, Muster, AJ, Paul, MH. Hypoplastic left ventricle syndrome. Analysis of thirty autopsy cases in infants with surgical considerations. Am J Cardiol 1968; 21: 166173.Google Scholar
5. Tweddell, JS, Hoffman, GM, et al. Hypoplastic left heart syndrome. In: Allen HD, Driscoll DJ, Shaddy, Robert E, Feltes, Timothy F (eds). Moss and Adams’ Heart Disease in Infants, Children and Adolescents. Lippincott Williams and Wilkins, October 16, 2007: 10051038.Google Scholar
6. Szumilo, J, Skomra, D, Swatek, J, Korobowicz, E. Hypoplastic left heart syndrome: morphological study of 21 autopsy cases. Ann Univ Mariae Curie Sklodowska Med 2002; 57: 278284.Google Scholar
7. Bharati, S, Lev, M. The surgical anatomy of hypoplasia of aortic tract complex. J Thorac Cardiovasc Surg 1984; 88: 97101.Google Scholar
8. Bulkley, BH, Weisfeldt, ML, Hutchins, GM. Asymmetric septal hypertrophy and myocardial fiber disarray. Features of normal, developing, and malformed hearts. Circulation 1977; 56: 292298.Google Scholar
9. Bulkley, BH, D’Amico, B, Taylor, AL. Extensive myocardial fiber disarray in aortic and pulmonary atresia. Relevance to hypertrophic cardiomyopathy. Circulation 1983; 67: 191198.Google Scholar
10. Jones, M, Ferrans, VJ, Morrow, AG, Roberts, WC. Ultrastructure of crista supraventricularis muscle in patients with congenital heart diseases associated with right ventricular outflow tract obstruction. Circulation 1975; 51: 3967.Google Scholar
11. O’Connor, WN, Cash, JB, Cottrill, CM, Johnson, GL, Noonan, JA. Ventriculocoronary connections in hypoplastic left hearts: an autopsy microscopic study. Circulation 1982; 66: 10781086.Google Scholar
12. Mahle, WT, Spray, TL, Wernovsky, G, Gaynor, JW, Clark, BJ 3rd. Survival after reconstructive surgery for hypoplastic left heart syndrome: a 15-year experience from a single institution. Circulation 2000; 102: III136III141.Google Scholar
13. Tweddell, JS, Hoffman, GM, Mussatto, KA, et al. Improved survival of patients undergoing palliation of hypoplastic left heart syndrome: lessons learned from 115 consecutive patients. Circulation 2002; 106: I82I89.Google Scholar
14. Hawkins, JA, Clark, EB, Doty, DB. Morphologic characteristics of aortic atresia: implications for fetal hemodynamics. Int J Cardiol 1986; 10: 127132.Google Scholar
15. Von Rueden, TJ, Knight, L, Moller, JH, Ewards, JE. Coarctation of the aorta associated with aortic valvular atresia. Circulation 1975; 52: 951954.Google Scholar
16. Bohlmeyer, TJ, Helmke, S, Ge, S, et al. Hypoplastic left heart syndrome myocytes are differentiated but possess a unique phenotype. Cardiovasc Pathol 2003; 12: 2331.Google Scholar
17. Bulkley, BH, Weisfeldt, ML, Hutchins, GM. Isometric cardiac contraction. A possible cause of the disorganized myocardial pattern of idiopathic hypertrophic subaortic stenosis. N Engl J Med 1977; 296: 135139.Google Scholar
18. deAlmeida, A, McQuinn, T, Sedmera, D. Increased ventricular preload is compensated by myocyte proliferation in normal and hypoplastic fetal chick left ventricle. Circ Res 2007; 100: 13631370.Google Scholar
19. Grossfeld, P. Hypoplastic left heart syndrome: new insights. Circ Res 2007; 100: 12461248.Google Scholar
20. Lurie, PR. Changing concepts of endocardial fibroelastosis. Cardiol Young 2010; 20: 115123.Google Scholar
21. Neustein, HB, Lurie, PR, Fugita, M. Endocardial fibroelastosis found on transvascular endomyocardial biospsy in children. Arch Pathol Lab Med 1979; 103: 214219.Google Scholar
22. Black-Schaffer, B. Infantile endocardial fibroelastosis; a suggested etiology. AMA Arch Pathol 1957; 63: 281306.Google Scholar
23. Noonan, JA, Nadas, AS. The hypoplastic left heart syndrome; an analysis of 101 cases. Pediatr Clin North Am 1958; 5: 10291056.Google Scholar
24. Ni, J, Bowles, NE, Kim, YH, et al. Viral infection of the myocardium in endocardial fibroelastosis. Molecular evidence for the role of mumps virus as an etiologic agent. Circulation 1997; 95: 133139.Google Scholar
25. Eghtesady, P, Michelfelder, E, Altaye, M, Ballard, E, Hirsh, R, Beekman, RH 3rd. Revisiting animal models of aortic stenosis in the early gestation fetus. Ann Thorac Surg 2007; 83: 631639.Google Scholar
26. McElhinney, DB, Vogel, M, Benson, CB, et al. Assessment of left ventricular endocardial fibroelastosis in fetuses with aortic stenosis and evolving hypoplastic left heart syndrome. Am J Cardiol 2010; 106: 17921797.Google Scholar
27. Mavroudis, C, Backer, CL, Rocchini, AP, Muster, AJ, Gevitz, M. Coronary artery fistulas in infants and children: a surgical review and discussion of coil embolization. Ann Thorac Surg 1997; 63: 12351242.Google Scholar
28. Baffa, JM, Chen, SL, Guttenberg, ME, Norwood, WI, Weinberg, PM. Coronary artery abnormalities and right ventricular histology in hypoplastic left heart syndrome. J Am Coll Cardiol 1992; 20: 350358.Google Scholar
29. Sauer, U, Gittenberger-de Groot, AC, Geishauser, M, Babic, R, Buhlmeyer, K. Coronary arteries in the hypoplastic left heart syndrome. Histopathologic and histometrical studies and implications for surgery. Circulation 1989; 80: I168I176.Google Scholar
30. O’Connor, WN, Stahr, BJ, Cottrill, CM, Todd, EP, Noonan, JA. Ventriculocoronary connections in hypoplastic right heart syndrome: autopsy serial section study of six cases. J Am Coll Cardiol 1988; 11: 10611072.Google Scholar
31. Beckman, CB, Moller, JH, Edwards, JE. Alternate pathways to pulmonary venous flow in left-sided obstructive anomalies. Circulation 1975; 52: 509516.Google Scholar
32. Freedom, RM, Culham, JA, Moes, CA, Harrington, DP. Selective aortic root angiography in the hypoplastic left heart syndrome. Eur J Cardiol 1976; 4: 2529.Google Scholar
33. Lloyd, TR, Evans, TC, Marvin, WJ Jr. Morphologic determinants of coronary blood flow in the hypoplastic left heart syndrome. Am Heart J 1986; 112: 666671.Google Scholar
34. DeRose, JJ Jr, Corda, R, Dische, MR, Eleazar, J, Mosca, RS. Isolated left ventricular ischemia after the Norwood procedure. Ann Thorac Surg 2002; 73: 657659.Google Scholar
35. Malec, E, Mroczek, T, Pajak, J, Zajac, A, Kolcz, J, Januszewska, K. Hypoplastic left heart syndrome with an anomalous origin of the left coronary artery. Ann Thorac Surg 2001; 72: 21292130.Google Scholar
36. Sarris, GE, Drummond-Webb, JJ, Ebeid, MR, Latson, LA, Mee, RB. Anomalous origin of left coronary from right pulmonary artery in hypoplastic left heart syndrome. Ann Thorac Surg 1997; 64: 836838.Google Scholar
37. Saroli, T, Gelehrter, S, Gomez-Fifer, CA, van der Velde, ME, Bove, EL, Ensing, GJ. Anomalies of left coronary artery origin affecting surgical repair of hypoplastic left heart syndrome and shone complex. Echocardiography 2008; 25: 727731.Google Scholar
38. Nosal, M, Omeje, IC, Poruban, R. Hypoplastic left heart syndrome with anomalous origin of left coronary artery from the right pulmonary artery: successful surgical treatment in a neonate. Eur J Cardiothorac Surg 2005; 28: 497498.Google Scholar
39. Bartram, U, Grunenfelder, J, Van Praagh, R. Causes of death after the modified Norwood procedure: a study of 122 postmortem cases. Ann Thorac Surg 1997; 64: 17951802.Google Scholar
40. Villa, E, Brancaccio, G, Carotti, A, Francalanci, P, Di Donato, RM. Circumflex coronary artery from right pulmonary artery in hypoplastic left heart syndrome. Ann Thorac Surg 2005; 80: 19191920.Google Scholar
41. Ito, T, Niino, M, Ishikawa, J, et al. Hypoplastic left heart syndrome with a single coronary artery originating from the pulmonary artery. Acta Paediatr Jpn 1995; 37: 6163.Google Scholar
42. Cheatham, JP, Ruyle, NA, McManus, BM, Gammel, GE. Origin of the right coronary artery from the descending thoracic aorta: angiographic diagnosis and unique coronary artery anatomy at autopsy. Cathet Cardiovasc Diagn 1987; 13: 321324.Google Scholar
43. Raghib, G, Bloemendaal, RD, Kanjuh, VI, Edwards, JE. Aortic atresia and premature closure of foramen ovale. Myocardial sinusoids and coronary arteriovenous fistula serving as outflow channel. Am Heart J 1965; 70: 476480.Google Scholar
44. Paladini, D, Caruso, G, Sglavo, G, Lapadula, C, Parisi, G, Martinelli, P. Hypoplastic left heart syndrome associated with left ventricle-coronary artery-pulmonary artery fistula: prenatal diagnosis and histological correlation. Ultrasound Obstet Gynecol 2005; 26: 7880.Google Scholar
45. Salih, C, Sheppard, MN, Ho, SY. Morphometry of coronary capillaries in hypoplastic left heart syndrome. Ann Thorac Surg 2004; 77: 903907; discussion 907.Google Scholar
46. Rakusan, K, Flanagan, MF, Geva, T, Southern, J, Van Praagh, R. Morphometry of human coronary capillaries during normal growth and the effect of age in left ventricular pressure-overload hypertrophy. Circulation 1992; 86: 3846.Google Scholar
47. Jacobs, ML. Invited commentary. Ann Thorac Surg 2004; 77: 907.Google Scholar
48. DeLisser, HM, Christofidou-Solomidou, M, Strieter, RM, et al. Involvement of endothelial PECAM-1/CD31 in angiogenesis. Am J Pathol 1997; 151: 671677.Google Scholar
49. Chen, Z, Rubin, J, Tzima, E. Role of PECAM-1 in arteriogenesis and specification of preexisting collaterals. Circ Res 2010; 107: 13551363.Google Scholar
50. Grossfeld, P, Ye, M, Harvey, R. Hypoplastic left heart syndrome: new genetic insights. J Am Coll Cardiol 2009; 53: 10721074.Google Scholar
51. Grossfeld, PD. Hypoplastic left heart syndrome: it is all in the genes. J Am Coll Cardiol 2007; 50: 15961597.Google Scholar
52. Allan, LD, Sharland, G, Tynan, MJ. The natural history of the hypoplastic left heart syndrome. Int J Cardiol 1989; 25: 341343.Google Scholar
53. Carvalho, JS. Early prenatal diagnosis of major congenital heart defects. Curr Opin Obstet Gynecol 2001; 13: 155159.Google Scholar
54. Anderson, NG, Brown, J. Normal size left ventricle on antenatal scan in lethal hypoplastic left heart syndrome. Pediatr Radiol 1991; 21: 436437.Google Scholar
55. Makikallio, K, McElhinney, DB, Levine, JC, et al. Fetal aortic valve stenosis and the evolution of hypoplastic left heart syndrome: patient selection for fetal intervention. Circulation 2006; 113: 14011405.Google Scholar
56. Tworetzky, W, Wilkins-Haug, L, Jennings, RW, et al. Balloon dilation of severe aortic stenosis in the fetus: potential for prevention of hypoplastic left heart syndrome: candidate selection, technique, and results of successful intervention. Circulation 2004; 110: 21252131.Google Scholar
57. Eghtesady, P. Hypoplastic left heart syndrome: rheumatic heart disease of the fetus? Med Hypotheses 2006; 66: 554565.Google Scholar
58. Oyer, CE, Ongcapin, EH, Ni, J, Bowles, NE, Towbin, JA. Fatal intrauterine adenoviral endomyocarditis with aortic and pulmonary valve stenosis: diagnosis by polymerase chain reaction. Hum Pathol 2000; 31: 14331435.Google Scholar
59. Hor, KN, Border, WL, Cripe, LH, Benson, DW, Hinton, RB. The presence of bicuspid aortic valve does not predict ventricular septal defect type. Am J Med Genet A 2008; 146A: 32023205.Google Scholar
60. Hinton, RB Jr, Martin, LJ, Tabangin, ME, Mazwi, ML, Cripe, LH, Benson, DW. Hypoplastic left heart syndrome is heritable. J Am Coll Cardiol 2007; 50: 15901595.Google Scholar
61. Dai, YS, Cserjesi, P, Markham, BE, Molkentin, JD. The transcription factors GATA4 and dHAND physically interact to synergistically activate cardiac gene expression through a p300-dependent mechanism. J Biol Chem 2002; 277: 2439024398.Google Scholar
62. Hinton, RB, Martin, LJ, Rame-Gowda, S, Tabangin, ME, Cripe, LH, Benson, DW. Hypoplastic left heart syndrome links to chromosomes 10q and 6q and is genetically related to bicuspid aortic valve. J Am Coll Cardiol 2009; 53: 10651071.Google Scholar
63. Tikkanen, J, Heinonen, OP. Risk factors for hypoplastic left heart syndrome. Teratology 1994; 50: 112117.Google Scholar
64. Kuehl, KS, Loffredo, CA. A cluster of hypoplastic left heart malformation in Baltimore, Maryland. Pediatr Cardiol 2006; 27: 2531.Google Scholar
65. Eghtesady, P, Brar, A, Hall, M. Seasonality of hypoplastic left heart syndrome in the United States: a 10-year time-series analysis. J Thorac Cardiovasc Surg 2011; 141: 432438.Google Scholar
66. Cunningham, MW. Autoimmunity and molecular mimicry in the pathogenesis of post-streptococcal heart disease. Front Biosci 2003; 8: s533s543.Google Scholar
67. Cole, CR, Yutzey, KE, Brar, AK, et al. Congenital heart disease linked to maternal autoimmunity against cardiac myosin. J Immunol 2014; 192: 40744082.Google Scholar