Experts Offer Tips on How to Optimize Pediatric CT Radiation Dose
|
By MedImaging International staff writers Posted on 19 Jan 2012 |
|
US radiologists are providing pointers for radiation dose optimization in pediatric computed tomography (CT) scans. About seven to eight million CT scans are performed for various pediatric clinical indications per year in the United States.
Justification of clinical indication is the most important facet of reducing radiation dose with CT scanning. A considerable number of pediatric CT scans lack appropriate justification or can be replaced with other imaging methods with lower or no ionizing radiation, such as radiography, ultrasonography, and magnetic resonance imaging (MRI), which can provide similar diagnostic data for some clinical conditions.
“When not clinically indicated, not performing a CT examination is certainly the best radiation dose reduction strategy. However, when a CT scan is indicated, there are steps that can be taken to optimize the dose that children receive. It’s important that all imaging providers take these steps as indicated,” said Mannudeep K. Kalra, MD, from Massachusetts General Hospital (MGH; Boston, MA, USA), and Harvard Medical School (Boston, MA, USA), and an author of the article.
Investigators from MGH, Harvard Medical School, in Boston, MA, and Johns Hopkins University (JHU; Baltimore, MD, USA) reviewed practical approaches for reducing radiation dose associated with pediatric CT scanning. The study’s findings were published in the January 2012 issue of the Journal of the American College of Radiology.
“Radiation dose reduction in children starts with the optimization of pediatric CT protocols. CT protocols should be strictly optimized on the basis of body size, body region, clinical indication and the availability of prior imaging,” said Mahadevappa Mahesh, MS, PhD, from JHU, another author of the article.
Further steps include using a lower tube current (and voltage), limiting the scan length to include only the region of interest, and using new techniques of image postprocessing and reconstruction. “Children are more sensitive to radiation-induced risks and need special attention. Therefore, while designing CT protocols, it is crucial to keep clinical indications, weight and prior available imaging in mind to optimize radiation dose,” concluded Dr. Mahesh.
Related Links:
Massachusetts General Hospital
Harvard Medical School
Johns Hopkins University
Justification of clinical indication is the most important facet of reducing radiation dose with CT scanning. A considerable number of pediatric CT scans lack appropriate justification or can be replaced with other imaging methods with lower or no ionizing radiation, such as radiography, ultrasonography, and magnetic resonance imaging (MRI), which can provide similar diagnostic data for some clinical conditions.
“When not clinically indicated, not performing a CT examination is certainly the best radiation dose reduction strategy. However, when a CT scan is indicated, there are steps that can be taken to optimize the dose that children receive. It’s important that all imaging providers take these steps as indicated,” said Mannudeep K. Kalra, MD, from Massachusetts General Hospital (MGH; Boston, MA, USA), and Harvard Medical School (Boston, MA, USA), and an author of the article.
Investigators from MGH, Harvard Medical School, in Boston, MA, and Johns Hopkins University (JHU; Baltimore, MD, USA) reviewed practical approaches for reducing radiation dose associated with pediatric CT scanning. The study’s findings were published in the January 2012 issue of the Journal of the American College of Radiology.
“Radiation dose reduction in children starts with the optimization of pediatric CT protocols. CT protocols should be strictly optimized on the basis of body size, body region, clinical indication and the availability of prior imaging,” said Mahadevappa Mahesh, MS, PhD, from JHU, another author of the article.
Further steps include using a lower tube current (and voltage), limiting the scan length to include only the region of interest, and using new techniques of image postprocessing and reconstruction. “Children are more sensitive to radiation-induced risks and need special attention. Therefore, while designing CT protocols, it is crucial to keep clinical indications, weight and prior available imaging in mind to optimize radiation dose,” concluded Dr. Mahesh.
Related Links:
Massachusetts General Hospital
Harvard Medical School
Johns Hopkins University
New
Specimen Radiography System
Trident HD
X-Ray Illuminator
X-Ray Viewbox Illuminators
NMUS & MSK Ultrasound
InVisus Pro
Silver Member
X-Ray QA Meter
T3 AD Pro
Latest Imaging IT News
- New Google Cloud Medical Imaging Suite Makes Imaging Healthcare Data More Accessible
- Global AI in Medical Diagnostics Market to Be Driven by Demand for Image Recognition in Radiology
- AI-Based Mammography Triage Software Helps Dramatically Improve Interpretation Process
- Artificial Intelligence (AI) Program Accurately Predicts Lung Cancer Risk from CT Images
- Image Management Platform Streamlines Treatment Plans
- AI-Based Technology for Ultrasound Image Analysis Receives FDA Approval
- AI Technology for Detecting Breast Cancer Receives CE Mark Approval
- Digital Pathology Software Improves Workflow Efficiency
- Patient-Centric Portal Facilitates Direct Imaging Access
- New Workstation Supports Customer-Driven Imaging Workflow
Channels
Radiography
view channel
World's Largest Class Single Crystal Diamond Radiation Detector Opens New Possibilities for Diagnostic Imaging
Diamonds possess ideal physical properties for radiation detection, such as exceptional thermal and chemical stability along with a quick response time. Made of carbon with an atomic number of six, diamonds... Read more
AI-Powered Imaging Technique Shows Promise in Evaluating Patients for PCI
Percutaneous coronary intervention (PCI), also known as coronary angioplasty, is a minimally invasive procedure where small metal tubes called stents are inserted into partially blocked coronary arteries... Read more
MRI
view channel
AI Tool Tracks Effectiveness of Multiple Sclerosis Treatments Using Brain MRI Scans
Multiple sclerosis (MS) is a condition in which the immune system attacks the brain and spinal cord, leading to impairments in movement, sensation, and cognition. Magnetic Resonance Imaging (MRI) markers... Read more
Ultra-Powerful MRI Scans Enable Life-Changing Surgery in Treatment-Resistant Epileptic Patients
Approximately 360,000 individuals in the UK suffer from focal epilepsy, a condition in which seizures spread from one part of the brain. Around a third of these patients experience persistent seizures... Read more
AI-Powered MRI Technology Improves Parkinson’s Diagnoses
Current research shows that the accuracy of diagnosing Parkinson’s disease typically ranges from 55% to 78% within the first five years of assessment. This is partly due to the similarities shared by Parkinson’s... Read more
Biparametric MRI Combined with AI Enhances Detection of Clinically Significant Prostate Cancer
Artificial intelligence (AI) technologies are transforming the way medical images are analyzed, offering unprecedented capabilities in quantitatively extracting features that go beyond traditional visual... Read moreUltrasound
view channel.jpeg "Image: The AI-powered lung ultrasound tool outperformed human experts by 9% in diagnosing TB (Photo courtesy of Adobe Stock)")
AI-Powered Lung Ultrasound Outperforms Human Experts in Tuberculosis Diagnosis
Despite global declines in tuberculosis (TB) rates in previous years, the incidence of TB rose by 4.6% from 2020 to 2023. Early screening and rapid diagnosis are essential elements of the World Health... Read more
AI Identifies Heart Valve Disease from Common Imaging Test
Tricuspid regurgitation is a condition where the heart's tricuspid valve does not close completely during contraction, leading to backward blood flow, which can result in heart failure. A new artificial... Read more
Nuclear Medicine
view channel
Novel PET Imaging Approach Offers Never-Before-Seen View of Neuroinflammation
COX-2, an enzyme that plays a key role in brain inflammation, can be significantly upregulated by inflammatory stimuli and neuroexcitation. Researchers suggest that COX-2 density in the brain could serve... Read more
Novel Radiotracer Identifies Biomarker for Triple-Negative Breast Cancer
Triple-negative breast cancer (TNBC), which represents 15-20% of all breast cancer cases, is one of the most aggressive subtypes, with a five-year survival rate of about 40%. Due to its significant heterogeneity... Read more
General/Advanced Imaging
view channel
AI-Powered Imaging System Improves Lung Cancer Diagnosis
Given the need to detect lung cancer at earlier stages, there is an increasing need for a definitive diagnostic pathway for patients with suspicious pulmonary nodules. However, obtaining tissue samples... Read more
AI Model Significantly Enhances Low-Dose CT Capabilities
Lung cancer remains one of the most challenging diseases, making early diagnosis vital for effective treatment. Fortunately, advancements in artificial intelligence (AI) are revolutionizing lung cancer... Read more
Industry News
view channel
GE HealthCare and NVIDIA Collaboration to Reimagine Diagnostic Imaging
GE HealthCare (Chicago, IL, USA) has entered into a collaboration with NVIDIA (Santa Clara, CA, USA), expanding the existing relationship between the two companies to focus on pioneering innovation in... Read more
Patient-Specific 3D-Printed Phantoms Transform CT Imaging
New research has highlighted how anatomically precise, patient-specific 3D-printed phantoms are proving to be scalable, cost-effective, and efficient tools in the development of new CT scan algorithms... Read more
Siemens and Sectra Collaborate on Enhancing Radiology Workflows
Siemens Healthineers (Forchheim, Germany) and Sectra (Linköping, Sweden) have entered into a collaboration aimed at enhancing radiologists' diagnostic capabilities and, in turn, improving patient care... Read more