Clinical, Genetic, and Biophysical Characterization of SCN5A Mutations Associated with Atrioventricular Conduction Block

Circulation. Jan, 2002  |  Pubmed ID: 11804990

BACKGROUND: Three distinct cardiac arrhythmia disorders, the long-QT syndrome, Brugada syndrome, and conduction system disease, have been associated with heterozygous mutations in the cardiac voltage-gated sodium channel alpha-subunit gene (SCN5A). We present clinical, genetic, and biophysical features of 2 new SCN5A mutations that result in atrioventricular (AV) conduction block. Methods and Results- SCN5A was used as a candidate gene in 2 children with AV block. Molecular genetic studies revealed G to A transition mutations that resulted in the substitution of serine for glycine (G298S) in the domain I S5-S6 loop and asparagine for aspartic acid (D1595N) within the S3 segment of domain IV. The functional consequences of G298S and D1595N were assessed by whole-cell patch clamp recording of recombinant mutant channels coexpressed with the beta1 subunit in a cultured cell line (tsA201). Both mutations impair fast inactivation but do not exhibit sustained non-inactivating currents. The mutations also reduce sodium current density and enhance slower inactivation components. Action potential simulations predict that this combination of biophysical abnormalities will significantly slow myocardial conduction velocity. CONCLUSIONS: A distinct pattern of biophysical abnormalities not previously observed for any other SCN5A mutant have been recognized in association with AV block. These data provide insight into the distinct clinical phenotypes resulting from mutation of a single ion channel.

Constitutively Active AMP Kinase Mutations Cause Glycogen Storage Disease Mimicking Hypertrophic Cardiomyopathy

The Journal of Clinical Investigation. Feb, 2002  |  Pubmed ID: 11827995

Mutations in PRKAG2, the gene for the gamma 2 regulatory subunit of AMP-activated protein kinase, cause cardiac hypertrophy and electrophysiologic abnormalities, particularly preexcitation (Wolff-Parkinson-White syndrome) and atrioventricular conduction block. To understand the mechanisms by which PRKAG2 defects cause disease, we defined novel mutations, characterized the associated cardiac histopathology, and studied the consequences of introducing these mutations into the yeast homologue of PRKAG2, Snf4. Although the cardiac pathology caused by PRKAG2 mutations Arg302Gln, Thr400Asn, and Asn488Ile include myocyte enlargement and minimal interstitial fibrosis, these mutations were not associated with myocyte and myofibrillar disarray, the pathognomonic features of hypertrophic cardiomyopathy caused by sarcomere protein mutations. Instead PRKAG2 mutations caused pronounced vacuole formation within myocytes. Several lines of evidence indicated these vacuoles were filled with glycogen-associated granules. Analyses of the effects of human PRKAG2 mutations on Snf1/Snf4 kinase function demonstrated constitutive activity, which could foster glycogen accumulation. Taken together, our data indicate that PRKAG2 mutations do not cause hypertrophic cardiomyopathy but rather lead to a novel myocardial metabolic storage disease, in which hypertrophy, ventricular pre-excitation and conduction system defects coexist.

KCNJ2 Mutation Results in Andersen Syndrome with Sex-specific Cardiac and Skeletal Muscle Phenotypes

American Journal of Human Genetics. Sep, 2002  |  Pubmed ID: 12148092

Evaluation of candidate loci culminated in the identification of a heterozygous missense mutation (R67W) in KCNJ2, the gene encoding the inward-rectifying potassium current, Kir2.1, in 41 members of a kindred in which ventricular arrhythmias (13 of 16 female members [81%]) and periodic paralysis (10 of 25 male members [40%]) segregated as autosomal dominant traits with sex-specific variable expressivity. Some mutation carriers exhibited dysmorphic features, including hypertelorism, small mandible, syndactyly, clinodactyly, cleft palate, and scoliosis, which, together with cardiodysrhythmic periodic paralysis, have been termed "Andersen syndrome." However, no individual exhibited all manifestations of Andersen syndrome, and this diagnosis was not considered in the proband until other family members were examined. Other features seen in this kindred included unilateral dysplastic kidney and cardiovascular malformation (i.e., bicuspid aortic valve, bicuspid aortic valve with coarctation of the aorta, or valvular pulmonary stenosis), which have not been previously associated. Nonspecific electrocardiographic abnormalities were identified in some individuals, but none had a prolonged QT interval. Biophysical characterization of R67W demonstrated loss of function and a dominant-negative effect on Kir2.1 current. These findings support the suggestion that, in addition to its recognized role in function of cardiac and skeletal muscle, KCNJ2 plays an important role in developmental signaling.

The Genetics of Congenital Heart Disease: a Point in the Revolution

Cardiology Clinics. Aug, 2002  |  Pubmed ID: 12371007

Extraordinary diagnostic precision and definitive therapies characterize the current management of congenital heart disease, but the state of the art is not perfect; and in spite of tremendous progress in diagnosis and treatment, our understanding of cause is rudimentary. During the past decade, advances in molecular genetics have defined disease gene loci and lead to identification of genes whose mutations cause congenital heart disease. Identification of additional genes and mutations will lead to improved understanding of pathophysiology of cardiovascular disease in the young. Better understanding of pathophysiology and identification of individuals at risk will provide an opportunity to develop preventive strategies. Taken as a whole, the prospect of understanding the genetic basis of congenital heart disease and translating it into improved diagnostic and therapeutic strategies has never been better.

Structure-function Relationships in Myosin Binding Protein-C: Taking off the Blinders and Collaring Hypertrophic Cardiomyopathy

Circulation Research. Oct, 2002  |  Pubmed ID: 12386140

A Common SCN5A Polymorphism Modulates the Biophysical Effects of an SCN5A Mutation

The Journal of Clinical Investigation. Feb, 2003  |  Pubmed ID: 12569159

Our understanding of the genetic basis of disease has expanded with the identification of rare DNA sequence variations ("mutations") that evoke inherited syndromes such as cystic fibrosis, congenital epilepsy, and cardiac arrhythmias. Common sequence variants ("polymorphisms") have also been implicated as risk factors in multiple diseases. Mutations in SCN5A, the cardiac Na(+) channel gene, that cause a reduction in Na(+) current may evoke severe, life-threatening disturbances in cardiac rhythm (i.e., Brugada syndrome), isolated cardiac conduction disease, or combinations of these disorders. Conduction disease is manifest clinically as heart rate slowing (bradycardia), syncope, or "lightheadedness". Recent electrophysiologic studies reveal that mutations in particular families exhibiting cardiac conduction disease cause marked effects on several competing voltage-dependent gating processes, but nonetheless cause a mild "net" reduction in Na(+) current. Here we show that a common SCN5A polymorphism (H558R) in the Na(+) channel I-II interdomain cytoplasmic linker, present in 20% of the population, can mitigate the in vitro effects of a nearby mutation (T512I) on Na(+) channel function. The mutation and the polymorphism were both found in the same allele of a child with isolated conduction disease, suggesting a direct functional association between a polymorphism and a mutation in the same gene.

Clinical, Genetic, and Biophysical Characterization of a Homozygous HERG Mutation Causing Severe Neonatal Long QT Syndrome

Pediatric Research. May, 2003  |  Pubmed ID: 12621127

Previous studies have identified mutations in five ion channel genes as a cause of long QT syndrome, a heterogeneous disorder characterized by prolongation of the QT interval, multiform ventricular tachycardia (torsades de pointes), seizures, syncope, and sudden death. However, in these studies, the average age of initial symptoms is in the third decade of life or later, and few reports have described the genetic causes of long QT syndrome presenting in the prenatal or neonatal period. We used a candidate gene approach to identify the genetic cause of long QT syndrome in an infant whose initial manifestations were detected in utero. Direct bidirectional sequencing of long QT syndrome genes identified a previously unreported HERG missense mutation (R752Q). Three asymptomatic family members were heterozygous for R752Q, and the proband, who manifested ventricular tachycardia in utero, was homozygous. R752Q was not found in 100 normal unrelated chromosomes. Paternal DNA was unavailable for testing. Transient transfection of HERG generated robust IKr, but no current was observed for the mutant HERG. The HERG mutant, R752Q, is associated with a mild phenotype, inasmuch as family members with a heterozygous mutation appear unaffected. The homozygous mutation results in absence of functional IKr, causing a profound loss of HERG channel function, creating the equivalent of a "HERG knockout" and leading to a severe phenotype.

The Genetic Origin of Atrioventricular Conduction Disturbance in Humans

Novartis Foundation Symposium. 2003  |  Pubmed ID: 12956334

Atrioventricular (AV) conduction disturbance (block) describes impairment of the electrical continuity between the atria and ventricles. Clinical classification of AV block has utilized biophysical characteristics, usually the extent (1st, 2nd, 3rd degree) and site of block (above or below His bundle recording site). The genetic significance of this classification is not known. In some cases AV block occurrence is associated with intrauterine exposure to maternal antibody (anti-Ro, anti-La), and other cases are associated with injury (e.g. surgery). Based on familial clustering of idiopathic AV block, a genetic cause has also been suspected. Published pedigrees show autosomal dominant inheritance, and associated heart disease is common (e.g. congenital heart malformation, cardiomyopathy, etc.). The latter finding is not unexpected given the common origin of working myocytes and elements of the specialized conduction system. Using genetic models incorporating reduced penetrance (presence of disease genotype in absence of phenotype), variable expressivity (presence of a disease genotype with variable phenotypes) and genetic heterogeneity (similar phenotypes, different disease genotypes), molecular genetic causes of AV block are being identified. These findings are significant as they provide insight into the molecular basis of a clinical condition previously defined only by biophysical characteristics.

TBX5: a Developmental Key That Fits Many Locks

Journal of Molecular and Cellular Cardiology. Oct, 2003  |  Pubmed ID: 14519425

Congenital Sick Sinus Syndrome Caused by Recessive Mutations in the Cardiac Sodium Channel Gene (SCN5A)

The Journal of Clinical Investigation. Oct, 2003  |  Pubmed ID: 14523039

Sick sinus syndrome (SSS) describes an arrhythmia phenotype attributed to sinus node dysfunction and diagnosed by electrocardiographic demonstration of sinus bradycardia or sinus arrest. Although frequently associated with underlying heart disease and seen most often in the elderly, SSS may occur in the fetus, infant, and child without apparent cause. In this setting, SSS is presumed to be congenital. Based on prior associations with disorders of cardiac rhythm and conduction, we screened the alpha subunit of the cardiac sodium channel (SCN5A) as a candidate gene in ten pediatric patients from seven families who were diagnosed with congenital SSS during the first decade of life. Probands from three kindreds exhibited compound heterozygosity for six distinct SCN5A alleles, including two mutations previously associated with dominant disorders of cardiac excitability. Biophysical characterization of the mutants using heterologously expressed recombinant human heart sodium channels demonstrate loss of function or significant impairments in channel gating (inactivation) that predict reduced myocardial excitability. Our findings reveal a molecular basis for some forms of congenital SSS and define a recessive disorder of a human heart voltage-gated sodium channel.

A Candidate Locus Approach Identifies a Long QT Syndrome Gene Mutation

Biological Research for Nursing. Oct, 2003  |  Pubmed ID: 14531214

Long QT syndrome is an inherited disorder that results in lengthened cardiac repolarization. It can lead to sudden onset of torsades de pointes, ventricular fibrillation, and death. The authors obtained a family history, performed electrocardiograms, and drew blood for DNA extraction and genotyping from 15 family members representing 4 generations of an affected family. Seven individuals demonstrated prolonged QT intervals. The authors used polymorphic short tandem repeat markers at known LQTS loci, which indicated linkage to chromosome 11p15.5 where the potassium channel, KCNQ1, is encoded. Polymerase chain reaction was used to amplify the coding region of KCNQ1. During survey of the KCNQ1 coding region, a G-to-A transition (G502A) was identified. DNA from all clinically affected but from none of the clinically unaffected family members carried the G-to-A transition. The candidate locus approach allowed an efficient mechanism to uncover the potassium channel mutation causing LQTS in this family.

Bidirectional Ventricular Tachycardia and Channelopathy

The American Journal of Cardiology. Oct, 2003  |  Pubmed ID: 14556882

Based on similarity of electrocardiographic features, bidirectional ventricular tachycardia has been considered a variant of long QT syndrome. Genes causing long QT syndrome were used as candidate genes in 4 patients with bidirectional ventricular tachycardia. In 2 patients, we identified a common low penetrance HERG allele (R1047L) with an intermediate biophysical phenotype.

NKX2.5 Mutations in Patients with Congenital Heart Disease

Journal of the American College of Cardiology. Nov, 2003  |  Pubmed ID: 14607454

The purpose of this study was to estimate the frequency of NKX2.5 mutations in specific cardiovascular anomalies and investigate genotype-phenotype correlations in individuals with NKX2.5 mutations.

Nkx2-5 Pathways and Congenital Heart Disease; Loss of Ventricular Myocyte Lineage Specification Leads to Progressive Cardiomyopathy and Complete Heart Block

Cell. Apr, 2004  |  Pubmed ID: 15109497

Human mutations in Nkx2-5 lead to progressive cardiomyopathy and conduction defects via unknown mechanisms. To define these pathways, we generated mice with a ventricular-restricted knockout of Nkx2-5, which display no structural defects but have progressive complete heart block, and massive trabecular muscle overgrowth found in some patients with Nkx2-5 mutations. At birth, mutant mice display a hypoplastic atrioventricular (AV) node and then develop selective dropout of these conduction cells. Transcriptional profiling uncovered the aberrant expression of a unique panel of atrial and conduction system-restricted target genes, as well as the ectopic, high level BMP-10 expression in the adult ventricular myocardium. Further, BMP-10 is shown to be necessary and sufficient for a major component of the ventricular muscle defects. Accordingly, loss of ventricular muscle cell lineage specification into trabecular and conduction system myocytes is a new mechanistic pathway for progressive cardiomyopathy and conduction defects in congenital heart disease.

Bicuspid Aortic Valve is Heritable

Journal of the American College of Cardiology. Jul, 2004  |  Pubmed ID: 15234422

Previous studies have established familial clustering of bicuspid aortic valve (BAV), presumably indicating genetic inheritance. Our objective was to statistically test whether the segregation pattern of BAV is consistent with genetic inheritance and to obtain an estimate of the size of the genetic effect (heritability).

An Intronic Mutation Causes Long QT Syndrome

Journal of the American College of Cardiology. Sep, 2004  |  Pubmed ID: 15364333

The purpose of this research was to determine whether an intronic variant (T1945+6C) in KCNH2 is a disease-causing mutation, and if expanded phenotyping criteria produce improved identification of long QT syndrome (LQTS) patients.

Biochemical Analyses of Eight NKX2.5 Homeodomain Missense Mutations Causing Atrioventricular Block and Cardiac Anomalies

Cardiovascular Research. Oct, 2004  |  Pubmed ID: 15364612

There has been considerable interest in understanding determinants of the diverse cardiac phenotypes associated with heterozygous NKX2.5 mutations. We hypothesized that analysis of functional properties of NKX2.5 mutant proteins would result in the ability to classify mutations according to function in a scheme that would help to clarify genotype-phenotype correlations. We analyzed missense mutations in the conserved homeodomain.

Genetics of Atrioventricular Conduction Disease in Humans

The Anatomical Record. Part A, Discoveries in Molecular, Cellular, and Evolutionary Biology. Oct, 2004  |  Pubmed ID: 15372490

Atrioventricular (AV) conduction disease (block) describes impairment of the electrical continuity between the atria and ventricles. Classification of AV block has utilized biophysical characteristics, usually the extent (first, second, or third degree) and site of block (above or below His bundle recording site). The genetic significance of this classification is unknown. In young patients, AV block may result from injury or be the major cardiac manifestation of neuromuscular disease. However, in some cases, AV block has unknown or idiopathic cause. In such cases, familial clustering has been noted and published pedigrees show autosomal dominant inheritance; associated heart disease is common (e.g., congenital heart malformation, cardiomyopathy). The latter finding is not surprising given the common origin of working myocytes and specialized conduction system elements. Using genetic models incorporating reduced penetrance (disease absence in some individuals with disease gene), variable expressivity (individuals with disease gene have different phenotypes), and genetic heterogeneity (similar phenotypes, different genetic cause), molecular genetic causes of AV block are being identified. Mutations identified in genes with diverse functions (transcription, excitability, and energy homeostasis) for the first time provide the means to assess risk and offer insight into the molecular basis of this important clinical condition previously defined only by biophysical characteristics.

Polymorphic Ventricular Tachycardia and KCNJ2 Mutations

Heart Rhythm : the Official Journal of the Heart Rhythm Society. Jul, 2004  |  Pubmed ID: 15851159

We sought to identify the electrophysiologic basis of life-threatening events associated with polymorphic ventricular tachycardia (PVT) in young patients with heterozygous KCNJ2 mutations. PVT describes a beat-to-beat alternating QRS axis and morphology during ventricular tachycardia. PVT may be well tolerated and even asymptomatic in young patients without other heart disease, but an association with syncope, cardiac arrest, or sudden death has long been known. Little is known of the basis of life-threatening events associated with PVT in this setting. We identified heterozygous KCNJ2 mutations (R67W and C101R respectively) in 2 adolescents with PVT (cycle length > 375 ms, < 160 beats/minute). Biophysical properties of wild-type and mutant KCNJ2 channels were characterized during heterologous expression in Xenopus oocytes. Despite a large tachycardia burden, neither patient experienced symptoms during electrocardiographic documentation of PVT. One patient had a history of cardiac arrest, but neither had other evidence of heart disease. Both patients were treated with an implantable cardioverter-defibrillator (ICD). In one patient, ICD interrogation identified rapid ventricular tachycardia (cycle length of 190 to 270 ms), terminated with a single 29-J asynchronous shock, as the cause of 2 syncopal episodes occurring 19 months apart. Biophysical characterization of KCNJ2-C101R demonstrated a loss-of-function and a dominant-negative effect on Kir2.1. Similar effects were previously observed for KCNJ2-R67W. Heterozygous mutations in KCNJ2 can cause life-threatening ventricular arrhythmias. Arrhythmia documented during cardiac arrest is rapid ventricular tachycardia; ICD is effective therapy for cardiac arrest in patients with PVT due to KCNJ2 mutation.

Electrocardiographic Features in Andersen-Tawil Syndrome Patients with KCNJ2 Mutations: Characteristic T-U-wave Patterns Predict the KCNJ2 Genotype

Circulation. May, 2005  |  Pubmed ID: 15911703

The ECG features of Andersen-Tawil syndrome (ATS) patients with KCNJ2 mutations (ATS1) have not been systematically assessed. This study aimed to define ECG features of KCNJ2 mutation carriers, to determine whether characteristic T-U-wave patterns exist, and to establish whether T-U patterns predict the ATS1 genotype.

ACCF/AHA/AAP Recommendations for Training in Pediatric Cardiology. Task Force 7: Training Guidelines for Research in Pediatric Cardiology

Journal of the American College of Cardiology. Oct, 2005  |  Pubmed ID: 16198871

ACC/AHA/AAP Recommendations for Training in Pediatric Cardiology

Pediatrics. Dec, 2005  |  Pubmed ID: 16210422

ACCF/AHA/AAP Recommendations for Training in Pediatric Cardiology. A Report of the American College of Cardiology Foundation/American Heart Association/American College of Physicians Task Force on Clinical Competence (ACC/AHA/AAP Writing Committee to Develop Training Recommendations for Pediatric Cardiology)

Circulation. Oct, 2005  |  Pubmed ID: 16230506

Genetic Analyses in Two Extended Families with Deletion 22q11 Syndrome: Importance of Extracardiac Manifestations

The Journal of Pediatrics. Mar, 2005  |  Pubmed ID: 15756225

Cardiovascular malformations (CVMs) are reported to be common (approximately 75%) in patients with deletion 22q11.2 (del22q11) syndrome. To better understand why deletions go unrecognized, we characterized the phenotype in deleted individuals in two large kindreds with particular emphasis on the presence or absence of CVM.

Differentiation of Cardiac Purkinje Fibers Requires Precise Spatiotemporal Regulation of Nkx2-5 Expression

Developmental Dynamics : an Official Publication of the American Association of Anatomists. Jan, 2006  |  Pubmed ID: 16245335

Nkx2-5 gene mutations cause cardiac abnormalities, including deficits of function in the atrioventricular conduction system (AVCS). In the chick, Nkx2-5 is elevated in Purkinje fiber AVCS cells relative to working cardiomyocytes. Here, we show that Nkx2-5 expression rises to a peak as Purkinje fibers progressively differentiate. To disrupt this pattern, we overexpressed Nkx2-5 from embryonic day 10, as Purkinje fibers are recruited within developing chick hearts. Overexpression of Nkx2-5 caused inhibition of slow tonic myosin heavy chain protein (sMHC), a late Purkinje fiber marker but did not affect Cx40 levels. Working cardiomyocytes overexpressing Nkx2-5 in these hearts ectopically up-regulated Cx40 but not sMHC. Isolated embryonic cardiomyocytes overexpressing Nkx2-5 also displayed increased Cx40 and suppressed sMHC. By contrast, overexpression of a human NKX2-5 mutant did not effect these markers in vivo or in vitro, suggesting one possible mechanism for clinical phenotypes. We conclude that a prerequisite for normal Purkinje fiber maturation is precise regulation of Nkx2-5 levels.

AHA/ACCF Scientific Statement on the Evaluation of Syncope: from the American Heart Association Councils on Clinical Cardiology, Cardiovascular Nursing, Cardiovascular Disease in the Young, and Stroke, and the Quality of Care and Outcomes Research Interdisciplinary Working Group; and the American College of Cardiology Foundation In Collaboration With the Heart Rhythm Society

Journal of the American College of Cardiology. Jan, 2006  |  Pubmed ID: 16412888

AHA/ACCF Scientific Statement on the Evaluation of Syncope: from the American Heart Association Councils on Clinical Cardiology, Cardiovascular Nursing, Cardiovascular Disease in the Young, and Stroke, and the Quality of Care and Outcomes Research Interdisciplinary Working Group; and the American College of Cardiology Foundation: in Collaboration with the Heart Rhythm Society: Endorsed by the American Autonomic Society

Circulation. Jan, 2006  |  Pubmed ID: 16418451

Transcription Factors and Congenital Heart Defects

Annual Review of Physiology. 2006  |  Pubmed ID: 16460268

Although there have been important advances in diagnostic modalities and therapeutic strategies for congenital heart defects (CHD), these malformations still lead to significant morbidity and mortality in the human population. Over the past 10 years, characterization of the genetic causes of CHD has begun to elucidate some of the molecular causes of these defects. Linkage analysis and candidate-gene approaches have been used to identify gene mutations that are associated with both familial and sporadic cases of CHD. Complementation of the human studies with developmental studies in mouse models provides information for the roles of these genes in normal development as well as indications for disease pathogenesis. Biochemical analysis of these gene mutations has provided further insight into the molecular effects of these genetic mutations. Here we review genetic, developmental, and biochemical studies of six cardiac transcription factors that have been identified as genetic causes for CHD in humans.

Trafficking-competent and Trafficking-defective KCNJ2 Mutations in Andersen Syndrome

Human Mutation. Apr, 2006  |  Pubmed ID: 16541386

Mutations in KCNJ2, the gene encoding the human inward rectifier potassium channel Kir2.1, have been identified in Andersen syndrome (or Andersen-Tawil syndrome), an inherited disorder characterized by periodic paralysis, cardiac arrhythmias, and dysmorphic features. We identified and characterized two novel KCNJ2 mutations (c.220A>G/p.T74A and c.443G>C/p.G144A) associated with Andersen syndrome. Heterologous expression of a recombinant wild type human KCNJ2 cDNA (WT-KCNJ2) in HEK-293 cells results in robust inward rectifying currents, but we did not observe measurable currents from cells expressing either mutant. Cells co-transfected with WT-KCNJ2 and either mutant exhibited substantially lower whole-cell current amplitude consistent with a dominant-negative suppression of WT-KCNJ2 by the mutant channels. Both p.T74A and p.G144A exhibit robust plasma membrane expression, but a third previously reported allele (p.C101R) exhibited impaired trafficking. Our results demonstrate functional consequences of two novel trafficking-competent KCNJ2 mutations associated with Andersen syndrome and expand our knowledge of allelic diversity in this disease.

Extracellular Matrix Remodeling and Organization in Developing and Diseased Aortic Valves

Circulation Research. Jun, 2006  |  Pubmed ID: 16645142

Heart valve disease is an important cause of morbidity and mortality worldwide. Little is known about valve disease pathogenesis, but increasing evidence implicates a genetic basis for valve disease, suggesting a developmental origin. Although the cellular and molecular processes involved in early valvulogenesis have been well described, less is known about the regulation of valve extracellular matrix (ECM) organization and valvular interstitial cell (VIC) distribution that characterize the mature valve structure. Histochemistry, immunohistochemistry, and electron microscopy were used to examine ECM organization, VIC distribution, and cell proliferation during late valvulogenesis in chicken and mouse. In mature valves, ECM organization is conserved across species, and developmental studies demonstrate that ECM stratification begins during late embryonic cusp remodeling and continues into postnatal life. Cell proliferation decreases concomitant with ECM stratification and VIC compartmentalization. Explanted, stenotic bicuspid aortic valves (BAVs) from pediatric patients were also examined. The diseased valves exhibited disruption of the highly organized ECM and VIC distribution seen in normal valves. Cusps from diseased valves were thickened with increased and disorganized collagens and proteoglycans, decreased and fragmented elastic fibers, and cellular disarray without calcification or cell proliferation. Taken together, these studies show that normal valve development is characterized by spatiotemporal coordination of ECM organization and VIC compartmentalization and that these developmental processes are disrupted in pediatric patients with diseased BAVs.

Bilateral Semilunar Valve Disease in a Child with Partial Deletion of the Williams-Beuren Syndrome Region is Associated with Elastin Haploinsufficiency

The Journal of Heart Valve Disease. May, 2006  |  Pubmed ID: 16784071

Elastin is an extracellular matrix protein that is the primary component of elastic fibers, and is expressed in the great vessels as well as the semilunar and atrioventricular valves. Elastin haploinsufficiency, resulting from mutation or deletion of the elastin gene, is an important clinical problem that is typically characterized by arteriopathy. Herein is described a patient with elastin haploinsufficiency due to partial deletion of the Williams-Beuren syndrome region, resulting in bilateral semilunar valve disease and arteriopathy. Histochemical analysis of the aortic valve revealed decreased and disorganized elastin with loss of the normal trilaminar cusp organization. These findings suggest that elastin has a role in the pathogenesis of semilunar valve disease.

Abnormalities of Diastolic Function Precede Dilated Cardiomyopathy Associated with Duchenne Muscular Dystrophy

Journal of the American Society of Echocardiography : Official Publication of the American Society of Echocardiography. Jul, 2006  |  Pubmed ID: 16824995

Outpatient Continuous Inotrope Infusion As an Adjunct to Heart Failure Therapy in Duchenne Muscular Dystrophy

Neuromuscular Disorders : NMD. Nov, 2006  |  Pubmed ID: 17005398

We report the use of continuous intravenous inotrope infusion as a palliative management strategy for the treatment of symptomatic, refractory, end stage cardiac dysfunction in patients with Duchenne muscular dystrophy. Milrinone and/or dobutamine administered by continuous intravenous infusion provided symptomatic and objective cardiovascular improvement up to 30 months in 3 individuals with Duchenne muscular dystrophy and severe dilated cardiomyopathy. Continuous inotrope infusion should be considered a practical treatment strategy for end stage cardiac dysfunction in Duchenne muscular dystrophy patients when cardiac transplantation is not a viable option.

Evidence in Favor of Linkage to Human Chromosomal Regions 18q, 5q and 13q for Bicuspid Aortic Valve and Associated Cardiovascular Malformations

Human Genetics. Apr, 2007  |  Pubmed ID: 17203300

The aim of this study was to identify regions of the genome that harbor genes influencing inheritance of bicuspid aortic valve (BAV) and/or associated cardiovascular malformation (CVM). Aortic valve disease is an important clinical problem, which often results in valve replacement, the second most common cardiac surgery in the United States. In every age group, a majority of cases of valve disease involves a BAV. BAV is the most common CVM with a reported prevalence of 1-2%. Heritability studies indicate that BAV determination is almost entirely genetic. We used a family-based genome-wide linkage analysis with microsatellite markers. Parametric and nonparametric analyses were performed with the software GENEHUNTER and SOLAR (Sequential Oligogenic Linkage Analysis Routines). Thirty-eight families (353 subjects) with BAV and/or associated CVM were assessed. Each participant underwent a standardized echocardiographic examination. The highest LOD score, 3.8, occurred on chromosome 18q between markers D18S68 and D18S1161. Two other chromosomal regions, 5q15-21 (between D5S644 and D5S2027) and 13q33-qter (between D13S1265 and 13qter), exhibited suggestive evidence of linkage (LOD > 2.0). Further, two previously reported linkage peaks on 9q34 and 17q24 were replicated in family specific analyses. No significant X chromosome linkage peaks were identified. In this genome-wide scan we demonstrate for the first time, that BAV and/or associated CVM exhibit linkage to chromosomes 18q, 5q and 13q. These regions likely contain genes whose mutation results in BAV and/or associated CVM indicating their important role in valvulogenesis and cardiac development.

Sudden Infant Death Syndrome and Long QT Syndrome: the Zealots Versus the Naysayers

Heart Rhythm : the Official Journal of the Heart Rhythm Society. Feb, 2007  |  Pubmed ID: 17275751

BMP and FGF Regulatory Pathways in Semilunar Valve Precursor Cells

Developmental Dynamics : an Official Publication of the American Association of Anatomists. Apr, 2007  |  Pubmed ID: 17326134

In the developing atrioventricular (AV) valve, limb bud, and somites, cartilage cell lineage differentiation is regulated by bone morphogenetic protein (BMP), while fibroblast growth factor (FGF) controls tendon cell fate. We observed aggrecan and sox9, characteristic of cartilage cell types, and scleraxis and tenascin, characteristic of tendon cell types, in developing avian semilunar valves. Addition of BMP4 to outflow tract (OFT) precursor cells of young (E4.5) but not older (E6) chick embryos activated Smad1/5/8 and induced sox9 and aggrecan expression, while FGF4 treatment increased phosphorylated MAPK (dpERK) signaling and promoted expression of scleraxis and tenascin. These results identify BMP and FGF pathways that promote expression of cartilage- or tendon-like characteristics in semilunar valve precursor cells. In contrast to AV valve precursor cells, which diversify into leaflets (cartilage-like) or chordae tendineae (tendon-like), semilunar valve cells exhibit both cartilage- and tendon-like characteristics in the developing and mature valve cusp.

Genetic Basis for Congenital Heart Defects: Current Knowledge: a Scientific Statement from the American Heart Association Congenital Cardiac Defects Committee, Council on Cardiovascular Disease in the Young: Endorsed by the American Academy of Pediatrics

Circulation. Jun, 2007  |  Pubmed ID: 17519398

The intent of this review is to provide the clinician with a summary of what is currently known about the contribution of genetics to the origin of congenital heart disease. Techniques are discussed to evaluate children with heart disease for genetic alterations. Many of these techniques are now available on a clinical basis. Information on the genetic and clinical evaluation of children with cardiac disease is presented, and several tables have been constructed to aid the clinician in the assessment of children with different types of heart disease. Genetic algorithms for cardiac defects have been constructed and are available in an appendix. It is anticipated that this summary will update a wide range of medical personnel, including pediatric cardiologists and pediatricians, adult cardiologists, internists, obstetricians, nurses, and thoracic surgeons, about the genetic aspects of congenital heart disease and will encourage an interdisciplinary approach to the child and adult with congenital heart disease.

Neonatal Long QT Syndrome Due to a De Novo Dominant Negative HERG Mutation

American Journal of Critical Care : an Official Publication, American Association of Critical-Care Nurses. Jul, 2007  |  Pubmed ID: 17595376

A 4-day-old girl with ventricular tachyarrhythmias, sinus bradycardia, and 2:1 atrioventricular block had prolongation of the QT interval. She was symptomatic with arching, gasping, and cyanosis presumably due to a life-threatening ventricular tachyarrhythmia such as torsades de pointes. Molecular genetic studies indicated a heterozygous, de novo, dominant negative mutation in hERG, a gene that encodes a protein in a potassium ion channel. The parents do not have the mutation. The patient's clinical scenario was produced by the convergence of 3 events: a de novo mutation occurred in hERG, the mutation was dominant negative, and the action of the mutation resulted in neonatal long QT syndrome. The child was treated aggressively and is doing well at age 6 years.

Spectrum of Heart Disease Associated with Murine and Human GATA4 Mutation

Journal of Molecular and Cellular Cardiology. Dec, 2007  |  Pubmed ID: 17643447

The transcription factor GATA4 is essential for heart morphogenesis. Heterozygous mutation of GATA4 causes familial septal defects. However, the phenotypic spectrum of heterozygous GATA4 mutation is not known. In this study, we defined the cardiac phenotypes that result from heterozygous mutation of murine Gata4. We then asked if GATA4 mutation occurs in humans with these forms of congenital heart disease (CHD). In mice, heterozygous Gata4 mutation was associated with atrial and ventricular septal defect (ASD, VSD), endocardial cushion defect (ECD), RV hypoplasia, and cardiomyopathy. Genetic background strongly influenced the expression of ECD and cardiomyopathy, indicating the presence of important genetic modifiers. In humans, non-synonymous GATA4 sequence variants were associated with ECD (2/43), ASD (1/8), and RV hypoplasia in the context of double inlet left ventricle (1/9), forms of CHD that overlapped with abnormalities seen in the mouse model. These variants were not found in at least 500 control chromosomes, and encode proteins with non-conservative amino acid substitutions at phylogenetically conserved positions, suggesting that they are disease-causing mutations. Cardiomyopathy was not associated with GATA4 mutation in humans. These data establish the phenotypic spectrum of heterozygous Gata4 mutation in mice, and suggest that heterozygous GATA4 mutation leads to partially overlapping phenotypes in humans. Additional studies will be required to determine the degree to which GATA4 mutation contributes to human CHD characterized by ECD or RV hypoplasia.

Hypoplastic Left Heart Syndrome is Heritable

Journal of the American College of Cardiology. Oct, 2007  |  Pubmed ID: 17936159

This study sought to determine the size of the genetic effect (heritability) in families identified by a hypoplastic left heart syndrome (HLHS) proband.

Inherited Arrhythmias: a National Heart, Lung, and Blood Institute and Office of Rare Diseases Workshop Consensus Report About the Diagnosis, Phenotyping, Molecular Mechanisms, and Therapeutic Approaches for Primary Cardiomyopathies of Gene Mutations Affecting Ion Channel Function

Circulation. Nov, 2007  |  Pubmed ID: 17998470

The National Heart, Lung, and Blood Institute and Office of Rare Diseases at the National Institutes of Health organized a workshop (September 14 to 15, 2006, in Bethesda, Md) to advise on new research directions needed for improved identification and treatment of rare inherited arrhythmias. These included the following: (1) Na+ channelopathies; (2) arrhythmias due to K+ channel mutations; and (3) arrhythmias due to other inherited arrhythmogenic mechanisms. Another major goal was to provide recommendations to support, enable, or facilitate research to improve future diagnosis and management of inherited arrhythmias. Classifications of electric heart diseases have proved to be exceedingly complex and in many respects contradictory. A new contemporary and rigorous classification of arrhythmogenic cardiomyopathies is proposed. This consensus report provides an important framework and overview to this increasingly heterogeneous group of primary cardiac membrane channel diseases. Of particular note, the present classification scheme recognizes the rapid evolution of molecular biology and novel therapeutic approaches in cardiology, as well as the introduction of many recently described diseases, and is unique in that it incorporates ion channelopathies as a primary cardiomyopathy in consensus with a recent American Heart Association Scientific Statement.

Mouse Heart Valve Structure and Function: Echocardiographic and Morphometric Analyses from the Fetus Through the Aged Adult

American Journal of Physiology. Heart and Circulatory Physiology. Jun, 2008  |  Pubmed ID: 18390820

The purpose of this study is to provide standard echocardiographic and morphometric data for normal mouse valve structure and function from late fetal to aged adult stages. Cross-sectional, two-dimensional and Doppler transthoracic echocardiography was performed in C57BL6 mice anesthetized with 1% to 2% isoflurane at embryonic day 18.5 (late fetal), 10 days (neonate), 1 mo (juvenile), 2 mo (young adult), 9 mo (old adult), and 16 mo (aged adult). Normal annulus dimensions indexed to age or weight, and selected flow velocities, were established by echocardiography. After echocardiographic imaging, hearts were harvested and histological and morphometric analyses were performed. Morphometric analysis demonstrated a progressive valve thinning and elongation during the fetal and juvenile stages that plateaued during adult stages (ANOVA, P < 0.01); however, there was increased thickening of the hinge of the aortic valve with advanced age, reminiscent of human aortic valve sclerosis. There was no age-related calcification. The results of this study provide comprehensive echocardiographic and morphometric data for normal mouse valve structure and function from late fetal to aged adult stages and should prove useful as a reference standard for future studies using mouse models of progressive valve disease.

Corticosteroid Treatment Retards Development of Ventricular Dysfunction in Duchenne Muscular Dystrophy

Neuromuscular Disorders : NMD. May, 2008  |  Pubmed ID: 18436445

Duchenne muscular dystrophy (DMD) is characterized by a predictable decline in cardiac function with age that contributes to early death. Although corticosteroids are a clinically effective pharmacologic therapy for skeletal muscle function, there is limited published work documenting the impact on cardiac function. The primary objective of this work is to determine benefit from steroid treatment on the development of ventricular dysfunction in DMD. We performed a historical cohort study of DMD cases undergoing serial cardiac evaluations from 1998-2006. In addition to the history of steroid use, basic medical characteristics and serial echocardiographic measures were obtained for each identified case meeting inclusion criteria. Data from initial (7.5+/-0.8 years) and follow-up (12+/-0.7 years) evaluation was collected from untreated (n=23) and steroid treated (n=14) DMD cases. Kaplan-Meier freedom from ventricular dysfunction was 93% for steroid treated cases versus 53% for untreated cases at 1500 days. Treatment with steroids was protective against ventricular dysfunction (Hazard ratio 0.16 95% CI 0.04, 0.70). We demonstrate here that steroid treatment, begun prior to ventricular dysfunction retards the anticipated development of ventricular dysfunction.

Prenatal Head Growth and White Matter Injury in Hypoplastic Left Heart Syndrome

Pediatric Research. Oct, 2008  |  Pubmed ID: 18552707

Children with hypoplastic left heart syndrome (HLHS) have an increased prevalence of central nervous system (CNS) abnormalities. The extent to which this problem is due to CNS maldevelopment, prenatal ischemia, postnatal chronic cyanosis and/or multiple exposures to cardiopulmonary bypass is unknown. To better understand the etiology of CNS abnormalities in HLHS, we evaluated 68 neonates with HLHS; in 28 cases, both fetal ultrasound and echocardiogram data were available to assess head size, head growth and aortic valve anatomy (atresia or stenosis). In addition, we evaluated neuropathology in 11 electively aborted HLHS fetuses. The mean head circumference percentile in HLHS neonates was significantly smaller than HLHS fetuses (22 +/- 2% versus 40 +/- 4%, p < 0.001). A significant decrease in head growth, defined as a 50% reduction in head circumference percentile, was observed in half (14/28) of HLHS fetuses and nearly a quarter (6/28) were already growth restricted (

Thar's Tendons in Them Thar Valves!

Circulation Research. Oct, 2008  |  Pubmed ID: 18948629

The Presence of Bicuspid Aortic Valve Does Not Predict Ventricular Septal Defect Type

American Journal of Medical Genetics. Part A. Dec, 2008  |  Pubmed ID: 19012349

Previous studies have identified an increased incidence of bicuspid aortic valve (BAV) in patients with ventricular septal defect (VSD). Because endocardial cushion remodeling contributes to both the formation of semilunar valves and ventricular septation, we hypothesized that examination of humans with BAV and VSD would identify a specific VSD type. We evaluated VSD type in pediatric patients diagnosed with BAV and VSD (n=82) and compared findings to patients diagnosed with VSD and normal aortic valve morphology (n=429). VSD type was described as conoventricular, muscular, inlet or conoseptal using a clinical taxonomy. Based on the contribution of the outflow tract endocardial cushions to the membranous ventricular septum, we expected patients with BAV to have conoventricular VSD. In both patient groups, conoventricular VSD was most common; however, the prevalence was not significantly different when BAV patients were compared to those with normal aortic valve morphology (67% vs. 57%, P=0.11). The primary finding of this study is that despite a developmental link between semilunar valve formation and ventricular septation during cardiogenesis, there is no clear association between BAV and VSD type. This may be due to phenotypic and genetic heterogeneity of BAV and VSD, other modifying factors as manifested by differences in associated CVM, as well as limitations of the clinical taxonomy of VSD.

Analysis of Ellis Van Creveld Syndrome Gene Products: Implications for Cardiovascular Development and Disease

Human Molecular Genetics. May, 2009  |  Pubmed ID: 19251731

Mutations identified in a cohort of patients with atrioventricular septal defects as a part of Ellis van Creveld syndrome (EvC syndrome) led us to study the role of two non-homologous genes, EVC and LBN, in heart development and disease pathogenesis. To address the cause of locus heterogeneity resulting in an indistinguishable heart-hand phenotype, we carried out in situ hybridization and immunofluorescence and identified co-localization of Evc and Lbn mRNA and protein. In the heart, expression was identified to be strongest in the secondary heart field, including both the outflow tract and the dorsal mesenchymal protrusion, but was also found in mesenchymal structures of the atrial septum and the atrioventricular cushions. Finally, we studied the transcriptional hierarchy of EVC and LBN but did not find any evidence of direct transcriptional interregulation between the two. Due to the locus heterogeneity of human mutations predicted to result in a loss of protein function, a bidirectional genomic organization and overlapping expression patterns, we speculate that these proteins function coordinately in cardiac development and that loss of this coordinate function results in the characteristics of EvC syndrome.

Hypoplastic Left Heart Syndrome Links to Chromosomes 10q and 6q and is Genetically Related to Bicuspid Aortic Valve

Journal of the American College of Cardiology. Mar, 2009  |  Pubmed ID: 19298921

This study was designed to identify disease loci for hypoplastic left heart syndrome (HLHS) and evaluate the genetic relationship between HLHS and bicuspid aortic valve (BAV).

Circumferential Strain Analysis Identifies Strata of Cardiomyopathy in Duchenne Muscular Dystrophy: a Cardiac Magnetic Resonance Tagging Study

Journal of the American College of Cardiology. Apr, 2009  |  Pubmed ID: 19341862

This study sought to evaluate the natural history of occult cardiac dysfunction in Duchenne muscular dystrophy (DMD).

Genetic Characterization of Familial CPVT After 30 Years

Biological Research for Nursing. Jul, 2009  |  Pubmed ID: 19398417

Catecholaminergic polymorphic ventricular tachycardia (CPVT) is a stress-related, bidirectional ventricular tachycardia and atrial tachyarrhythmia in the absence of either structural heart disease or prolonged QT interval. Autosomal dominant and recessive forms of CPVT because of mutations in the cardiac ryanodine receptor (RyR2) or calsequestrin 2 (CASQ2) have been reported. The objective of this study was the clinical and genetic characterization of the family of an individual initially diagnosed as a child in 1978.

The Role of Mitochondrial Genome in Essential Hypertension in a Chinese Han Population

European Journal of Human Genetics : EJHG. Nov, 2009  |  Pubmed ID: 19401720

Earlier genetic studies of essential hypertension have focused on nuclear genes or family-based mitochondrial screening in Caucasian and African-American pedigrees. The role of mitochondria in sporadic Chinese hypertensives is unknown. We sequenced mitochondrial genomes in 306 age- and gender-balanced Chinese Han hypertensives and controls. In 153 hypertensives, putative functional changes included 4 changes in rRNA genes, 11 changes in tRNA genes and 25 amino-acid substitutions. The remaining variants were synonymous changes or non-coding regions. In the 153 controls, 2 base changes in the tRNA genes and 13 amino-acid substitutions were found. A8701G in ATP6 gene (belongs to haplogroup M; P=0.0001) and C8414T in ATP8 gene (belongs to haplogroup D; P=0.01) were detected significantly different in the cases and controls. Interestingly, the cases were more likely to have two or more amino-acid changes and RNA variants compared with the controls (57.43 versus 23.81%, P=0.0001). In addition, several variants we found were highly conserved and/or specifically located at the 3' end adjacent to the anticodon, which may contribute to the stabilization of structure, and thus lead to the decrease of tRNA metabolism. In conclusion, mitochondrial SNPs (mtSNPs) may affect the course of hypertension in sporadic Chinese hypertensives. Some specific mtSNP within mitochondria may have potential role in the Chinese hypertensives due to their function. Synergetic interaction between mitochondrial mtSNPs and/or haplogroups is needed to be investigated in the future.

Compound Heterozygous SCN5A Mutations: Does the Sum of the Parts Equal the Whole?

Heart Rhythm : the Official Journal of the Heart Rhythm Society. Aug, 2009  |  Pubmed ID: 19560406

Deletion of ETS-1, a Gene in the Jacobsen Syndrome Critical Region, Causes Ventricular Septal Defects and Abnormal Ventricular Morphology in Mice

Human Molecular Genetics. Feb, 2010  |  Pubmed ID: 19942620

Congenital heart defects comprise the most common form of major birth defects, affecting 0.7% of all newborn infants. Jacobsen syndrome (11q-) is a rare chromosomal disorder caused by deletions in distal 11q. We have previously determined that a wide spectrum of the most common congenital heart defects occur in 11q-, including an unprecedented high frequency of hypoplastic left heart syndrome (HLHS). We identified an approximately 7 Mb 'cardiac critical region' in distal 11q that contains a putative causative gene(s) for congenital heart disease. In this study, we utilized chromosomal microarray mapping to characterize three patients with 11q- and congenital heart defects that carry interstitial deletions overlapping the 7 Mb cardiac critical region. We propose that this 1.2 Mb region of overlap harbors a gene(s) that causes at least a subset of the congenital heart defects that occur in 11q-. We demonstrate that one gene in this region, ETS-1 (a member of the ETS family of transcription factors), is expressed in the endocardium and neural crest during early mouse heart development. Gene-targeted deletion of ETS-1 in mice in a C57/B6 background causes, with high penetrance, large membranous ventricular septal defects and a bifid cardiac apex, and less frequently a non-apex-forming left ventricle (one of the hallmarks of HLHS). Our results implicate an important role for the ETS-1 transcription factor in mammalian heart development and should provide important insights into some of the most common forms of congenital heart disease.

Genetic Origins of Pediatric Heart Disease

Pediatric Cardiology. Apr, 2010  |  Pubmed ID: 20033147

Pediatric heart disease comprises many forms of cardiovascular disease in the young including cardiovascular malformations (CVM), cardiomyopathies, vasculopathies, e.g., Marfan syndrome, and cardiac arrhythmias. CVM are an important component of pediatric heart disease and constitute a major portion of clinically significant birth defects. In the past decade, the complementary nature of genetic, developmental, and biochemical approaches have contributed to extraordinary advances in understanding the origins of pediatric heart disease. Results of the studies of the cardiac transcription factor, NKX2.5, illustrate these accomplishments and at the same time provide a forecast of the nature of future genetic studies to better understand the origins of pediatric heart disease.

Comparison of Magnetic Resonance Feature Tracking for Strain Calculation with Harmonic Phase Imaging Analysis

JACC. Cardiovascular Imaging. Feb, 2010  |  Pubmed ID: 20159640

To compare a steady-state free precession cine sequence-based technique (feature tracking [FT]) to tagged harmonic phase (HARP) analysis for peak average circumferential myocardial strain (epsilon(cc)) analysis in a large and heterogeneous population of boys with Duchenne muscular dystrophy (DMD).

Complex Story of the Genetic Origins of Pediatric Heart Disease

Circulation. Mar, 2010  |  Pubmed ID: 20212285

Left Ventricular T2 Distribution in Duchenne Muscular Dystrophy

Journal of Cardiovascular Magnetic Resonance : Official Journal of the Society for Cardiovascular Magnetic Resonance. 2010  |  Pubmed ID: 20298602

Although previous studies have helped define the natural history of Duchenne muscular dystrophy (DMD)-associated cardiomyopathy, the myocardial pathobiology associated with functional impairment in DMD is not yet known.The objective of this study was to assess the distribution of transverse relaxation time (T2) in the left ventricle (LV) of DMD patients, and to determine the association of myocardial T2 heterogeneity to the severity of cardiac dysfunction. DMD patients (n = 26) and normal control subjects (n = 13) were studied by cardiovascular magnetic resonance (CMR). DMD subject data was stratified based on subject age and LV ejection fraction (EF) into the following groups: A (<12 years old, n = 12); B (>or=12 years old, EF or=12 years old, EF = 55%, n = 6). Controls were also stratified by age into Groups N1 (<12 years, n = 6) and N2 (>12 years, n = 5). LV mid-slice circumferential myocardial strain (epsilon cc) was calculated using tagged CMR imaging. T2 maps of the LV were generated for all subjects using a black blood dual spin echo method at two echo times. The full width at half maximum (FWHM) was calculated from a histogram of LV T2 distribution constructed for each subject.

A Management Strategy for Fetal Immune-mediated Atrioventricular Block

The Journal of Maternal-fetal & Neonatal Medicine : the Official Journal of the European Association of Perinatal Medicine, the Federation of Asia and Oceania Perinatal Societies, the International Society of Perinatal Obstetricians. Dec, 2010  |  Pubmed ID: 20384469

The purpose of this study is to describe an in utero management strategy for fetuses with immune-mediated 2° or 3° atrioventricular (AV) block.

Detection of Progressive Cardiac Dysfunction by Serial Evaluation of Circumferential Strain in Patients with Duchenne Muscular Dystrophy

The American Journal of Cardiology. May, 2010  |  Pubmed ID: 20451693

The present study evaluated progressive cardiac dysfunction using serial circumferential strain (epsilon(cc)) measurements in patients with Duchenne muscular dystrophy (DMD). DMD is characterized by progressive cardiac dysfunction and myocardial fibrosis late in the disease process. We hypothesized that serial epsilon(cc) changes could be detected in individual patients with DMD during a time when the left ventricular ejection fraction (EF) changes are insignificant. Cardiac magnetic resonance imaging data from patients with DMD were evaluated. The left ventricular EF was calculated from steady-state free precession cine images and the composite epsilon(cc) measurement from tagged cine images. The serial epsilon(cc) and EF values for each patient were analyzed using the Wilcoxon sign rank test. Data from 51 patients with DMD (2 studies per patient, mean age at the initial study 11.8 +/- 3.5 years, range 7.4 to 25.4) were analyzed, with a mean interval between cardiac magnetic resonance studies of 15.6 +/- 6.0 months (range 6.2 to 28.1). In the interval between studies, the epsilon(cc) had decreased in all patients with DMD. The average decrease was 1.8 +/- 1.3 (p <0.001). However, the EF had decreased in 33 of the 51 patients and had increased in 18 of the 51 patients. On average, the EF decreased by 2.9 +/- 8.57% (p = NS). In conclusion, in patients with DMD, epsilon(cc) abnormalities indicate progression within a relatively short period when the EF changes were not significant. Serial epsilon(cc) measurements might provide reliable monitoring of the progression of DMD-associated cardiac dysfunction before overt heart failure develops, because it is more sensitive than the EF.

Elastin Haploinsufficiency Results in Progressive Aortic Valve Malformation and Latent Valve Disease in a Mouse Model

Circulation Research. Aug, 2010  |  Pubmed ID: 20576933

Elastin is a ubiquitous extracellular matrix protein that is highly organized in heart valves and arteries. Because elastic fiber abnormalities are a central feature of degenerative valve disease, we hypothesized that elastin-insufficient mice would manifest viable heart valve disease.

Looking Down the Atrioventricular Canal

Cardiovascular Research. Nov, 2010  |  Pubmed ID: 20855523

Genetics of Sick Sinus Syndrome

Cardiac Electrophysiology Clinics. Dec, 2010  |  Pubmed ID: 21499520

Electrocardiographic Abnormalities in Very Young Duchenne Muscular Dystrophy Patients Precede the Onset of Cardiac Dysfunction

Neuromuscular Disorders : NMD. Jul, 2011  |  Pubmed ID: 21571532

Overt cardiac involvement in Duchenne muscular dystrophy (DMD) typically occurs later in the disease. The primary aim was to estimate the proportion of young (<6 years of age) DMD patients with manifestations of cardiac disease by electrocardiography (ECG). Secondary aims were to assess associations between ECG abnormalities and evidence of cardiac disease by echocardiography, as well as to estimate the relationship between dystrophin mutation site and an abnormal ECG. Seventy eight steroid-naive DMD patients <6 years of age were identified. ECG abnormalities were identified in 78%, with LV pathology being the most commonly identified pattern. Only one echocardiogram was abnormal. There was no statistically significant relationship identified between ECG abnormalities and dystrophin genotype. ECG abnormalities are common in very young DMD patients, signaling cardiac involvement well before the onset of clinical symptoms.

Congenital Sick Sinus Syndrome with Atrial Inexcitability and Coronary Sinus Flutter

Circulation. Arrhythmia and Electrophysiology. Oct, 2011  |  Pubmed ID: 22010118

Effects of Steroids and Angiotensin Converting Enzyme Inhibition on Circumferential Strain in Boys with Duchenne Muscular Dystrophy: a Cross-sectional and Longitudinal Study Utilizing Cardiovascular Magnetic Resonance

Journal of Cardiovascular Magnetic Resonance : Official Journal of the Society for Cardiovascular Magnetic Resonance. 2011  |  Pubmed ID: 22011358

Steroid use has prolonged ambulation in Duchenne muscular dystrophy (DMD) and combined with advances in respiratory care overall management has improved such that cardiac manifestations have become the major cause of death. Unfortunately, there is no consensus for DMD-associated cardiac disease management. Our purpose was to assess effects of steroid use alone or in combination with angiotensin converting enzyme inhibitors (ACEI) or angiotension receptor blocker (ARB) on cardiovascular magnetic resonance (CMR) derived circumferential strain (εcc).

Developmentally Regulated SCN5A Splice Variant Potentiates Dysfunction of a Novel Mutation Associated with Severe Fetal Arrhythmia

Heart Rhythm : the Official Journal of the Heart Rhythm Society. Nov, 2011  |  Pubmed ID: 22064211

BACKGROUND: Congenital long-QT syndrome (LQTS) may present during fetal development and can be life-threatening. The molecular mechanism for the unusual early onset of LQTS during fetal development is unknown. OBJECTIVE: We sought to elucidate the molecular basis for severe fetal LQTS presenting at 19 weeks' gestation, the earliest known presentation of this disease. METHODS: Fetal magnetocardiography was used to demonstrated torsades de pointes and a prolonged rate-corrected QT interval. In vitro electrophysiological studies were performed to determine functional consequences of a novel SCN5A mutation found in the fetus. RESULTS: The fetus presented with episodes of ventricular ectopy progressing to incessant ventricular tachycardia and hydrops fetalis. Genetic analysis disclosed a novel, de novo heterozygous mutation (L409P) and a homozygous common variant (R558 in SCN5A). In vitro electrophysiological studies demonstrated that the mutation in combination with R558 caused significant depolarized shifts in the voltage dependence of inactivation and activation, faster recovery from inactivation, and a 7-fold higher level of persistent current. When the mutation was engineered in a fetal-expressed SCN5A splice isoform, channel dysfunction was markedly potentiated. Also, R558 alone in the fetal splice isoform evoked a large persistent current, and hence both alleles were dysfunctional. CONCLUSION: We report the earliest confirmed diagnosis of symptomatic LQTS and present evidence that mutant cardiac sodium channel dysfunction is potentiated by a developmentally regulated alternative splicing event in SCN5A. Our findings provide a plausible mechanism for the unusual severity and early onset of cardiac arrhythmia in fetal LQTS.

Spontaneous Rupture of Atrioventricular Valve Tensor Apparatus As Late Manifestation of Anti-Ro/SSA Antibody-mediated Cardiac Disease

The American Journal of Cardiology. Mar, 2011  |  Pubmed ID: 21247531

Atrioventricular (AV) block and endocardial fibroelastosis associated with dilated cardiomyopathy are the most common clinical manifestations of anti-Ro/SSA-mediated fetal cardiac disease. Valvar dysfunction has not been a prominent feature of this disease; however, recent anecdotal cases have suggested an association between rupture of the AV valve tensor apparatus and maternal anti-Ro/SSA antibodies. In the present study, we have described the clinical and laboratory findings and reviewed the published data for infants of anti-Ro/SSA-positive pregnancies with AV valve insufficiency due to chordal rupture from the papillary muscles. The histopathologic features of the papillary muscle and ventricular free wall and septum biopsy specimens were examined and compared to the sections of AV leaflets from 6 autopsied fetuses with anti-Ro/SSA-mediated complete AV block without chordal disruption. Specific epitopes to the p200 region of Ro52, and Ro60 antibodies were evaluated in cases with chordal rupture. Severe AV valve insufficiency was detected prenatally (as early as 34 weeks of gestation) or postnatally (as late as 182 days) after areas of patchy echogenicity were noted in the papillary muscle at 19 to 22 weeks of gestation. Postnatally, urgent valve surgery was performed in 5 of 6 patients; 1 of 6 patients died preoperatively. All patients tested positive for Ro52. Valve leaflet tissue from the autopsy specimens was normal. The ventricular free wall and septum biopsy specimens from a patient with chordal rupture showed normal tissue; however, the papillary muscle biopsy specimens demonstrated severe atrophy with near total replacement of myocytes by fibrosis and dystrophic calcifications, and negative immunochemistry findings. In conclusion, these findings have defined an underappreciated complication of fetal antibody-mediated cardiac inflammation.

Presence of Mechanical Dyssynchrony in Duchenne Muscular Dystrophy

Journal of Cardiovascular Magnetic Resonance : Official Journal of the Society for Cardiovascular Magnetic Resonance. 2011  |  Pubmed ID: 21288342

Cardiac dysfunction in boys with Duchenne muscular dystrophy (DMD) is a leading cause of death. Cardiac resynchronization therapy (CRT) has been shown to dramatically decrease mortality in eligible adult population with congestive heart failure. We hypothesized that mechanical dyssynchrony is present in DMD patients and that cardiovascular magnetic resonance (CMR) may predict CRT efficacy.

Risk Factors for Aortic Valve Disease in Bicuspid Aortic Valve: a Family-based Study

American Journal of Medical Genetics. Part A. May, 2011  |  Pubmed ID: 21480482

Bicuspid aortic valve (BAV) is the most common cardiovascular malformation and is a risk factor for aortic valve disease (AVD). AVD typically manifests later in life, and the majority of cases have BAV. The purpose of this study was to identify risk factors for AVD in individuals with BAV. Families enriched for BAV were identified in a pediatric population, and echocardiography was performed on all family members. AVD was identified as stenosis and/or insufficiency, and BAV morphology was defined as right-left (RL), right-non (RN) or indeterminate. Heritability (h(2)) of AVD and BAV morphology was estimated using variance components analysis (SOLAR). To assess AVD risk over time, we used Generalized Estimating Equations methodology (SAS) adjusting for age and gender. A total of 1,128 individuals from 226 families were evaluated. BAV was identified in 281 individuals (25%), and AVD was identified in 167 (59%) individuals with BAV. Previously, we identified a high heritability for BAV (h(2)  = 0.89 ± 0.06, P < 0.00001), but the heritability of AVD in the present study (0.07 ± 0.17, P = 0.33) was low. AVD was significantly associated with BAV morphology (P = 0.0027) and age (P = 0.0068). Children with RN BAV and adults with RL BAV were more likely to develop AVD. BAV is determined largely by genetic effects, but the phenotypic variability of AVD is primarily determined by nongenetic factors. BAV morphology may have predictive value for the time course of AVD.

Aorta Measurements Are Heritable and Influenced by Bicuspid Aortic Valve

Frontiers in Genetics. 2011  |  Pubmed ID: 22303356

Objectives: To determine whether the contributions of genetics and bicuspid aortic valve (BAV) independently influence aortic (Ao) dimensions. Background: Ao dilation is a risk factor for aneurysm, dissection, and sudden cardiac death. Frequent association of BAV with Ao dilation implicates a common underlying defect possibly due to genetic factors. Methods: Families enriched for BAV underwent standardized transthoracic echocardiography. In addition to BAV status, echocardiographic measures of Ao (annulus to descending Ao), pulmonary artery, and mitral valve annulus (MVA) diameters were obtained. Using variance components analysis, heritability was estimated with and without BAV status. Additionally, bivariate genetic analyses between Ao dimensions and BAV were performed. Results: Our cohort was obtained from 209 families enriched for BAV. After adjusting for age, body surface area, and sex, individuals with BAV had a statistically significant increase in all echocardiographic measurements (p < 0.006) except descending Ao and MVA. Individuals with BAV were at greater odds of having Ao dilation (OR = 4.44, 95% CI 2.93-6.72) than family members without BAV. All echocardiographic measurements exhibited moderate to strong heritability (0.25-0.53), and these estimates were not influenced by inclusion of BAV as a covariate. Bivariate genetic analyses supported that the genetic correlation between BAV and echo measures were not significantly different from zero. Conclusion: We show for the first time that echocardiographic measurements of Ao, pulmonary artery and MVA diameters are quantitative traits that exhibit significant heritability. In addition, our results suggest the presence of BAV independently influences the proximal Ao and pulmonary artery measures but not those in the descending Ao or MVA.

Magnetic Resonance Imaging Assessment of Cardiac Dysfunction in δ-sarcoglycan Null Mice

Neuromuscular Disorders : NMD. Jan, 2011  |  Pubmed ID: 20934875

Delta-sarcoglycan (δ-sarcoglycan) null, Scgd(-/-), mice develop cardiac and skeletal muscle histopathological alterations similar to those in humans with limb-girdle muscular dystrophy. The objective of this study was to assess the feasibility of using MRI to investigate cardiac dysfunction in Scgd(-/-) mice. Cardiac MRI of 8 month old Scgd(-/-) and wild type (WT) mice was performed. Compared to WT, Scgd(-/-) mice had significantly lower LV ejection fraction (44±5% vs. 66±4%, p=0.014), lower RV ejection fraction (25±2% vs. 51±3%, p<0.001) lower myocardial circumferential strain, (15.0±0.3% vs. 16.9±0.3%, p=0.007) and RV dilatation (54±3 μL vs. 40±3 μL, p=0.007). The regional circumferential strain also demonstrated significant temporal dyssynchrony between opposing regions of the Scgd(-/-) LV. Our results demonstrate severe cardiac dysfunction in Scgd(-/-) mice at 8 months. The study identifies a set of non-invasive markers that could be used to study efficacy of novel therapeutic agents in dystrophic mice.

Patterns of Left Ventricular Remodeling in Patients with Duchenne Muscular Dystrophy: a Cardiac MRI Study of Ventricular Geometry, Global Function, and Strain

The International Journal of Cardiovascular Imaging. Jan, 2012  |  Pubmed ID: 21222036

The cardiac disease ubiquitously associated in Duchenne Muscular Dystrophy (DMD) has traditionally been considered a progressive dilated cardiomyopathy (DCM). However, left ventricular (LV) dilatation as measured with cardiac MRI has not been a consistent finding in this population, even as circumferential strain (ε(cc)) declines with advancing disease. We hypothesized that a distinct pattern of changes in LV geometry, during the course of ε(cc) decline, distinguishes DMD associated heart disease from DCM. Using CMR, LV end-diastolic volume (EDV), mass (LVM), ejection fraction, ε(cc) and myocardial delayed enhancement (MDE) were determined in DMD patients and normal control subjects. The LV Remodeling Index (LVRI) was calculated as the ratio of LV Mass to Volume (LVM/EDV). Statistical comparisons between all LV parameters and genotype were also performed. Median LVRI in DMD (n = 127) and control subjects (n = 41) were different (0.75 vs. 0.65, P = 0.0150) but within normal range. Furthermore, the median LVRI in DMD boys with reduced LV systolic function was significantly reduced compared to those with normal LV systolic function (0.64 vs. 0.75, P = 0.0974). However, the presence of MDE was associated with a lower median LVRI (0.57 vs. 0.76, P = 0.0471). Regression analysis showed no significant correlation between ε(cc) and LVRI (r = -0.03). The LVRI of DMD patients is unexpectedly normal and not correlated with ε(cc.) Based on these findings, DMD-associated heart disease exhibits a unique remodeling pattern distinct from DCM.

Hypoplastic Left Heart Syndrome: Current Considerations and Expectations

Journal of the American College of Cardiology. Jan, 2012  |  Pubmed ID: 22192720

In the recent era, no congenital heart defect has undergone a more dramatic change in diagnostic approach, management, and outcomes than hypoplastic left heart syndrome (HLHS). During this time, survival to the age of 5 years (including Fontan) has ranged from 50% to 69%, but current expectations are that 70% of newborns born today with HLHS may reach adulthood. Although the 3-stage treatment approach to HLHS is now well founded, there is significant variation among centers. In this white paper, we present the current state of the art in our understanding and treatment of HLHS during the stages of care: 1) pre-Stage I: fetal and neonatal assessment and management; 2) Stage I: perioperative care, interstage monitoring, and management strategies; 3) Stage II: surgeries; 4) Stage III: Fontan surgery; and 5) long-term follow-up. Issues surrounding the genetics of HLHS, developmental outcomes, and quality of life are addressed in addition to the many other considerations for caring for this group of complex patients.