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Another calculation performed by Huda [26] retrieved a fetal dose of ~0.14 mGy.
The lead thickness increase from 2 to 5 cm led to a fetal dose reduction up to 23.4%.
For early/late pregnancy a fetal dose of 0.11 0.6 mGy (74 200 MBq 99mTc-MAA)/0.8 mGy (200 MBq 99mTc-MAA) could be observed.
A fetal dose of 0.4 0.6 mGy was estimated in early pregnancy, whilst in late pregnancy a dose of 0.8 mGy was reported.
Again using 40 MBq 99mTc-DTPA aerosol, Russel et al. [38] reported a fetal dose of 0.17 mGy in the first trimester, 0.092 mGy in the second trimester and 0.12 mGy in the third trimester of pregnancy.
Cook and Kyriou [28] reported a fetal dose of 0.12 mGy for perfusion scintigraphy, also using low-dose perfusion imaging (50 MBq 99mTc); neither further technical details nor term of pregnancy were further specified.
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Dose calculations based on manual segmentation of the fetal position resulted in a mean fetal dose of 1.2 mGy for late pregnancy.
In the third trimester at least two studies remain to give an average fetal dose of 0.06 0.14 mGy [22, 26].
For the CT protocol applied by Nijkeuter et al. [59] we calculated a breast dose of 11 mGy or 1.32 mSv respectively, associated with a 0.017 mGy fetal dose in the first trimester.
Data from these 'inside' monitors provide an estimate of fetal dose from conception to declaration.
Purpose: To investigate the effectiveness of a simple and practical shielding device to reduce fetal dose for a patient undergoing radiation therapy of nasopharyngeal carcinoma.
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