Value of MRI in the diagnosis of fetal aortic arch anomalies

Objective To explore the ultrasonographic features, diagnostic clues and methods of fetal aortic arch anomalies, and to improve the diagnosis rate of prenatal ultrasonography for fetal aortic arch anomalies. Methods Fetuses with aortic arch anomalies diagnosed by prenatal ultrasound were selected as the study objects. The prenatal ultrasonographic features of the three views of the aortic arch were carefully observed. The three views included the followings: the transverse view(the view of three vessels and trachea), the sagittal view (the longitudinal view of the aortic arch), and the coronal view (the coronal view of the descending aorta). The prenatal diagnostic clues and diagnostic techniques of aortic arch anomalies were summarized and analyzed. Results Eighty-one cases with aortic arch anomalies were followed up. Fifteen cases were left-sided aortic arch and left-sided ductus arteriosus with aberrant right subclavian artery, 22 cases with right aortic arch and left-sided ductus arteriosus with aberrant left subclavian artery, 4 cases were mirror right aortic arch and left-sided ductus arteriosus, 2 cases were mirror right aortic arch and right-sided ductus arteriosus, 11 cases were double aortic arch, 23 cases were coarctation of the aorta, and 4 cases were interruption of aortic arch. Among them, 27 cases were complicated with other cardiac and extra-cardiac malformations and 13 cases with chromosomal abnormalities. Prenatal ultrasonographic clues for diagnosis of coarctation of the aorta included the three vessels and trachea view showing small diameter and disproportion to the diameter of the ductus arteriosus. And the longitudinal view of the aortic arch was helpful for showing the position and the extent of coarctation of the aorta. Prenatal ultrasonographic clues for diagnosis of interruption of aortic arch were that the three vessels and trachea view and the longitudinal view of the aortic arch showed the interruption between aortic arch and descending aorta. And the abnormal combination cases of the aortic arch segments also had their corresponding diagnostic clues. These clues included that the three vessels and trachea view showed abnormal position, arrangement and running of the branches of the aortic arch. And the coronal view of the descending aorta also showed abnormal changes in the branches of aortic arch. Conclusions Various types of congenital aortic arch anomalies have characteristic ultrasonography and their corresponding diagnostic clues and methods. The combined use of the three views of the aortic arch is effective in prenatal diagnosis for aortic arch anomalies. Key words: Ultrasonography, prenatal; Aortic arch anomalies; Diagnostic clues

Hybrid Endovascular Treatment of an Anomalous Right Subclavian Artery Dissection in a Patient With Marfan Syndrome

Repair of Kommerell's Diverticulum and Aberrant Subclavian Arteries: Classification of the Five Groups in Declining Frequency and Their Operative Approaches

Objective To investigate the value of prenatal echocardiographic diagnosis of anomalies of the right aortic arch(RAA) and its branch type, and provide rapid diagnostic methods. Methods A retrospective analysis of 55 cases of RAA of prenatal ultrasound diagnosis results, and their imaging characteristics were summarized. Results There were 55 cases of anomalies of the RAA, included 42 cases of RAA with aberrant left subclavian artery(RAA-ALSA) and 13 cases of RAA with mirror image branching pattern(RAA-MB), 1 case of double aortic arch(DAA) was misdiagnosed as RAA. The prenatal echocardiographic characteristics of RAA-ALSA: in three-vessel-aortic arch view, the first branch of the aortic arch was the left carotid artery, which ran in front of the trachea, and ALSA ran behind the trachea and esophagus. The prenatal echocardiographic characteristics of RAA-MB: the first branch of the aortic arch was the brachiocephalic trunk, which ran in front of the trachea and was divided to the left carotid artery and the left subclavian artery. Conclusions Prenatal ultrasound can qunickly and accurately diagnose anomalies of the right aortic arch and its branch type according to the direction, thickness and secondary branches of the first branch of the aortic arch. The location of arterial duct is helpful to judge the formation of vascular ring. Key words: Ultrasonography, prenatal; Right aortic arch; Vascular ring

Objective To evaluate the role of combination of three-vessel views in ultrasound diagnosis of fetal aortic arch and pulmonary arterial branch anomalies. Methods The data of 66 cases of fetal aortic arch and pulmonary arterial branch anomalies were retrospectively analysed, including echocardiographic data, autopsy and operation records and postnatal follow-up results. Echocardiogaphic features and display frequencies on three vessels and trachea view(3VT), three vessels view(3VV) and three vessels and pulmonary arterial branches view(3VP) were summarized. Results There were 52 cases of aortic arch abnormalities, including 32 cases of right aortic arch with left ductus arteriosus, 4 cases of double aortic arch, 7 cases of aberrant right subclavian artery, 6 cases of coarctation of aorta and 3 cases of interruption of aortic arch. Fourteen cases were diagnosed pulmonary aterial branch abnormalities, including 10 cases of crossed pulmonary arteries, 2 cases of anomalous origin of left pulmonary artery from aortic arch and 2 cases of pulmonary artery sling. The display frequencies of fetal aortic arch and pulmonary arterial branch anomalies on 3VT, 3VV and 3VP were 80.3%, 19.7% and 39.4%. Conclusions The combination of three-vessel views is of great value in prenatal diagnosis of fetal aortic arch and pulmonary arterial branch anomalies. Key words: Ultrasonography, prenatal; Heart defects, congenital; Three-vessel view; Aortic arch; Pulmonary arterial branch

Background: Here we report our preliminary experience of using fetal cardiovascular magnetic resonance (CMR) imaging, particularly with transverse views at the level of the aortic arch, in the diagnosis of aortic arch anomalies.Materials and methods: Between January 2013 and December 2015, routine prenatal obstetric ultrasound (US), echocardiography (Echo), and 1.5 T CMR were performed on approximately 600 pregnant women. CMR included balanced fast field echo and single-shot fast spin echo sequences. The images were analyzed using an anatomic segmental approach by two radiologists. The prenatal imaging findings were compared with postnatal diagnoses, from imaging or autopsy.Results: A total of 22 cases with suspected aortic arch anomalies were found by prenatal Echo. These included the following: right aortic arch, 18 cases; double aortic arch, 2 cases; atrial isomerism, 3 cases including 2 with right aortic arch; and pulmonary atresia, aortic overriding and ventricular septal defect, 1 case. Fetal CMR diagnoses were: right aortic arch with aberrant left subclavian artery, 9 cases; right aortic arch with mirror-image branching, 8 cases; double aortic arch, 4 cases; left aortic arch with right aberrant subclavian artery, 1 case. 16 cases were born alive and subsequently underwent evaluation by Echo or MRI and 6 cases had autopsies. There were 23 aortic arch anomalies. Prenatal Echo misdiagnosed 5 of these (5/23), and missed the diagnosis in 4 cases (4/23). Consequently, the accuracy of prenatal Echo was 60.8% (14/23). Both prenatal Echo and CMR misdiagnosed the same single case as a double aortic arch. The correct diagnosis was found to be right aortic arch with aberrant subclavian artery. Consequently, the accuracy of fetal CMR was 95.6% (22/23).Conclusion: Unlike prenatal Echo, fetal CMR is unaffected by fetal position. Fetal CMR with transverse views at the level of the aortic arch is a useful adjunct for the diagnosis of fetal aortic arch anomalies.

To study diagnostic value of 64 multislice CT in typing of congenital aortic anomaly in neonates and infants. 120 pediatric patients (under one year of age) with congenital heart disease (CHD) underwent 64 contrast-enhanced MSCT before a corrective operations. The diagnostic sensitivity, specificity and accuracy of 64 MSCT were evaluated and also compared with those of echocardiography with Doppler. The patients were randomly assigned to two groups (72 and 48 persons) respectively according to tube tension of 80 and 100 kV. The differences of the image qualities were compared between them. 36 congenital aortic anomalies were found (36/120, 30%) by 64 MSCT, which were furtherly distinguished into 2 cases in double aortic arch, 2 cases in left-sided aortic arch with aberrant right subclavian artery, 22 cases in right aortic arch (6 cases in right-sided aortic arch with aberrant left subclavian artery, 12 cases in right aortic arch with mirror image branching), 10 cases in coarctation of aorta. Diagnostic sensitivity, specificity and accuracy of 64 MSCT were all 100%. By contrast, those of echocardiography with Doppler were 27.8%, 97.6%, 76.7%, respectively. The quality scores were 4.69 ± 0.52, 4.58 ± 0.58 at 80 kV and 100 kV, respectively. No significant statistical difference was found between them (t = 1.08, P = 0.28). MSCT allows a detailed assessment of the anatomy of congenital aortic anomaly, which can be used as an important supplementary method in diagnosing CHD and offer important information for operation. 80 kV should be selected in CHD patients less than one year old for CT examination to reduce radiation exposure.

Objective To investigate the ultrasonic imaging features of and differential diagnosis methods for the right aortic arch, to analyze the causes of missed diagnosis and misdiagnosis, and to further improve the accuracy of prenatal ultrasound diagnosis. Methods Cardiac screening examination of the fetus was carried out with views of gray-scale and color Doppler or power Doppler imaging (PDI). When the three-vessel tracheal (3VT) view found that the aortic arch was located in the right of the trachea, the coronary views of the trachea and its branches were obtained to further clarify the relationship among the aortic arch, arterial ductus, and trachea. The sonographic features of 31 cases of fetal right aortic arch were summarized, and the reasons for misdiagnosis were analyzed. Results Of the 31 cases of fetal right aortic arch diagnosed by prenatal ultrasound, 20 were alive, 15 were induced, and 6 were lost. As for the results of echocardiography for postpartum children, operation or autopsy were obtained in 31 cases, of which 6 had misdiagnosis or missed diagnosis by prenatal ultrasonography. The coronal views of the trachea and its branches were not obtained in two cases of fetal left aortic arch, and they were misdiagnosed as right aortic arch because the transversely sectioned bronchus were mistaken as the transversely sectioned trachea in the 3VT view. In two cases of right aortic arch with aberrant left subclavian artery, the left common carotid artery was misdiagnosed as a stunted left arch, which resulted in a misdiagnosis as a double aortic arch of the advantage type. In two cases of right aortic arch combined with cardiac defects, right aortic arch was missed in prenatal ultrasound diagnosis. Of 20 children who were followed, 13 were diagnosed with isolated right aortic arch, 2 with combined persistent left superior cavity, 1 with combined 2-3 lumbar vertebral body fusion, and 2 with combined right aortic arch inner or outer non-complex structure abnormality. Follow-up was conducted to the maximum age up to 3 years and 6 months, and 18 of these cases were in good condition and showed no symptoms of respiratory tract compression. One case suffered from complicated intracardiac malformation combined with IDD type congenitally corrected transposition of the great arteries. The child is currently in good condition 11 months after the delivery. One case suffered from combined esophageal atresia and died 14 days after delivery. Chromosome karyotype determination was performed in 6 cases, of whom 5 were normal and 1 was confirmed to have 18-trisomy with severe intracardiac multiple malformation. Conclusions The 3VT view is the most important view for diagnosis of right aortic arch of fetus. The accuracy of prenatal ultrasound diagnosis can be improved through the combination of the 3VT view and the coronal view of the trachea and its branches. Simple right aortic arch offers a good prognosis, and the prognosis of right aortic arch with severe ectopic and extracardial malformations depends on the severity of the combined malformation. Key words: Fetal right aortic arch; Ultrasonography, prenatal; Pregnancy outcome

The purpose of our study was to describe patterns of airway compression identified on cross-sectional imaging in infants and children with either right aortic arch and aberrant left subclavian artery or left aortic arch with aberrant right subclavian artery. Data from MR imaging and CT performed to evaluate pediatric patients for extrinsic airway compression were reviewed for cases that revealed an aberrant right or left subclavian artery. Clinical, endoscopic, and imaging findings in identified cases were reviewed. Recurrent patterns of extrinsic compression were reviewed among cases. Twelve patients with right aortic arch with aberrant left subclavian artery and nine patients with left aortic arch and aberrant right subclavian artery were identified. All 12 with right aortic arch with aberrant left subclavian artery had airway compression shown, with multiple sites or diffuse compression in six. Of these 12 patients, nine had compression at the level of the arch and aberrant subclavian artery (10 had Kommerell's diverticulum), and nine had compression of the distal airway in association with a midline descending aorta. Five of the nine patients with left aortic arch and aberrant right subclavian artery had airway compression shown, all at the level of the arch and aberrant subclavian artery. None of these compressions was associated with either Kommerell's diverticulum or midline descending aorta. Both right and left aberrant subclavian arteries can be associated with symptomatic airway compression, but the patterns of compression are different. The airway compression in right aortic arch with aberrant left subclavian artery is often associated with either Kommerell's diverticulum or midline descending aorta, whereas compression associated with left aortic arch and aberrant right subclavian artery is not.

Objective By comparing the results of prenatal diagnosis of vascular rings by ultrasound and MRI, chromosome screening and postnatal follow-ups, to explore the clinical significance of prenatal diagnostic technology for the diagnosis of vascular rings and prognostic assessment. Methods Ninety-five fetuses that were diagnosed by fetal echocardiography were followed up regularly, of which 72 cases had chromosome screening, 31 cases had MRI examination. These results were compared with the postnatal follow-up outcome. Results Ninety-five cases of vascular rings included 85 cases of right aortic arch(RAA) and left ductus arteriosus(LDA), 4 cases of pulmonary artery sling(LPAS), 4 cases of double aortic arch(DAA), 1 case of RAA and double ductus arteriosus(DDA), 1 case of left aortic arch(LAA) and aberrant right subclavian artery(ARSA). Sixty-six cases of isolated vascular rings and 29 cases of complex vascular rings(combined with other cardiovascular abnormalities) were detecded. Fifty-four cases were born(2 infants died), 8 cases were ongoing pregnancy, 6 cases were lost to follow-up, 27 cases were aborted. Prenatal ultrasound and MRI examination indicated 6 cases of trachea compression. However, only 3 infants showed clinical symptoms due to trachea compression from born 5 cases. Conclusions Isolated vascular ring is the most common format and its diagnosis and type can be determined by prenatal ultrasound. Dynamic follow-up using ultrasound in pregnancy combined with MRI is helpful to assess the compression degree of trachea induced by vascular ring and prognosis. Key words: Ultrasonography, prenatal; Magnetic resonance imaging; Fetal heart; Vascular ring

We aimed to evaluate retrospectively associated anomalies and outcome in prenatal aortic arch anomalies (AAAs). We included ninety patients with aberrant right subclavian artery (ARSA), right aortic arch (RAA) with mirror image branching (RAA-mirror) or aberrant left subclavian artery (RAA-ALSA) and double aortic arch (DAA) between 2011 and 2020. In total, 19/90 (21.1%) had chromosomal anomalies, the highest rate being within the ARSA subgroup (17/46, 37%). All (13/13) of the RAA-mirror subgroup, 10/27 (37.0%) of RAA-ALSA, 13/46 (28.3%) of ARSA and 0/4 within the DAA subgroup had additional intracardiac anomaly. The rate of extracardiac anomalies was 30.7% in RAA-mirror, 28.3% in ARSA, 25.0% in DAA and 22.2% in the RAA-ALSA subgroup. A total of 42/90 (46.7%) had isolated AAAs: three (7.1%) with chromosomal anomalies, all trisomy 21 (3/26, 11.5%) within the ARSA subgroup. Out of 90, 19 (21.1%) were lost to follow-up (FU). Two (2.2%) intrauterine deaths occurred, and six (6.7%) with chromosomal anomalies terminated their pregnancy. In total, 63 (70.0%) were liveborn, 3/63 (4.8%) with severe comorbidity had compassionate care and 3/60 (5.0%) were lost to FU. The survival rate in the intention-to-treat cohort was 53/57 (93%). Forty-one (77.4%) presented with vascular ring/sling, two (4.9%) with RAA-ALSA developed symptoms and one (2.4%) needed an operation. We conclude that intervention due to vascular ring is rarely necessary. NIPT could be useful in isolated ARSA cases without higher a priori risk for trisomy 21 and after exclusion of other anomalies.

Objective To investigate the clinical value of ultrasound diagnosis of fetal right aortic arch (RAA).Methods From March 5,2009 to September 2,2012,18 600 pregnant women in three hospitals in Foshan City,Guangdong Province,were divided as RAA high-risk group (n=5000) and low-risk group (n =13 600).During 18 to 42 gestational weeks,detailed ultrasound examinations of fetal aortic arch were done.All babies received echocardiography,CT or MRI within 15 months after birth to observe the cardiovascular condition,and aborted fetus was autopsied.RAA type,complicated structural abnormality and pregnancy outcomes between the two groups were compared with Chi-square test.Results Fifteen fetal RAA were diagnosed prenatally in the low-risk group,and the detection rate was 0.11％ (15/13 600),which was lower than that in the high-risk group (0.60％,30/5000)(x2=98.20,P＜0.01).The correct rate of prenatal ultrasound diagnosis of RAA was 96％ (43/45),while the other two cases were diagnosed as RAA with aberrant left subclavian artery and confirmed to be double aortic arch and RAA with mirror image after birth.In the high-risk group,the incidence of RAA with mirror image,cardiac and extra-cardiac malformation was 73％(22/30),67％(20/30) and 27％(8/30),respectively,which were higher than those in the low-risk group(0/15,1/15 and 0/15)(x2 =30.000,25.200 and 28.000,P＜0.01 respectively).The incidence of RAA with aberrant left subclavian artery and the 15-month survival rate of RAA infants in the high risk group was lower than those in the low-risk group [20％ (6/30) vs 12/15,40％ (12/30) vs 15/15] (x2=7.700 and 15.610,P＜0.05,respectively).Conclusions The incidence of fetal RAA is higher in the high-risk pregnant women than in the low-risk pregnant women,and babies often complicated with other malformations with poor prognosis. Key words: Ultrasonography, prenatal; Aorta, thoracic; Congenital abnormalities; Vascular malformations ; Pregnancy

Aortic arch anomalies refer to congenital malformations of position or branching pattern of the aortic arch. To-date, only a few small studies have documented prenatal detection of aortic arch anomalies. In this article, we share our experience in detecting aortic arch anomalies. Foetal echocardiograms, clinic and genetic histories of 33 patients who had been diagnosed with aortic arch anomaly from 2007 to 2015 were reviewed. In 15 patients, right aortic arch with mirror image branching; in 13 patients, right aortic arch with left ductus arteriosus and aberrant left subclavian artery; in three patients, left aortic arch with aberrant right subclavian artery; in one patient bilateral ductus and right aortic arch with aberrant left subclavian artery and in one patient double aortic arch were detected. In a patient with isolated right aortic arch, 22q11 microdeletion had been revealed. Given this data, we strongly suggest foetal karyotype analysis when aortic arch anomalies are identified.Impact StatementWhat is already known on this subject: The data about the prenatal diagnosis of aortic arch anomalies are limited.What the results of this study add: In our study, 653 patients were examined by foetal echocardiography during the study period. Thirty three patients who had been diagnosed with aortic arch anomaly prenatally and confirmed after delivery were enrolled in the study. In 15 patients, right aortic arch with mirror image branching; in 13 patients, right aortic arch with left ductus arteriosus and aberrant left subclavian artery; in three patients, left aortic arch with aberrant right subclavian artery; in one patient bilateral ductus and right aortic arch with aberrant left subclavian artery and in one patient double aortic arch were detected. Trisomy 18 was detected in the patient with bilateral ductus arteriosus and Di George syndrome (22q11 microdeletion) was determined in two patients with right aortic arch. While in the first patient, there were no other intracardiac anomalies; in the second patient with 22q11 microdeletion, Fallot tetralogy accompanied the right aortic arch.What the implications are of these findings for clinical practice and/or further research: This results showed that aortic arch anomalies can be associated with genetic anomalies even when they are found without other congenital heart disease. Given these data, we strongly suggest foetal karyotype analysis and genetic testing when aortic arch anomalies are identified.

Objective To explore the application values of prenatal ultrasound, vascular cast in the diagnosis of fetal aortic arch and its branches anomalies and to analyze the genetic characteristics by gene detection. Methods Twenty-two cases of the vascular cast specimens of the fetal aortic arch and its branches anomalies were analyzed and studied by comparing with their prenatal ultrasonography. Then the characteristics of each type of fetal aortic arch and its branches anomalies, the missed diagnosis and misdiagnosis were summarized and the results of their gene detection were also analyzed. Results The 22 cases of fetal aortic arch and its branches anomalies were as follows: 2 cases of double aortic arch showed the ascending aorta was divided into two branches after converging as the descending aorta. Three cases were left aortic arch with aberrant right subclavian artery. Twelve cases were right aortic arch: 8 cases were right aortic arch with mirror-image branching, 3 cases were right aortic arch with aberrant left subclavian artery, 1 case was right aortic arch with isolated left subclavian artery. Of the 8 right aortic arch with mirror-image branching, 3 cases of left arterial duct showed the vertical walking between the fusion site of the left innominate artery and the pulmonary artery. Right aortic arch with aberrant left subclavian artery with arterial duct showed U shaped vascular ring. Five cases were other types, including 2 cases of the coarctation of aortic arch, 1 case of interrupted aortic arch, 1 case of pulmonary artery sling, and 1 case of abnormal origin of right pulmonary artery. The ultrasonic missed diagnosis were the 6 deformities: 3 cases of arterial duct and 3 cases of aberrant subclavian artery. The ultrasonic misdiagnosis were the 5 deformities: 2 cases of arterial duct location, 1 case of aberrant subclavian artery, 1 case of isolated left subclavian artery, and 1 case of the coarctation of aortic arch. Genetic test results: In the 18 cases of the genetic detection, 2 cases were positive, 1 case was 22q11.2 microdeletion syndrome and 1 case was carrying KMT2D gene variant. Conclusions There are various kinds of fetal aortic arch and its branches anomalies, which are often associated with intracardiac malformations and venous branches variation. And prenatal ultrasound is of great value in diagnosing them.Vascular cast can visually display their characteristic changes, which is helpful to improve the differential diagnosis of the different aortic arch and its branches anomalies. The detailed genetic detection can improve the further understanding of its etiology. Key words: Ultrasonography, prenatal; Fetus; Aortic arch anomalies; Vascular cast; Gene detection

To discuss the diagnosis and surgical treatment of congenital vascular ring and prognostic factors. The clinic data of 42 cases of congenital vascular from January 2010 to December 2013 was analyzed retrospectively (accounting for 1.04% congenital heart operations over the same period ). There were 26 male and 16 female patients, aged at surgery 24 days to 6 years (average 10.7 months). The diagnosis including pulmonary artery sling in 26 cases, double aortic arch in 10 cases, right aortic arch with aberrant left subclavian artery in 3 cases, pulmonary artery sling and right aortic arch with vagus left subclavian artery in 2 cases, pulmonary artery sling and left aortic arch with vagus right subclavian artery in 1 case. In addition to 4 cases the remaining 38 patients were still combined with other cardiovascular malformations. Thirty-six cases of children underwent spiral CT airway remodeling, 23 children underwent fiber- bronchoscopy. In addition to 2 cases of airway abnormalities not seen, the rest of the children were present in varying degrees in different parts of tracheal stenosis or tracheomalacia. All patients underwent surgical correction of congenital vascular ring, concomitant heart deformity correction surgery according to the situation (7 cases of atrial septal defect repair, 3 of ventricular septal defect repair, 1 of mitral valvuloplasty, 1 of bi-Glenn, 1 of coarctation of the aorta correction with ventricular septal defect repair, 1 of trilogy of Fallot correction). One case suffered resection of tracheal stenosis and Slide tracheoplasty simultaneously, another case was implanted tracheal stenting postoperatively after pulmonary artery sling correction. Three patients died in hospital (7.1%), the cause of death were recurrent granuloma formation postoperatively. Remaining 39 patients were successfully discharged. The median time of overall survival of children with mechanical ventilation was 14 h (22 h) (M (Q(R))), median ICU residence time was 5 d (8 d), and the median in-hospital time was 19 d (9 d). Tracheal intubation time and postoperative ICU duration time in children with pulmonary artery sling children were much more than in children with double aortic arch (23 h (123 h) vs. 9 h(9 h), 7 d (13 d) vs. 4 d (2 d)), but the difference were not statistically significant. There was significant difference in the duration of hospitalization between the patient with the pulmonary artery sling and double aortic arch (23 d (9 d) vs. 16 d(6 d)) (χ(2) = 10.157, P = 0.006). The recent results of surgical treatment of congenital vascular ring is safe and effective. The extent and scope of tracheal stenosis and tracheomalacia is a critical influence prognosis.