Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ASCO Annual Meeting 2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress
Clinical Collections
Advances in Alzheimer’s

2024 ASCO Annual Meeting

Keep up to date with all the top stories and latest evidence with our hub page, including official congress videos and expert takeaways.
ADVANCED SEARCH
Log in
Top
Pediatric Radiology
Published in: Pediatric Radiology 1/2005

01-01-2005 | Minisymposium

Pediatric thoracic CT angiography

Authors: Donald P. Frush, J. René Herlong

Published in: Pediatric Radiology | Issue 1/2005

Login to get access

Abstract

One of the principal benefits of contemporary multidetector row computed tomography (MDCT) has been the ability to obtain high-quality data sets for evaluation of the cardiovascular system. The benefits of the greater number of detector rows and submillimeter image thicknesses were quickly recognized and are especially advantageous in children. For example, since imaging is performed so quickly, issues with motion are minimized. This is a substantial benefit of CTA compared with MR imaging, the traditional noninvasive cross sectional modality for pediatric cardiovascular imaging. This, together with faster and more powerful computers, including improved transfer and storage capabilities, offers improved depiction of the heart, great vessels, other vasculature, and adjacent intrathoracic structures in a fashion that is well accepted by clinical colleagues. In order to be successful, however, one must have an understanding of the technology and often unique technical considerations in infants and children. With this familiarity, excellent cardiovascular examinations can be performed even in the most challenging case.
Footnotes
1
In order to convey the importance of technique, the critical technical considerations will be included for many of the following figures. For the sake of brevity, the technique will always be listed in the following sequence and units: IV contrast media amount (ml/kg), including any additional considerations; scan parameters consisting of tube current (mA), gantry cycle time (in s), number of detector rows and the thickness of each detector (e.g., 16×0.625 in mm), displayed image thickness (in mm) and interval (in mm).
 
Literature
1.
Arnold V, Worms AM, Galloy MA, et al (1996) Diagnosis using x-ray computed angiotomography of an iliac artery aneurysm in an infant. Can Assoc Radiol J 47:260–254PubMed
2.
Brochhagen HA, Benz-Bohm G, Mennicken U, et al (1997) Spiral CT angiography in an infant with severe hypoplasia of a long segment of the descending aorta. Pediatr Radiol 27:181–183CrossRefPubMed
3.
Hopkins Kl, Patrick LE, Simoneaux SF, et al (1996) Pediatric great vessel anomalies: initial clinical experience with spiral CT angiography. Radiology 200:811–815PubMed
4.
Cohen RA, Frush DP, Donnelly LF (2000) Data acquisition for pediatric CT angiography: problems and solutions. Pediatr Radiol 30:813–822CrossRefPubMed
5.
Gilkeson RC, Ciancidello L, Zahka K (2003) Multidetector CT evaluation of congenital heart disease in pediatric and adult patients. AJR 180:973–980PubMed
6.
Goo HW, Park I-S, Ko FK, et al (2003) CT of congenital heart disease: normal anatomy and typical pathologic conditions. Radiographics 23:S147–S165PubMed
7.
Society for Pediatric Radiology and National Cancer Institute (2002) Radiation and pediatric computed tomography: a guide for health care providers. http://​www.​pedrad.​org. Cited 21 May 2004
8.
Donnelly LF, Emery KH, Brody AS, et al (2001) Minimizing radiation dose for pediatric body applications of single-detector helical CT. AJR 176:303–306PubMed
9.
Frush DP (2002) Pediatric CT: practical approach to diminish radiation dose. Pediatr Radiol 32:714–717CrossRefPubMed
10.
11.
Pappas JN, Donnelly LF, Frush DP (2000) Marked reduction in the frequency of sedation of children using new multislice helical CT. Radiology 215:897–899PubMed
12.
Pages J, Buls N, Osteaux M (2003) CT doses in children: a multicenter study. Br J Radiol 76:803–811CrossRefPubMed
13.
Li LB, Kai M, Kusama T (2001) Radiation exposure to patients during pediatric cardiac catheterization. Radiat Prot Dosimetry 94:323–327PubMed
14.
Frush DP, Bisset GS, Hall SC (1996) Pediatric sedation: the practice of safe sleep. AJR 167:1381–1387PubMed
15.
Long FR, Castile RG, Brody AS, et al (1999) Lungs in infants and young children: improved thin-section computed tomography with a noninvasive controlled-ventilation technique: initial experience. Radiology 212:588–593PubMed
16.
Cohen MD, Smith JA (1994) Intravenous use of ionic and nonionic contrast agents in children. Radiology 191:793–794PubMed
17.
Frush DP, Spencer EB, Donnelly LF, et al (1999) Optimizing contrast-enhanced abdominal CT in infants and children using bolus tracking. AJR 172:1007–1013PubMed
18.
Herts BR, O’Malley CM, Wirth SL, et al (2001) Power injection of contrast media using central venous catheters: feasibility, safety and efficacy. AJR 176:447–453PubMed
19.
Nelson RC, Anderson FA Jr, Birnbaum BA, et al (1998) Contrast media extravasation during dynamic CT: detection with an extravasation detection accessory. Radiology 209:837–843PubMed
20.
Denecke T, Frush DP, Li J (2002) Eight-channel multidetector CT: unique potential for pediatric chest CT. J Thorac Imaging 17:306–309CrossRefPubMed
21.
Fleischmann D (2003) Use of high-concentration contrast media in multiple-detector-row CT: principles and rationale. Eur Radiol 13 [Suppl 5]:M14–M20PubMed
22.
23.
Sigal-Cinqualbre AB, Hennequin R, Abada HT, et al (2004) Low-kilovoltage multi–detector row chest CT in adults: feasibility and effect on image quality and iodine dose. Radiology 231:169–174PubMed
24.
Lee EY, Siegel MJ, Hildebolt CF (2004) MDCT evaluation of thoracic aortic anomalies in pediatric patients and young adults: comparison of axial, multiplanar, and 3D images. AJR 182:777–784PubMed
25.
Donnelly LF, Frush DP (2003) Pediatric multidetector body CT. Radiol Clin North Am 41:637–655PubMed
26.
Siegel MJ (2003) Multiplanar and three-dimensional multidetector row CT of thoracic vessels and airways in the pediatric population. Radiology 229:641–650PubMed
27.
Desjardins B, Kazerooni EA (2004) ECG-gated cardiac CT. AJR 182:993–1010PubMed
28.
Frush DP, Donnelly LF (1997) Pulmonary sequestration spectrum: a new spin with helical CT. AJR 169:679–682PubMed
29.
Lee EY, Siegel MJ, Sierra LM, et al (2004) Evaluation of angioarchitecture of pulmonary sequestration in pediatric patients using 3D MDCT angiography. AJR 183:183–188PubMed
Metadata
Title
Pediatric thoracic CT angiography
Authors
Donald P. Frush
J. René Herlong
Publication date
01-01-2005
Publisher
Springer-Verlag
Published in
Pediatric Radiology / Issue 1/2005
Print ISSN: 0301-0449
Electronic ISSN: 1432-1998
DOI
https://doi.org/10.1007/s00247-004-1348-8

Other articles of this Issue 1/2005

Pediatric Radiology 1/2005 Go to the issue

Minisymposium

Magnetic resonance angiography of the body in pediatric patients: experience with a contrast-enhanced time-resolved technique

Clinical Image

Neonatal bronchial obstruction caused by aspiration of placental tissue

Hermes

January 2005

Case Report

Early diagnosis of cerebral involvement in Sturge-Weber syndrome using high-resolution BOLD MR venography

Editorial

Editorial

Minisymposium

MDCT angiography of pediatric vascular diseases of the abdomen, pelvis, and extremities