Abstract
Objectives: To to define the frequency and patterns of congenital heart disease (CHD) among children with Down syndrome (DS) in Northwest Saudi Arabia.
Methods: We included children with confirmed DS referred to the regional pediatric cardiology unit in Madinah Maternity and Children Hospital between January 2008 and December 2013. Children were identified from the unit’s data-base and the charts were reviewed retrospectively. We excluded term and preterm children with patent ducts arteriosus (PDA) and persistent foramen oval spontaneously resolved during the first 4 weeks of life.
Results: A total of 302 children with DS were identified (50.3% male). Of these, 177 (58.6%) had CHD. Atrioventricular septal defect (AVSD) was the most frequent lesion identified in 72/177 (40.7%) followed by mixed left to right shunt defects (14.7%) and secundum atrial septal defect (ASD) (11.8%). Ventricular septal defect was detected in 10.7% and 8.5% had PDA beyond the neonatal period. There was no gender difference in the frequency of CHD (p=0.9) and the presence of CHD was not related to the genetic cause of DS (p=0.9).
Conclusion: The frequency of CHD in our DS cohort is comparable with Europe, Asia, and other KSA regions. However its pattern appears to be different from some areas in KSA.
Down syndrome (DS) is the most common chromosomal abnormality associated with learning difficulties with reported incidence between 1/600 -1/1000 live births.1 The condition results from the presence of an extra chromosome 21, either as trisomy or as part of Robertsonian translocation. The diagnosis of DS is based on the presence of characteristic dysmorphic features and confirmed by chromosomal karyotyping. Most children with DS have trisomy 21, due to chromosomal non-disjunction during meiosis; however, other abnormalities, such as Robertsonian translocation, mosaic, double or triple aneuploidies have been reported.2 The association between DS and congenital heart disease (CHD) is well established. Congenital heart disease is the most common cause of death among patients with DS and affected children have an increased risk of mortality.3-6 Therefore, it is essential that every patient with confirmed DS to undergo cardiac evaluation in early life. The frequency and pattern of CHD in DS varies between different populations. Data from kingdom of Saudi Arabia (KSA) are limited to 4 studies. These studies were conducted in different KSA regions and showed frequencies form 35-86% with different pattern of CHD.7-10 However, no data are available from the Northwest KSA region. The aim of this study was to define the frequency and pattern of CHD among children with DS in Northwest KSA and compare it with other national and international data.
Methods
This retrospective study was conducted in the Maternity and Children Hospital (MCH), Al-Madinah, Northwest KSA, between January 2008 and December 2013. The MCH is the main referral hospital for Al-Madinah region, and hosts the only pediatric cardiology unit (PCU) in northwest KSA. The region has 7 cities and more than 300 small villages. The population is mostly Arab and 70% of them are living in Al-Madinah city. The diagnosis of DS was made by the local clinicians. Children diagnosed with DS in the region are routinely referred to the PCU at the MCH for cardiac assessment. The inclusion criteria comprised: all children with DS diagnosis based on typical clinical features and confirmed by cytogenetic studies. The exclusion criteria comprised: children with dysmorphic features and not confirmed to be DS by cytogenetic studies. All included children had electrocardiography and underwent 2-dimensional echocardiographic examination and Doppler studies. The diagnosis, severity and classification of cardiac malformation were determined according to the recommendations of the American Society of Echocardiography. Eleven Patients with CHD were referred for surgical intervention based on their hemodynamic status and the severity of the anatomical defect. Children with only one anatomical heart defect, such as ventricular septal defect (VSD), atrial septal defect (ASD), patent ductus arteriosus (PDA), or with a well-known combination, such as tetralogy of Fallot (TOF) were classified to have isolated CHD. The combination of VSD, ASD, and PDA was categorized as mixed left to right shunt. We considered the presence of PDA and persistent foramen oval, in preterm or term babies at birth, as normal unless these lesions persisted beyond 4 week of age. Clinical and demographic data of the referred children and the results of their cardiac evaluation were collected from the PCU data-base, which was established in 2008, and confirmed by chart review. The frequency of CHD was calculated from the total number of DS children refereed during the 6 years period. The pattern of CHD in our DS cohort was compared with other data from KSA and other populations. To define the frequency and pattern of CHD in DS in KSA we combined our DS cohort with other published Saudi DS cohorts who were screened for CHD. The study followed the Helsinki declaration and was approved by the ethics and research committee at the MCH.
Statistical analysis
Data were analyzed using the Statistical Package for the Social Sciences, version 16 (SPSS Inc., Chicago, ILL, USA). Categorical variables were presented as the number and percentage, and chi square or Fisher’s exact test was used. The associations with p-values ≤0.05 were considered statistically significant.
Results
A total of 302 children with DS were referred to PCU between January 2008 and December 2013 from different hospitals in the region. Their mean age at referral was 4.3 ± 1.5 months and 85% of them were born in MCH. Of the 302 patients, 152 (50.3%) were males. Non-disjunction trisomy-21 was the most common genetic cause of DS identified in 283/302 (93.7%), followed by translocation (15/302, 4.9%), and the remaining 4/302 cases were mosaic type (1.3%). At least one form of CHD was identified in 177 of the 302 DS children, giving a frequency rate of 58.6%. There was no significant difference in the frequency of CHD between boys and girls in our cohort (p=0.9), neither the 3 genetic causes of DS (p=0.9). The frequency and patterns of CHD in our cohort are shown in Tables 1 & 2. The most frequent isolated congenital heart defect in our study was atrioventricular septal defect (AVSD, complete type) identified in 72/177 (40.7%), followed by mixed left to right shunt (26/177, 14.7%), Secundum ASDs (Sec. ASD) (21/177, 11.8%), VSD (19/177, 10.7%), Primum ASDs (Prim. ASD) (17/177, 9.6%), PDA (15/177, 8.5%), AVSD + TOF’s (4/177, 2.3%), one case (0.6%) each of coarctation of the aorta (CoA), double outlet right ventricle, and dilated cardiomyopathy. All patients with AVSD underwent successfully surgical correction except one case who developed Eisenmenger syndrome due to late presentation. A comparison of the frequency and patterns of CHD between our cohort and other studies from different KSA areas is shown in Tables 1 & 2, and with other international studies is shown in Table 3. When we combined the rate of CHD in our DS cohort with patients studied in other KSA region, the cumulative frequency of CHD in DS in KSA was 65.1% and AVSD was the most common form of CHD (Table 1 & 2). Complete AVSD was the most common CHD pattern in our study and in Alhassa study; however, VSD was the most common in Riyadh and Aseer studies, and PDA was the most common pattern in Jeddah, KSA.
The frequency of CHD among children with DS in Northwest KSA compared with other KSA regions.
The patterns of CHD among children with DS in Northwest KSA compared with other KSA regions.
Comparison of the frequency and patterns of CHD among DS patients between the present study and other international studies.
Discussion
This is the largest study addressing the spectrum of cardiac defects in DS in KSA and the first in northwest KSA. The study was conducted in the only pediatric cardiac unit in northwest KSA and studied patients referred from different hospitals in the region thus providing data on the frequency and pattern of CHD in DS in the whole region. The frequency of CHD in our DS cohort study was 58.6%. This rate is comparable with other national published studies (Alhassa8 35.2%, Asser9 61.3% and Riyadh10 49% regions), and some large population-based studies, such as the California Birth Defects Monitoring Program registry6 (43.9%), Muscat18 (60%), Kurdistan22 (53%), Guatemala23 (54%), Kashmir25 (50%), Malaysia26 (49.3%), Japan27 (50.5%), Goteborg15 (52.5%), and Philadelphia17 (65.7%). However our rate is lower than a recent frequency of 86.8% reported from Jeddah.7 The most likely explanation for the difference between our frequency and that reported from Jeddah is the study methodology. In our study, we have only included patients with persistent PDA and PFO beyond 4 weeks of age, whereas such age limit was not considered in the Jeddah study, which led to a higher rate of CHD in their cohort. In the present study, AVSD pattern was the most common isolated CHD defect (72/177, 40.7%), the same ratio and common pattern of CHD in children with DS was reported nationally in Alhassa region (38.4%). Most international studies confirmed that AVSD is the most common CHD in DS patients (ranging from 18-63%),12-15,17,21,26,29 which is similar to our study figure of 40.6%. The results of the present study showed that mixed left to right shunt (26/177, 14.7%), Sec. ASD (21/177, 11.8%), and VSD (19/177, 10.7%) represent the second most common patterns of CHD in children with DS followed by Prim. Atrial septal defect (17/177, 9.6%) and PDA (15/177, 8.5%) comes as the third common pattern of CHD in children with DS. This observation is contrary to other studies in KSA in which VSD represent the most common pattern of CHD in children with DS (Asser [35.3%] and Riyadh [43%] studies).9,10 VSD pattern is also the most common CHD pattern in some international studies like Kurdistan22 (29%), Kerala24 (28.1), Kashmir25 (24%), Japan27 (33.3%), Atlanta16 (43%), Malaysia26 (20%), and Mansoura20 (7.9%). Also, our study results disagrees with studies carried out in Muscat18 (33.3%) and Tripoli19 (23%), which showed that Sec. ASD is the the most common pattern of CHD in children with DS. The lack of a national study on the association between CHD and DS prompted us to combine our results with previously reported data from 4 KSA studies.7-10 We found that 65% of 653 children with DS in KSA have CHD with AVSD being most common cardiac defect. Although this figure is comparable with rates in neighboring countries and could arguably represent KSA we have to take into account that these studies were conducted in different periods of time and used different inclusion and exclusion criteria. Clearly a national study using same method will provide more insight into the spectrum of CHD in children with DS in KSA.
Our study has 2 limitations: first, due to the retrospective nature of the study, it is possible that some patients with DS were missed either because they were not referred to our centre or died before cardiac assessment. Clearly establishing a regional register for DS will allow for better ascertainment and provide more accurate results. Second, the DS cohort is relatively small; however, this is the largest cohort of DS reported from KSA and all our patients had detailed cardiac assessment.
In conclusion, the frequency CHD in DS in the Northwest Region of KSA is high and comparable with the rates reported from other parts of the KSA and most international studies. With the exception of Al-Hassa region, the pattern of CHD in our cohort is different from other KSA regions. Further studies on larger population are needed to confirm these findings and explore the underlying cause of possible variation between different KSA regions. A national registry for DS and CHD would provide more accurate data to study contributing factors for CHD in DS.
Copyright
Whenever a manuscript contains material (tables, figures, etc.) which is protected by copyright (previously published), it is the obligation of the author to obtain written permission from the holder of the copyright (usually the publisher) to reproduce the material in Saudi Medical Journal. This also applies if the material is the authors own work. Please submit copies of the material from the source in which it was first published.
Acknowledgment
The authors would like to thank the Department of Pediatrics, Maternity and Children Hospital, Al-Madinah, Kingdom of Saudi Arabia, for their cooperation and allowing us to undertake this study. Also, the authors extend their thanks to all the children and their legal guardians who so willingly participated in this study.
Footnotes
Disclosure. Authors have no conflict of interest, and the work was not supported or funded by any drug company.
- Received January 28, 2016.
- Accepted May 11, 2016.
- Copyright: © Saudi Medical Journal
This is an open-access article distributed under the terms of the Creative Commons Attribution-Noncommercial-Share Alike 3.0 Unported, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
