BACKGROUND: Classification of the overall spectrum of congenital heart defects (CHD) has always been challenging, in part because of the diversity of the cardiac phenotypes, but also because of the oft-complex associations. The purpose of our study was to establish a comprehensive and easy-to-use classification of CHD for clinical and epidemiological studies based on the long list of the International Paediatric and Congenital Cardiac Code (IPCCC). METHODS: We coded each individual malformation using six-digit codes from the long list of IPCCC. We then regrouped all lesions into 10 categories and 23 subcategories according to a multi-dimensional approach encompassing anatomic, diagnostic and therapeutic criteria. This anatomic and clinical classification of congenital heart disease (ACC-CHD) was then applied to data acquired from a population-based cohort of patients with CHD in France, made up of 2867 cases (82% live births, 1.8% stillbirths and 16.2% pregnancy terminations). RESULTS: The majority of cases (79.5%) could be identified with a single IPCCC code. The category "Heterotaxy, including isomerism and mirror-imagery" was the only one that typically required more than one code for identification of cases. The two largest categories were "ventricular septal defects" (52%) and "anomalies of the outflow tracts and arterial valves" (20% of cases). CONCLUSION: Our proposed classification is not new, but rather a regrouping of the known spectrum of CHD into a manageable number of categories based on anatomic and clinical criteria. The classification is designed to use the code numbers of the long list of IPCCC but can accommodate ICD-10 codes. Its exhaustiveness, simplicity, and anatomic basis make it useful for clinical and epidemiologic studies, including those aimed at assessment of risk factors and outcomes.
BACKGROUND: Classification of the overall spectrum of congenital heart defects (CHD) has always been challenging, in part because of the diversity of the cardiac phenotypes, but also because of the oft-complex associations. The purpose of our study was to establish a comprehensive and easy-to-use classification of CHD for clinical and epidemiological studies based on the long list of the International Paediatric and Congenital Cardiac Code (IPCCC). METHODS: We coded each individual malformation using six-digit codes from the long list of IPCCC. We then regrouped all lesions into 10 categories and 23 subcategories according to a multi-dimensional approach encompassing anatomic, diagnostic and therapeutic criteria. This anatomic and clinical classification of congenital heart disease (ACC-CHD) was then applied to data acquired from a population-based cohort of patients with CHD in France, made up of 2867 cases (82% live births, 1.8% stillbirths and 16.2% pregnancy terminations). RESULTS: The majority of cases (79.5%) could be identified with a single IPCCC code. The category "Heterotaxy, including isomerism and mirror-imagery" was the only one that typically required more than one code for identification of cases. The two largest categories were "ventricular septal defects" (52%) and "anomalies of the outflow tracts and arterial valves" (20% of cases). CONCLUSION: Our proposed classification is not new, but rather a regrouping of the known spectrum of CHD into a manageable number of categories based on anatomic and clinical criteria. The classification is designed to use the code numbers of the long list of IPCCC but can accommodate ICD-10 codes. Its exhaustiveness, simplicity, and anatomic basis make it useful for clinical and epidemiologic studies, including those aimed at assessment of risk factors and outcomes.
Authors: F Lacour-Gayet; D Clarke; J Jacobs; J Comas; S Daebritz; W Daenen; W Gaynor; L Hamilton; M Jacobs; B Maruszsewski; M Pozzi; T Spray; G Stellin; C Tchervenkov; C Mavroudis And Journal: Eur J Cardiothorac Surg Date: 2004-06 Impact factor: 4.191
Authors: Jeffrey P Jacobs; Robert H Anderson; Paul M Weinberg; Henry L Walters; Christo I Tchervenkov; Danny Del Duca; Rodney C G Franklin; Vera D Aiello; Marie J Béland; Steven D Colan; J William Gaynor; Otto N Krogmann; Hiromi Kurosawa; Bohdan Maruszewski; Giovanni Stellin; Martin J Elliott Journal: Cardiol Young Date: 2007-09 Impact factor: 1.093
Authors: R Van Praagh; C Perez-Trevino; M Lõpez-Cuellar; F W Baker; J R Zuberbuhler; M Quero; V M Perez; F Moreno; S Van Praagh Journal: Am J Cardiol Date: 1971-12 Impact factor: 2.778
Authors: Sean M O'Brien; David R Clarke; Jeffrey P Jacobs; Marshall L Jacobs; Francois G Lacour-Gayet; Christian Pizarro; Karl F Welke; Bohdan Maruszewski; Zdzislaw Tobota; Weldon J Miller; Leslie Hamilton; Eric D Peterson; Constantine Mavroudis; Fred H Edwards Journal: J Thorac Cardiovasc Surg Date: 2009-11 Impact factor: 5.209
Authors: Christine E Cronk; Marsha E Malloy; Andrew N Pelech; Richard E Miller; Sally A Meyer; Melissa Cowell; D Gail McCarver Journal: Birth Defects Res A Clin Mol Teratol Date: 2003-09
Authors: Matthew J Strickland; Tiffany J Riehle-Colarusso; Jeffrey P Jacobs; Mark D Reller; William T Mahle; Lorenzo D Botto; Paige E Tolbert; Marshall L Jacobs; Francois G Lacour-Gayet; Christo I Tchervenkov; Constantine Mavroudis; Adolfo Correa Journal: Cardiol Young Date: 2008-12 Impact factor: 1.093
Authors: Angela E Lin; Sergey Krikov; Tiffany Riehle-Colarusso; Jaime L Frías; John Belmont; Marlene Anderka; Tal Geva; Kelly D Getz; Lorenzo D Botto Journal: Am J Med Genet A Date: 2014-08-06 Impact factor: 2.802
Authors: P Amedro; R Dorka; S Moniotte; S Guillaumont; A Fraisse; B Kreitmann; B Borm; H Bertet; C Barrea; C Ovaert; T Sluysmans; G De La Villeon; M Vincenti; M Voisin; P Auquier; M C Picot Journal: Pediatr Cardiol Date: 2015-05-31 Impact factor: 1.655
Authors: Kate E Best; Nicola Miller; Elizabeth Draper; David Tucker; Karen Luyt; Judith Rankin Journal: Front Pediatr Date: 2021-07-06 Impact factor: 3.418