2 fetal echo part 1 Dr Ahmed Esawy

1. Dr/AHMED ESAWY

2. Dr. Ahmed Esawy MBBS M.Sc MD Dr/AHMED ESAWY

3. Fetal Echocardiography Part 1 Dr/AHMED ESAWY

4. Normal Fetal Echocardiography Dr/AHMED ESAWY

5. Weeks Length mm Event` 1-2 1.5 No heart or great vessel 4 2 Single median cardiac tube, ineffective contraction 5 4 Bilobed atrium 5 4 Begining of circulation 5 7.5 AV orifices, 3 chamber heart 6 8.5-13 Septum secundum, complete inferior septum, divided truncus arteriosus, 7 20 4 chamber heart Cardiac embryology Dr/AHMED ESAWY

6. Time •The best time to do a fetal cardiac exam is 18-22 weeks •Images can be more difficult to obtain after 30 weeks gestation, as the ratio of fetal body mass- to-amniotic fluid increases ,rib shadowing •Adequate exam depends on fetal position and maternal habitus •Some pathologies become obvious with fetal age Dr/AHMED ESAWY

7. Rate and rhythm •The heart rate is usually 120-160/min, the rhythm is regular but transient bradycardia is normal in the 2nd trimester but not in the 3rd Dr/AHMED ESAWY

8. Scanning Technique • 1st Step: Check the heart is beating • 2nd Step: M-mode heart rate - should be between 120 and 180 beats per minute • 3rd step : Situs- • 4th step four chamber view. • 5th and 6th Step Outflow Tracts • 5th step : LVOT • 6TH step : RVOT • 7th step : 3 Vessel View • 8th step: Interventricular Septum IVS (a false positive for septal defect). It should be assessed in both B-mode and Colour Doppler. • 9th step : Aortic Arch • The 'arches' are best assessed when the foetus is prone. • 10th step : Ductal Arch This is the ductus arteriosus: Dr/AHMED ESAWY

9. 1st step Check the heart is beating Dr/AHMED ESAWY

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11. 2nd Step: M-mode heart rate - should be between 120 and 180 beats per minute Dr/AHMED ESAWY

12. 3rd step: Situs Dr/AHMED ESAWY

13. • Establishing laterality. Schematic diagram and ultrasound through abdomen show spine and stomach. A, In this fetus, fetal head was located below plane of abdomen (vertex presentation), making left side lower; hence, stomach was located on left side of Fetus.Dr/AHMED ESAWY

14. Abdominal situs Dr/AHMED ESAWY

15. 4TH STEP FOUR CHAMBER VIEW Dr/AHMED ESAWY

16. The Four Chamber View 1. Heart fills one third of the chest Dr/AHMED ESAWY

17. The Four Chamber View 3. Size of right chambers approximates left chambers Dr/AHMED ESAWY

18. The Four Chamber View 2. Apex points to the left (45 degree angle) Dr/AHMED ESAWY

19. Scan plane valves Angle the probe cephalad to get the 4 chamber view of the fetal heart. The valvular movement should simulate birds wings. Dr/AHMED ESAWY

20. four chamber view Axis • 45+20o towards the left • Abnormal axis increases the risk of a cardiac malformation • The heart may also be displaced from its normal position in dipaphragmatic hernia or cystic adenomatoid malformation • The atrium nearest the spine is the left atrium • The atrium nearest the fetal anterior thoracic wall is the right Dr/AHMED ESAWY

21. •Done on a 4 chamber view •Heart mostly in left chest •Occupies 1/3rd of thoracic area •Normal cardiac situs, axis and position •No pericardial effusion General Dr/AHMED ESAWY

22. •Both of same size •Foramen ovale flap in left atrium •lower end of atrial septum (septum primum) present •Foramen ovale Atria Dr/AHMED ESAWY

23. •Equal size •Intact septum •Moderator band identifies right ventricle Ventricles Dr/AHMED ESAWY

24. • The heart should be angled 45degrees to the left and occupy approximately 1/3 of the chest Dr/AHMED ESAWY

25. • Confirm that the heart is on the fetal left Dr/AHMED ESAWY

26. 4 chamber heart. • LA= Left Atrium • LV= Left ventricle • RA= Right Atrium • LV left Ventricle The prominant papillary muscles make the right ventricle appear to be a much smaller chamber. Dr/AHMED ESAWY

27. • The atrio-ventricular valves should arise from the crux of the heart as an offset cross. • The Foramen ovale is clearly seen. Dr/AHMED ESAWY

28. •Both valves move freely •Tricuspid valve inserted more apically than mitral AV Valves Dr/AHMED ESAWY

29. •Fetus cephalic •Probe marker to mother’s left •Fetal spine posterior Dr/AHMED ESAWY

30. •Fetus breech •Probe marker normal •Fetal spine posterior Dr/AHMED ESAWY

31. vertex presentation. the ascending aorta (arrow). Arrowhead ductus arteriosus Dr/AHMED ESAWY

32. Dr/AHMED ESAWY

33. breech presentation. the ascending aorta (arrow). Arrowhead ductus arteriosus, Dr/AHMED ESAWY

34. breech presentation. the ascending aorta ( arrow). Arrowhead ductus arteriosus Dr/AHMED ESAWY

35. vertex position with left side down vertex position with right side down breech position with left side down. breech position with right side down Dr/AHMED ESAWY

36. Normal views. Dr/AHMED ESAWY

37. • A thoracic section suitable for measurement. The cardiac circumference Dr/AHMED ESAWY

38. • Four-chamber view of the heart: Dr/AHMED ESAWY

39. Differences Between the Morphologic Right and Left Ventricles on Prenatal Ultrasound Dr/AHMED ESAWY

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41. Four-chamber view Dr/AHMED ESAWY

42. Four-chamber view of normal fetal heart Dr/AHMED ESAWY

43. normal fetal thorax shows four cardiac chambers. Dr/AHMED ESAWY

44. • Normal papillary muscle on four-chamber view of heart. Bright echogenic focus (arrow) within left ventricle corresponds to a papillary musdc and is a normal finding. Dr/AHMED ESAWY

45. 5TH step LVOT biew Dr/AHMED ESAWY

46. Extended basic cardiac examination •The outflow tracts are imaged by tilting the probe towards the fetal head •The great vessels should be of equal size and should cross at approximately 90o as they emerge from their respective ventricles Dr/AHMED ESAWY

47. SCAN PLANE LVOT SCAN PLANE LVOT Left Ventricular Outflow Tract: (Aortic Root) Dr/AHMED ESAWY

48. The outflow tracts cross at around 90o Pulm trunk Aortic arch Dr/AHMED ESAWY

49. • Left ventricular outflow tract (LVOT). Dr/AHMED ESAWY

50. Left ventricular outflow. Dr/AHMED ESAWY

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52. Left ventricular outflow tract (LVOT) view Dr/AHMED ESAWY

53. Long-axis view of normal left ventricular outflow tract Dr/AHMED ESAWY

54. 6th step RVOT biew Dr/AHMED ESAWY

55. RVOT Right Ventricular Outflow Tract: (Pulmonary Trunk) Dr/AHMED ESAWY

56. • Right ventricular outflow tract (RVOT). Dr/AHMED ESAWY

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58. Right ventricular outflow tract (RVOT) view Dr/AHMED ESAWY

59. • Extended cardiac views. Dr/AHMED ESAWY

60. • Right ventricular outflow. Dr/AHMED ESAWY

61. 7th step: 3 Vessel View Dr/AHMED ESAWY

62. SCAN PLANE PAV OR 3 VESSEL VIEW 3 vessel or PAV view •P = Pulmonary artery exiting the right ventricle •A = Ascending aorta •V = Vena Cava (superior) These should be in order of descending size. (otherwise suspect coarctation of the aorta) If the aorta and pulmonary artery are not in perpendicular planes, suspect transposition Dr/AHMED ESAWY

63. Normal relationship of three vessels (ascending aorta (Al, main pulmonary artery [P1, superior vena cava IV]). a = descending aorta, d ı ductus arteriosus, c =carina, It = left, rt = right Dr/AHMED ESAWY

64. • Three-vessel view of the fetal heart. Dr/AHMED ESAWY

65. Vascular structures Dr/AHMED ESAWY

66. • Normal three- vessel view. Dr/AHMED ESAWY

67. Three-vessel (3V) view Dr/AHMED ESAWY

68. Three vessels and trachea (3VT) view Dr/AHMED ESAWY

69. • (a,b) Venous return (IVC & SVC); (c) color doppler angio of the venous return Dr/AHMED ESAWY

70. The pulmonary artery bifurcates Dr/AHMED ESAWY

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72. 8th step: Interventricular Septum Dr/AHMED ESAWY

73. The Four Chamber View 1. MV and TV move on real time imaging 4. Ventricular septum symmetric Dr/AHMED ESAWY

74. The Four Chamber View 6. Portion of the atrial septum present (crus) Dr/AHMED ESAWY

75. INTERVENTRICULAR SEPTUM Beware of false positives with the interventricular septum: The part of the interventricular septum closest to the crux of the heart is the membranous portion and naturally tapers. If your angle is poor, it may be invisible simulating a venticular septal defect(VSD To avoid this, ideally, the integrity of the interventricular septum should be confirmed from a perpendicular approach Dr/AHMED ESAWY

76. • Four-chamber view of the fetal heart. Dr/AHMED ESAWY

77. Normal Fetal Echocardiography Dr/AHMED ESAWY

78. 9th step: Aortic Arch Dr/AHMED ESAWY

79. The aortic arch •The aortic arch can be identified •The aortic cusps can be seen Dr/AHMED ESAWY

80. AORTIC ARCH Demonstrate the aortic arch as it leaves the left ventricle. It will have a 'walking stick' curve. Sagittal View of the Aortic Arch Dr/AHMED ESAWY

81. • (a,b) Aortic Arch; (c) color doppler angio of the aortic arch Dr/AHMED ESAWY

82. • Three-dimensional power Doppler ultrasound of the crossing of the great vessels in a 28-week fetus. AOA, aortic arch; DA, ductus arteriosus; LPA, left pulmonary artery; TP, pulmonary trunk. Dr/AHMED ESAWY

83. • Arch of aorta. Dr/AHMED ESAWY

84. Aortic arch Dr/AHMED ESAWY

85. 10th step: ductal Arch Dr/AHMED ESAWY

86. DUCTAL ARCH The ductal arch demonstrates the correct orientation and communication between the Aorta and the pulmonary trunk. It will have a flatter curve like a 'hockey Ductal Arch Dr/AHMED ESAWY

87. • (a,b) Ductal Arch; (c) color doppler of the ductal arch Dr/AHMED ESAWY

88. • Ductal arch. Dr/AHMED ESAWY

89. • Ductal arch. Dr/AHMED ESAWY

90. ANTERIORLY POSITIONED DUCTAL ARCH Dr/AHMED ESAWY

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93. • The components of the sagittal view of the ductal arch (A) as determined by the mutiplanar display are displayed in B, including the right ventricular outlet (RV), Dr/AHMED ESAWY

94. • A, where the fetal aorta was aligned with the crux of the heart in the vertical plane. The reference dot was positioned in the aorta, allowing visualization of the coronal view of the descending aorta in panel C. Dr/AHMED ESAWY

95. • In panel C, the image was rotated to display the aorta in a vertical position, when necessary. This allowed for the visualization of the longitudinal view of the ductal arch in panel B. Dr/AHMED ESAWY

96. • Mutiplanar display of the sagittal view of the ductal arch in a fetus with tetralogy of Fallot. The root of the ductal arch was displaced downward, toward the aortic root.Dr/AHMED ESAWY

97. • Diagram representi ng normal relationshi p of two great arteries Dr/AHMED ESAWY

98. Five-chamber view Dr/AHMED ESAWY

99. •Five-chamber view in real-time (left) using color Doppler (right). The aorta, arising from the left ventricle, is seen and color shows the laminar flow across the aortic valve during systole. Dr/AHMED ESAWY

100. Five short-axis views of heart Dr/AHMED ESAWY

101. Short-axis view of normal great arteries • : aorta(straight solid arrow) is seen in cross section .whereas a longitudinal section of pulmonary artery (curved arrow) is seen. Arrowhead = right pulmonary artery; open arrow = ductus arterlosus,RV = right ventricle. Dr/AHMED ESAWY

102. Sonogram shows normal echogenic focus (arrow) in left ventricle Dr/AHMED ESAWY

103. Sonograms of echogenic focus at edge of myocardium. • A, Four-chamber view shows small echogenic focus (arrow) at apex of left ventricle. • B, If transducer is rotated into a plane that shows a longer section of rib (arrow), pitfallcan be recognized. Dr/AHMED ESAWY

104. • Sonograms of eustachian valve and Chiari’s network in right atrium. Septum primum (curved arrow) is seen in left atrium. • A In this slightly oblique four-chamber view, eustachian valve (straight arrow) appears as a linear structure within right atrium (RA). • B In another fetus, thin curvilinear structures (straight arrows) are present in right atrium and were observed to move freely at real-time sonography. We believe that these thin structures represent Chiarl’s network. Dr/AHMED ESAWY

105. Sonograms of eustachian valve and Chiari’s network in right atrium Dr/AHMED ESAWY

106. Sonograms of pseudothickening of tricuspid valve Dr/AHMED ESAWY

107. Normal coronary sinus (straight arrows) is seen on sonogram angled slightly inferoposteriorly Dr/AHMED ESAWY

108. • Sonograms of pericardial fluid. • A, A trace of penicardial fluid (curved arrow) is seen in this four-chamber view of a normal fetus.Fluid is peripheral to myocardium, which itself can be relatively hypoechoic peripherally (straight arrow). Note that fluid does not surround entire heart but is seen adjacent to a small segment of heart. • B, On short-axis view through ventricles of another fetus, normal peripheral hypoechoic part of myocardium (curved arrows) can be distinguished from true fluid by observing its continuation into ventricular septum (straight arrow). Dr/AHMED ESAWY

109. • Sonograms of pseudooverriding of aorta. A, Long-axis view of left ventricular outflow tract suggests discontinuity and overriding (arrowhead) between wail of aorta (Ao) and ventricular septum (curved arrow). in this case, apparent interruption is immediately distal to aortic valve (straight arrow), suggesting that artifact may sometimes be related to a sinus of Valsalva. • B, Artifactual nature of this finding is confirmed with a slightly different imaging plane with which overriding is not seen, that is, the septum and aorta appear continuous (arrowhead). LV = left ventricle. Dr/AHMED ESAWY

110. • Sonograms of normal slight dilatation of pulmonary artery. Dr/AHMED ESAWY

111. Standardized transverse scanning planes for fetal echocardiography Dr/AHMED ESAWY

112. Sagittal views of the superior and inferior vena cava (1), aortic arch (2), and ductal arch (3). The scan angle between the ductal arch and thoracic aorta ranges between 10° and 19° Dr/AHMED ESAWY

113. Low and high short- axis views of the fetal heart. Dr/AHMED ESAWY

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116. Situs and general aspects • Fetal laterality (identify right and left sides of fetus) • Stomach and heart on left • Heart occupies a third of thoracic area • Majority of heart in left chest • Cardiac axis (apex) points to left by 45◦ ±20◦ • Four chambers present • Regular cardiac rhythm • No pericardial effusion Atrial chambers • Two atria, approximately equal in size • Foramen ovale flap in left atrium • Atrial septum primum present (near to crux) • Pulmonary veins entering left atrium Dr/AHMED ESAWY

117. Ventricular chambers • Two ventricles, approximately equal in size • No ventricular wall hypertrophy • Moderator band at right ventricular apex • Ventricular septum intact (apex to crux) Atrioventricular junction and valves • Intact cardiac crux • Two atrioventricular valves open and move freely • Differential offsetting: tricuspid valve leaflet inserts on ventricular • septum closer to cardiac apex than does mitral valve Dr/AHMED ESAWY

118. Cardiac Biometry • Cardiac Biometry (Optional but Can Be Considered in the Presence of Structural Anomalies) • • Aortic and pulmonary artery diameters at the level of the valve annulus • • Aortic arch and isthmus diameter measurements; • • End-diastolic ventricular dimensions just inferior to the atrioventricular valve leaflets • • Thickness of the ventricular free walls and interventricular septum just inferior to the atrioventricular valves. • • Additional measurements may be taken if warranted, including: • • Systolic dimensions of the ventricles; • • Transverse dimensions of the atria; and • Diameter of branch pulmonary arteries. Dr/AHMED ESAWY

119. Prinicipal findings in upper fetal abdomen Dr/AHMED ESAWY

120. DD of suspected abnormalities of cardaic position Dr/AHMED ESAWY

121. DD of suspected abnormalities of cardaic position Dr/AHMED ESAWY

122. DD of prinicipal right heart finding in four chamber view Dr/AHMED ESAWY

123. DD of prinicipal left heart finding in four chamber view Dr/AHMED ESAWY

124. DD of overriding aorta Dr/AHMED ESAWY

125. FETAL CARDIOLOGY RHYTM Dr/AHMED ESAWY

126. Limitations of Fetal Echo • Small VSDs • Minor valve abnormalities • Coronary Anomalies • Coarctation of the Aorta • TAPVR • 20 ASDs & other rare forms • PDA Dr/AHMED ESAWY

127. Heart rate This then increases progressively over the subsequent 2 - 3 weeks becoming • ~ 110 bpm (mean) by 5 - 6 weeks • ~ 170 bpm by 9 - 10 weeks This is followed by a decrease becoming on average. • ~ 150 bpm by 14 weeks • ~ 140 bpm by 20 weeks • ~ 130 bpm by term Although the healthy fetus the heart rate is usually regular, a beat-to-beat variation of approximately 5 - 15 beat per minute can be allowed Dr/AHMED ESAWY

128. A slow fetal heart rate is termed a fetal bradycardia : this is usually defined as • a heart rate below 100 bpm before 6.3 weeks' gestation or • a heart rate below 120 bpm at 6.3 - 7.0 weeks A rapid fetal heart rate is termed a fetal tachycardia: this is usually defined as • a heart rate above 160 - 180 bpm . • a rate of 170 bpm may be classified as a borderline fetal tachycardia A rapid and irregular fetal heart rate is usually termed a fetal tachyarrythmia Dr/AHMED ESAWY

129. Fetal bradycardia • refers to an abnormally low fetal heart rate. It is regarded as a sustained first trimester heart rate below 100 beats per minute (bpm). • underlying conduction abnormality • following cordocentesis • vagal cardiovascular reflex (especially if transient during 2nd trimester): this may occur from – fetal head compression – umbilical cord occlusion / compression – maternal exertion : possibly from indequate maternal gas exchange – hypoxia caused by myocardial depression – stimulation of the stretch receptors in aortic arch and / or carotid sinus walls Dr/AHMED ESAWY

130. Fetal bradycardia Classification • Fetal sinus bradycardia • Fetal bradyarrythmias – Fetal partial atrioventricular block PAVB – Fetal complete atrioventricular block AVB – commonest type of bradyarrhythmia Blocked premature atrail contraction Associations • increased risk of chromosomal anomalies : especially trisomy 18 • maternal connective tissue disease : particularly with bradyarrhythmias Differential diagnosis • General considerations include transient sinus bradycardia from excessive transducer pressure Dr/AHMED ESAWY

131. Fetal Tachyarrhythmia • The normal fetal heart rate ranges are approximately 120-160 bpm at 30 weeks and 110-150 bpm at term. Frequencies up to 170 bpm are considered mildly abnormal, whereas overt tachycardia is usually defined as a heart rate exceeding 170 bpm or 180 bpm. Dr/AHMED ESAWY

132. premature atrial contraction (PAC) • premature atrial contraction (PAC) is caused by an early electrical impulse coming from somewhere in the atria outside the sinus node. • A PAC is a premature contraction coming from a piece of tissue in the atria not transmitted to ventricle Dr/AHMED ESAWY

133. Premature Atrial Contractions • M-mode echocardiography of a premature atrial contraction (PAC). Dr/AHMED ESAWY

134. • M-mode echocardiography of a premature atrial contraction (PAC). Dr/AHMED ESAWY

135. CARDIAC DYSRHYTHMIAS Dr/AHMED ESAWY

136. • M-mode Doppler images show premature atrial contraction (arrow) with subsequent early ventricular contraction (arrowhead). Dr/AHMED ESAWY

137. ` • Cardiac Rhythm, Normal and Abnormal (Fetus) / Systemic vein, Systemic artery / Ultrasound-Doppler / Fetus / Premature atrial contractions: isolated blocked (upper panel), conducted (lower panel) premature atrial contractions Dr/AHMED ESAWY

138. Complete Atrioventricular block: In complete atrioventricular block, the atria beat at their own rhythm, and none of their impulses is transmitted to the ventricles. The ventricles have a slow rate (40-70 bpm). Dr/AHMED ESAWY

139. • A. Fetal M-mode tracing of complete atrioventricular (AV) block, demonstrating atrial wall motion occurring out of phase with the much slower ventricular wall motion. • B. Fetal supraventricular tachycardia (SVT). The atria and ventricles are contracting • rapidly, with a 1:1 atrioventricular relationship. Irregularity of fetal SVT could be due to transient interruption and reinitiation or could reflect transient alterations in AV • conduction during ongoing atrial tachycardia. This distinction could prove important when establishing medical therapy. Dr/AHMED ESAWY

140. Atrial Flutter • an atrial rate ranging from 250 • up to 500 bpm with a fixed or variable AV block, Dr/AHMED ESAWY

141. • M-mode echocardiography of AF. Flutter contractions of the atrium are indicated by the small arrows; atrioventricular conduction is 2:1 and ventricular contractions are indicated by the large arrows. Dr/AHMED ESAWY

142. Dr/AHMED ESAWY

143. Tachyarrhythmias: Dr/AHMED ESAWY

144. Supraventricular tachycardia • defined by a 1:1 atrioventricular conduction in which the atrial contraction precedes the ventricular contraction. Heart rates in SVT most commonly range from 200-300 bpm, is either paroxysmal or incessant in nature and associated with fetal hydrops in 36 - 64 % Dr/AHMED ESAWY

145. • M-mode echocardiography of a SVT with a short VA interval. First white line placed on the peak excursion of the left atrium wall, second line placed on the peak excursion of the right ventricle wall, third line on the consecutive peak atrial wall excursion. The AV interval is markedly longer than the VA interval. Dr/AHMED ESAWY

146. • M-mode echocardiography of a SVT with a long VA interval Dr/AHMED ESAWY

147. Supraventricular tachycardia • 22 weeks of pregnancy; Transverse scans through the fetal thorax showing the four- chamber view of the heart and and pericardial effusion. Dr/AHMED ESAWY

148. Supraventricular tachycardia • 22 weeks of pregnancy; Image 3 shows the M-mode examination of the heart with the fetal heart rate 231 bpm. Image 4 shows transverse scans of the fetal abdomen with ascites Dr/AHMED ESAWY

149. Supraventricular tachycardia • 22 weeks of pregnancy; Reverse flow at the level of the ductus venosus was present during fetal tachycardia Dr/AHMED ESAWY

150. M-Mode Doppler images show supraventricular tachycardia–atrial heart rate (arrowhead) is fast as well as ventricular heart rate (arrow).Dr/AHMED ESAWY

151. • Cardiac Function (Fetus) / Heart / Ultrasound-Doppler / Fetus / Diastolic dysfunction in cardiomyopathy: prolonged isovolumetric relaxation (IRT; 88 ms), increased myocardial performance index (MPI = 1)Dr/AHMED ESAWY

152. FETAL CARDIOLOGY R-L SHUNT Dr/AHMED ESAWY

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156. Dr/AHMED ESAWY Cardiac Anomalies with Abnormal Four-Chamber View Mitral Atresia Triscuspid Atresia Aortic Atresia Pulmonary Atresia Atrioventricular Septal Defect (AV-canal) Severe Aortic Stenosis Severe Pulmonary Stenosis with Intact Interventricular Septum Complete Anomalous Pulmonary Venous Drainage without Pulmonary Venous Obstruction Severe Coarctation of the Aorta Interrupted Aortic Arch Double Inlet Ventricle Severe Ebstein's Anomaly with Tricuspid Dysplasia Large Ventricular Septal Defect Very Large Atrial Septal Defect

157. Dr/AHMED ESAWY I. Communications between systemic and pulm. Circuits LT RT. shunt. • Inter-atrial communications. Patent F. oval , ost. 1 defect, sinus venosus, ost.2 defect, endocarial cushin defect. • Inter-ventricular communications. -simple VSD. -VSD with AI -Single ventricle -Gerbode defect -Endocar. Cushion • Aorto-pulmonary communications: a. Persistent ductus arteriosus (P.D.A.) b. Aorto-pulmonary window. c. Truncus arteriosus. d. Ruptured sinus of valsalva. e. Coronary arterio-venous fistula.

158. Ventricular Septal Defect (VSD) • Most frequent cardiac defect (20-30%) [4] • IV septum: inlet, trabecular, infundibular and membranous portions (muscular and membranous) • Maldevelopment of muscular septum or endocardial cushion; improper resorption of the muscular ridge • Left to right shunt Dr/AHMED ESAWY

159. VSD 4 Chamber View 4 Chamber View LVOT Dr/AHMED ESAWY

160. VSD 4 Chamber LVOTDr/AHMED ESAWY

161. VSD RV 4 Chamber 4 Chamber LVOT Dr/AHMED ESAWY

162. VSD 4 Chamber Color (left to right shunt)Dr/AHMED ESAWY

163. 3D VSD Dr/AHMED ESAWY

164. • Ventricular septal defect at 12 weeks gestation. The fetus had trisomy 18 Dr/AHMED ESAWY

165. Dr/AHMED ESAWY (b) Small ventricular septal defect (VSD) with shunting into left ventricle during systole. (c) VSD with an overriding aorta, with perfusion from both ventricles into the ascending aorta suggesting the letter ‘Y’.

166. • VSD in a fetus with a breech presentation. Dr/AHMED ESAWY

167. • the anatomy appears to be normal. The use of color Doppler demonstrates the presence of a muscular ventricular septal defect during the phase of a shunt (blue) between the right and left ventricles. Dr/AHMED ESAWY

168. • Color flow ultrasound image shows flow across the ventricular septal defect (VSD). Dr/AHMED ESAWY

169. VSD (Ventricular Septal Defect): VSD in the muscular part of the ventricular septum of the fetal heart. This type of VSD is called a trabecular ventricular septal defect. Dr/AHMED ESAWY

170. Ventricular septal defect. Dr/AHMED ESAWY

171. • Ventricular septal defect Dr/AHMED ESAWY

172. • Ventricular Septal Defect (VSD) Dr/AHMED ESAWY

173. VENTRICULAR SEPTAL DEFECTS Dr/AHMED ESAWY

174. Two-dimensional gray scale imaging of ventricular septal defects Two-dimensional gray scale imaging of ventricular septal defects Dr/AHMED ESAWY

175. Color and pulsed Doppler of blood shunting across a muscular ventricular septal defect :Color and pulsed Doppler of blood shunting across a muscular ventricular septal defect Dr/AHMED ESAWY

176. Muscular ventricular septal defect Muscular ventricular septal defect Dr/AHMED ESAWY

177. Inlet ventricular septal defect Inlet ventricular septal defect Dr/AHMED ESAWY

178. Outlet ventricular septal defect Legend:Outlet ventricular septal defect: the arrow indicates a large defect of the outlet portion of the ventricular septum associated with malalignment of the great vessels Dr/AHMED ESAWY

179. Perimembranous ventricular septal defect Perimembranous ventricular septal defectDr/AHMED ESAWY

180. Apical ventricular septal defect Apical ventricular septal defect Dr/AHMED ESAWY

181. Dr/AHMED ESAWY

182. Pitfalls: PseudoVSD • When the IV septum parallels the US beam, resultant echo drop out looks like VSD • IV septum normally tapers near the AV valves • Corrected by changing the angle of view IV septum parallels US beam (echo dropout) Changing Angle Dr/AHMED ESAWY

183. • Pseudo-VSD in a fetus with a cephalic presentation. Dr/AHMED ESAWY

184. Single ventricles Types of single ventricles: atresia of the tricuspid valve and double inlet single ventricleDr/AHMED ESAWY

185. • Two-chambered heart. The image shows a single ventricle (V) and a single atrium (A). Note the pericardial effusion (EFF) Dr/AHMED ESAWY

186. UNIVENTRICULAR HEART • This term defines a group of anomalies characterized by the presence of an atrioventricular junction that is entirely connected to only one chamber in the ventricular massDr/AHMED ESAWY

187. Dr/AHMED ESAWY in pulmonary atresia and in (e) in tricuspid atresia with ventricular septal defect (VSD). In the latter the right ventricle is filled in late diastole via the VSD. Example (f) demonstrates a wide stripe in a large atrioventricular septal defect (A, atrium; RA, LA, right and left atrium; RV, LV, right and left ventricle; V, ventricle; VSD, ventricular septal defect).

188. Fetus of22 weeks’ gestation with severe tubular hypoplasia of aortic arch and ventricular septal defect Dr/AHMED ESAWY

189. Endocardial cushion defect (complete atrio-vent. canal) • Considered as a severe degree of ostium primum defect. Differing in: • 1. One valve-ring for mitral and tricuspid valves free communication between 4 chambers. • 2. Large inter-ventricular defect = VSD • 3. 1ry pulm. hypertension is almost always present ( bi- directional shunt cyanosis. • 4. Early failure and death in early childhood Dr/AHMED ESAWY

190. Endocardial Cushion Defect • 5% of CHD • Recur risk = 3% (1 sib), 10% (2 sibs), 1% (dad), 14% (mom) • Freq assoc with other anomalies; strong assoc with Trisomy 21 • Large defect at the crus of heart on four chamber view Dr/AHMED ESAWY

191. Endocardial Cushion Defect • Several types depend on how AV valves attach. Most common is type III, complete AV canal and common AV valve • Endocardial cushions fail to fuse; cause defect in both the atrial and ventricular septae (AV canal) Dr/AHMED ESAWY

192. Endocardial Cushion Defect atria vents Dr/AHMED ESAWY

193. Endocardial Cushion Defect 4 Chamber View Dr/AHMED ESAWY

194. Endocardial Cushion Defect 4 Chamber View Dr/AHMED ESAWY

195. • Endocardial cushion defect Dr/AHMED ESAWY

196. Endocardial Cushion Defect Dr/AHMED ESAWY

197. Endocardial Cushion Defect vents atria Dr/AHMED ESAWY

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199. Dr/AHMED ESAWY

200. Dr/AHMED ESAWY

201. Heart anomalies with two color stripes in diastole in the four-chamber view (compare with Figure 3 left). Two stripes with a connection are seen in: (a) ventricular septal defect, (b) (b) atrioventricular septal defect with the ‘H’ sign, or in (c) (c) double-inlet ventricle with two atrioventricular valves but no septum. Two stripes with differing chamber size are seen in coarctation of the aorta (LV:RVdisproportion) Dr/AHMED ESAWY

202. • Atrioventricular canal defect. Dr/AHMED ESAWY

203. AVSD • There is a ventricular septal defect involving the upper part of the septum.A large atrial septal defect (ASD) is also seen in these ultrasound images. Dr/AHMED ESAWY

204. Atrioventricular septal defect • Four-chamber view in a fetus with Down syndrome demonstrating a complete atrioventricular septal defect (AV canal). Dr/AHMED ESAWY

205. • Atrioventricular septal defect. Dr/AHMED ESAWY

206. Complete atrioventricular canal Complete atrioventricular canal Dr/AHMED ESAWY

207. Partial atrioventricular canal Partial atrioventricular canal: two separate atrioventricular valves insert at the same level on the ventricular septum, and there is a defect of the atrial septum primum Dr/AHMED ESAWY

208. Truncus arteriosus ( rare) • Failure of truncus arteriosus to differentiate into aorta and pulm. arteries thus both arise from a common trunk having a common valve and connected to Lt. vent. • VSD is essential for the patient to survive. Dr/AHMED ESAWY

209. Truncus Arteriosus • Other associated pathology: VSD, abnormal trucal valve, ASD… • 20% overall mortality (surg < 6mo to avoid pulmonary HTN) • Differentiate from tetralogy of Fallot = no RVOT; look for origin of PAs from truncus Dr/AHMED ESAWY

210. Truncus Arteriosus Four Types (Van Praagh Classification) 1. Main PA arises from truncal root and divides 2. Both PAs arise from the truncal root separately 3. Left PA supplied by collaterals from aortic arch 4. Aortic arch interrupted; desc aorta supplied by ductus (10-15%) Dr/AHMED ESAWY

211. TRUNCUS ARTERIOSUS COMMUNIS Dr/AHMED ESAWY

212. Truncus arteriosus communis Truncus arteriosus communis: a single large vessel with a thickened valve arises from the base the heart and give rise to the aortic arch and main pulmonary arteryDr/AHMED ESAWY

213. Truncus Arteriosus Dr/AHMED ESAWY

214. Truncus Arteriosus Dr/AHMED ESAWY

215. Dr/AHMED ESAWY Truncus arteriosus communis Type 1 with the truncus (Tr) bifurcating into the aorta (Ao) and pulmonary trunk

216. • Fetus of 34 weeks’ gestation with truncus arteriosus. Three- vessel view on sonography shows only two vessels: superior vena cava (v) on right (rt) and common arterial trunk (Tr) on left (It). a = descending aorta, S = spine Dr/AHMED ESAWY

217. • Persistent truncus arteriosus Dr/AHMED ESAWY

218. Truncus arteriosus. Dr/AHMED ESAWY

219. Truncus arteriosus Dr/AHMED ESAWY

220. Dr/AHMED ESAWY

221. ductus Arteriosus • Connect bifurcation of main pulm. artery with infer. surface of aorta just distal to Lt. subclavian a. • <1% CHD Dr/AHMED ESAWY

222. • Fetus of 35 weeks’ gestation with tortuous ductus arteriosus. Three-vessel view on sonography shows tortuous ductus arteriosus (d), which forms vascular loop a left posterior aspect of main pulmonary artery (P) and should not be mistaken for abnoro mal additional vessel. A = ascending aorta, a = descending aorta, It = left, rt = right, S =right, S = spine. spine, v = superior vena cava.Downloaded from f t Dr/AHMED ESAWY

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