Multivariate Analysis of Effective Dose and Size-Specific Dose Estimates for Thorax and Abdominal Computed Tomography
Abstract: The study aimed to compute the effective dose (E) and size-specific dose estimate (SSDE) of routine adult patients undergoing thorax and abdominal computed tomography (CT) imaging and to present their multivariate analysis. All adult thorax and abdominal CT examinations conducted from March 2022 to June 2022 were prospectively included in this study. The Water Equivalent Diameter (Dw ) and SSDE of all the examinations were computed from CT dose index volume (CTDIvol … Show more
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Radiation dose in cardiac CT for preoperative diagnosis of children with congenital heart disease
Background One of the most common congenital conditions detected globally, congenital heart diseases, and CT techniques provide a high-quality and thorough presentation of heart anatomy, thoracic vasculature, and extracardiac structures, and hence, it is becoming a more popular non-invasive diagnostic imaging method for congenital heart disease. The drawbacks with CT imaging are the radiation exposure from repeated scans is also rising, especially in young patients. The present study is aimed to evaluate the radiation dose in gated and non-gated cardiac CT for preoperative diagnosis of pediatric patients with congenital heart diseases. Results A total of 111 pediatric patients with mean age of 7.47 years were prospectively included in the study. The mean value of “Effective dose (E)” for gated CT at $$100\;{\text{kV}}_{{\text{p}}}$$ 100 kV p was found to be $$4.71\;{\text{mSv}}$$ 4.71 mSv which is higher than mean “E” of $$3.95\;{\text{mSv}}$$ 3.95 mSv observed for gated CT at $$80\;{\text{kV}}_{{\text{p}}}$$ 80 kV p . The average value of “E” for non-gated technique was observed less than that of gated technique at both $$100\;{\text{kV}}_{{\text{p}}}$$ 100 kV p and $$80\;{\text{kV}}_{{\text{p}}}$$ 80 kV p . The multiple regression analysis shows that “E” is significantly dependent on $${\text{DLP}}\left( {{\text{mGy}}\;{\text{cm}}} \right)$$ DLP mGy cm for both gated and non-gated techniques at 95% level of significance $$\left( {p < 0.05} \right)$$ p < 0.05 . The Student’s t-test verifies that the mean value of “E” for both the techniques at $$100\;{\text{kV}}_{{\text{p}}}$$ 100 kV p and $$80\;{\text{kV}}_{{\text{p}}}$$ 80 kV p are significantly different at 95% level of significance $$\left( {p < 0.05} \right)$$ p < 0.05 . Conclusions The effective dose received by pediatric patients is much higher when using ECG-gated acquisition with an average value of $$4.71\;{\text{mSv}}$$ 4.71 mSv and $$3.95\;{\text{mSv}}$$ 3.95 mSv at $$100\;{\text{kV}}_{{\text{p}}}$$ 100 kV p , and at $$80\;{\text{kV}}_{{\text{p}}}$$ 80 kV p respectively. Because low-voltage X-rays are more sensitive to high atomic number iodinated contrast media, the mean “E” for non-gated cardiac CT imaging at $$80\;{\text{kV}}_{{\text{p}}}$$ 80 kV p is $$2.26\;{\text{mSv}}$$ 2.26 mSv , and results in significant reduction of effective dose.
Radiation dose in cardiac CT for preoperative diagnosis of children with congenital heart disease
Background One of the most common congenital conditions detected globally, congenital heart diseases, and CT techniques provide a high-quality and thorough presentation of heart anatomy, thoracic vasculature, and extracardiac structures, and hence, it is becoming a more popular non-invasive diagnostic imaging method for congenital heart disease. The drawbacks with CT imaging are the radiation exposure from repeated scans is also rising, especially in young patients. The present study is aimed to evaluate the radiation dose in gated and non-gated cardiac CT for preoperative diagnosis of pediatric patients with congenital heart diseases. Results A total of 111 pediatric patients with mean age of 7.47 years were prospectively included in the study. The mean value of “Effective dose (E)” for gated CT at $$100\;{\text{kV}}_{{\text{p}}}$$ 100 kV p was found to be $$4.71\;{\text{mSv}}$$ 4.71 mSv which is higher than mean “E” of $$3.95\;{\text{mSv}}$$ 3.95 mSv observed for gated CT at $$80\;{\text{kV}}_{{\text{p}}}$$ 80 kV p . The average value of “E” for non-gated technique was observed less than that of gated technique at both $$100\;{\text{kV}}_{{\text{p}}}$$ 100 kV p and $$80\;{\text{kV}}_{{\text{p}}}$$ 80 kV p . The multiple regression analysis shows that “E” is significantly dependent on $${\text{DLP}}\left( {{\text{mGy}}\;{\text{cm}}} \right)$$ DLP mGy cm for both gated and non-gated techniques at 95% level of significance $$\left( {p < 0.05} \right)$$ p < 0.05 . The Student’s t-test verifies that the mean value of “E” for both the techniques at $$100\;{\text{kV}}_{{\text{p}}}$$ 100 kV p and $$80\;{\text{kV}}_{{\text{p}}}$$ 80 kV p are significantly different at 95% level of significance $$\left( {p < 0.05} \right)$$ p < 0.05 . Conclusions The effective dose received by pediatric patients is much higher when using ECG-gated acquisition with an average value of $$4.71\;{\text{mSv}}$$ 4.71 mSv and $$3.95\;{\text{mSv}}$$ 3.95 mSv at $$100\;{\text{kV}}_{{\text{p}}}$$ 100 kV p , and at $$80\;{\text{kV}}_{{\text{p}}}$$ 80 kV p respectively. Because low-voltage X-rays are more sensitive to high atomic number iodinated contrast media, the mean “E” for non-gated cardiac CT imaging at $$80\;{\text{kV}}_{{\text{p}}}$$ 80 kV p is $$2.26\;{\text{mSv}}$$ 2.26 mSv , and results in significant reduction of effective dose.
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