Congenital cyanotic heart disease
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Transcript of Congenital cyanotic heart disease
Congenital cyanotic heart disease
Under supervision of
Prof.Dr/ Mariam Abu-ShadyProfessor of pediatrics and neonatology
Faculty of medicine for girlsAl-Azhar University
Dr.Marwa El-Hady Abd Elmoneim
Assisted lecturer of pediatricFaculty of medicine for girls
Al-Azhar University
By:
Amira Mohammad Ahmed Amira farag biomy Omnia shams godaa
CONTENT• Definition of Congenital cyanotic heart disease • Evaluation of Criticlly Ill Neonate with Cyanosis• Classification of Congenital cyanotic heart disease • Tetralogy of Fallot • Pulmonary atresia with VSD• Double outlet right ventricle with PS • Pulmonary atresia • Tricuspid atresia • Ebstein's Anomaly
Congenital cyanotic heart disease
It is abnormality in cardio circulatory structure that present at birth.
CHD occurs in about 8/1000 live births, and those with critical CHD are 2/1000 live births .
Prompt diagnosis and treatment of CHD significantly decrease mortality and prevent secondary damage to other organ systems.
Evaluation of Criticlly Ill Neonate with Cyanosishyperoxia ABG ECG CXR clinical cause
pass low po2High pco2
normal diagnostic distress respiratory
fail Low po2Normal or low pco2
May be abnormal
Abnormal heart size and vascular marking.
Distress less commonOther cardiac
fiding .
cardiac
pass High pco2 normal normal Slow breathing.
Cyanosis improve on stimulation
neurologic
Classification
Cyanotic CHD
Decreased pulmonary blood flow
TOF Pulmonary atresia with VSD
Double-Outlet Right VentriclePulmonary atresia without VSD
Tricuspid atresiaEbstein anomaly
Increased pulmonary blood flow
TGATruncus arteriosusDORV without PS
TAPVRTruncus arteriosusSingle ventricale
Criteria of Cyanotic CHD with decrease pulmonary blood flow
• Central cyanosis• clubbing • Growth retardation• Decreased Pulmonary component of S2• Chest x ray show lung oligaemia• ECG show right ventricular hypertrophy or left
ventricular hypertrophy• Echocardiography : Diagnostic• cardiac catheterization; Diagnostic, done
preoperative
Tetralogy of Fallot
• It is a condition caused by a combination of four heart defects that are present at birth. These defects are:
• Pulmonary Infundibular Stenosis• Overriding aorta• ventricular septal defect (VSD) • Right ventricular hypertrophy,
Tetralogy of Fallot
• hypercyanotic spells:Sometimes, babies with tetralogy of Fallot will suddenly
develop worsen of central cyanosis after crying, feeding or having a bowel movement. It is treated by placing child in the knee-to-chest position, oxygen,morphine and propranol.
• systolic thrill over left sternal border • Single second sound • Ejection systolic murmur(PS)• Treated by:Total correction or The Black-Taussig operation
Pulmonary atresia with VSD
Pulmonary atresia with ventricular septal defect (PA-VSD) is a cyanotic congenital heart disease characterized by underdevelopment of the right ventricular (RV) outflow tract with atresia of the pulmonary valve and a large ventricular septal defect (VSD),
Pulmonary atresia with VSD
• A prominent a wave in the jugular pulse may be found. • auscultation:• systolic murmur usually is audible along the lower left sternal
border. • A continuous murmur is best heard over the upper chest in the
presence of a PDA.• If systemic-to-pulmonary collateral arteries are present, continuous
murmurs may be diffusely audible over the entire chest and back. • Treatment: prostaglandin E2 is often required to keep the ductus arteriosus open
Most babies will need a 'Shunt' operation during infancy
Double outlet right ventricle with PS
Double outlet right ventricle (DORV) is a congenital heart disease in which the aorta rises from the right ventricle instead of from the left ventricle
Both the pulmonary artery and aorta come from the same pumping chamber. No arteries arise
from the left ventricle.
Double outlet right ventricle with PS
Double outlet right ventricle with PS
• initial medical management consists of increasing the fraction of inspired oxygen (FIO2), which may be up to 100%. This decreases pulmonary vascular resistance, thereby increasing the amount of blood flow in the lungs
• Surgical treatmentcreate a tunnel through the VSD. The tunnel connects
to the aorta.
Pulmonary atresia
Pulmonary atresia with intact ventricular septum (PA/IVS) is a condition in which the valve that allows blood to flow from right ventricle of heart to lungs (pulmonary valve) hasn't formed properly or is closed (atresia). PA/IVS is a rare congenital heart disease present from the early stages of a baby's heart development
Pulmonary atresia
• systolic thrill over pulmonary area• prostaglandin E1 is usually used to help the blood
move into the lungs. • Open heart surgery to repair or replace the valve
Tricuspid atresia
Tricuspid atresia is the third most common form of cyanotic congenital heart disease, The deformity consists of a complete lack of formation of the tricuspid valve with absence of direct connection between the right
atrium and right ventricle .
Tricuspid atresia
1 )Atrial Septal Defect2) Missing Tricuspid Valve
3) Hypoplastic (very small) Right Ventricle
4) Pulmonary Stenosis (narrowing of pulmonary
valve)5) Ventricular Septal Defect6) Patent Ductus Arteriosus
Tricuspid atresia
• single second sound• giant A wave• murmer of VSD(+PDA) • prostaglandin E2 is often required to keep the
ductus arteriosus open in the early neonatal period until surgery can be performed.
• Surgical treatment:The Fontan operation
Ebstein's Anomaly
Ebstein's anomaly is a condition in which the tricuspid valve is malformed and sits lower than normal in the right ventricle. This condition is associated with right ventricle dysfunction, and commonly atrial septal defect or patent foramen
ovale.
Ebstein's Anomaly• Jugular venous pulse • Large a and v waves late in the course of the disease, • First heart sound is widely split with loud tricuspid component • Third and fourthheart sounds are commonly present• Medical CareAntibiotic prophylaxis for infective endocarditisMedical therapy for heart failure - Angiotensin-converting enzyme
(ACE) inhibitors, diuretics, and digoxin• Surgical CareSurgical care includes correction of the underlying tricuspid valve
and right ventricular abnormalities heart sounds are commonly present
Critaria CCHD with increased pulmonary blood flow
•Poor feeding •Recurrent chest infection
•Recurrent heart failureIncrease P2Chest x ray show plethora
Transposition of the great vessels
•Def:Transposition of the great vessels is acongenital heart defect in which The two major vessels that carry blood away from the heart -- the aorta and the pulmonary artery -- are switched (transposed).
Total anomalous pulmonary venous return
•Def:Total anomalous pulmonary venous return is acongenital heart disease) in which none of the four veins that take blood from the lungs to the heart is attached to the left atrium (left upper chamber of the heart)
Investigation
•Chest x-rays :no pulmonary stenosis will cause increase pulmonary blood flow resulting in cardiomegaly with increase pulmonary vascular markings. The mediastinum may be narrow due to malposed great vessels
• .
Truncus arteriosus (TA)
•is an uncommon congenital cardiovascular anomaly that is characterized by a single arterial trunk arising from the normally formed ventricles by means of a single
semilunar valve (ie, truncal valve) .
Classification
.Truncus arteriosus type I is characterized by origin of a single pulmonary trunk from the left lateral aspect of the common trunk, with branching of the left and right pulmonary arteries from the pulmonary trunk.
.Truncus arteriosus type II is characterized by separate but proximate origins of the left and right pulmonary arterial branches from the posterolateral aspect of the common arterial trunk.
Type3,4
.In truncus arteriosus type III, the branch pulmonary arteries originate independently from the common arterial trunk or aortic arch, most often from the left and right lateral aspects of the trunk. This occasionally occurs with origin of one pulmonary artery from the underside of the aortic arch, usually from a ductus arteriosus.
.Type IV truncus arteriosus, originally proposed by Collett and Edwards as a form of the lesion with neither pulmonary arterial branch arising from the common trunk, is now recognized to be a form of pulmonary atresia with ventricular septal defect rather than truncus arteriosus.
hypoplastic left heart syndrome (HLHS),
•In hypoplastic left heart syndrome (HLHS), the heart’s left side — including the aorta,
aortic valve, left ventricle and mitral valve — is underdeveloped.
Pathophysiology
Heterotaxy Syndrome
•Heterotaxy syndrome is a rare birth defect that involves the positionof the heart and other organs. nt
“right atrial isomerism” and “left atrial isomerism”
In a normal heart, the left atrial appendage looks different than the right. In heterotaxy
syndrome, the two appendages look similar .
Asplenia
Asplenia or right atrial isomerism: Children with this condition have multiple heart defects. They may have septal defects and problems with heart valves, particularly the pulmonary valve. The spleen may be absent (asplenia), and the liver and other organs may be on the wrong side of the body.
polysplenia
Polysplenia or left atrial isomerism: Children with this condition may have septal defects as well as problems with heart valves and the heart’s electrical system. The spleen may be absent, or there may be several small spleens (polysplenia), instead of one spleen.
References
• Ariane J. Marelli, Andrew S. Mackie, Raluca Ionescu-Ittu, Elham Rahme and Louise Pilote(2007): Congenital Heart Disease in the General Population : Changing Prevalence and Age Distribution. Circulation.;115:163-172
• Attie F, Casanova JM, Zabal C, Buendía A, Miranda I, Rijlaarsdam M.(2009): Ebstein's anomaly. Clinical profile in 174 patients. Arch Inst Cardiol Mex;69(1):17-25.
• Brickner ME, Hillis LD, Lange RA( 2008): Congenital heart disease in adults. Second of two parts. N Engl J Med;342(5):334-42.
• Baba K, Ohtsuki S, Kamada M, Kataoka K, Ohno N, Okamoto Y,( 2009). Preoperative management for tricuspid regurgitation in hypoplastic left heart syndrome. Ped Internat;51:399-404.
• • Bacha EA, Daves S, Hardin J, et al: 2006 Single-ventricle palliation for high-risk neonates: the emergence of an
alternative hybrid stage I strategy. J Thora163-171.e2. • • Celermajer DS, Bull C, Till JA, Cullen S, Vassillikos VP, Sullivan ID (2010):Ebstein's anomaly: presentation and outcome
from fetus to adult. J Am Coll Cardiol;23(1):170-6. • Charpie JR,Skinner J,Martin P,Castle.2010.transposition of great vessels inOrphant Journal of rare disease ,published at
13 october 2010• • Chiu SN, Wu MH, Su MJ, Wang JK, Lin MT, Chang CC (2012):Coexisting mutations/polymorphisms of the long QT
syndrome genes in patients with repaired Tetralogy of Fallot are associated with the risks of life-threatening events. Hum Genet ;77(11): 721-8
• Collison SP, Dagar KS, Kaushal SK, Radhakrishanan S, Shrivastava S, Iyer KS (2008): Coronary artery fistulas in pulmonary atresia and ventricular septal defect. Asian Cardiovasc Thorac Ann;16(1):29-32.
References
• Devine WA, Webber SA, Anderson RH(2008): Congenitally malformed hearts from a population of children undergoing cardiac transplantation: comments on sequential segmental analysis and dissection. Pediatr Dev Pathol.;3(2):140-54.
• Durongpisitkul K, Saiviroonporn P, Soongswang J, Laohaprasitiporn D, Chanthong P, Nana A(2008): Pre-operative evaluation with magnetic resonance imaging in tetralogy of fallot and pulmonary atresia with ventricular septal defect. J Med Assoc Thai;91(3):350-5.
• Duro RP, Moura C, Leite-Moreira A (2010):Anatomophysiologic basis of tetralogy of Fallot and its clinical implications. Rev Port Cardiol;29(4):591-630.
• Elsevier; 2008 Park MK. Park: Pediatric Cardiology for Practitioner, 5th ed. Philadelphia, PA s283-287:chap 14
• • Fricker FJ(2008). Hypoplastic Left Heart Syndrome – Diagnosis and early management.
NeoReviews;9:253.• Thiebaud B, Michelakis E, Wu XC, Harry G, Hashimoto K, Archer SL(2008). • • Fox D, Devendra GP, Hart SA, Krasuski RA (2010) : When 'blue babies' grow up: What you need to know
about tetralogy of Fallot. Cleve Clin J Med;77(11):821-8. • Freedom RM, Hamilton R, Yoo SJ(2010):The Fontan procedure: analysis of cohorts and late
complications. Cardiol Young;10(4):307-31