Hypoplastic left heart syndrome: is echocardiography accurate enough to guide surgical palliation?

Two-dimensional echocardiography can diagnose hypoplastic left heart syndrome. However, with the advent of the possibility of palliative open heart surgery, complete anatomic diagnosis is necessary. The anatomic findings of 15 neonates with hypoplastic left heart syndrome (age 1 to 10 days, mean 4.1) who had two-dimensional Doppler echocardiographic studies were compared with the results obtained by angiography (6 cases), surgery (11 cases) and autopsy (8 cases). Complete two-dimensional echocardiographic examination of the aortic arch, pulmonary and systemic venous return, atrial septum, ductus arteriosus and proximal coronary arteries was possible in all 15 neonates and correctly diagnosed hypoplastic left heart syndrome in each. Anatomic two-dimensional echocardiographic assessment was accurate in 13 (86%) of the 15 neonates and there were no false positive results. Undiagnosed associated abnormalities were hypoplasia of a left pulmonary artery in one patient and left superior vena cava in another. Accurate quantitation of the size of the tricuspid valve anulus, ascending aorta, pulmonary anulus and right and left pulmonary arteries was possible. Doppler examination was performed in seven patients and confirmed retrograde aortic arch flow and right to left systolic shunting in the patent ductus arteriosus. In selected neonates, surgical palliation can be attempted without angiography.     

Accuracy of two-dimensional echocardiography in the diagnosis of congenital heart disease

To assess the accuracy of 2-dimensional (2-D) echocardiography in the evaluation of cardiac anatomy in patients with congenital heart disease, 2-D echocardiograms were performed in 126 infants and children before cardiac catheterization and angiocardiography. The segmental echocardiographic analysis included determination of intracardiac, great artery, systemic venous and pulmonary venous anatomy. The 126 patients had 259 separate cardiovascular abnormalities, of which 226 (87%) were prospectively identified by 2-D echocardiography. There were 8 false-positive diagnoses. The most common lesions and the sensitivity and specificity of echocardiography were: patent ductus arteriosus, 41 patients (83% and 100%, respectively), ventricular septal defect, 35 patients (86% and 100%); atrial septal defect, 26 patients (85% and 99%); pulmonary valve stenosis, 25 patients (77% and 97%), transposition of the great arteries, 16 patients (100% and 100%); and total anomalous pulmonary venous connection, 14 patients (85% and 100%). Less common defects and their rate of detection included coarctation of the aorta, 10 of 12 patients; atrioventricular canal, 10 of 10 patients; tetralogy of Fallot, 10 of 10 patients; aortic valve stenosis 8 of 8 patients; right aortic arch, 8 of 8 patients; interrupted aortic arch, 4 of 4 patients; and unilateral pulmonary vein atresia, 0 of 1 patient. In 33 patients (26%), the errors in echocardiographic analysis were judged to have surgical importance. Most errors were the result of overlooking or misinterpreting data that had been appropriately recorded on videotape. Pulmonary valve stenosis and patent ductus arteriosus are the lesions most likely to be misdiagnosed by ultrasound studies relying on imaging alone.     

Echocardiographic assessment of interrupted aortic arch

BACKGROUND: In patients with interrupted aortic arch echocardiography provides detailed information about the anatomy of the aortic arch and the associated cardiac anomalies. Only a few reports have evaluated the reliability of this non-invasive diagnostic procedure by correlation with angiographic and surgical findings. METHODS: From 1988 through 1993, 45 infants with interrupted arch underwent surgical repair (mean age 13.02 days). Of the patients, 33 had interruption of the arch between the left common carotid and subclavian arteries; 25 patients had a ventricular septal defect, and the remaining 20 had coexisting complex congenital heart defects. Preoperative diagnosis was made exclusively by echocardiography in 25 of the patients. Accuracy of echocardiographic diagnosis was evaluated retrospectively by comparing preoperative studies with angiography and surgical reports. We then investigated whether the morphologic features of the interrupted arch might influence surgical procedure or outcome. RESULTS: Intracardiac anatomy was accurately diagnosed by echocardiography in all cases; in 2 patients angiography provided additional information concerning the morphology of the aortic arch. Operative notes described differences in morphology of the arch in 7 patients, but these did not influence the surgical procedure. Direct anastomosis of the interrupted segments was possible in 38 patients, and 36 patients underwent primary intracardiac repair. Echocardiographic measurements revealed that the diameter of the ascending aorta was related to the number of vessels originating from the proximal aortic arch. The distance between the interrupted segments was significantly different according to the site of interruption, but not between cases with an isolated ventricular septal defect versus those with complex heart disease. It did not influence the method of arch repair, nor was it related to recurrent or residual obstruction. CONCLUSION: Preoperative echocardiography offers accurate and complete diagnosis in the critically ill neonate with interrupted aortic arch and associated intracardiac abnormalities.     

Assessment of the ductus arteriosus in preterm infants utilizing suprasternal two-dimensional/Doppler echocardiography

Evaluation for patent ductus arteriosus by both Doppler examination and direct two-dimensional echocardiographic visualization has been reported in infants and children. However, visualization of a patent ductus arteriosus in preterm infants with lung disease has been difficult. Using a recently developed 7.5 MHz mechanical scanner with interfaced two-dimensional directed pulsed Doppler ultrasonography, 36 examinations were performed from a suprasternal approach in 27 patients (age range 1 day to 3 months, mean 18 days; weight range 490 to 2,500 g, mean 1,260). Complete imaging for evaluation of patency of the ductus arteriosus was successful in 33 (92%) of 36 examinations, and imaging of the pulmonary end of the ductus arteriosus was successful in all. In 18 examinations, the ductus arteriosus was closed by both two-dimensional echocardiography and Doppler examination. In four cases the ductus arteriosus was widely patent by both two-dimensional echocardiography and Doppler examination. Eleven echocardiographic examinations revealed a narrowed ductus arteriosus, and of these, 10 (91%) showed Doppler findings of patent ductus arteriosus. It is concluded that combined two-dimensional/Doppler echocardiographic assessment allows confident detection of both a large unrestrictive and a small, stenotic patent ductus arteriosus in preterm infants with lung disease.     

Coarctation repair without cardiac catheterization in infants

Of 35 infants who underwent an operation for coarctation of the aorta, 15 did not undergo cardiac catheterization before surgery. The diagnoses in all uncatheterized patients were made by clinical examination, chest radiography, ECG, and two-dimensional echocardiography combined with pulsed Doppler echocardiography. Associated anomalies diagnosed by two-dimensional/Doppler echocardiography included a patent ductus arteriosus in all patients, bicuspid aortic valve in six, small ventricular septal defect in four, and complete common atrioventricular canal in one. In no instance was the diagnosis of coarctation in error. In addition, the clinical significance of the ventricular septal defect was judged correctly by two-dimensional echocardiography, and no patient required an early reoperation because of significant left-to-right shunt. Two significant lesions were missed in one patient each: mitral stenosis and aortic stenosis. These diagnoses were missed in patients who were first seen with either profound congestive heart failure or shock. Coarctation of the aorta and associated lesions can be diagnosed accurately by two-dimensional echocardiography. This permits proper patient management without the added risk of cardiac catheterization. Although mitral and aortic lesions may be missed because of low cardiac output, this does not result in management errors.     

Sector echocardiographic determination of the diameter of the large arteries of the heart in children

We determined the end-diastolic and end-systolic diameters of the aortic root, ascending aorta, aortic arch, pulmonary trunk, and right pulmonary artery in infants and children with congenital heart disease by means of two-dimensional echocardiography. These measurements were compared to those obtained by angiocardiography in the same patients. We found an excellent correlation (r = 0.94 to 0.99) with a slope near to 1. In a second study, we measured echocardiographically the end-systolic diameters of the aortic root, ascending aorta, aortic arch, pulmonary trunk and right pulmonary artery in 87 healthy newborns, infants, children and adolescents and correlated these measurements with the body weight. We found a nonlinear correlation with the diameters being best described as a function of the natural logarithm of the body weight. We determined normal ranges containing 90% of all future normal observations with a confidence of 90%. These normal ranges may serve as basis for comparison of measurements of the same diameters in children with heart disease.     

Echocardiographic Examination of the Aortic Arch: Anomalies Presenting in the Neonatal Period

Congenital anomalies of the aortic arch that present in the first 30 days of life include clinically significant lesions such as coarctation of the aorta and interruption of the aortic arch. Other anomalies of aortic arch position may present as part of a larger congenital complex. Knowledge of the embryology and anatomy of these structures is essential to the understanding of this class of defects. A systematic and careful two-dimensional echocardiographic examination of the arch structures from suprasternal and high parasternal views should reveal the anatomy. A careful Doppler examination using pulsed- and continuous-wave Doppler, as well as color flow imaging, is used to delineate the presence and severity of obstructive lesions. This review discusses the anatomy and echocardiographic techniques that may be used to demonstrate this group of lesions. Noninvasive echocardiographic examination of the aortic arch complex in the neonate should be sufficient to make the diagnosis of most aortic arch anomalies. (ECHOCARDIOGRAPHY, Volume 8, July 1991)     

Ductal Stent Implantation in Tetralogy of Fallot with Aortic Arch Abnormality

Stenting of patent ductus arteriosus is an alternative to palliative cardiac surgery in newborns with duct-dependent or decreased pulmonary circulation; however, the use of this technique in patients with an aortic arch abnormality presents a challenge. Tetralogy of Fallot is a congenital heart defect that is frequently associated with anomalies of the aortic arch and its branches. The association is even more common in patients with chromosome 22q11 deletion.We present the case of an 18-day-old male infant who had cyanosis and a heart murmur. After an initial echocardiographic evaluation, the patient was diagnosed with tetralogy of Fallot and right-sided aortic arch. The pulmonary annulus and the main pulmonary artery and its branches were slightly hypoplastic; the ductus arteriosus was small. Conventional and computed tomographic angiograms revealed a double aortic arch and an aberrant left subclavian artery. The right aortic arch branched into the subclavian arteries and continued into the descending aorta, whereas the left aortic arch branched into the common carotid arteries and ended with the patent ductus arteriosus. After evaluation of the ductal anatomy, we implanted a 3.5 × 15-mm coronary stent in the duct. Follow-up injections showed augmented pulmonary flow and an increase in oxygen saturation from 65% to 94%. The patient was also found to have chromosome 22q11 deletion.     

Echocardiographic and Doppler evaluation of the aortic arch and brachiocephalic vessels in cerebral and systemic arteriovenous fistulas

Congenital arteriovenous fistulas presenting in the newborn period pose difficult diagnostic problems and simulate structural heart disease. Angiocardiography, when performed, demonstrates enlarged brachiocephalic vessels and rapid cerebral venous return. The value of echocardiographic imaging and measurement of the aortic arch and brachiocephalic vessels, and evaluation of the Doppler flow profile in these vessels as a means of making a rapid diagnosis of cerebral or thoracic arteriovenous fistula, was therefore assessed in 10 infants with these diagnoses seen over a 4 year period (1983 to 1987). Twenty-nine infants (median age 6 weeks) undergoing two-dimensional echocardiography but with no significant lesions were prospectively selected as controls. Nine of the 10 patients had congestive heart failure at presentation (mean age 2 days). A cranial bruit was heard in three and arteriovenous fistula was suspected in five patients. Aortic arch segments and brachiocephalic vessel dimensions expressed as ratios of the abdominal aorta showed significantly larger values in patients for the ascending aorta (p = 0.01), innominate artery (p less than 0.001), right and left subclavian arteries (p less than 0.001) and left common carotid artery (p less than 0.05). The thoracic descending aorta was, however, significantly smaller in patients (p less than 0.002). Retrograde diastolic Doppler flow in the descending aorta proximal to the ductus arteriosus and anterograde diastolic flow with a mean spectral flow-time integral 27% of systolic were present in patients only, whereas Doppler diastolic flow in brachiocephalic vessels, present in 5 of 29 control infants, was less than 15% of systolic flow and not accompanied by dilation of these vessels.(ABSTRACT TRUNCATED AT 250 WORDS)     

Does ductal occlusion with the gianturco coil cause left pulmonary artery and/or descending aorta obstruction?

Thirty-two patients (median age 4.5 years) underwent transcatheter Gianturco coil occlusion of a patent ductus arteriosus. Transthoracic echocardiography was performed the day after coil placement and at intermediate follow-up (median 8.6 months). Echocardiographic results were compared with angiographic and hemodynamic data obtained during catheterization. Two-dimensional (2D) echocardiography performed the day after ductal occlusion displayed evidence of coil protrusion into the left pulmonary artery in 28 of 31 patients (90%) and into the descending aorta in 17 of 29 (59%). However, pulsed Doppler analysis demonstrated normal left pulmonary arterial flow velocities in 28 of 29 patients (97%) and normal descending aortic flow velocities in 26 of 27 (96%). Pulse Doppler results were corroborated by angiographic and hemodynamic catheterization data, which showed no evidence of adjacent vessel obstruction. Peak Doppler velocities among patients with and without 2D echocardiographic left pulmonary artery or descending aorta coil impingement did not differ significantly. The discrepancy between 2D and pulse Doppler findings did not change significantly at intermediate follow-up. Thus, transcatheter occlusion of the patent ductus arteriosus with properly implanted Gianturco coils does not cause significant obstruction to flow in the left pulmonary artery or descending aorta despite frequently misleading 2D echocardiographic images of coil impingement on these vessels.     

Echokardiographische Diagnostik angeborener Herzfehler im Erwachsenenalter

Echo and Doppler echocardiographic procedures have gained special importance in the diagnostics of congenital diseases in adults. These procedures permit detailed visualization of the pathomorphology of the heart as well as reliable evaluation of the hemodynamic changes. There are differentiated indications for the various procedures, such as transthoracic and transesophageal echocardiography, Doppler and color-Doppler echocardiography, contrast echocardiography and 3-dimensional echocardiography. This article discusses the opposition of the various echo and Doppler echocardiographic procedures with respect to the diagnostics of the most frequent non-operated congenital diseases in adults. The pathomorphology of the various congenital diseases will be summarized and then the important echocardiographic criteria presented which are decisive for the diagnostic procedure. In simple congenital malformation of cardiac valves, such as bicuspid aortic valve (Figure 1: aortic ring abscess), pulmonary valve stenosis (Figure 2), Ebstein's anomaly (Figure 3) or malformations of the mitral valve (Figure 4: cleft in the anterior mitral cusp), the diagnosis can often be made using transthoracic echo and Doppler echocardiography, and the severity of the defect determined. However, the sonographic conditions, especially in adults, are frequently too limited to permit recognition of detailed smaller changes, so that transesophageal examination is required to finally confirm the diagnosis in these patients. In the diagnostics of diseases of the left ventricular outflow tract and the thoracic aorta, such as subvalvular aortic valve stenosis (Figure 5), the sinus of Valsalva aneurysm or the coarctation of the aorta (Figure 6), the left ventricular outflow tract can be evaluated morphologically from a transthoracic procedure and the accelerations of flow can be recorded by continuous wave Doppler. If there is no sclerosis of the fibrous membrane, these can often not be depicted by transthoracic procedures, so that a supplementary transesophageal examination is meaningful. This is required in any case for diseases of the descending thoracic aorta. In the case of congenital lesions, such as atrial septal defects (Figure 7: anomalous pulmonary venous return, Figure 8: 3-dimensional visualization of an atrial septal defect, Figure 9: sinus venosus defect), ventricular septal defect or a patent ductus arteriosus Botalli (Figure 10), color-Doppler and contrast echocardiography have become especially important. Transesophageal examination is also indicated for these congenital diseases for direct depiction of the defect as well as for precise evaluation of the shunt. Moreover, in atrial septal defects, it has been shown that a 3-dimensional echocardiography provides additional advantage with respect to spatial relationship of the defect to the other cardiac structures, as well as presenting dynamic changes during a heart cycle. Extensive knowledge of complex congenital heart disease, such as tetralogy of Fallot (Figure 11), complete transposition of the great arteries, congenitally corrected transposition of the great arteries (Figure 12), the double-outlet right ventricle, truncus arteriosus communis, the cor triatriatum, tricuspid atresia (Figure 13) or the univentricular heart (Figure 14) usually requires performance of a transthoracic echo- and Doppler echocardiographic examination to assess the pathomorphological changes and to examine hemodynamics. In the majority of patients, supplementary transesophageal echocardiography and an echo contrast examination are important. Initial examinations using 3-dimensional echocardiography are very promising in this connection and with respect to the exact spatial presentation of pathoanatomical structures.     

Two-dimensional echocardiographic prospective diagnosis of common truncus arteriosus in infants

Two-dimensional echocardiographic prospective diagnosis of truncus arteriosus was made in 7 infants. Two infants had truncus arteriosus type I, 3 patients had truncus arteriosus type II, 1 infant had truncal valve stenosis with an interrupted aortic arch, and 1 had type IV truncus arteriosus with pulmonary hypertension. Multiple imaging views were utilized to confirm the diagnosis. The parasternal long-axis view demonstrated the great vessel-ventricular septal override and the origin of the pulmonary arteries from the posterior aspect of the ascending truncus. The suprasternal notch image facilitated identification of the left- or right-sided aortic arch and the origin of the pulmonary arteries from the truncus. Transverse imaging sections at the base of the heart facilitated identification of the pulmonary artery origin of truncus arteriosus type I. Subcostal coronal and sagittal views imaged the common truncus and the ventricular septal defect.

These echocardiographic images were contrasted with and discriminated from those of an infant with aorticopulmonary window with intact ventricular septum. Although cardiac catheterization and angiography may be required to assess pulmonary arterial pressure, pulmonary vascular resistance, and the distal pulmonary arterial anatomy in truncus arteriosus, 2-dimensional echocardiography can be used to correctly establish the morphologic diagnosis of truncus arteriosus in infants.     

Peripheral arterial contrast echocardiography: a new method for the detection of left-to-right shunting patent ductus arteriosus

A modified echocardiographic method (peripheral arterial contrast echocardiography, PACE) using suprasternal notch (SSN) echocardiography and rapid hand injection of 5% glucose solution through peripheral arteries is introduced. This method was used to determine the presence of a left-to-right shunting via patent ductus arteriosus (PDA) in 50 patients with various congenital heart disease among neonates, infants, and young children. Echocardiographic findings were compared with cardiac catheterization/angiography, surgery, and/or autopsy. Diagnosis of PDA made by PACE was sensitive in 98.5% and specific in 100% of cases. Thus, the PACE examination is a reliable bed-side technique to detect qualitatively the presence or absence of a left-to-right shunting PDA accompanied with acyanotic or cyanotic heart disease.     

Congenital heart disease: diagnostic approaches, surgical indications and operative results

Our management policies of the main congenital cardiac defects which require emergency surgical intervention in neonate and infancy were reported. Total anomalous pulmonary venous drainage (TAPVD): Recent refinements in two-dimensional (2-D) echocardiography have made it possible to operate for this anomaly using only this modality. When a combination of coarctation is suspected and/or the location of the drainage of the pulmonary vein is obscure, catheterization and angiocardiography are added for detailed diagnosis. It is, however, our policy not to perform right-sided angiocardiography for patients younger than three months of age. Symptomatic cases are operated urgently, although not always on an emergency basis. In our experience, a 12 approximately 24 hour delay with intensive cardiorespiratory and metabolic care may improve the preoperative conditions considerably and increase the chances of a successful surgical repair. Coarctation of the aorta (CoA) and interruption of the aortic arch (IAA): Diagnosis of CoA by echocardiography and aortography by radial artery injection is well established. In neonates and infants with CoA or CoA + patent ductus arteriosus (PDA) and/or ventricular septal defect (VSD), emergency repair of coarctation (usually with subclavian flap aortoplasty) without pulmonary artery banding (PAB) is undertaken on the day of established diagnosis. If a combination of complex cardiac anomalies such as transposition of the great arteries (TGA) and Taussig-Bing anomaly is suspected, catheterization and angiocardiography are added for the detailed diagnosis. Repair of coarctation combined with PAB has been our choice of procedure in these infants. If IAA is suspected, catheterizaton, angiographic and detailed echocardigraphic studies are performed to define the precise anatomy of the aortic arch and associated intracardiac lesions, paying particular attention to the left ventricular outflow tract, as soon as such patients become clinically stable by intensive medical treatment using prostaglandin E1 (PGE1), digitalis and diuretics. Once the diagnosis is established surgical treatment should be carried out without delay. Initial palliation by aortic arch reconstruction with PAB followed by two-stage definitive intracardiac repair have been our choice of procedure in neonates and infants with IAA without severe left ventricular outflow tract obstruction.(ABSTRACT TRUNCATED AT 400 WORDS)     

Coarctation and related aortic arch anomalies in hypoplastic left heart syndrome

The aortic arches of 34 specimens with hypoplastic left heart syndrome were studied in order to establish the frequency, the nature and the clinical implications of aortic arch anomalies. A localized aortic coarctation was present in 23 specimens. The coarcation was located preductally in 2 and paraductally in 21 cases. The degree of obstruction caused by the coarctation varied considerably. In only 6 cases (1 preductal and 5 paraductal) was the obstruction judged to be severe. One of these cases had an additional aneurysm of the aortic wall proximal to the coarctation. An aberrant relation of the ductus arteriosus and the aortic arch was found in 2 specimens without localized coarctation. In the remaining 9 specimens the aortic arch appeared normal. The aortic arch anomalies were mostly present in specimens with a severely hypoplastic ascending aorta. Clinicians, when preparing infants with hypoplastic left heart syndrome for surgical palliation, should always suspect associated aortic arch anomalies, especially when there is severe hypoplasia of the ascending aorta. Coarctation of the aorta will require additional surgical treatment.     

Surgery without angiography for neonates with aortic arch obstruction

Traditional diagnostic assessment of the neonate and infant with congenital abnormalities of the aorta causing left ventricular outflow tract obstruction has required catheterization and angiography. However, these patients frequently present critically ill and invasive diagnostic procedures may be associated with significant risks. Two-dimensional echocardiography has been used for aiding diagnosis of aortic arch abnormalities, but there has been little information concerning its use as the definitive imaging technique for preoperative assessment. We reviewed neonates who required urgent surgery for congenital obstruction of the aorta. The diagnosis was made using two-dimensional echocardiographic imaging and Doppler techniques for hemodynamic assessment in lieu of catheterization and angiography in all. Anatomic detail provided by the noninvasive approach was both sensitive and specific in guiding surgery in all but one case. We conclude that echocardiography eliminates the need for invasive preoperative diagnostic procedures in selected neonates with congenital aortic arch obstruction.     

Two-dimensional echocardiographic features of interruption of the aortic arch

The 2-dimensional echocardiographic features of interruption of the aortic arch are presented based on analysis of the echocardiograms and angiograms from 8 infants: 2 with type A and 6 with type B interruption. Each infant had a patent ductus arteriosus, 6 had a conoventricular septal defect with leftward deviation of the conal septum, 1 had truncus arteriosus with truncal valve stenosis, and 1 had a distal aortopulmonary septal defect with an intact ventricular septum. Echocardiographic images obtained from the suprasternal notch or from a high parasternal approach demonstrated the interruption of the aortic arch and continuation of the patent ductus arteriosus into the descending aorta. These findings were compared with those in infants with aortic atresia and a hypoplastic ascending aorta or discrete coarctation of the aorta with tubular hypoplasia of the aortic arch. Types A and B interruption of the aortic arch were easily differentiated and the caliber of the patent ductus arteriosus was assessed. The characteristic conoventricular septal defect was readily visualized from an apex 2-chamber view or from a subcostal sagittal plane view. With this information subsequent angiography can be more expeditiously performed in this group of critically ill infants.     

Coarctation of the aorta in prenatal life: an echocardiographic, anatomical, and functional study.

In a prospective echocardiographic study of over 2000 pregnancies, 24 fetuses were found to have dilatation of the right ventricle and pulmonary artery when these structures were compared with those of the left heart. In 18 of these cases the diagnosis of coarctation or interruption of the aorta was correctly inferred from these findings. On direct echocardiographic examination of the aortic arch, arch hypoplasia or interruption of the aortic arch was recognisable prenatally in 10 of these 18 cases, most readily between 20-30 weeks' gestation. In 11 of 12 cases of aortic arch anomaly studied by Doppler echocardiography, a reduction in blood flow in the ascending aorta was demonstrated. The intracardiac appearances were suggestive of coarctation but the Doppler findings were within normal limits in two further cases which later proved to be normal. A diaphragmatic hernia was found in four fetuses and the intracardiac echocardiography and Doppler findings were the same as those found in fetuses with aortic coarctation. Five cases of coarctation were overlooked on the prenatal echocardiogram but these were found at follow up of the infants. Thus coarctation of the aorta can be diagnosed prenatally, although the condition may be missed or incorrectly predicted by the criteria examined in the present study. Reduced aortic blood flow is a demonstrable feature of aortic arch abnormalities but it is found in other conditions that are not associated with coarctation.     

Heart malformations and vascular complications associated with Turner's syndrome. Prospective study of 26 patients

Turner's syndrome is associated with congenital heart disease in a third of cases. Several reports of aortic dilatation and of death by dissection or rupture of the aorta have been published. The authors undertook a prospective study to assess the incidence of cardiac malformations and aortic dilatation in genetically confirmed Turner's syndrome. Twenty-six out of 34 patients recalled (76%), aged 7 to 30 years (average 17 +/- 6 years) accepted their inclusion in this study and underwent clinical examination, ECG, chest X-ray and echocardiography. Thirteen patients had a monosomy 45X and 13 a mosaic or structural abnormality. Six had a history of cardiovascular disease (operated coarctation: 2 cases, kinking: 2 cases, Hypertension: 2 cases). Eight patients (30%) had one or several anatomical cardiovascular abnormalities: bicuspid aortic valve (19.2%), abnormalities of the aortic isthmus (kinking or coarctation) (15.4%), aortic regurgitation (7.7%), mitral stenosis (3.8%), partial anomalous venous drainage (3.8%), patent ductus arteriosus (3.8%) and left superior vena cava (11.5%). Systematic evaluation of the aorta resulted in the diagnosis of dilatation of the ascending aorta in 1 case and dilatation of the sinus of Valsalva in 2 other cases. The authors conclude that echocardiographic evaluation is essential after the diagnosis of Turner's syndrome. It should be repeated regularly to detect dilatation of the aorta which carries the risk of serious complications, such as rupture or dissection of the aorta.