MDCT angiographic findings of various congenital pulmonary artery anomalies in pediatric patients

Background Congenital pulmonary artery anomalies are variable and need proper diagnosis and treatment. CT angiography with multiplanar reconstruction has the main role in the assessment of these anomalies and this non-invasive method should be the method of choice for preoperative planning and posto...

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Bibliographic Details
Published in:Egyptian journal of radiology and nuclear medicine 2019-12, Vol.50 (1), p.94-13
Main Authors: Harraz, Mohamed M, Abouissa, Ahmed H, Saleh, Hala A, Attas, Khalid A, Al-Yamani, Samira M, Alsulami, Ganadiel, Refai, Mohamed M
Format: Article
Language:English
Subjects:
Anesthesia
Angiography
Care and treatment
Catheters
Children
Congenital anomalies
Congenital diseases
Congenital heart disease
Contraindications
Contrast media
Coronary vessels
CT angiography
CT imaging
Diagnostic equipment (Medical)
Genetic disorders
Health aspects
Heart
Heart diseases
Lungs
MDCT
Medical imaging
Medical research
Medicine, Experimental
Patients
Pediatric cardiology
Pediatrics
Pulmonary arteries
Radiation
Scanners
Surface active agents
Surgery
Ultrasonic imaging
Veins & arteries
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Summary:Background Congenital pulmonary artery anomalies are variable and need proper diagnosis and treatment. CT angiography with multiplanar reconstruction has the main role in the assessment of these anomalies and this non-invasive method should be the method of choice for preoperative planning and postoperative follow up. The aim of the study is to assess the value of MDCT in the detection of pulmonary arteries anomalies in the pediatric population with complex congenital heart disease in conjunction with echocardiography as an alternative to conventional angiography and to determine the superiority of MDCT in the assessment of other abnormalities such as airway anomalies. Results In our retrospective study, 52 patients (28 male and 24 females, aged 1 day to 4 years: mean age 2 years) were examined with contrast-enhanced CT. CT examinations were done using a 128-section CT scanner (Siemens Somatom Definition AS) using non-ionic iodinated contrast media. 2D and 3D reconstructions were performed. The correlation was made with echocardiograms. All imaging studies were reviewed. The echo was done to all patients. Surgery and/or catheter angiography performed to all patients, their findings were reviewed and compared to CTA findings. Other abnormalities such as congenital airway anomalies are detected using axial MDCT images and reconstructed imaging techniques. MDCT was accurate in revealing pulmonary artery anomalies. The commonest pulmonary artery anomaly was atresia, stenosis then hypoplasia. These anomalies may be isolated or associated with other congenital heart diseases. In the current study, MDCT could diagnose all cases of pulmonary arterial anomalies with 96% sensitivity, 100% specificity, 98% accuracy, 100% positive, and 94% negative predictive values. CT scans provide accurate information to assess complex spatial relationships of vascular airway compression frequently associated with CHD in the pediatric population. Conclusion MDCT scanner can be an alternative to diagnostic conventional angiography for the non-invasive assessment of the pulmonary artery. Higher quality multiplanar and 3D reconstruction achieved by the MDCT scanners offer a rapid, reliable and non-invasive technique that can be used for the evaluation and preoperative assessment of thoracic vascular and extra-vascular anatomy in infants and children with suspected congenital heart disease. CT technologies are constantly developing collaboration between radiologists, pediatric cardiolo
ISSN:0378-603X
2090-4762
DOI:10.1186/s43055-019-0089-5