Dosymmetric estimates of 99mTc (MAA) and 133Xe in newborn lungs using Cristy-Eckerman / Segars representations

Pub Date : 2022-01-05 DOI:10.15446/mo.n64.99290

Marcial Vasquez-Arteaga, H. Vega-Carrillo, Gustavo Montalvo-Soberon, Juan Rivera-Vásquez, Pedro Jaramillo-Arica, Marcela Vasquez-Silva, Carlos Cabrera-Salvatierra, Roberto Rojas-Alegŕıa

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Abstract

Using the Cristy-Eckerman (C-E) / Segars anatomical representations and the MIRD formalism, the Absorbed doses in lungs of newborn patients scanned with radiopharmaceuticals 133Xe (ventilation) and 99mTc (MAA) (perfusion) are estimated. These representations are phantoms used in Monte Carlo calculations to determine specific absorbed fractions, which, associated with the pharmaceutical residence time, determine the absorbed dose. Concerns about the dosimetric impact of using these ventilation / perfusion agents, as well as the use of different phantoms, were explored in newborn patients. When the lungs were scanned with 99mTc (MAA), the relative difference in total dose between the C-E / Segars anatomical representations was 1.0%. When the lungs were scanned with 133Xe, the relative difference in total dose between the anthropomorphic representations of C-E / Segars was 0.5%. Regardless of the radiopharmaceutical used for the pulmonary studies of a newborn patient, the substitution of the C-E representation for that of Segars does not reflect very significant changes in the calculation of the absorbed dose in the lungs, where the greatest dosimetric contribution is its self-dose, which is supplied mainly by the electrons produced during the 99mTc and 133Xe decay.

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使用Cristy-Eckerman/Segars表示法对新生儿肺中99mTc（MAA）和133Xe的剂量对称估计

利用Cristy-Eckerman (C-E) / Segars解剖表示和MIRD形式，估计了放射性药物133Xe(通气)和99mTc (MAA)(灌注)扫描新生儿患者肺部的吸收剂量。这些表示是蒙特卡罗计算中用于确定特定吸收组分的幻影，这些吸收组分与药物停留时间有关，从而确定吸收剂量。在新生儿患者中探讨了使用这些通气/灌注剂的剂量学影响，以及不同模型的使用。当99mTc (MAA)扫描肺部时，C-E / Segars解剖表现之间的总剂量相对差异为1.0%。当用133Xe扫描肺部时，C-E / Segars的拟人化表现之间的总剂量相对差异为0.5%。无论用于新生儿肺部研究的放射性药物是什么，用C-E表示代替Segars表示并不能反映肺部吸收剂量计算的非常显著变化，其中最大的剂量学贡献是其自身剂量，主要由99mTc和133Xe衰变过程中产生的电子提供。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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