Evaluating Effective Dose: A Comparison of Methods Based on Organ Dose Calculations versus Dose-Length Product and Monte Carlo Simulation

Abuelhia, Elfatih; Tajaldeen, Abdulrahman; Ali, Aidy; Kheiralla, Osama Abdalla Mabrouk; Aluraik, Wejdan; Msmar, Amir; Elsadig, Muawia; Osman, Entisar; Al‐Othman, Abdulaziz; Alghamdi, Salem S.; Albadri, Mesbah; Aljondi, Rowa

doi:10.3390/app12136691

Cited by 1 publication

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“…The effective dose (Ed) was calculated using the standardized method including the tissue weighted parameters defined by the International Commission on Radiological Protection (ICRP) Publication 103 Recommendations [ 5 , 6 ]. Accordingly, the Ed was calculated as: Effective dose (Ed) (mSv) = DLP (mGy-cm) × k where DLP (dose-length product) refers to the automated parameter on the screen after the CT scan and k is the coefficient factor reported by the European Commission NRPB-W67 (National Radiological Protection Board) (2005) with reference to regional anatomy [ 7 ].…”

Section: Methodsmentioning

confidence: 99%

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A Comprehensive Analysis of the Radiation Exposure and the Diagnostic Benefit of PanCT in Pediatric Cases with Multiple Trauma

Komut

Afşarlar

2023

Medicina

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Background and Objectives: The primary objective of this study was to obtain quantitative data, taking into account the amount of radiation exposure, about the clinical and diagnostic benefit obtained from panCT in pediatric trauma cases. Thus, we aim to create greater awareness in all physicians and primarily emergency medicine physicians regarding correct selection in terms of the patient group where this effective radiological method is to be applied, and to protect children from the adverse effects of radiation. Materials and Methods: The computed tomography (CT) images were retrieved from the hospital radiological archive system (PACS). The effective dose (Ed) was calculated using the standardized method including the tissue weighted parameters. The radiological pathologies determined as a result of CT imaging of the cases were categorized according to clinical significance in accordance with the Modified CT Colonography Reporting and Data System (C-RADS). Results: The data for a total of 268 patients were analyzed, comprising 89 (33.2%) females and 179 (66.8%) males with a mean age of 8.81 ± 5.21 years. The mean Ed was determined to be 18.14 ± 10.44 mSv. The Ed was determined to be statistically significantly higher in the 1–5 years age group than in the 15–18 years age group (p = 0.024). A statistically significant difference was determined between the age groups in terms of the pathologies determined (p = 0.028). Conclusions: In order to prevent performing unnecessary CT imaging, trauma teams in Emergency Departments (ED) should work in harmony and individual decision-making should be based on the severity of the trauma mechanism, the severity of the predicted injury, and the clinical status of the injured child.

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Section: Methodsmentioning

confidence: 99%

“…Effective dose (Ed) (mSv) = DLP (mGy-cm) × k where DLP (dose-length product) refers to the automated parameter on the screen after the CT scan and k is the coefficient factor reported by the European Commission NRPB-W67 (National Radiological Protection Board) (2005) with reference to regional anatomy [7].…”

Section: Methodsmentioning

confidence: 99%

A Comprehensive Analysis of the Radiation Exposure and the Diagnostic Benefit of PanCT in Pediatric Cases with Multiple Trauma

Komut

Afşarlar

2023

Medicina

View full text Add to dashboard Cite

show abstract

Evaluating Effective Dose: A Comparison of Methods Based on Organ Dose Calculations versus Dose-Length Product and Monte Carlo Simulation

Cited by 1 publication

References 17 publications

A Comprehensive Analysis of the Radiation Exposure and the Diagnostic Benefit of PanCT in Pediatric Cases with Multiple Trauma

A Comprehensive Analysis of the Radiation Exposure and the Diagnostic Benefit of PanCT in Pediatric Cases with Multiple Trauma

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