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This page lists all time most cited articles for this title. Please use the publication date filters on the left if you would like to restrict this list to recently published content, for example to articles published in the last three years. The number of times each article was cited is displayed to the right of its title and can be clicked to access a list of all titles this article has been cited by.
- Cited by 274
Current insights regarding neurological and developmental abnormalities in children and young adults with complex congenital cardiac disease
- Gil Wernovsky
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- Published online by Cambridge University Press:
- 10 January 2006, pp. 92-104
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Over a decade ago, I co-authored a review in Cardiology in the Young regarding neurological outcomes following surgery for congenital cardiac disease.1 In that review, I placed much emphasis on the conduct of cardiopulmonary bypass, and its role in neurodevelopmental disabilities. Much has been learned in the intervening years regarding the multifactorial causes of abnormal school-age development, in particular, the role of prenatal, perioperative, socioeconomic, and genetic influences. In this update, I will highlight some of the recent advances in our understanding of the protean causes of neurological, behavioral, and developmental abnormalities in children and young adults with complex forms of congenital cardiac disease. In addition, I will summarize the current data on patients at particular high-risk for adverse neurodevelopmental outcomes, specifically those with a functionally univentricular heart who have had staged reconstruction with ultimate conversion to the Fontan circulation.
- Cited by 202
Clinical and epidemiological description of aortic dissection in Turner's syndrome
- Claus Højbjerg Gravholt, Kerstin Landin-Wilhelmsen, Kirstine Stochholm, Britta Eilersen Hjerrild, Thomas Ledet, Christian Born Djurhuus, Lisskulla Sylvén, Ulrik Baandrup, Bent Østergaard Kristensen, Jens Sandahl Christiansen
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- Published online by Cambridge University Press:
- 20 September 2006, pp. 430-436
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Background: Women with Turner's syndrome have an increased risk of congenital cardiac malformations, ischaemic heart disease, hypertension and stroke. Aortic dissection seems to occur with increased frequency. Aim: To describe in more detail aortic dissection as encountered in Turner's syndrome, giving attention to clinical, histological and epidemiological aspects. Materials and methods: Based on a retrospective study, we describe the clinical, karyotypic, and epidemiological aspects of aortic dissection as encountered in cases of Turner's syndrome seen in Denmark and Sweden. Results: The median age at onset of aortic dissection in 18 women was 35 years, ranging from 18 to 61 years. Fourteen of 18 women had a 45,X karyotype, while 2 patients had 45,X/45,XY, and 2 had the 45,X/46,X+r(X) complement, respectively. Echocardiography was performed in 10 of 18 patients before their acute illness, and showed signs of congenital cardiac disease, with either bifoliate aortic valves, dilation of the aortic root, or previous aortic coarctation evident in most patients. In 5 patients evidence of a bifoliate aortic valve was conclusive. Hypertension was present in 5 of 18 patients, while 10 of the patients died from aortic dissection, of so-called type A in 6, type B in 3, while in the final case the origin of dissection could not be determined. Biochemical analysis showed altered ratio between type I and type III collagen. Histology showed cystic medial necrosis in 3 of 7 cases. We estimated an incidence of dissection of 36 per 100,000 Turner's syndrome years, compared with an incidence of 6 per 100,000 in the general population, and a cumulated rate of incidence of 14, 73, 78, and 50 per 100,000 among 0–19, 20–29, 30–39, and 40+ year olds, respectively. Conclusion: Aortic dissection is extremely common in the setting of Turner's syndrome, and occurs early in life. Patients with Turner's syndrome should be offered a protocol for clinical follow-up similar to that provided for patients with Marfan syndrome, and each clinic should embrace a programme for follow-up.
- Cited by 201
Relationship of the dimension of cardiac structures to body size: an echocardiographic study in normal infants and children
- P. E. F. Daubeney, E. H. Blackstone, R. G. Weintraub, Z. Slavik, J. Scanlon, S. A. Webber
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- Published online by Cambridge University Press:
- 19 August 2008, pp. 402-410
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Normalization of the dimensions of cardiac structures to the size of the body, using so-called Z scores, is becoming increasingly common in the management of infants and children with congenital heart disease. Current published nomograms for the ascertainment of Z scores for cardiac structures in childhood are based largely on normal data obtained in formalin-fixed hearts. Since decisions concerning management are frequently based on the findings of cross-sectional echocardiograms, the dimensions of 15 cardiac structures were measured using cross-sectional echocardiography in 125 normal infants and children. Regression equations were derived relating cardiac dimensions to the size of the body. The expression of size with the highest correlation to cardiac dimensions was body surface area. Nomograms were then developed from which the Z score of a cardiac structure could be estimated from a knowledge of the body surface area and the echocardiographically derived measurement.
- Cited by 158
Transcatheter closure as standard treatment for most interatrial defects: experience in 200 patients treated with the Amplatzer ™ Septal Occluder
- Felix Berger, Peter Ewert, Per G. Boöjrnstad, Ingo Dähnert, Gregor Krings, Ira Brilla-Austenat, Michael Vogel, Peter E. Lange
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- 19 August 2008, pp. 468-473
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To judge whether an Amplatzer™ Septal Occluder can be used as standard therapy instead of surgery for closure of atrial septal defects we report our experiences in 200 patients. Of these patients, 127 had an atrial septal defect with haemodynamically significant left-to-right shunt, 68 patients a persistent oval foramen after presumed paradoxical embolism, and 5 had a fenestration after Fontan-repair. Mean age was 29.8 years (0.8 to 77.7 years). Body weight ranged from 6.9 to 120.0 kg (mean 51.5 kg). After diagnostic cardiac catheterization, and balloon-sizing of the defect, we implanted Amplatzer™ Septal Occluders with stents of 4 to 28 mm diameter. Follow-up studies were obtained after 48hours, and one, six, and twelve months. Transcatheter closure of the atrial septal defect proved successful in all without any relevant residual shunts. In particular, complete closure was achieved in all patients after presumed paradoxical embolism. The mean period of follow-up is 9–5 months, with a range from 0.4 to 23.5 months, giving a total of 1898 patient months. The occlusion rate after three month was 98.1°. A trivial haemodynamically insignificant residual shunt remained in 1.9° of the patients. Fluoroscopy times ranged from 0 to 43.5 minutes, with a median of 8.7 minutes. The excellent results in the short and medium term in children and adults have resulted in using this device routinely at the present time for closure of central atrial septal defects up to a diameter of 28 mm. Final judgement, however, is only possible after long-term follow-up.
- Cited by 155
The nomenclature, definition and classification of hypoplastic left heart syndrome
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- Christo I. Tchervenkov, Jeffrey P. Jacobs, Paul M. Weinberg, Vera D. Aiello, Marie J. Béland, Steven D. Colan, Martin J. Elliott, Rodney C.G. Franklin, J. William Gaynor, Otto N. Krogmann, Hiromi Kurosawa, Bohdan Maruszewski, Giovanni Stellin
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- Published online by Cambridge University Press:
- 14 July 2006, pp. 339-368
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The hypoplastic left heart syndrome encompasses a spectrum of cardiac malformations that are characterized by significant underdevelopment of the components of the left heart and the aorta, including the left ventricular cavity and mass. At the severe end of the spectrum is found the combination of aortic and mitral atresia, when the left ventricle can be close to non-existent. At the mild end are the patients with hypoplasia of the aortic and mitral valves, but without intrinsic valvar stenosis or atresia, and milder degrees of left ventricular hypoplasia. Although the majority of the patients are suitable only for functionally univentricular repair, a small minority may be candidates for biventricular repair.
The nature of the syndrome was a topic for discussion at the second meeting of the International Working Group for Mapping and Coding of Nomenclatures for Paediatric and Congenital Heart Disease, the Nomenclature Working Group, held in Montreal, Canada, over the period January 17 through 19, 2003. Subsequent to these discussions, the Nomenclature Working Group was able to create a bidirectional crossmap between the nomenclature initially produced jointly on behalf of the European Association for Cardio-Thoracic Surgery and the Society of Thoracic Surgeons, and the alternative nomenclature developed on behalf of the Association for European Paediatric Cardiology. This process is a part of the overall efforts of the Nomenclature Working Group to create a comprehensive and all-inclusive international system of nomenclature for paediatric and congenital cardiac disease, the International Paediatric and Congenital Cardiac Code. In this review, we discuss the evolution of nomenclature and surgical treatment for the spectrum of lesions making up the hypoplastic left heart syndrome and its related malformations. We also present the crossmap of the associated terms for diagnoses and procedures, as recently completed by the Nomenclature Working Group.
- Cited by 146
Long-term outcomes after the atrial switch for surgical correction of transposition: a meta-analysis comparing the Mustard and Senning procedures
- Paul Khairy, Michael J. Landzberg, Jean Lambert, Clare P. O'Donnell
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- 21 January 2005, pp. 284-292
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Most adults with regular transposition (the combinations of concordant atrioventricular and discordant ventriculo-arterial connections) have undergone either the Mustard or Senning procedure in childhood. It is unclear whether adverse events differ according to the surgery performed. With this in mind, we conducted a systematic review and meta-analysis to compare long-term outcomes. We searched systematically entries to MEDLINE and EMBASE databases from January 1966 through August 2003, supplementing the search by secondary sources. Comparative studies were required to include at least 10 patients in each cohort of Mustard or Senning procedure, and to report overall survival. Data were extracted by two independent reviewers. We used a component approach to assess quality. On the basis of assessment of heterogeneity, we then used a random-effects model for pooled analyses. In all, we included seven studies, incorporating 885 patients. We found a trend towards lower mortality for the 369 patients undergoing a Mustard procedure when compared to 474 submitted to the Senning operation, with a hazard ratio of 0.63 and 95% confidence intervals between 0.35 and 1.14 (p = 0.13). This trend increased with the size of the sample (p = 0.004). Obstruction in the systemic venous pathway was more common in those having the Mustard procedure, with a risk ratio of 3.5 and 95% confidence intervals from 1.8 to 7.0 (p < 0.001), with a trend towards greater obstruction of the pulmonary venous pathway in those undergoing the Senning procedure, 7.6% vs. 3.8% (p = 0.27). A trend towards fewer residual shunts was observed for those with Mustard baffles, 7.0% vs. 14.1% (p = 0.10). Sinus nodal dysfunction, however, was more common after the Mustard procedure. Data regarding atrial tachydysrhythmias was inconclusive. Systemic cardiac failure and functional capacity, was similar. We conclude that outcomes are not uniform among patients submitted to the Mustard and Senning procedures. Knowledge of such differences may facilitate stratification of risk and follow-up.
- Cited by 140
Nomenclature for congenital and paediatric cardiac disease: Historical perspectives and The International Pediatric and Congenital Cardiac Code
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- Rodney C.G. Franklin, Jeffrey Phillip Jacobs, Otto N. Krogmann, Marie J. Béland, Vera D. Aiello, Steven D. Colan, Martin J. Elliott, J. William Gaynor, Hiromi Kurosawa, Bohdan Maruszewski, Giovanni Stellin, Christo I. Tchervenkov, Henry L. Walters III, Paul Weinberg, Robert H. Anderson
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- Published online by Cambridge University Press:
- 01 December 2008, pp. 70-80
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Clinicians working in the field of congenital and paediatric cardiology have long felt the need for a common diagnostic and therapeutic nomenclature and coding system with which to classify patients of all ages with congenital and acquired cardiac disease. A cohesive and comprehensive system of nomenclature, suitable for setting a global standard for multicentric analysis of outcomes and stratification of risk, has only recently emerged, namely, The International Paediatric and Congenital Cardiac Code. This review, will give an historical perspective on the development of systems of nomenclature in general, and specifically with respect to the diagnosis and treatment of patients with paediatric and congenital cardiac disease. Finally, current and future efforts to merge such systems into the paperless environment of the electronic health or patient record on a global scale are briefly explored.
On October 6, 2000, The International Nomenclature Committee for Pediatric and Congenital Heart Disease was established. In January, 2005, the International Nomenclature Committee was constituted in Canada as The International Society for Nomenclature of Paediatric and Congenital Heart Disease. This International Society now has three working groups. The Nomenclature Working Group developed The International Paediatric and Congenital Cardiac Code and will continue to maintain, expand, update, and preserve this International Code. It will also provide ready access to the International Code for the global paediatric and congenital cardiology and cardiac surgery communities, related disciplines, the healthcare industry, and governmental agencies, both electronically and in published form. The Definitions Working Group will write definitions for the terms in the International Paediatric and Congenital Cardiac Code, building on the previously published definitions from the Nomenclature Working Group. The Archiving Working Group, also known as The Congenital Heart Archiving Research Team, will link images and videos to the International Paediatric and Congenital Cardiac Code. The images and videos will be acquired from cardiac morphologic specimens and imaging modalities such as echocardiography, angiography, computerized axial tomography and magnetic resonance imaging, as well as intraoperative images and videos.
Efforts are ongoing to expand the usage of The International Paediatric and Congenital Cardiac Code to other areas of global healthcare. Collaborative efforts are underway involving the leadership of The International Nomenclature Committee for Pediatric and Congenital Heart Disease and the representatives of the steering group responsible for the creation of the 11th revision of the International Classification of Diseases, administered by the World Health Organisation. Similar collaborative efforts are underway involving the leadership of The International Nomenclature Committee for Pediatric and Congenital Heart Disease and the International Health Terminology Standards Development Organisation, who are the owners of the Systematized Nomenclature of Medicine or “SNOMED”.
The International Paediatric and Congenital Cardiac Code was created by specialists in the field to name and classify paediatric and congenital cardiac disease and its treatment. It is a comprehensive code that can be freely downloaded from the internet (http://www.IPCCC.net) and is already in use worldwide, particularly for international comparisons of outcomes. The goal of this effort is to create strategies for stratification of risk and to improve healthcare for the individual patient. The collaboration with the World Heath Organization, the International Health Terminology Standards Development Organisation, and the healthcare industry, will lead to further enhancement of the International Code, and to its more universal use.
- Cited by 137
The morphological spectrum of ventricular noncompaction
- Robert M. Freedom, Shi-Joon Yoo, Don Perrin, Glenn Taylor, Steffen Petersen, Robert H. Anderson
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- Published online by Cambridge University Press:
- 13 July 2005, pp. 345-364
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- Cited by 128
Behaviour at eight years in children with surgically corrected transposition: The Boston Circulatory Arrest Trial*
- David C. Bellinger, Jane W. Newburger, David Wypij, Karl C. K. Kuban, Adre J. duPlesssis, Leonard A. Rappaport
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- Published online by Cambridge University Press:
- 11 December 2008, pp. 86-97
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Uncertainty exists regarding the degree to which infants with congenitally malformed hearts are at risk of behavioural disorders in childhood. Data was collected as part of a randomized clinical trial involving 155 children with surgically corrected transposition (concordant atrioventricular and ventriculo-arterial connections or alignments). As infants, they underwent the arterial switch operation, involving deep hypothermia with predominantly total circulatory arrest or predominantly low-flow continuous cardiopulmonary bypass as the method of providing support to the vital organs. Parents completed the Child Behavior Checklist when the patients were aged 4 and 8 years, and the Connors’ Parent Rating Scale at the age of 8 years. When the children were aged 8, teachers completed the Teacher’s Report Form and the Connors’ Teacher Rating Scale. In the cohort as a whole, the frequencies of behavioural problems identified by both parents and teachers were elevated, particularly on the scales for competence of the Child Behavior Checklist, and the Adaptive scales of the Teacher’s Report Form. Approximately 1 in 5 patients had scores for Total Problem Behavior in the range of clinical concern on both the Child Behavior Checklist and the Teacher’s Report Form. Few differences were found, however, according to the method of operative treatment. Postoperative seizures were associated with social and attention problems. Children experiencing academic problems at the age of 8 showed a larger increase in behavioural problems between the ages of 4 and 8 than did children making adequate academic progress. Children with congenitally malformed hearts who underwent reparative surgery in infancy using a strategy of severe haemodilution and alpha stat are at increased risk of behavioural problems in middle childhood.
- Cited by 123
Collaborative quality improvement in the cardiac intensive care unit: development of the Paediatric Cardiac Critical Care Consortium (PC4)
- Michael Gaies, David S. Cooper, Sarah Tabbutt, Steven M. Schwartz, Nancy Ghanayem, Nikhil K. Chanani, John M. Costello, Ravi R. Thiagarajan, Peter C. Laussen, Lara S. Shekerdemian, Janet E. Donohue, Gina M. Willis, J. William Gaynor, Jeffrey P. Jacobs, Richard G. Ohye, John R. Charpie, Sara K. Pasquali, Mark A. Scheurer
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- Published online by Cambridge University Press:
- 28 August 2014, pp. 951-957
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Despite many advances in recent years for patients with critical paediatric and congenital cardiac disease, significant variation in outcomes remains across hospitals. Collaborative quality improvement has enhanced the quality and value of health care across specialties, partly by determining the reasons for variation and targeting strategies to reduce it. Developing an infrastructure for collaborative quality improvement in paediatric cardiac critical care holds promise for developing benchmarks of quality, to reduce preventable mortality and morbidity, optimise the long-term health of patients with critical congenital cardiovascular disease, and reduce unnecessary resource utilisation in the cardiac intensive care unit environment. The Pediatric Cardiac Critical Care Consortium (PC4) has been modelled after successful collaborative quality improvement initiatives, and is positioned to provide the data platform necessary to realise these objectives. We describe the development of PC4 including the philosophical, organisational, and infrastructural components that will facilitate collaborative quality improvement in paediatric cardiac critical care.
- Cited by 111
Development of the human pulmonary vein and its incorporation in the morphologically left atrium
- Sandra Webb, Mazyar Kanani, Robert H. Anderson, Michael K. Richardson, Nigel A. Brown
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- Published online by Cambridge University Press:
- 15 August 2006, pp. 632-642
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Objective: Using a newly acquired archive of previously prepared material, we sought to re-examine the origin of the pulmonary vein in the human heart, aiming to determine whether it originates from the systemic venous sinus (“sinus venosus”), or appears as a new structure draining to the left atrium. In addition, we examined the temporal sequence of incorporation of the initially solitary pulmonary vein to the stage at which four venous orifices opened to the left atrium. Methods: We studied 26 normal human embryos, ranging from 3.8 mm to 112 mm crown-rump length, and representing the period from the 12th Carnegie stage to 15 weeks of gestation. Results: The pulmonary vein canalised as a solitary vessel within the mediastinal tissues so as to connect the intraparenchymal pulmonary venous networks to the heart, using the regressing dorsal mesocardium as its portal of cardiac entry. The vein was always distinct from the tributaries of the embryonic systemic venous sinus. The orifice of the solitary vein became committed to the left atrium by growth of the vestibular spine. During development, a marked disparity was seen between the temporal and morphological patterns of incorporation of the left-sided and right-sided veins into the left atrium. The pattern of the primary bifurcation was asymmetrical, a much longer tributary being formed on the left than on the right. Contact between the atrial wall and the venous tributary on the left initially produced a shelf, which became effaced with incorporation of the two left-sided veins into the atrium. Conclusions: The initial process of formation of the human pulmonary vein is very similar to that seen in animal models. The walls of the initially solitary vein in humans become incorporated by a morphologically asymmetric process so that four pulmonary veins eventually drain independently into the left atrium. Failure of incorporation on the left side may provide the substrate for congenital division of the left atrium.
- Cited by 110
Nomenclature for congenital and paediatric cardiac disease: the International Paediatric and Congenital Cardiac Code (IPCCC) and the Eleventh Iteration of the International Classification of Diseases (ICD-11)*
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- Rodney C. G. Franklin, Marie J. Béland, Steven D. Colan, Henry L. Walters III, Vera D. Aiello, Robert H. Anderson, Frédérique Bailliard, Jeffrey R. Boris, Meryl S. Cohen, J. William Gaynor, Kristine J. Guleserian, Lucile Houyel, Marshall L. Jacobs, Amy L. Juraszek, Otto N. Krogmann, Hiromi Kurosawa, Leo Lopez, Bohdan J. Maruszewski, James D. St. Louis, Stephen P. Seslar, Shubhika Srivastava, Giovanni Stellin, Christo I. Tchervenkov, Paul M. Weinberg, Jeffrey P. Jacobs
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- Published online by Cambridge University Press:
- 29 December 2017, pp. 1872-1938
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An internationally approved and globally used classification scheme for the diagnosis of CHD has long been sought. The International Paediatric and Congenital Cardiac Code (IPCCC), which was produced and has been maintained by the International Society for Nomenclature of Paediatric and Congenital Heart Disease (the International Nomenclature Society), is used widely, but has spawned many “short list” versions that differ in content depending on the user. Thus, efforts to have a uniform identification of patients with CHD using a single up-to-date and coordinated nomenclature system continue to be thwarted, even if a common nomenclature has been used as a basis for composing various “short lists”. In an attempt to solve this problem, the International Nomenclature Society has linked its efforts with those of the World Health Organization to obtain a globally accepted nomenclature tree for CHD within the 11th iteration of the International Classification of Diseases (ICD-11). The International Nomenclature Society has submitted a hierarchical nomenclature tree for CHD to the World Health Organization that is expected to serve increasingly as the “short list” for all communities interested in coding for congenital cardiology. This article reviews the history of the International Classification of Diseases and of the IPCCC, and outlines the process used in developing the ICD-11 congenital cardiac disease diagnostic list and the definitions for each term on the list. An overview of the content of the congenital heart anomaly section of the Foundation Component of ICD-11, published herein in its entirety, is also included. Future plans for the International Nomenclature Society include linking again with the World Health Organization to tackle procedural nomenclature as it relates to cardiac malformations. By doing so, the Society will continue its role in standardising nomenclature for CHD across the globe, thereby promoting research and better outcomes for fetuses, children, and adults with congenital heart anomalies.
- Cited by 106
Effect of physical training in children and adolescents with congenital heart disease
- Per Morten Fredriksen, N. Kahrs, S. Blaasvaer, E. Sigurdsen, O. Gundersen, O. Roeksund, G. Norgaand, J.T. Vik, O. Soerbye, F. Ingjer, E. Thaulow
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- Published online by Cambridge University Press:
- 19 August 2008, pp. 107-114
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In order to test the effect of systematic supervised physical training, we divided a total of 129 children and adolescents with congenital heart disease into a group undergoing intervention and a control group. All patients underwent exercise tests, measurements of physical activity, and a survey of psychosocial factors. An improvement in uptake of peak level of oxygen was observed after intervention. There was also an improvement in physical activity in both groups measured by a monitor, although this was significant only in those with intervention. The psychosocial scales measured by the Child Behavior Checklist showed a decrease in internalizing scores for those subjected to intervention. This was decreased due to decreased withdrawal and somatic complaints. In conclusion, we recommend systematic supervised training, including testing of routine follow-ups, in patients with congenital heart disease.
- Cited by 105
Aortic morphometry and microcephaly in hypoplastic left heart syndrome
- Amanda J. Shillingford, Richard F. Ittenbach, Bradley S. Marino, Jack Rychik, Robert R. Clancy, Thomas L. Spray, J. William Gaynor, Gil Wernovsky
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- Published online by Cambridge University Press:
- 05 March 2007, pp. 189-195
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Microcephaly is a marker of abnormal fetal cerebral development, and a known risk factor for cognitive dysfunction. Patients with hypoplastic left heart syndrome have been found to have an increased incidence of abnormal neurodevelopmental outcomes. We hypothesized that reduced cerebral blood flow from the diminutive ascending aorta and transverse aortic arch in the setting of hypoplastic left heart syndrome may influence fetal growth of the brain. The purpose of our study, therefore, was to define the prevalence of microcephaly in full-term infants with hypoplastic left heart syndrome, and to investigate potential cardiac risk factors for microcephaly. We carried out a retrospective review of full-term neonates with hypoplastic left heart syndrome. Eligible patients had documented indexes of birth weight, and measurements of length, and head circumference, as well as adequate echocardiographic images for measurement of the diameters of the ascending aorta and transverse aortic arch. We used logistic regression for analysis of the data. A total of 129 neonates met the criterions for inclusion, with 15 (12%) proving to have microcephaly. The sizes of their heads were disproportionately smaller than their weights (p less than 0.001) and lengths (p less than 0.001) at birth. Microcephaly was associated with lower birth weight (p less than 0.001), lower birth length (p equal to 0.007), and a smaller diameter of the ascending aorta (p equal to 0.034), but not a smaller transverse aortic arch (p equal to 0.619), or aortic atresia (p equal to 0.969). We conclude that microcephaly was common in this cohort of neonates with hypoplastic left heart syndrome, with the size of the head being disproportionately smaller than weight and length at birth. Microcephaly was associated with a small ascending aorta, but not a small transverse aortic arch. Impairment of somatic growth may be an additional factor in the development of microcephaly in these neonates.
- Cited by 102
The importance of nomenclature for congenital cardiac disease: implications for research and evaluation
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- 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
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- Published online by Cambridge University Press:
- 01 December 2008, pp. 92-100
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Background
Administrative databases are often used for congenital cardiac disease research and evaluation, with little validation of the accuracy of the diagnostic codes.
MethodsMetropolitan Atlanta Congenital Defects Program surveillance records were reviewed and classified using a version of the International Pediatric and Congenital Cardiac Code. Using this clinical nomenclature as the referent, we report the sensitivity and false positive fraction (1 – positive predictive value) of the International Classification of Diseases, Ninth Revision, Clinical Modification diagnosis codes for tetralogy of Fallot, transposition of the great arteries, and hypoplastic left heart syndrome.
ResultsWe identified 4918 infants and foetuses with congenital cardiac disease from the surveillance records. Using only the International Classification of Diseases diagnosis codes, there were 280 records with tetralogy, 317 records with transposition, and 192 records with hypoplastic left heart syndrome. Based on the International Pediatric and Congenital Cardiac Code, 330 records were classified as tetralogy, 163 records as transposition, and 179 records as hypoplastic left heart syndrome. The sensitivity of International Classification of Diseases diagnosis codes was 83% for tetralogy, 100% for transposition, and 95% for hypoplastic left heart syndrome. The false positive fraction was 2% for tetralogy, 49% for transposition, and 11% for hypoplastic left heart syndrome.
ConclusionsAnalyses based on International Classification of Diseases diagnosis codes may have substantial misclassification of congenital heart disease. Isolating the major defect is difficult, and certain codes do not differentiate between variants that are clinically and developmentally different.
- Cited by 101
Caring for adults with congenital cardiac disease: successes and challenges for 2007 and beyond
- Joseph A. Dearani, Heidi M. Connolly, Richard Martinez, Hector Fontanet, Gary D. Webb
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- 26 November 2007, pp. 87-96
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Patients with congenital cardiac disease require lifelong medical care. Current challenges that face practitioners who care for adults with congenital heart disease include identifying the best location for procedures, which could be a children’s hospital, an adult hospital, or a tertiary care facility; providing appropriate antenatal management of pregnant women with congenitally malformed hearts, and continuing this care in the peripartum period; and securing the infrastructure and expertise of the non-cardiac subspecialties, such as nephrology, hepatology, pulmonary medicine, and haematology. The objectives of this review are to outline the common problems that confront this population of patients and the medical community, to identify challenges encountered in establishing a programme for care of adults with congenitally malformed hearts, and to review the spectrum of disease and operations that have been identified in a high volume tertiary care centre for adult patients with congenital cardiac disease. Three chosen examples of the fundamental problems facing the practitioner and patient in the United States of America in 2007 are the neglected patient with congenital cardiac disease, weak infrastructure for adults with congenital cardiac disease, and family planning and management of pregnancy for patients with congenital cardiac disease.
Patients with adult congenital cardiac disease often do not receive appropriate surveillance. Three fundamental reasons for this problem are, first, that most adults with congenitally malformed hearts have been lost to follow-up by specialists, and are either receiving community care or no care at all. Second, patients and their families have not been educated about their malformed hearts, what to expect, and how to protect their interests most effectively. Third, adult physicians have not been educated about the complexity of the adult with a congenitally malformed heart. This combination can be fatal for adults with complications related to their congenitally malformed heart, or its prior treatment. Two solutions would improve surveillance and care for the next generation of patients coming out of the care of paediatric cardiologists. The first would be to educate patients and their families during childhood and adolescence. They would learn the names of the diagnoses and treatments, the problems they need to anticipate and avoid, the importance of expert surveillance, career and family planning information, and appropriate self-management. The second solution would be to encourage an orderly transfer of patients from paediatric to adult practice, usually at about 18 years of age, and at the time of graduation from high school.
Clinics for adults with congenital cardiac disease depend upon multidisciplinary collaboration with specialties in areas such as congenital cardiac imaging, diagnostic and interventional catheterization, congenital cardiac surgery and anaesthesia, heart failure, transplantation, electrophysiology, reproductive and high risk pregnancy services, genetics, pulmonary hypertension, hepatology, nephrology, haematology, and others. None of these services are easily available “off the rack”, although with time, experience, and determination, these services can develop very well. Facilities with experienced personnel to provide competent care for adults with congenital cardiac disease are becoming increasingly available. Parents and patients should learn that these facilities exist, and be directed to one by their paediatric caregivers when the time comes for transition to adult care.
With the steady increase in the number of adults with congenital heart disease, an ever increasing number of women with such disease are becoming pregnant. Services are not widely available to assess competently and plan a pregnancy for those with more complex disease. It is essential to have a close interplay between the obstetrician, the adult congenital cardiologist, the fetal medicine perinatologist, and neonatologist.
In both a community based programme and a tertiary care centre, the nuances and complexities of congenital cardiac anatomy, coupled with the high probability of previous operation during childhood, makes the trained congenital cardiothoracic surgeon best suited to deal with the surgical needs of this growing population. It is clear that the majority of adults with congenital heart disease are not “cured”, but require lifelong comprehensive care from specialists who have expertise in this complex arena. There is a growing cadre of healthcare professionals dedicated to improving the care of these patients. More information has become available about their care, and will be improved upon in the next decade. With the support of the general paediatric and paediatric cardiologic communities, and of the Adult Congenital Heart Association, and with the persistence of the providers of care for adults with congenital cardiac disease currently staffing clinics, the care of these patients should become more secure in the next decade as we mature our capabilities.
- Cited by 99
Verification of data in congenital cardiac surgery
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- David R. Clarke, Linda S. Breen, Marshall L. Jacobs, Rodney C.G. Franklin, Zdzislaw Tobota, Bohdan Maruszewski, Jeffrey P. Jacobs
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- Published online by Cambridge University Press:
- 01 December 2008, pp. 177-187
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Accurate, complete data is now the expectation of patients, families, payers, government, and even media. It has become an obligation of those practising congenital cardiac surgery. Appropriately, major professional organizations worldwide are assuming responsibility for the data quality in their respective registry databases.
The purpose of this article is to review the current strategies used for verification of the data in the congenital databases of The Society of Thoracic Surgeons, The European Association for Cardio-Thoracic Surgery, and The United Kingdom Central Cardiac Audit Database. Because the results of the initial efforts to verify data in the congenital databases of the United Kingdom and Europe have been previously published, this article provides a more detailed look at the current efforts in North America, which prior to this article have not been published. The discussion and presentation of the strategy for the verification of data in the congenital heart surgery database of The Society of Thoracic Surgeons is then followed by a review of the strategies utilized in the United Kingdom and Europe. The ultimate goal of sharing the information in this article is to provide information to the participants in the databases that track the outcomes of patients with congenitally malformed hearts. This information should help to improve the quality of the data in all of our databases, and therefore increase the utility of these databases to function as a tool to optimise the management strategies provided to our patients.
The need for accurate, complete and high quality Congenital Heart Surgery outcome data has never been more pressing. The public interest in medical outcomes is at an all time high and “pay for performance” is looming on the horizon. Information found in administrative databases is not risk or complexity adjusted, notoriously inaccurate, and far too imprecise to evaluate performance adequately in congenital cardiac surgery. The Society of Thoracic Surgeons and European Association for Cardio-Thoracic Surgery databases contain the elements needed for assessment of quality of care provided that a mechanism exists within these organizations to guarantee the completeness and accuracy of the data. The Central Cardiac Audit Database in the United Kingdom has an advantage in this endeavour with the ability to track and verify mortality independently, through their National Health Service.
A combination of site visits with “Source Data Verification”, in other words, verification of the data at the primary source of the data, and external verification of the data from independent databases or registries, such as governmental death registries, may ultimately be required to allow for optimal verification of data. Further research in the area of verification of data is also necessary. Data must be verified for both completeness and accuracy.
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Hypoplastic left heart syndrome: consensus and controversies in 2007
- Gil Wernovsky, Nancy Ghanayem, Richard G. Ohye, Emile A. Bacha, Jeffrey P. Jacobs, J. William Gaynor, Sarah Tabbutt
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- Published online by Cambridge University Press:
- 26 November 2007, pp. 75-86
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Variability in practice can be considered to foster clinical innovation, and allow for individualized therapeutic plans and independence of practitioners. The Institute of Medicine, however, has issued a report suggesting that variability in patterns of practice are “illogical”, and should be avoided whenever possible. Perhaps nowhere in the field of congenital cardiac disease is variability in practice more apparent than in the management of hypoplastic left heart syndrome. This review assesses the variability in practice at a large number of centres that manage neonates with hypoplastic left heart syndrome, with an emphasis on practice before, during, and after the first stage of the Norwood sequence of operations. We also suggest changes in future strategies for research.
In March, 2007, colleagues were contacted to respond to an internet-based survey using commercially available software (www.surveymonkey.com) to collect responses about the management practices for neonates with “straight-forward” hypoplastic left heart syndrome. No attempt was made to correlate management practices with any measures of outcome, as neither the practices themselves, nor the outcomes of interest, could be externally validated. Data is reported from 52 centers thought to manage over 1000 neonates with hypoplastic left heart syndrome on an annual basis. The first stage of the Norwood sequence was “recommended” to families by approximately five-sixths (86.5%) of the centres. No centre recommended primary cardiac transplantation, a “hybrid” approach, or non-intervention. In 7 centres (14.5%), it was reported that there was discussion of some or all of the above options, but ultimately the families decided upon the appropriate strategy.
Most centres preferentially used antegrade cerebral perfusion (54%) in contrast to deep hypothermia with circulatory arrest (24%), albeit that 11% of centres used a combination of these techniques and in 9% the support strategy was based on surgeon preference. The source of flow of blood for the lungs following the first stage of reconstruction was also highly variable. Of the 51 centres that responded to the question, 13 (25.5%) were participating in a multi-centric randomized clinical trial comparing the modified Blalock-Taussig shunt to the conduit placed from the right ventricle to the pulmonary arteries, the so-called “Sano” modification. Of the remaining 38 centres, 18 “usually” placed a conduit from the right ventricle to the pulmonary artery, 14 “usually” placed a modified Blalock-Taussig shunt, and at six centres, the decision was made “based upon the preference of the surgeon and/or the cardiologist”. Similarly, significant variability in practice was evident in preoperative management, other surgical strategies, postoperative medical support, monitoring and discharge planning. Other than the randomized clinical trial of shunt type, no other medical or surgical management strategy was currently under investigation in a multi-centric or randomized trial in the centres who responded to the survey.
The survey emphasises the extreme variability in our current practices for treatment of children with hypoplastic left heart syndrome. While there are some areas for which there is consensus in management, the majority of our practices are variable between and within centres. These results emphasize that large multicentric trials and registries are necessary to improve care, and to answer important clinical questions, emphasizing the need to shift from analysis of experiences of single centres to multi-centric and multi-disciplinary collaboration.
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The natural course and the impact of therapies of cardiac involvement in the mucopolysaccharidoses
- Vlasta Fesslová, Paola Corti, Giovanna Sersale, Attilio Rovelli, Pierluigi Russo, Savina Mannarino, Gianfranco Butera, Rossella Parini
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- Published online by Cambridge University Press:
- 01 April 2009, pp. 170-178
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Objective
To analyze cardiac involvement and its progression in mucopolysaccharidoses, and to assess the short term impact of new therapeutic strategies.
Patients and methodsWe studied echocardiographically 57 patients with various types of mucopolysaccharidoses, specifically types I, II, III, IV and VI, with a median age at the diagnosis of cardiac involvement of 5 years, following them for a median of 4.6 years, with a range from 0.9 to 21.2 years. We used a scoring system, along with the so-called delta score, to quantify the severity of involvement at baseline and at last examination, and to chart their progression over time.
ResultsCases with cardiac involvement increased from 59.6% to 87.3% at the last examination. The scores increased with age, and were significantly different according to the specific type of mucopolysaccharidosis. Involvement of the mitral valve was most common, often associated with an aortic valvar anomaly and/or left ventricular hypertrophy. Patients with the first and second types had more severe involvement than those with the third or fourth types. Patients undergoing transplantation of haematopoietic stem cells seem to stabilize after an initial worsening while, in contrast, we were unable to demonstrate an effect of enzyme replacement therapy on the progression of the cardiac disease, possibly because those receiving such treatment had a higher median age, more severe cardiac disease and shorter follow-up.
ConclusionsCardiac involvement was present early in more than a half of the patients identified as having mucopolysaccharidosis, and generally progressed, being more frequent and severe in the first and second types of the disease. Longer follow-up is needed to demonstrate any significant improvement induced by new therapies.
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Quality of life of adult congenital heart disease patients: a systematic review of the literature
- Theodora Fteropoulli, Jan Stygall, Shay Cullen, John Deanfield, Stanton P. Newman
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- Published online by Cambridge University Press:
- 07 February 2013, pp. 473-485
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Aims
This review explores the quality of life of adult congenital heart disease patients and the relationship between disease severity and quality of life.
MethodsWe searched seven electronic databases and the bibliography of articles. The 31 selected studies fulfilled the following criteria: adult population; quantitative; assessment of quality of life and/or impact of disease severity on quality of life using validated measures; English language. Data extraction forms were used to summarise the results.
ResultsThere are evident methodological limitations within the reviewed studies such as heterogeneous populations, designs, and quality of life conceptualisations and measurements. Despite these problems, findings suggest that the quality of life of adult congenital heart disease patients is compromised in the physical domain compared with their healthy counterparts, whereas no differences were found in relation to the psychosocial and environmental/occupational domain. Some severity variables appear to be significant correlates of quality of life and could be considered in a future standardised classification of disease severity.
ConclusionThe methodological limitations of past research in relation to the definition and measurement of quality of life, the study designs, and disease severity classifications need to be addressed in future studies in order to provide robust evidence and valid conclusions in this area of study. This will enable the development of targeted interventions for the improvement of quality of life in the adult population of congenital heart disease patients.