Your search keyword '"Dalvand, Saman"' showing total 2 results

1. Bone marrow dosimetry for 141 Ce-EDTMP as a potential bone pain palliation complex: A Monte Carlo study.

Author

Dalvand S and Sadeghi M

Subjects

Bone Neoplasms complications, Bone Neoplasms radiotherapy, Cerium chemistry, Humans, Monte Carlo Method, Palliative Care methods, Radiation Dosimeters, Radiotherapy Dosage, Bone Marrow, Bone Neoplasms secondary, Pain radiotherapy, Pain Management methods, Radiometry

Abstract

Due to favorable physical properties of 141 Ce radionuclide [E βmax  = 434.6 keV (70.5%) and 580.0 keV (29.5%), E γ  = 145.4 keV, and physical half-life = 32.5 day], a complex including this radionuclide could be a good candidate for palliative therapy of metastatic bone patients and an alternative to 89SrCl2 as a FDA-approved radiopharmaceutical. Because the bone marrow absorbed dose is a limiting factor in the palliative therapy of bone metastases, this study conducted to calculate the bone marrow absorbed dose of 141 Ce-EDTMP complex and compare it with the 89SrCl2 using Monte Carlo simulation. In this study, the GATE Monte Carlo toolkit and two human bone models including vertebra and femur bones were used for simulations. The vertebra and femur bone marrow absorbed dose from 141 Ce-EDTMP were 29.1 and 4.3 mGy/MBq, respectively. Moreover, the vertebra and femur bone marrow absorbed dose from 89 SrCl 2 were 109.2 and 16.3 mGy/MBq, respectively. Bone-to-bone marrow absorbed dose ratio in the vertebra for 141 Ce-EDTMP and 89 SrCl 2 was 34.2 and 11.6, respectively, whereas, this ratio in the femur was 23.8 and 7.5, respectively. Owing to the high bone-to-bone marrow absorbed dose ratio and lower bone marrow absorbed dose than 89 SrCl 2 , 141 Ce-EDTMP could be a promising new complex for palliative therapy of patients with bone metastasis., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

2. Patterns and trends of population radiation exposure and projected the risk of exposure-induced death from gamma camera examinations in Yazd Province.

Author

Omidi R, Zare MH, Zamani H, Dalvand S, Masjedi H, Razavi-Ratki SK, and Rahbar S

Subjects

Humans, Gamma Cameras, Radiation Exposure adverse effects

Abstract

Introduction: The use of nuclear medicine examinations as imaging modalities has recently increased. This study aimed to assess the radiation dose delivered to patients from common diagnostic nuclear medicine examinations and estimate the risk of exposure-induced death (REID). In addition, the frequency of nuclear medicine procedures were evaluated from 2015-2018., Materials and Methods: The data were collected from adult patients who had undergone cardiac, skeletal, renal, lacrimal, and thyroid imaging. For each patient, the effective dose was calculated using dose conversion factors, and REID was estimated using PCXMC. The frequency of examinations between 2015 and 2018 was obtained from the hospital information system (HIS)., Results: The highest estimated effective dose was attributed to the scans of myocardial stress (8.09 ± 1.28 mSv), myocardial rest (5.59 ± 1.27 mSv), and thyroid imaging (3.93 ± 0.55 mSv). In addition, cardiac stress examination had the highest REID values for solid cancers (212.5 ± 67.5) and bone scans had the highest REID values for leukemia (11.5 ± 2.5). A large increase in the number of myocardial perfusion scans was a significant contributor to an increase in collective effective dose from 23.37 man-Sv in 2015 to 49.47 man-Sv in 2018, a compound annual growth rate (CAGR) of 26%., Conclusion: Although the annual frequency and per capita effective dose of nuclear medicine procedures in Yazd Province increased continuously, they were comparably lower than those reported for other countries. Despite this, the cancer risks of nuclear medicine scans at the individual level are negligible (around 0.01% excess fatal cancer risk), yet the increasing tendency for these examinations could be of concern., (Copyright © 2021. Published by Elsevier Inc.)

Published

2021