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Congenital Heart Disease

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Congenital Heart Disease Jie Tian M.D. Children s Hospital of CUMS Epidemiology of CHD Prevalence CHD occurs in 0.5-0.8% of live births; The incidence is higher ... – PowerPoint PPT presentation

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Title: Congenital Heart Disease


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Congenital Heart Disease
Jie Tian M.D. Childrens Hospital of CUMS
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Epidemiology of CHD
  • Prevalence
  • CHD occurs in 0.5-0.8 of live births
  • The incidence is higher among stillborns??(3-4),
    abortuses??(10-25), and premature infants
    (about 2 excluding PDA)
  • About 2-3 in 1,000 newborn infants will be
    symptomatic with heart disease in the first year
    of life.

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Epidemiology of CHD
  • Prevalence
  • The diagnosis is established by 1 week of age in
    40-50 of patients with CHD and by 1 month of age
    in 50-60 patients
  • With the advances in both palliative??and
    corrective surgery of the last 20 years, the
    number of children with CHD surviving to
    adulthood has increased dramatically

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Epidemiology of CHD
  • Prevalence
  • Despite these advances, CHD remains the leading
    cause of death in children with congenital
    malformations
  • Most congenital defects are well tolerated in the
    fetus because of the parallel nature of the fetal
    circulation.

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Epidemiology of CHD
  • Etiology
  • The cause of most CHD is unknown.
  • Genetic factors play some role in CHD.
  • About eight percent of cases result mainly from
    genetic factors. The heart defect is usually part
    of a chromosomal disorder such as Down's
    syndrome. However, no specific gene locus for CHD
    has been identified.

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Epidemiology of CHD
  • Etiology
  • A child born to a parent with CHD has a
    substantially???increased likelihood of having a
    similar congenital lesion. The risk may be as
    high as 15 percent. For certain lesions, there
    appears to be a greater risk of transmission from
    the mother than from the father.

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Epidemiology of CHD
  • Etiology
  • About two percent of cases of CHD are primarily
    the result of environmental or external factors.
    Such factors include rubella??infection and
    ingestion of certain drugs, such as lithium?. CHD
    is a prominent component of the fetal alcohol
    syndrome.
  • The etiologic role of other agents, such as
    anticonvulsant medications and exogenous??female
    sex hormones, is uncertain.

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Noninvasive Diagnostic Studies
  • Chest X ray
  • The location of the heart
  • The size of the heart
  • The relationship between heart and great vessel
  • The blood flow of the lung

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Noninvasive Diagnostic Studies
  • Echocardiography
  • Echocardiography has great value in assessing
    congenital cardiac anomalies and should usually
    be the first advanced diagnostic study to be
    carried out if the history, the physical
    examination, the chest X ray, and the
    electrocardiogram suggest the presence of
    congenital heart disease.

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Noninvasive Diagnostic Studies
  • Echocardiography
  • The standard M-mode display and the
    two-dimensional display provide such information
    about cardiac anatomy as
  • the size of the cardiac chambers,
  • the connections of the great vessels,
  • abnormalities of the valves,
  • and subvalvular obstructions.

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Noninvasive Diagnostic Studies
  • Doppler ultrasonography
  • Doppler ultrasonography is useful in detecting
    septal defects and directly assessing the amount
    of blood that shunts through the defect.
  • The size of the shunt through a septal defect can
    also be estimated from Doppler ultrasound studies
    by comparing the velocity of the blood flow
    through the aorta with velocity through the
    pulmonary artery.

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Noninvasive Diagnostic Studies
  • Transesophageal echocardiography
  • Transesophageal echocardiography is particularly
    valuable for assessing atrial septal defects, but
    it also visualizes other lesions effectively.
    Doppler studies are useful in assessing valvular
    stenosis and regurgitation as well.

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Noninvasive Diagnostic Studies
  • Computed tomography (CT)
  • CT provides a good display of the anatomic
    abnormalities associated with congenital heart
    disease and offers advantages over
    echocardiography in demonstrating anomalies
    involving the great vessels.

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Computed tomography
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Noninvasive Diagnostic Studies
  • Magnetic resonance imaging (MRI)
  • MRI provides information similar to that provided
    by CT.
  • MRI offers better resolution than CT without the
    disadvantages of the radiopaque?????contrast
    medium used in that technique.

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Noninvasive Diagnostic Studies
  • Cardiac catheterization and selective
    angiocardiography
  • are the most definitive diagnostic techniques
    currently available for use in congenital heart
    disease.
  • However, noninvasive studies often provide
    information that is equivalent to that obtained
    from cardiac catheterization and is sufficient
    for planning surgical treatment.

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Congenital Cardiac Anomalies in Children
  • Ventricular Septal Defect (VSD)
  • VSD is the most common congenital cardiac anomaly
    in infants. It is rarely seen in adults because
    substantial VSD that are not corrected surgically
    are associated with a high mortality. In
    addition, the incidence of spontaneous closure of
    VSD is relatively high closure occurs
    particularly often in infancy but also in later
    years.

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Congenital Cardiac Anomalies in Children
  • Ventricular Septal Defect
  • The VSD that do appear in adults as isolated
    anomalies are usually less than 1 cm in diameter.
    Because the opening is quite small, normal
    systolic pressure can be maintained in the right
    ventricle and in the pulmonary artery.

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Congenital Cardiac Anomalies in Children
  • Ventricular Septal Defect
  • In infants with a large VSD, medical management
    has two aims to control heart failure and to
    prevent the development of pulmonary vascular
    disease. Therapeutic measures are aimed at the
    control of heart failure symptoms and the
    maintenance of normal growth.

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Congenital Cardiac Anomalies in Children
  • Ventricular Septal Defect
  • Indications for surgical closure of VSD include
    patients at any age with large defects in whom
    clinical symptoms and failure to thrive cannot be
    controlled medically.
  • Infants between 6 and 12 mo of age with large
    defects associated with pulmonary hypertension,
    even if symptoms are controlled by medication.

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Congenital Cardiac Anomalies in Children
  • Ventricular Septal Defect
  • Surgical closure is usually undertaken to prevent
    infective endocarditis . The incidence of this
    complication is not well established, but surgery
    appears to be highly effective as a prophylactic
    measure.

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Congenital Cardiac Anomalies in Children
  • Atrial Septal Defect (ASD)
  • ASD is the most frequent congenital lesion of
    major importance in adults. It is often not
    diagnosed until adult life, even in the present
    era, because it rarely produces symptoms in
    childhood and the associated physical signs are
    easily confused with the cardiac findings in
    normal children.

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Congenital Cardiac Anomalies in Children
  • Atrial Septal Defect
  • Three types of atrial septal defect are
    classified on an anatomic basis ostium
    secundum???, sinus venosus, and ostium primum???.
    All three types are associated with a
    left-to-right shunt at the atrial level and
    volume overwork of the right ventricle.

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Congenital Cardiac Anomalies in Children
  • Atrial Septal Defect
  • Blood is chronically overcirculated through the
    lungs at normal intracardiac pressure levels.
    Increased flow through the pulmonary valve
    produces a characteristic pulmonary systolic
    ejection murmur. The pulmonary valve closes late
    because of the reduced impedance?? in the
    pulmonary arterial system, causing a wide
    splitting of the second heart sound, the other
    classic finding in ASD.

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Congenital Cardiac Anomalies in Children
  • Atrial Septal Defect
  • The splitting remains relatively fixed in
    relation to respiration the aortic and pulmonary
    components remain audibly split during
    expiration. A chest x-ray usually reveals
    enlargement of the heart and signs of pulmonary
    overcirculation, such as a large pulmonary trunk
    and increased pulmonary vascular markings. The
    relative severity of these conditions reflects
    the size of the left-to-right shunt.

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Congenital Cardiac Anomalies in Children
  • Atrial Septal Defect
  • Two major complications of ASD are pulmonary
    arterial hypertension and right ventricular
    failure. Pulmonary arterial hypertension is
    caused by elevated pulmonary vascular resistance
    it develops after adolescence in about 15 percent
    of cases. In the most severe cases, an
    irreversible plexiform arteriopathy??????,
    similar to that seen in Eisenmenger syndrome or
    primary pulmonary hypertension, is present.

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Congenital Cardiac Anomalies in Children
  • Atrial Septal Defect
  • As a result of pulmonary hypertension, the
    left-to-right shunt first decreases, then becomes
    bidirectional, and finally reverses a right
    ventricular pressure overload develops, pulmonary
    blood flow is reduced, and the patient becomes
    cyanotic.

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Congenital Cardiac Anomalies in Children
  • Atrial Septal Defect
  • Right ventricular failure develops as a result of
    long-standing volume overload it usually affects
    patients older than 40 years. Right ventricular
    failure is usually associated with atrial flutter
    or fibrillation and is often linked to tricuspid
    regurgitation. Eventually, a syndrome of right-
    and left-sided congestive heart failure develops,
    and at this stage, it may be difficult to
    differentiate clinically between ASD and such
    conditions as cardiomyopathy and mitral valve
    disease.

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Congenital Cardiac Anomalies in Children
  • Atrial Septal Defect
  • Surgical closure of ASD is a very safe and highly
    effective procedure. Prophylactic surgery is
    therefore indicated in any patient in whom the
    ratio of pulmonary blood flow to systemic blood
    flow is 21 or greater. Nearly all patients in
    whom ASD can be clinically diagnosed exhibit at
    least this degree of left-to-right shunt.

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Congenital Cardiac Anomalies in Children
  • Atrial Septal Defect
  • Surgery is contraindicated ??????? when pulmonary
    hypertension approaches the pressure level of the
    systemic circulation because in such patients the
    operative mortality is high and the elevated
    pulmonary vascular resistance does not fall after
    surgery.

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Congenital Cardiac Anomalies in Children
  • Atrial Septal Defect
  • Nonsurgical closure using cardiac catheterization
    with an umbrellalike device has been accomplished
    in patients with defects less than 2 cm in
    diameter, most of whom have been infants or small
    children.

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Congenital Cardiac Anomalies in Children
  • Tetralogy of Fallot
  • The essential anatomic components of tetralogy of
    Fallot are ventricular septal defect and
    pulmonary stenosis. The degree of stenosis is
    usually severe enough to cause a predominantly
    right-to-left shunt, cyanosis, and diminished
    pulmonary blood flow. The pulmonary stenosis may
    be either valvular or infundibular the
    infundibular form usually predominates in adults.

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Congenital Cardiac Anomalies in Children
  • Tetralogy of Fallot
  • The other two anatomic features present in
    tetralogy of Fallot are an overriding aorta and
    right ventricular hypertrophy. Variations exist
    in the degree of dextroposition of the aorta, but
    this anatomic defect rarely has functional
    importance.

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Congenital Cardiac Anomalies in Children
  • Tetralogy of Fallot
  • The technique of the totally corrective operation
    has been well established since the 1960s, and
    the defect is usually repaired in infancy or
    childhood. Patients who survive to adulthood
    without an operation or with only a palliative
    shunt operation, in which a systemic artery is
    anastomosed??to the pulmonary artery, may display
    fairly good effort tolerance, show little or no
    cyanosis, and have a seemingly good prognosis.

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Congenital Cardiac Anomalies in Children
  • Tetralogy of Fallot
  • Such patients, however, may become increasingly
    disabled as a result of gradual shunt closure and
    the progression of infundibular pulmonary
    stenosis. Furthermore, such complications as
    infective endocarditis, cerebral thromboembolism,
    and brain abscess may arise if the anomaly is not
    repaired .

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Congenital Cardiac Anomalies in Children
  • Tetralogy of Fallot
  • Total correction of TOF involves an operative
    mortality risk of less than five percent, and the
    late results are generally good, even though
    pulmonary valvular regurgitation and impaired
    contraction of the right ventricle occur in many
    patients. Corrective surgery should therefore be
    considered in any patient with TOF, regardless of
    whether a previous shunt operation has been
    performed.

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Case report
  • One girl with 6 year old
  • Symptoms recurrent chest infections/wheeze
  • Physical signs
  • A fixed and widely split second heart sound
  • An ejection systolic murmur best heard in the
    third left intercostal space

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Chest X-ray showed right atrial and ventricular
enlargement with increaded pulmonary vascular
markings
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What is this disease?
Atrial Septal Defect
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