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Morphological correlates of atrial development

Published online by Cambridge University Press:  21 January 2005

Robert H. Anderson
Affiliation:
Cardiac Unit, Institute of Child Health, University College London, UK
Sandra Webb
Affiliation:
Cardiac Unit, Institute of Child Health, University College London, UK Department of Anatomy and Developmental Biology, St George's Hospital Medical School, London, UK
Antoon F.M. Moorman
Affiliation:
Department of Anatomy and Embryology, Academic Medical Centre, University of Amsterdam, Amsterdam, The Netherlands
Nigel A. Brown
Affiliation:
Department of Anatomy and Developmental Biology, St George's Hospital Medical School, London, UK

Abstract

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Type
John Keith Lecture
Copyright
© 2004 Cambridge University Press

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Footnotes

Delivered as the John Keith Lecture at the 19th meeting of the Canadian Cardiovascular Society, Toronto, October 2003.

References

Keith JD, Rowe RD, Vlad P. Heart Disease in Infancy and Childhood. Macmillan, New York, 1978.
Freedom RM. The Paediatric Cardiology Hall of Fame. Richard Desmond Rowe MD, MBChB. February 10, 1923 to January 18, 1988. Cardiol Young 1999; 9: 224227.Google Scholar
Becker AE, Anderson RH. Cardiac embryology: a help or hindrance in understanding congenital heart disease? In: Nora JJ, Takao A (eds). Congenital Heart Disease: Causes and Processes. Futura Publishing Co., Mount Kisco, New York, 1984, pp 339358.
Anderson RH, Wilkinson JL, Arnold R, Lubkiewicz K. Morphogenesis of bulboventricular malformations. 1: Consideration of embryogenesis in the normal heart. Br Heart J 1974; 36: 242255.Google Scholar
Moorman A, Webb S, Brown NA, Lamers W, Anderson RH. Development of the heart: (1) Formation of the cardiac chambers and arterial trunks. Heart 2003; 89: 806814.Google Scholar
Franco D, Kelly R, Moorman AFM, Lamers WH, Buckingham M, Brown NA. MLC3F transgene expression in iv mutant mice reveals the importance of left–right signalling pathways for the acquisition of left and right atrial but not ventricular compartment identity. Dev Dynam 2001; 221: 206215.Google Scholar
Kelly RG, Brown NA, Buckingham ME. The arterial pole of the mouse heart forms from Fgf10-expressing cells in pharyngeal mesoderm. Dev Cell 2001; 1: 435440.Google Scholar
Waldo KL, Kumisiki DH, Wallis KT, et al. Conotruncal myocardium arises from a secondary heart field. Development 2001; 128: 31793188.Google Scholar
Mjaatvedt CH, Nakaoka T, Moreno-Rodriquez R, et al. The outflow tract of the heart is recruited from a novel heart-forming field. Dev Biol 2001; 238: 97109.Google Scholar
Cai CL, Liang X, Shi Y, et al. Isl1 identifies a cardiac progenitor population that proliferates prior to differentiation and contributes a majority of cells to the heart. Dev Cell 2003; 5: 877889.Google Scholar
Webb S, Qayuum SR, Anderson RH, Lamers WH, Richardson MK. Septation and separation within the outflow tract of the developing heart. J Anat 2003; 202: 327342.Google Scholar
Anderson RH, Becker AE. Cardiac Anatomy – An Integrated Text and Colour Atlas. Gower – Churchill Livingstone, London, Edinburgh, Chapter 10, 1980.
Brown NA, Anderson RH. Symmetry and laterality in the human heart: developmental implications. In: Harvey RP, Rosenthal N (eds). Heart Development. Academic Press, New York, 1999, pp 447461.
Auer J. The development of the human pulmonary vein and its major variations. Anat Rec 1948; 101: 581594.Google Scholar
Webb S, Brown NA, Wessels A, Anderson RH. Development of the murine pulmonary vein and its relationship to the embryonic venous sinus. Anat Rec 1998; 250: 325334.Google Scholar
Blom NA, Gittenberger-de Groot AC, Jongeneel TH, DeRuiter MC, Poelmann RE, Ottenkamp J. Normal development of the pulmonary veins in human embryos and formulation of a morphogenetic concept for sinus venosus defects. Am J Cardiol 2001; 87: 305309.Google Scholar
Wilcox BR, Anderson RH. Surgical anatomy of the heart. In: The Morphologically Right and Left Atriums, 2nd edn. Gower Medical Publishing, London, 1992, pp 2.62.12.
Moorman AFN, Christoffels VM. Cardiac chamber formation: development, genes, and evolution. Physiol Rev 2003; 83: 12231267.Google Scholar
Uemura H, Ho SY, Devine WA, Kilpatrick LL, Anderson RH. Atrial appendages and venoatrial connections in hearts with patients with visceral heterotaxy. Ann Thorac Surg 1995; 60: 561569.Google Scholar
Wessels A, Markman MWM, Vermeulen JLM, Anderson RH, Moorman AFM, Lamers WH. The development of the atrioventricular junction in the human heart. Circ Res 1996; 78: 110117.Google Scholar
Ho SY, Sanchez-Quintana D, Cabrera JA, Anderson RH. Ana-tomy of the left atrium: implications for radiofrequency ablation of atrial fibrillation. J Cardiovasc Electrophysiol 1999; 10: 15251533.Google Scholar
Webb S, Kanani M, Anderson RH, Richardson MK, Brown NA. Development of the human pulmonary vein and its incorporation in the morphologically left atrium. Cardiol Young 2001; 11: 632642.Google Scholar
Shah DC, Haissaguerre M, Jais P. Catheter ablation of pulmonary vein foci for atrial fibrillation. PV foci ablation for atrial fibrillation. Thorac Cardiovasc Surg 1999; 47 (Suppl 3): 352356.Google Scholar
Perez-Lugones A, McMahon JT, Ratliff NB, et al. Evidence of specialized conduction cells in human pulmonary veins of patients with atrial fibrillation. J Cardiovasc Electrophysiol 2003; 14: 803809.Google Scholar
Anderson RH, Ho SY. The morphology of the cardiac conduction system. In: Chadwick DJ, Goode J (eds). Novartis Foundation Symposium 250. Development of the Cardiac Conduction System. John Wiley & Sons Ltd., Chichester, 2003, pp 617.
Moorman AFM, Soufan AT, Hagport J, de Boer PAJ, Christoffels VM. Development of the building plan of the heart. Ann NY Acad Sci 2004; In press.Google Scholar
His W. Die Area Interposita, die Eustachi’sche Klappe und die Spina vestibuli. Anatomie Menslicher Embryonen. Verlag von F.C.W. Vogel, Leipzig, 1880, pp 149152.
Asami I, Koizumi K. Development of the atrial septal complex in the human heart: contribution of the spina vestibuli. In: Clark EB, Makwald RR, Takao A (eds). Developmental Mechanisms of Heart Disease. Futura Publishing Co. Inc., Armonk, New York, 1995, pp 255260.
Tasaka H, Krug EL, Markwald RR. Origin of the pulmonary venous orifice in the mouse and its relationship to the morphogenesis of the sinus venosus, extracardiac mesenchyme (spina vestibuli) and atrium. Anat Rec 1996; 246: 107113.Google Scholar
Webb S, Brown NA, Anderson RH. Formation of the atrioventricular septal structures in the normal mouse. Circ Res 1998; 82: 645656.Google Scholar
Kruithof BPT, van den Hoff MJB, Tesink-Taekema S, Moorman AFM. Recruitment of intra- and extra cardiac cells into the myocardial lineage during mouse development. Anat Rec 2003; 271A: 303314.Google Scholar
Sharratt GP, Webb S, Anderson RH. The vestibular defect: an interatrial communication due to a deficiency in the atrial septal component derived from the vestibular spine. Cardiol Young 2003; 13: 184190.Google Scholar
Anderson RH, Webb S, Brown NA. Clinical anatomy of the atrial septum with reference to its developmental components. Clin Anat 1999; 12: 362374.Google Scholar
Al Zaghal AM, Li J, Anderson RH, Lincoln C, Shore D, Rigby ML. Anatomical criteria for the diagnosis of sinus venosus defects. Heart 1997; 78: 298304.Google Scholar
Knauth A, McCarthy KP, Webb S, et al. Interatrial communication through the mouth of the coronary sinus. Cardiol Young 2002; 12: 364372.Google Scholar
Raghib G, Ruttenberg HD, Anderson RC, Amplatz K, Adams P, Edwards JE. Termination of the left superior vena cava in left atrium, atrial septal defect and absence of coronary sinus. Circulation 1965; 31: 906918.Google Scholar
Chauvin M, Shah DC, Haissaguerre M, Marcellin L, Brechenmacher C. The anatomic basis of connection between the coronary sinus musculature and the left atrium in humans. Circulation 2000; 101: 647652.Google Scholar
Rose AG, Beckman CB, Edwards JE. Communication between the coronary sinus and the left atrium. Br Heart J 1974; 36: 182185.Google Scholar
Wakai CS, Edwards JE. Developmental and pathologic considerations in persistent common atrioventricular canal. Proc Staff Meet Mayo Clin 1956; 31: 487500.Google Scholar
Van Mierop LHS, Alley RD, Kausel HW, Stranahan A. The anatomy and embryology of endocardial cushion defects. J Thorac Cardiovasc Surg 1962; 43: 7183.Google Scholar
Falcao S, Daliento L, Ho SY, Rigby ML, Anderson RH. Cross sectional echocardiographic assessment of the extent of the atrial septum relative to the atrioventricular junction in atrioventricular septal defect. Heart 1999; 81: 199205.Google Scholar
Silverman NH, Ho SY, Anderson RH, Smith A, Wilkinson JL. Atrioventricular septal defect with intact atrial and ventricular septal structures. Int J Cardiol 1984; 5: 567572.Google Scholar
Ho SY, Russell G, Gerlis LM. Atrioventricular septal defect with intact septal structures in a 74-year-old. Int J Cardiol 1990; 26: 371373.Google Scholar
Webb S, Anderson RH, Brown NA. Endocardial cushion development and heart loop architecture in the trisomy 16 mouse. Dev Dyn 1996; 206: 301309.Google Scholar
Liu C, Liu W, Palie J, Lu MF, Brown NA, Martin JF. Pitx2c patterns anterior myocardium and aortic arch vessels and is required for local cell movement into atrioventricular cushions. Development 2002; 129: 50815091.Google Scholar
Webb S, Anderson RH, Lamers WH, Brown NA. Mechanics of deficient cardiac septation in the mouse with trisomy 16. Circ Res 1999; 84: 897905.Google Scholar
Van Praagh R, Van Praagh S. Atrial isomerism in the heterotaxy syndromes with asplenia, or polysplenia, or normally formed spleen: an erroneous concept. Am J Cardiol 1990; 66: 15041506.Google Scholar
Uemura H, Ho SY, Devine WA, Anderson RH. Analysis of visceral heterotaxy according to splenic status, appendage morphology, or both. Am J Cardiol 1995; 76: 846849.Google Scholar
Landing BH, Lawrence TK, Payne VC, Wells TR. Bronchial anatomy in syndromes with abnormal visceral situs, abnormal spleen and congenital heart disease. Am J Cardiol 1971; 12: 456462.Google Scholar
Anderson RH, Webb S, Brown NA. Defective lateralisation in children with congenitally malformed hearts. Cardiol Young 1998; 8: 512531.Google Scholar