Your search keyword '"Radiation Exposure analysis"' showing total 966 results

1. Introduction and evaluation of size-specific DLP for radiation dose estimation in CT examinations.

Author

Dendo Y, Abe K, Onodera S, Kayano S, Ota H, and Takase K

Subjects

Humans, Male, Female, Adult, Body Size, Radiation Exposure analysis, Reproducibility of Results, Computer Simulation, Radiation Dosage, Tomography, X-Ray Computed, Monte Carlo Method

Abstract

The increased utilization of computed tomography (CT) has raised concerns about patient radiation exposure. Effective dose (ED), which requires precise estimation, is crucial for assessing and managing these risks. Traditional ED estimation methods, which are based on the dose-length product (DLP), often lack accuracy due to variations in patient size and anatomy. This study aims to evaluate the efficacy of size-specific DLP (SS-DLP), a novel metric that combines the size-specific dose estimate (SSDE) with scan length, to provide a more accurate estimation of radiation exposure from CT examinations. Focusing on adult chest-abdomen-pelvis scans, we calculated SSDE and SS-DLP and utilized two simulation tools, Radimetrics and WAZA-ARI, for a detailed analysis. Our findings indicate that SS-DLP is highly correlated with EDs from Monte Carlo simulations, suggesting its reliability. Additionally, SS-DLP showed a moderate reduction in errors based on patient sex and body mass index compared to traditional DLP-based methods. Thus, SS-DLP offers a more accurate and personalized radiation exposure estimate, potentially enhancing patient safety., (© 2024 Society for Radiological Protection. Published on behalf of SRP by IOP Publishing Limited. All rights, including for text and data mining, AI training, and similar technologies, are reserved.)

Published

2024

2. [Analysis of personal dose monitoring results of occupational external exposure for radiation workers in a hospital].

Author

Wang JM, Qin W, and Xie WL

Subjects

Humans, Radiation Exposure analysis, Occupational Exposure analysis, Radiation Protection, Hospitals, Radiation Dosage, Radiation Monitoring methods

Abstract

Objective: To analyze and understand the level of occupational external radiation personal dose of radiation workers in a hospital, and provide a reference for radiation protection. Methods: In May 2023, the personal dose monitoring data of all radiation workers in the hospital from 2018 to 2022 were collected, and their occupational external radiation exposure levels were analyzed and evaluated. All radiation workers were divided into radiation diagnosis, radiotherapy, interventional radiology, and nuclear medicine according to their occupational categories. Results: A total of 1626 person-times were monitored from 2018 to 2022, and the average annual effective dose per person (0.13-0.36 mSV) was lower than the national limit of 20 mSv. The average annual dose of nuclear medicine was the highest (0.36 mSv), and interventional radiology was lower (0.13 mSv). The average annual dose of individuals was the highest in 2020 (0.24 mSv) . Conclusion: The average annual effective dose per person of radiation workers in this hospital is lower than the national standard, and it is still necessary to strengthen the inspection of the wearing of personal dosimeters and the using of protective equipment for radiation workers.

Published

2024

3. Radiation exposure of astronauts following an intense solar particle event: analysis and comparison of doses in male and female voxel phantoms.

Author

Ramos RL, Bernardini E, Carante M, Ferrari A, Sala P, Vercesi V, and Ballarini F

Subjects

Humans, Female, Male, Monte Carlo Method, Occupational Exposure analysis, Radiation Protection, Space Flight, Astronauts, Solar Activity, Phantoms, Imaging, Radiation Dosage, Radiation Exposure analysis, Cosmic Radiation adverse effects

Abstract

According to NASA's plans, a human travel to the Moon is planned by the end of 2025 with the Artemis II mission, and humans should land on the Moon again in 2026. Exposure to space radiation is one of the main risks for the crew members; while for these short missions the doses from galactic cosmic rays would be relatively low, the possible occurrence of an intense solar particle event (SPE) represents a major concern, especially considering that in 2025 the Sun activity will be at its peak. Quantifying the amount and the effects of such exposure is therefore crucial, to identify shielding conditions that allow respecting the dose limits established by the various space agencies. By exploiting an interface between the BIANCA biophysical model and the FLUKA Monte Carlo radiation transport code, in this work we implemented a male and a female voxel phantom and we calculated absorbed doses and Gy-Eq doses in the various tissues/organs, as well as effective doses, following exposure to the August 1972 SPE, the most intense event of the modern era. The calculations were performed respect the organ dose limits for 30 d missions. A detailed comparison between male and female doses was then carried out, also considering that the Artemis II crew will include a woman. The results showed that female doses tend to be higher than male doses, especially with light shielding. This should be taken into account in mission design, also considering that, in a typical lunar mission, up to 15% of time may be spent in extra-vehicular activities, and thus with light shielding. More generally, this work outlines the importance of performing separate calculations for male and female astronauts when dealing with radiation doses and effects., (Creative Commons Attribution license.)

Published

2024

4. Measurement of radioactivity and hazard index of Gonadal dose in selected Cement samples in Iraq.

Author

Alkufi AA, Alhous SF, and Kadhim SA

Subjects

Iraq, Humans, Radiation Monitoring methods, Spectrometry, Gamma, Radium analysis, Gonads radiation effects, Gonads drug effects, Gamma Rays, Risk Assessment methods, Radiation Exposure analysis, Construction Materials analysis, Radiation Dosage

Abstract

Given the importance of cement as a basic material in construction, this study was undertaken to evaluate the level of radioactivity in a selected group of cement samples most used in construction to determine whether they are safe for human health. In this investigative study, nine samples of cement, both domestic and imported, that are often used in construction projects in Iraq were gathered. A NaI (Tl) gamma-ray spectrometer (3"x3") was used to measure the radioactivity in the samples. The average specific activity levels in the tested cement samples were 11.373±0.522, 5.795 ± 0.230, and 179.123±2.207 Bq/Kg, respectively. Also calculated was the average of the radium, which was equivalent to 33.449±1.022 Bq/kg. As for the risk indicators, the internal risk coefficient was 0.121±0.004 and external risk coefficient was 0.090 ±0.002. While studying the radiation doses, the values of effective annual internal dose was 0.080 mSv/y, external dose rates were 0.020 mSv/y, absorbed dose ratio was 16.321±0.476 nGy/h, and gamma index was 0.253±0.007. In the end, and depending on what was studied from various variables, with an average of 115.59 Sv/y, the annual gonadal equivalent dose risk (AGED) was calculated. The world average values were used to compare all the results. Finally, it was discovered that the radiation parameter levels of none of the samples had a detrimental effect on human health.

Published

2024

5. Image Quality and Radiation Exposure in Abdominal Angiography: A Head-to-Head Comparison of Conventional Detector-Dose-Driven Versus Contrast-to-Noise Ratio-Driven Exposure Control at Various Source-to-Image Receptor Distances and Collimations in a Pilot Phantom and Animal Study.

Author

Werncke T, Becker LS, Maschke SK, Hinrichs JB, Meine TCH, Dewald CLA, Brüsch I, Rumpel R, Wacker FK, and Meyer BC

Subjects

Animals, Pilot Projects, Swine, Fluoroscopy, Signal-To-Noise Ratio, Angiography methods, Angiography instrumentation, Radiography, Abdominal methods, Radiography, Abdominal instrumentation, Phantoms, Imaging, Radiation Dosage, Radiation Exposure analysis

Abstract

Objectives: This phantom and animal pilot study aimed to compare image quality and radiation exposure between detector-dose-driven exposure control (DEC) and contrast-to-noise ratio (CNR)-driven exposure control (CEC) as functions of source-to-image receptor distance (SID) and collimation., Materials and Methods: First, an iron foil simulated a guide wire in a stack of polymethyl methacrylate and aluminum plates representing patient thicknesses of 15, 25, and 35 cm. Fluoroscopic images were acquired using 5 SIDs ranging from 100 to 130 cm and 2 collimations (full field of view, collimated field of view: 6 × 6 cm). The iron foil CNRs were calculated, and radiation doses in terms of air kerma rate were obtained and assessed using a multivariate regression. Second, 5 angiographic scenarios were created in 2 anesthetized pigs. Fluoroscopic images were acquired at 2 SIDs (110 and 130 cm) and both collimations. Two blinded experienced readers compared image quality to the reference image using full field of view at an SID of 110 cm. Air kerma rate was obtained and compared using t tests., Results: Using DEC, both CNR and air kerma rate increased significantly at longer SID and collimation below the air kerma rate limit. When using CEC, CNR was significantly less dependent of SID, collimation, and patient thickness. Air kerma rate decreased at longer SID and tighter collimation. After reaching the air kerma rate limit, CEC behaved similarly to DEC. In the animal study using DEC, image quality and air kerma rate increased with longer SID and collimation ( P < 0.005). Using CEC, image quality was not significantly different than using longer SID or tighter collimation. Air kerma rate was not significantly different at longer SID but lower using collimation ( P = 0.012)., Conclusions: CEC maintains the image quality with varying SID and collimation stricter than DEC, does not increase the air kerma rate at longer SID and reduces it with tighter collimation. After reaching the air kerma rate limit, CEC and DEC perform similarly., Competing Interests: Conflicts of interest and sources of funding: B.C.M. is a consultant and speaker for Siemens Healthineers GmbH. All other authors declare no conflicts of interest. This work was in part funded by Siemens Healthcare GmbH by an institutional grant. The funding sources had no involvement in study design; in the collection, analysis, and interpretation of data; in the writing of the report; and in the decision to submit., (Copyright © 2024 Wolters Kluwer Health, Inc. All rights reserved.)

Published

2024

6. Comparison of radiation-shielding curtains for endoscopic retrograde cholangiopancreatography staff.

Author

Ishii H, Chida K, Inaba Y, Onodera S, Sai M, and Zuguchi M

Subjects

Humans, Radiation Dosage, Phantoms, Imaging, Equipment Design, Radiation Exposure analysis, Radiation Protection instrumentation, Cholangiopancreatography, Endoscopic Retrograde, Occupational Exposure prevention & control, Occupational Exposure analysis

Abstract

Occupational radiation exposure to the eye lens of medical staff during endoscopic retrograde cholangiopancreatography (ERCP) should be kept low so as not to exceed annual dose limits. Dose should be low to avoid tissue reactions and minimizing stochastic effects. It is known that the head and neck of the staff are exposed to more scattered radiation in an over-couch tube system than in a C-arm system (under-couch tube). However, this is only true when radiation-shielding curtains are not used. This study aimed to compare the protection radiation to the occupationally exposed worker between a lead curtain mounted on a C-arm system and an ERCP-specific lead curtain mounted on an over-couch tube system. A phantom study simulating a typical setting for ERCP procedures was conducted, and the scattered radiation dose at four staff positions were measured. It was found that scattered radiation doses were higher in the C-arm with a lead curtain than in the over-couch tube with an ERCP-specific lead curtain at all positions measured in this study. It was concluded that the over-couch tube system with an ERCP-specific lead curtain would reduce the staff eye dose by less than one-third compared to the C-arm system with a lead curtain. For the C-arm system, it is necessary to consider more effective radiation protection measures for the upper body of the staff, such as a ceiling-suspended lead screen or another novel shielding that do not interfere with procedures., (© 2024 Society for Radiological Protection. Published on behalf of SRP by IOP Publishing Limited. All rights, including for text and data mining, AI training, and similar technologies, are reserved.)

Published

2024

7. Virtual reality training for radiation safety in cardiac catheterization laboratories - an integrated study.

Author

Fujiwara A, Fujimoto S, Ishikawa R, and Tanaka A

Subjects

Humans, Prospective Studies, Female, Radiation Exposure analysis, Radiation Exposure prevention & control, Male, Adult, Fluoroscopy, Health Personnel, Virtual Reality, Radiation Protection, Occupational Exposure prevention & control, Occupational Exposure analysis, Cardiac Catheterization, Radiation Dosage

Abstract

The advent of fluoroscopically guided cardiology procedures has greatly improved patient outcomes but has also increased occupational radiation exposure for healthcare professionals, leading to adverse health effects such as radiation-induced cataracts, alopecia, and cancer. This emphasizes the need for effective radiation safety training. Traditional training methods, often based on passive learning, fail to simulate the dynamic catheterization laboratory environment adequately. Virtual Reality (VR) offers a promising alternative by providing immersive, interactive experiences that mimic real-world scenarios without the risks of actual radiation exposure. Our study aims to assess the effectiveness of VR-based radiation safety training compared to traditional methods. We conducted a prospective cohort study involving 48 healthcare professionals in a catheterization lab setting. Participants underwent a 1-hour self-directed VR training session using Virtual Medical Coaching's RadSafe VR software, which simulates real-world clinical scenarios. Pre- and post-intervention radiation dose levels were measured using personal dosimeters at the eye, chest, and pelvis. Knowledge and skills were assessed through tests, and feedback was gathered through surveys and interviews. Statistical analysis revealed significant reductions in radiation exposure across all professional groups after VR training. For cardiologists, the eye dose dropped by 21.88% (from 2.88 mSv to 2.25 mSv), the chest dose decreased by 21.65% (from 4.11 mSv to 3.22 mSv), and the pelvis dose went down by 21.84% (from 2.06 mSv to 1.61 mSv). Perioperative nurses experienced similar reductions, with eye doses decreasing by 14.74% (from 1.56 mSv to 1.33 mSv), chest doses by 26.92% (from 2.6 mSv to 1.9 mSv), and pelvis doses by 26.92% (from 1.3 mSv to 0.95 mSv). Radiographers saw their eye doses reduced by 18.95% (from 0.95 mSv to 0.77 mSv), chest doses by 42.11% (from 1.9 mSv to 1.1 mSv), and pelvis doses by 27.63% (from 0.76 mSv to 0.55 mSv).Participants reported enhanced engagement, improved understanding of radiation safety, and a preference for VR over traditional methods. A cost analysis also demonstrated the economic advantages of VR training, with significant savings in staff time and rental costs compared to traditional methods. Our findings suggest that VR is a highly effective and cost-efficient training tool for radiation safety in healthcare, offering significant benefits over traditional training approaches., (© The Author(s) 2024. Published by Oxford University Press.)

Published

2024

8. Radiation exposure to patients undergoing percutaneous transhepatic cholangiography and endoscopic retrograde cholangiography: an advanced phantom study.

Author

Tunçman D, Özgür E, Nayci AE, Günay O, Kesmezacar FF, Karaçam SÇ, Üzüm G, Demir M, Akkuş B, Elshami W, Almisned G, and Tekin HO

Subjects

Humans, Female, Thermoluminescent Dosimetry, Fluoroscopy methods, Organs at Risk radiation effects, Male, Phantoms, Imaging, Radiation Exposure analysis, Cholangiopancreatography, Endoscopic Retrograde, Radiation Dosage, Cholangiography methods

Abstract

Fluoroscopic examinations like Endoscopic Retrograde Cholangiopancreatography (ERCP) and Percutaneous Transhepatic Cholangiography (PTC) are fundamental in diagnosing and treating hepatobiliary diseases. However, these procedures expose patients to significant radiation, highlighting the need for a detailed assessment of the radiation doses received by critical organs. The study's primary objective is to determine the experimental doses received by critical organs in patients undergoing these procedures. This study utilized an Alderson RANDO phantom outfitted with Thermoluminescent Dosemeters (TLDs) to experimentally measure the radiation doses received by various organs during ERCP and PTC procedures. This method provided direct and accurate data on organ-specific radiation exposure, contrasting with the traditional approach of relying on theoretical simulations. The analysis revealed that PTC generally results in higher radiation doses to organs compared to ERCP. Critical organs, such as the thyroid, spleen, liver, pancreas, ovaries, and uterus, were exposed to varying levels of radiation, with the thyroid and spleen receiving particularly high doses in PTC. The study also demonstrated that the per-minute radiation exposure was consistently higher in PTC across all examined organs. The study's findings underscore the significant radiation exposure associated with ERCP and PTC, with PTC posing a greater risk. Understanding these exposure levels is crucial for clinical decision-making, particularly when considering patients' pre-existing conditions and sensitivity to radiation. The study highlights the need for clinicians to carefully weigh the benefits of ERCP and PTC against the potential radiological risks. It suggests a preference for ERCP in situations where radiation exposure needs to be minimized. Furthermore, the findings advocate for ongoing advancements in medical imaging techniques to reduce radiation exposure, emphasizing the importance of patient safety in fluoroscopic examinations. This research contributes significantly to informed clinical decision-making, ensuring that the selection of diagnostic and therapeutic procedures aligns with the best interest of patient health and safety., (© The Author(s) 2024. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2024

9. Assessment of foetal dose and occupational exposure for pregnant workers in nuclear medicine using the Taiwanese pregnancy phantom.

Author

Chang HT, Chang YC, Hsu FY, and Hsu CH

Subjects

Humans, Female, Pregnancy, Taiwan, Radiation Protection, Uterus radiation effects, Radiation Exposure analysis, Radiation Monitoring methods, Occupational Exposure analysis, Phantoms, Imaging, Radiation Dosage, Fetus radiation effects, Thermoluminescent Dosimetry instrumentation, Nuclear Medicine

Abstract

For pregnant workers in nuclear medicine, radiation doses can pose a risk to their foetus. However, foetal radiation doses cannot be measured directly. In this study, a method of estimating foetal radiation doses was developed through simulations and measurements of phantoms of pregnant women in the three trimesters. The uterus and abdominal surface doses for monoenergetic photons (137Cs) and medical diagnostic X-rays were measured, and uterine dose conversion coefficients (UDCCs) were calculated. The accuracy of the UDCC estimates were validated for measurements from thermoluminescent dosemeter (TLD) chips and TLD badges on the abdomen or chest. The foetal effective dose could be estimated using TLD chips and TLD badges on the abdomen or chest, or through literature estimation method. The proposed method can be used to easily and accurately estimate foetal effective doses from chest-worn TLD badges, ensuring accurate estimation in the early stage of pregnancy when a worker may not yet be wearing an abdominal badge. A flowchart for applying the UDCC method to approximate a foetal dose is also provided to ensure that total doses remain below the maximum of 1 mSv recommended in the International Commission on Radiological Protection 103 guidelines., (© The Author(s) 2024. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2024

10. Impact of a selective lens dose reduction protocol in 3D rotational angiography on radiation exposure to the eye lens during cerebral angiography: a randomized controlled trial.

Author

Ryu JC, Yoon JT, Kim BJ, Kim MH, Moon EJ, Suh PS, Roh YH, Moon HH, Kwon B, Lee DH, and Song Y

Subjects

Humans, Male, Middle Aged, Female, Aged, Cerebral Angiography methods, Cerebral Angiography adverse effects, Radiation Dosage, Imaging, Three-Dimensional methods, Lens, Crystalline radiation effects, Lens, Crystalline diagnostic imaging, Radiation Exposure prevention & control, Radiation Exposure analysis

Abstract

Background: We aimed to investigate the radiation dose to the eye lens (lens dose) during cerebral angiography and to evaluate the effectiveness of the lens dose reduction protocol for 3-dimensional rotational angiography (3D-RA) in reducing overall lens dose exposure., Methods: We conducted a randomized, controlled clinical trial at a tertiary hospital with patients undergoing cerebral angiography. The lens dose reduction protocol in 3D-RA involved raising the table to position the patient's eye lens away from the rotation axis. The lens dose was estimated by measuring the entrance surface air kerma using a photoluminescent glass dosimeter. The lens doses of 3D-RA, overall examination, and image quality were analyzed and compared between the two groups., Results: A total of 20 participants (mean age, 58±9.4 years; including 12 men [60%]) were enrolled and randomly assigned to either the conventional group or the dose reduction group. The median lens dose in 3D-RA was significantly lower in the dose reduction group compared with the conventional group (1.1 mGy vs 4.5 mGy, p<0.001). The total dose was significantly lower in the dose reduction group (median of 7.5 mGy vs 10.2 mGy, p=0.003). In the conventional group, 3D-RA accounted for 46% of the total lens dose, while in the dose reduction group, its proportion decreased to 16%. No significant differences were observed in the image quality between the groups., Conclusion: The lens dose reduction protocol resulted in a significant reduction in the lens dose of the 3D-RA as well as entire cerebral angiography, while maintaining the image quality., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2024. No commercial re-use. See rights and permissions. Published by BMJ.)

Published

2024

11. Uranium Mine Proposed Experimental Design for Natural Background Gross Gamma Exposure Rates, Post Remediation Final Status Survey Sampling Density, and Radiological Water Quality Modeling for a Worst-case Catastrophic Failure, Coles Hill, Virginia.

Author

Weyant DB and Yoon J

Subjects

Virginia, Gamma Rays, Environmental Restoration and Remediation, Radiation Monitoring methods, Water Quality, Water Pollutants, Radioactive analysis, Humans, Research Design, Radiation Exposure analysis, Uranium analysis, Mining

Abstract

Abstract: Completely randomized experimental design statistical modeling techniques were employed to analyze exposure rate measurements for evaluating hypothetical natural background post uranium mill operations at Coles Hill, Virginia uranium milling processes. The proposed Coles Hill Uranium Mine is situated upstream of the Banister River. This River is nearly homogenous throughout the reach length used in analysis and feeds into the mouth of Kerr Reservoir, Lake Gaston, which serves as the main drinking water source for cities in the Hampton Roads area including Norfolk, Virginia Beach, and Chesapeake. A critical scan value (=DCGLscan) was developed to flag anomalies of surface contamination during simulated post remediation final status surveys. The natural background was critical for meeting the Multi-Agency Radiation Survey and Site Investigation Manual guidance for post remediation final status surveys. The overarching null hypothesis suggested that the selected mean natural background is equal to the survey unit's mean natural background. Using SAS Procedures Shapiro-Wilk Test, ANOVA, and CR, it was decided the exposure rate data was normal, had no extreme outliers, and no collinearity between the number of samples (=treatment) and the areas (=block). Using the q-hyper (hypergeometric) distribution, the soil sampling density was decided for a final status survey unit. The most likely worst-case catastrophic failure analysis, 500-year event, such as the1969 Hurricane Camille of 69 centimeters of rain in Nelson County, Virginia was included in the model. The model showed impact was minimal at most to the Banister River's drinking water and likely less than the Virginia's Drinking Water Standards for gross alpha, 226Ra and 228Ra, and total uranium., (Copyright © 2024 Health Physics Society.)

Published

2024

12. Development of a body movement detection system to avoid re-exposure during radiography.

Author

Eto M, Nakawatari T, and Hatanaka Y

Subjects

Humans, Radiography instrumentation, Radiography methods, Respiration, Posture, Radiation Exposure prevention & control, Radiation Exposure analysis, Movement

Abstract

During the radiographic examination of the chest and bones in hospitals, communicating and maintaining posture is difficult for some patients, and movement before or during X-ray irradiation may necessitate re-exposure owing to body wobbling movements or breathing movements. To prevent the need for re-exposure during radiography and to determine the exposure timing, a body movement detection system that considers breathing movements was developed in this study. The posture of a patient was monitored using an RGB camera. The acquired video data was analyzed to detect body movement using either an inter-frame difference method or an optical flow estimation method. The performance of the system was evaluated by detecting the body and breathing movements during positioning. Consequently, the inter-frame difference method detected 179.8-1222.2 pixels during body movements, and the optical flow estimation method confirmed that the feature points moved by 5.5-26.6 mm (4.2-20.3 pixels). When detecting breathing movements, 82-585 pixels were detected by the inter-frame difference method, and the optical flow estimation method showed that the feature points moved by 5.2 mm (2-4 pixels). Therefore, the proposed method can detect body movements during radiography to prevent re-exposure due to body wobble and breathing movements. For healthcare providers, it will lead to reduce not only concerns about patient exposure but also unnecessary radiographic workload., (© 2024. This is a U.S. Government work and not under copyright protection in the US; foreign copyright protection may apply.)

Published

2024

13. Impact of Cosmic Rays on Radiation Exposures and Scientific Activities at the Atacama Large Millimeter/Submillimeter Array (ALMA) Sites.

Author

Hubert G, Baudry A, and Saez A

Subjects

Humans, Radiation Monitoring methods, Solar Activity, Cosmic Radiation adverse effects, Occupational Exposure analysis, Radiation Exposure analysis

Abstract

This study delves into the investigation of cosmic-ray radiation exposure levels for workers and their impact on the signal correlation subsystems at the Atacama Large Millimeter/submillimeter Array (ALMA) observatory sites. The analysis presents a detailed examination of secondary cosmic ray spectra and flux at the ALMA sites, encompassing the operational period from 2010 to the present day, with a particular focus on the consequences of extreme solar flares. In terms of radiation exposure for ALMA employees, the annual exposure at the highest site (AOS) reaches approximately 4.8 mSv. This value exceeds the exposure level of a typical nuclear fuel cycle worker or those working at high-altitude Antarctica stations. The exposure is approximately 2.7 times lower at the ALMA Operations Support Facility (OSF). Furthermore, the additional ambient dose equivalent resulting from solar events, while low for events similar to those observed since the 1950s, can reach up to approximately 1 mSv when considering more ancient solar events based on environmental archives. Our analysis includes radiation effects measurements in the Baseline Correlator at the AOS and, more generally, underscores the significance of employing accurate modeling and simulation techniques to assess the effects of galactic cosmic rays and extreme solar events on the integrated circuits utilized or planned in the ALMA correlation subsystem., (© 2024 by Radiation Research Society. All rights of reproduction in any form reserved.)

Published

2024

14. Exposure to radon gas in groundwater in southwest Angola (Lubango-Huíla): Implications of geology and climate change.

Author

Baptista E, Pereira AJSC, Domingos FP, Sêco SLR, and Luís GPS

Subjects

Angola, Radiation Exposure analysis, Geology, Humans, Radon analysis, Groundwater chemistry, Groundwater analysis, Radiation Monitoring, Water Pollutants, Radioactive analysis, Climate Change

Abstract

In southern African countries most of the population uses groundwater collected in dug wells for domestic consumption instead of water from public distribution systems. To investigate the impact of natural and human factors on urban groundwater quality, 276 samples were collected in the Lubango region (Angola) in water distribution systems and dug wells ranging from a few meters to almost one hundred meters in depth. Radon concentrations (RC) were determined by liquid scintillation counting according to ISO 13164-4:2015. Geology is the main source of the variability of RC, with median values higher than 100 Bq/L in granitoid units and lower values in mafic and sedimentary units (ranging from 5 to 38 Bq/L). On average, RC was higher in dug wells compared to public water distribution systems. The annual effective dose due to ingestion of radon in water is, on average, ten times lower in the later compared to dug wells. Therefore, from a public exposure perspective, water distribution systems are preferred as means for water distribution. A severe multi-year meteorological drought over the past decade affecting 76-94 % of the population in southern Angola has been linked with climate change. Consequently, a regional lowering of the water table was observed, as well as a reduction in the productivity of shallower wells, leading to a search for water at greater depths. This work demonstrates an increase in median RC from 66 Bq/L in wells shallower than 30 m to values over 100 Bq/L with increasing depth of water extraction and for the same geological unit. The highest RC observed were also observed at the deepest wells. The dose ingested is proportional to RC, being also higher at deeper water extraction depths. The increase in public radiation exposure from radon ingestion due to water extraction at greater depths is attributed to the underlying issue of climate change. Monitoring water quality in terms of radionuclide concentration is advised to ensure the exposure to ionizing radiation remains at acceptable levels in the future., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

15. Deep-learning denoising minimizes radiation exposure in neck CT beyond the limits of conventional reconstruction.

Author

Plajer D, Hahn M, Chaika M, Mader M, Mueck J, Nikolaou K, Afat S, and Brendlin AS

Subjects

Humans, Male, Female, Retrospective Studies, Middle Aged, Radiation Dosage, Aged, Adult, Signal-To-Noise Ratio, Neck diagnostic imaging, Tomography, X-Ray Computed methods, Head and Neck Neoplasms diagnostic imaging, Deep Learning, Radiation Exposure prevention & control, Radiation Exposure analysis, Radiographic Image Interpretation, Computer-Assisted methods

Abstract

Background: Neck computed tomography (NCT) is essential for diagnosing suspected neck tumors and abscesses, but radiation exposure can be an issue. In conventional reconstruction techniques, limiting radiation dose comes at the cost of diminished diagnostic accuracy. Therefore, this study aimed to evaluate the effects of an AI-based denoising post-processing software solution in low-dose neck computer tomography., Materials and Methods: From 01 September 2023 to 01 December 2023, we retrospectively included patients with clinically suspected neck tumors from the same single-source scanner. The scans were reconstructed using Advanced Modeled Iterative Reconstruction (Original) at 100% and simulated 50% and 25% radiation doses. Each dataset was post-processed using a novel denoising software solution (Denoising). Three radiologists with varying experience levels subjectively rated image quality, diagnostic confidence, sharpness, and contrast for all pairwise combinations of radiation dose and reconstruction mode in a randomized, blinded forced-choice setup. Objective image quality was assessed using ROI measurements of mean CT numbers, noise, and a contrast-to-noise ratio (CNR). An adequately corrected mixed-effects analysis was used to compare objective and subjective image quality., Results: At each radiation dose level, pairwise comparisons showed significantly lower image noise and higher CNR for Denoising than for Original (p < 0.001). In subjective analysis, image quality, diagnostic confidence, sharpness, and contrast were significantly higher for Denoising than for Original at 100 and 50 % (p < 0.001). However, there were no significant differences in the subjective ratings between Original 100 % and Denoising 25 % (p = 0.906)., Conclusions: The investigated denoising algorithm enables diagnostic-quality neck CT images with radiation doses reduced to 25% of conventional levels, significantly minimizing patient exposure., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2024

16. Has Health Physics Contributed to an 80-y False Narrative about the Trinity Nuclear Test?

Author

Shonka JJ

Subjects

Humans, Radioactive Hazard Release, Infant, History, 20th Century, Radiation Exposure analysis, Health Physics

Abstract

Abstract: This paper discusses the various analyses of the Trinity Nuclear Test, including how they might apply to the issue of infant mortality. This paper was first drafted as a response to a letter by Rice, who commented on my earlier letter on that issue. My earlier letter commented on the National Cancer Institute's 2020 series of papers in the October Issue of Health Physics on the impact of the Trinity Nuclear Test that was conducted on unoccupied government lands on 16 July 1945. The Journal editors requested that my response to Rice be edited and submitted as a paper to ensure adequate technical review and suggested that the article also add material summarizing the series of exchanges that were published in the Journal. This article suggests that significant differences exist between various summaries of the offsite impact of the Trinity Nuclear Test and offers that Trinity might be the largest nuclear accident in terms of the impact on uninvolved civilians who were downwind following the test. It suggests areas for further study to resolve these significant differences. It also asserts that until the estimated exposures of downwind residents are resolved and an appropriate study is made of infant deaths following the Trinity Nuclear Test, the issue of infant mortality remains an unanswered, 80-y-old question., (Copyright © 2024 Health Physics Society.)

Published

2024

17. Evaluation of a Tube Voltage-Based Contrast Media Adaptation in Coronary Computed Tomography Angiography Using Personalized Triphasic Injection Protocols: A Matched Case-Control Study.

Author

Gnasso C, Vecsey-Nagy M, Schoepf UJ, Stock J, Zsarnoczay E, Pinos D, Tremamunno G, Giovagnoli V, Seidensticker P, Emrich T, and Varga-Szemes A

Subjects

Humans, Female, Male, Prospective Studies, Middle Aged, Case-Control Studies, Aged, Radiation Exposure prevention & control, Radiation Exposure analysis, Algorithms, Contrast Media administration & dosage, Computed Tomography Angiography methods, Coronary Angiography methods, Radiation Dosage, Coronary Artery Disease diagnostic imaging

Abstract

Rationale and Objectives: Coronary CT angiography (CCTA) has recently been established as a first-line test in patients with suspected coronary artery disease (CAD). Due to the increased use of CCTA, strategies to reduce radiation and contrast medium (CM) exposure are of high importance. The aim of this study was to evaluate the performance of automated tube voltage selection (ATVS)-adapted CM injection protocol for CCTA compared to a clinically established triphasic injection protocol in terms of image quality, radiation exposure, and CM administration MATERIAL AND METHODS: Patients undergoing clinically indicated CCTA were prospectively enrolled from July 2021 to July 2023. Patients underwent CCTA using a modified triphasic CM injection protocol tailored to the tube voltage by the ATVS algorithm, in a range of 70 to 130 kV with a 10 kV interval. The injection protocol consisted of two phases of mixed CM and saline boluses with different proportions to assure a voltage-specific iodine delivery rate, followed by a third phase of saline flush. This cohort was compared to a control group identified retrospectively and scanned on the same CT system but with a standard triphasic CM protocol. Radiation and contrast dose, subjective and objective image quality (contrast-to-noise-ratio [CNR] and signal-to-noise-ratio [SNR]) were compared between the two groups., Results: The final population consisted of 120 prospective patients matched with 120 retrospective controls, with 20 patients in each kV group. The 120 kV group was excluded from the statistical analysis due to insufficient sample size. A significant CM reduction was achieved in the prospective group overall (46.0 [IQR 37.0-52.0] vs. 51.3 [IQR 40.1-73.0] mL, p < 0.001) and at all kV levels too (all pairwise p < 0.001). There were no significant differences in radiation dose (6.13 ± 4.88 vs. 5.97 ± 5.51 mSv, p = 0.81), subjective image quality (median score of 4 [3-5] vs. 4 [3-5], p = 0.40), CNR, and SNR in the aorta and the left anterior descending coronary artery (all p > 0.05)., Conclusion: ATVS-adapted CM injection protocol allows for diagnostic quality CCTA with reduced CM volume while maintaining similar radiation exposure, subjective and objective image quality., Competing Interests: Declaration of Competing Interest C.G.: None; M.V-N.: None; U.J.S.: receives institutional research support and/or personal fees by Bayer, Bracco, Elucid BioImaging, Guerbet, HeartFlow, Inc., Keya Medical, and Siemens; J.S.: None; E.Z.: None; D.P.: None; G.T.: None; V.G.: None; P.S.: is an employee of Bayer LLC; T.E.: receives travel support and speaker fee from Siemens Medical Solutions USA Inc, and institutional research support by Siemens Healthineers; A.V-S.: receives institutional research support and/or personal subscriptions from Siemens and Elucid Bioimaging., (Copyright © 2024. Published by Elsevier Inc.)

Published

2024

18. Ensuring radiation safety: Evaluating dose and compliance among medical staff at King Faisal Medical Complex, Saudi Arabia.

Author

Hassan WB, Osman H, Alosaimi M, AbuRkbah A, AlQurashi A, Elkhader BA, Alzahrani A, Alshehri M, Faizo NL, and Khandaker MU

Subjects

Saudi Arabia, Humans, Female, Male, Adult, Radiation Exposure analysis, Thermoluminescent Dosimetry, Surveys and Questionnaires, Middle Aged, Radiation Protection, Occupational Exposure prevention & control, Occupational Exposure analysis, Radiation Dosage, Medical Staff statistics & numerical data

Abstract

Background: Radiation is an integral part of routine medical practice, but it carries a risk to the health of medical staff. Hence, it should be assessed periodically. The study's goal was to quantify the levels of radiation exposure for medical staff at King Faisal Medical Complex (KFMC), Taif City Saudi Arabia, and to assess their radiation protective procedures in practice., Methods: The study looked at the thermoluminescence dosimeters (TLDs) records of 50 medical professionals who were exposed to radiation while working at KFMC from 2019 to 2020 in Taif city, Saudi Arabia. In Riyadh, radiation exposure is read from skin TLDs using Harshaw model 6600 plus detectors. The Excel software was utilized to process the obtained data for calculating effective doses. A questionnaire was also distributed to the medical staff to assess their radiation protection procedures. The Statistical Package for Social Sciences (SPSS) program version 23 was used to analyze the obtained data., Results: The mean annual effective doses of the medical staff in 2019 and 2020 were determined to be 1.14 mSv and 1.4645 mSv, respectively, with no significant difference in effective doses between males and females in either year. The socio-demographic features of the medical personnel were examined, and the findings revealed that the majority of participants were male radiological technologists. The rate of adherence to radiation protection techniques was 68%, with a normally distributed dispersal. The amount of adherence varied significantly depending on nationality, occupation, and academic qualification., Conclusion: According to the research, the mean annual effective dosage for medical professionals at KFMC was significantly below the recommended level, indicating satisfactory compliance with the ALARA radiation safety concept., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

19. Estimating Uncertainty in Actinide Intake Due to Unknown Time of Exposure.

Author

Nadar MY, Halder S, Mishra L, Akar DK, Singh IS, Sawant PD, and Chaudhury P

Subjects

Humans, Uncertainty, Plutonium urine, Plutonium analysis, Plutonium pharmacokinetics, Lung, Time Factors, Feces chemistry, Americium analysis, Americium pharmacokinetics, Americium urine, Radiation Exposure analysis, Occupational Exposure analysis, Radiation Monitoring methods, Actinoid Series Elements analysis, Actinoid Series Elements urine

Abstract

Bioassay of radiation workers handling actinides in powder form is carried out annually under routine monitoring program. In case of routine monitoring, as the day of intake is unknown, it is assumed that intake has occurred at the midpoint of monitoring interval. However, an uncertainty is introduced in intake estimation due to this assumption. In the present work, uncertainties were evaluated due to unknown time of intake of Type M and S compounds of Pu and U for annual and biennial monitoring interval. Lung and excreta monitoring methods were considered for uncertainty estimation along with the spread of ±1 month or ±2 months in measurements, at the end of monitoring interval. Annual lung monitoring is found to be the most robust and accurate method for assessment of intake of Type S compounds of Pu, Am and U when time of intake is unknown and Pu is detected using 241 Am as a tracer. For Type M compounds, uncertainty was found to be higher than 3 for biennial monitoring interval. Uncertainty is found to be less than 3 for Type S compounds of Pu and U and also for Type M compounds of Pu for both, annual and biennial monitoring intervals using urine analysis. It is higher than 3 for Type M compounds of U for both the monitoring intervals. It is greater than 3 for both Type M and S compounds of Pu and U for both the monitoring intervals using fecal analysis., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

20. The Effects of Abnormal Exposure on Individual Dose Monitoring with TLD Dosimeters.

Author

Yi Y and Stabin MG

Subjects

Humans, Radiation Dosimeters, X-Rays, Radiation Monitoring methods, Radiation Monitoring instrumentation, Cesium Radioisotopes analysis, Radiation Exposure analysis, Background Radiation, Thermoluminescent Dosimetry methods, Thermoluminescent Dosimetry instrumentation, Radiation Dosage

Abstract

Abstract: Objectives: To analyze the effects of normal x-ray inspection, machine washing, and machine drying on thermoluminescent dosimeter (TLD) measurements during external individual monitoring and to provide suggestions for determining individual monitoring measurements under the mentioned abnormal situations. In this study, we focused on three abnormal situations: x-ray inspection, machine washing, and machine drying, which are common in external individual dose monitoring. We measured and compared the doses from TLD with and without 11, 23, 35, and 50 security checks. We used different radiation sources to expose the TLDs before or after machine washing with or without hot drying. The three radiation sources are natural background radiation, 137 Cs γ rays, and 320 kVp x-rays. We measured 20 TLDs for each situation. The average doses for the TLDs with 11, 23, 35, 50 security checks are 27.7 μGy, 59.7 μGy, 84.1 μGy, and 121.0 μGy, respectively. We measured an average dose of 2.5 μGy per exposure. The doses showed no significant difference between different times of washing with different radiation sources, natural background radiation, 137 Cs, or x-ray exposures. There was also no significant difference between the dose coming from the controlled group, drying at 60 °C and 90 °C for 1 h after exposure to 137 Cs γ rays and 320 kVp x-rays. The common machine drying under the temperature of 90 °C did not affect TLD measured doses., (Copyright © 2024 Health Physics Society.)

Published

2024

21. Effect of Protective Eyewear on Physicians' Lens Exposure during Fluoroscopy.

Author

Hitomi T, Takashi K, and Reiko I

Subjects

Fluoroscopy, Humans, Radiation Protection methods, Physicians, Occupational Exposure prevention & control, Occupational Exposure analysis, Eye Protective Devices, Lens, Crystalline radiation effects, Radiation Dosage, Radiation Exposure analysis, Radiation Exposure prevention & control

Abstract

Abstract: The ICRP 2011 Seoul Statement recommended a reduction in the dose limit for lens exposure to 100 mSv for 5 y and 50 mSv for 1 y. Based on this recommendation, the dose limit for lens exposure was lowered in Japan with the revision of the Ionization Regulations, which took effect in April 2021. In the present study, lens doses were measured during fluoroscopic procedures performed in four departments (Urology, Pediatrics, Gastroenterology, and Orthopedics). Lens doses were measured without protective eyewear for 6 mo (pre-intervention) and then with protective eyewear for the next 6 mo (post-intervention). Monthly doses were collected and lens doses before and after the use of protective eyewear were calculated as the lens dose per unit time. The use of protective eyewear reduced the lens dose per unit time by approximately two thirds. In all departments, the lens dose was slightly lower after than before the intervention. A significant difference was observed in lens doses between the pre- and post-intervention periods in the Urology department. The present results demonstrated the effectiveness of protective eyewear in daily practice. Therefore, the use of protective eyewear is recommended during fluoroscopic procedures., (Copyright © 2024 Health Physics Society.)

Published

2024

22. Radiological assessment of radon in groundwater of the northernmost Kashmir Basin, northwestern Himalaya.

Author

Chakan MR, Mir RR, Nazir S, Mohi U Din M, Simnani S, and Masood S

Subjects

India, Humans, Drinking Water chemistry, Drinking Water analysis, Infant, Child, Radiation Dosage, Gamma Rays, Radiation Exposure analysis, Adult, Radon analysis, Groundwater chemistry, Water Pollutants, Radioactive analysis, Radiation Monitoring

Abstract

This study investigates the radon concentration in groundwater in Kupwara, the northernmost district of the Kashmir valley. It further assesses the annual effective dose experienced by the district's diverse population-infants, children, and adults-attributable to both inhalation of airborne radon released from drinking water and direct ingestion. In addition to this, the calculation of gamma dose rate is also carried out at each of the sampling site of radon. A portable radon-thoron monitor and a portable gamma radiation detector were respectively employed to estimate the activity concentration of radon in water samples and to measure the gamma dose rate. The radon concentration was found to exhibit variability from a minimum of 2.9 BqL -1 to a maximum of 197.2 BqL -1 , with a mean of 26.3 BqL -1 and a standard deviation of 23.3 BqL -1 . From a total of 85 samples, 10.6% of the samples had radon activity concentrations exceeding the permissible limits of 40 BqL -1 set by the United Nations Scientific Committee on Effects of Atomic Radiations as reported by UNSCEAR (Sources and effects of ionizing radiation, 2008) and only 1.2% of the samples have radon activity concentration exceeding the permissible limits of 100 BqL -1 set by the World Health Organization as reported by WHO (WHO guidelines for drinking-water quality, World Health Organization, Geneva, 2008). The mean of the annual effective dose due to inhalation for all age groups as well as the annual ingestion dose for infants and children, surpasses the World Health Organization's limit of 100 μSv y -1 as reported by WHO (WHO guidelines for drinking-water quality, World Health Organization, Geneva, 2008). The observed gamma radiation dose rate in the vicinity of groundwater radon sites ranged from a minimum of 138 nSv h -1 to a maximum of 250 nSv h -1 . The data indicated no significant correlation between the dose rate of gamma radiation and the radon levels in the groundwater. Radon concentration of potable water in the study area presents a non-negligible exposure pathway for residents. Therefore, the judicious application of established radon mitigation techniques is pivotal to minimize public health vulnerabilities., (© 2024. The Author(s), under exclusive licence to Springer Nature B.V.)

Published

2024

23. Theoretical Prediction of the 210 Pb Burden in the Skeleton from Radon Exposure and Other Intake Routes.

Author

Wang J, Liu Y, Wu B, Meng X, Wang Y, and Cheng J

Subjects

Humans, Male, Middle Aged, Radiation Exposure analysis, Female, Body Burden, Air Pollutants, Radioactive analysis, Environmental Exposure analysis, Radon analysis, Lead analysis, Bone and Bones radiation effects, Bone and Bones chemistry, Bone and Bones metabolism

Abstract

Abstract: The 210 Pb burden in the skeleton is a measurement value suitable for the estimation of the cumulative exposure to radon, based on which the resultant risk of lung cancer can be derived. There have been a handful of studies that successfully measured 210 Pb activity in the bones of volunteers who had chronic exposure to high concentrations of radon occupationally or in their residences. However, the quantitative relationship between measured 210 Pb activity and radon exposure remains elusive. Herein, we investigate the origin of the skeletal burden by employing the biokinetic model recommended by the International Commission on Radiological Protection and modeling various routes of intake. First, the baseline 210 Pb burden for the general public regarding eating assorted foodstuffs and breathing normal air is obtained. It is found that this baseline burden ranges between 7.3 to 46.5 Bq for a 50-y-old (male) person, which characterizes a large variance due to the uncertainty of each route of intake. Next, we concentrate on radon exposure by referring to two experimental studies where the accounts of exposure and the measured 210 Pb burden for each volunteer are documented in detail. From comparing our prediction and measurements, it is found that exposure to higher concentration of radon is the most significant source of 210 Pb intake, and the quantitative differences can be reasonably explained by the uncertainty resulting from regular intake routes. This study establishes the theoretical foundation for assessing one's risk of lung cancer due to radon exposure by measuring the 210 Pb burden in bones., Competing Interests: The authors declare no conflicts of interest., (Copyright © 2024 Health Physics Society.)

Published

2024

24. Assessment of Occupational Radiation Exposures at Ghana Research Reactor-1 Facility.

Author

Gyamfi K, Owusu-Manteaw P, Shitsi E, and Amoatey EA

Subjects

Ghana, Humans, Radiation Monitoring methods, Radiation Dosage, Nuclear Reactors, Thermoluminescent Dosimetry, Occupational Exposure analysis, Radiation Exposure analysis

Abstract

The annual occupational doses for workers at the Ghana Research Reactor-1 facility were assessed for the period 2018-2021. The dose records of monitored staff were retrieved and analysis done for dose distribution and collective effective doses. Thermoluminiscent dosimeters were used to monitor the occupational exposures. The dosimeters were evaluated for the cumulative radiation dose levels using the Harshaw 6600 TLD reader system. Annual dose of 1.52 mSv/year was the maximum acquired by an individual. An annual average effective dose range of 0.20-1.36 mSv was determined for all workers. The annual total collective effective dose was established to be in the range of 0.40-10.08 man-Sv. The 20 mSv annual limit for occupational exposure was not exceeded for monitored workers. The assessment shows that the GHARR-1 facility, in terms of radiation health effects, is a favorable environment for workers since exposures are mostly below occupational exposure limit., Competing Interests: Declaration of Conflicting InterestsThe authors declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article.

Published

2024

25. The first investigation on the radiotoxicity risks associated with ingesting radium in drinking water from the Oujda Region-Morocco and some bottled mineral waters.

Author

Dekhissi H, Didi A, Dekhissi I, Derkaoui JE, and Yjjou M

Subjects

Humans, Morocco, Radiation Monitoring methods, Child, Radon analysis, Adult, Radiation Dosage, Risk Assessment, Radiation Exposure analysis, Infant, Radium analysis, Drinking Water analysis, Mineral Waters analysis, Water Pollutants, Radioactive analysis

Abstract

Drinking water is essential to human life. However, it can be polluted by various factors, including radioactive substances such as radon 222 Rn and radium 226 Ra. Therefore, the determination of their concentrations is important for public health. The aim of this work is to measure the concentration of 226 Ra in samples of tap, natural spring and well water taken from different sources in the eastern region of Morocco, as well as in a few samples of bottled mineral water. We used an AlphaGUARD detector with an AlphaKit accessory and an RTM1688-2 to carry out measurements of radon in secular equilibrium with radium. The got results show that the 226 Ra activity is less than 0.104 ± 0.023 Bq/L, the Annual Effective Dose (AED)) for adults and children is less than 29.1 ± 4.7 μSv.y -1 and 123.8 ± 4.7 μSv.y -1 for infants. The chemical toxicity risk evaluated using the Lifetime Average Daily Dose (LADD) was found less than 0.23 ± 0.05 μgkg -1 day -1 . The obtained results are reasonable in relation to international guidelines, and do not present any radiological hazard to consumers that could be attributed to the radium and radon in the analyzed water samples., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

26. Validity of the 1984 Interim Guidelines on Airborne Ultrasound and Gaps in the Current Knowledge.

Subjects

Humans, Guidelines as Topic, Ultrasonic Waves, Radiation Exposure analysis, Occupational Exposure analysis, Occupational Exposure prevention & control, Reproducibility of Results, Radiation Protection standards

Abstract

Abstract: Airborne ultrasound is used for various purposes both in industrial and public settings, as well as being produced as a by-product by a range of sources. The International Radiation Protection Association (IRPA) published interim guidelines on limiting human exposure to airborne ultrasound in 1984, based on the limited scientific evidence that was available at that time. In order to investigate whether research since 1984 requires the development of revised exposure guidelines we considered (a) within the context of ultrasound exposure the relevance to health of the biological endpoints/mechanisms listed in the IRPA guidelines, (b) the validity of the exposure limits, and (c) whether there are biological endpoints/mechanisms not covered in the guidelines. The analysis of the available evidence showed that the biological endpoints that form the basis of the guidelines are relevant to health and the guidelines provide limits of exposure based on the evidence that was available at the time. However, the IRPA limits and their associated dosimetry were based on limited evidence, which may not be considered as scientifically substantiated. Further, there is no substantiated evidence of biological endpoints/mechanisms not covered by the IRPA guidelines. These two observations could mean that IRPA's limits are too low or too high. Research since the IRPA guidelines has made some improvements in the knowledge base, but there are still significant data gaps that need to be resolved before a formal revision of the guidelines can be made by ICNIRP, including research needs related to health outcomes and improved dosimetry. This statement makes a number of recommendations for future research on airborne ultrasound., (Copyright © 2024 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the Health Physics Society.)

Published

2024

27. Organ dose equivalents of albedo protons and neutrons under exposure to large solar particle events during lunar human landing missions.

Author

Pak S and Cucinotta FA

Subjects

Humans, Astronauts, Solar Activity, Radiation Protection methods, Phantoms, Imaging, Radiation Exposure analysis, Cosmic Radiation adverse effects, Neutrons adverse effects, Moon, Space Flight, Monte Carlo Method, Protons adverse effects, Radiation Dosage

Abstract

Astronauts participating in lunar landing missions will encounter exposure to albedo particles emitted from the lunar surface as well as primary high-energy particles in the spectra of galactic cosmic rays (GCRs) and solar particle events (SPEs). While existing studies have examined particle energy spectra and absorbed doses in limited radiation exposure scenarios on and near the Moon, comprehensive research encompassing various shielding amounts and large SPEs on the lunar surface remains lacking. Additionally, detailed organ dose equivalents of albedo particles in a human model on the lunar surface have yet to be investigated. This work assesses the organ dose equivalents of albedo neutrons and albedo protons during historically large SPEs in August 1972 and September 1989 utilizing realistic computational anthropomorphic human phantom for the first time. Dosimetric quantities within human organs have been evaluated based on the PHITS Monte Carlo simulation results and quality factors of the state-of-the-art NASA Space Cancer Risk (NSCR) model, as well as ICRP publications. The results with the NSCR model indicate that the albedo contribution to organ dose equivalent is less than 3 % for 1 g/cm 2 aluminum shielding, while it increases to more than 30 % in some organs for 50 g/cm 2 aluminum shielding during exposure to low-energy-proton-rich SPEs., Competing Interests: Conflict of Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024. Published by Elsevier B.V.)

Published

2024

28. Reduction of detection limits in monitoring of internal exposures by a combined evaluation of emissions and spectra.

Author

Meisenberg O

Subjects

Humans, Radioisotopes analysis, Radiation Exposure analysis, Radiation Monitoring methods, Limit of Detection

Abstract

Routine monitoring of internal exposures requires the detection of effective doses of at most 1 mSv per calendar year. For some radionuclides, this requirement cannot be satisfied by a conventional evaluation of the spectra that are gained in alpha or gamma spectrometry. However, since several measurements are conducted per calendar year on a regular basis, a combined evaluation of measurements, i.e. the evaluation of sum spectra, is possible. Additionally, radionuclides that feature several emissions of alpha or gamma radiation allow a combined evaluation of their emissions. Both methods can lead to significantly smaller detection limits as compared to a separate evaluation of spectra in many cases. However, the variation of parameters that influence the evaluation such as the measurement efficiency, abundance and chemical yield requires specific calculations and treatments of the spectra as well as a manipulation of the channel contents: In a combination of emissions, energy regions are summed and evaluated with a combined efficiency that is weighted by the abundances. In a combination of spectra, the channel contents must be scaled by the ratio of the calibration factors before the summation of the spectra. In the routine monitoring of short-lived radionuclides that feature a variety of emissions such as 225 Ac, these combinations are particularly effective in reducing the detectable annual effective dose. For alpha spectrometry of 225 Ac, both methods applied together can lead to a detectable effective dose of about 1 mSv per year as compared to a dose of about 90 mSv with a conventional separate evaluation., (© 2024. The Author(s).)

Published

2024

29. Assessment and mitigation of radiation hazard for individuals engaged in reconnaissance survey in uranium exploration in Jharkhand, India.

Author

Trivedi A, Patra SN, Shrivastava HB, Kumar U, Chakrabarti K, and Sinha DK

Subjects

Humans, India, Radiation Dosage, Radiation Protection methods, Risk Assessment methods, Radiation Exposure analysis, Neoplasms, Radiation-Induced prevention & control, Neoplasms, Radiation-Induced etiology, Neoplasms, Radiation-Induced epidemiology, Uranium analysis, Radiation Monitoring methods, Occupational Exposure analysis

Abstract

The present study attempts to obtain an a priori estimate of the absorbed dose received by an individual engaged in the reconnaissance survey in Uranium exploration using a predictive mathematical regression analysis. Other radiation safety parameters such as excess lifetime cancer risk are also calculated. Study reflects that the proper handling of naturally occurring radioactive materials accounts for an absorbed dose significantly less than the prescribed limit., (© The Author(s) 2024. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2024

30. Studies on uranium concentration in groundwater samples and its associated health hazards to the residents of surrounding regions of Manchanabele reservoir, Bengaluru, Karnataka, India.

Author

Deepika DN, Ambika MR, Naregundi K, Kumara S, Kumar KNV, and Nagaiah N

Subjects

India, Humans, Risk Assessment, Radiation Dosage, Radiation Exposure analysis, Uranium analysis, Groundwater analysis, Water Pollutants, Radioactive analysis, Radiation Monitoring methods

Abstract

Uranium occurs naturally in groundwater and surface water. Being a radioactive element, high uranium concentration can cause impact on human health. The health effects associated with consumption of uranium through water includes increased cancer risk and kidney toxicity. In view of this, an attempt was made in the present study to establish the level of radiological and chemical toxicity of uranium. Radiological toxicity was evaluated in terms of lifetime cancer risk and chemical toxicity through hazard quotient. For the said purpose, groundwater samples from the selected villages of the surrounding region of the Manchanabele reservoir, southwest of Bengaluru, were collected. The collected groundwater samples were analysed for Uranium mass concentration using Light emitting diode (LED) fluorimeter and is found to range from 0.88 to 581.47 ppb with a GM of 20.82 ppb. The result reveals that ~ 66% of the samples show concentration of uranium within the safe limit of 30 ppb as set by the World Health Organisation. The radiological risk estimated in terms of lifetime cancer risk is in the range of 0.0028 × 10-3 to 1.85 × 10-3 with a GM of 0.066 × 10-3. The chemical toxicity risk measured as lifetime annual daily dose is found to range from 0.03 to 21.65 μg per kg per d with a GM of 0.77 μg per kg per d., (© The Author(s) 2024. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2024

31. Monitoring of surgical staff x-ray exposure in the operating room with DosiBadge.

Author

Clogenson H, Marne C, Desplobain K, Gouge AL, Laffon M, and Maia S

Subjects

Humans, X-Rays, Radiation Protection, Radiation Exposure analysis, Equipment Design, Operating Rooms, Occupational Exposure analysis, Occupational Exposure prevention & control, Radiation Monitoring methods, Radiation Dosage, Radiation Dosimeters

Abstract

Surgical procedures involving the use of x-rays in the operating room (OR) have increased in recent years, thereby increasing the exposure of OR staff to ionizing radiation. An individual dosimeter makes it possible to record the radiation exposure to which these personnel are exposed, but there is a lack of compliance in the wearing of these dosimeters for several practical reasons. This makes the dose results obtained unreliable. To try to improve the rate of dosimeter wearing in the OR, the Dosibadge project studied the association of the individual dosimeter with the hospital access badge, forming the Dosibadge. Through a study performed at the Tours University Hospital in eight different ORs for two consecutive periods of 3 months. The results show a significant increase in the systematic use of the dosimeter thanks to the Dosibadge, which improves the reliability of the doses obtained on the dosimeters and the monitoring of personnel. The increase is especially marked with clinicians. Following these results and the very positive feedback to this first single-centre study, we are then planning a second multicentre study to validate our proof of concept on different sites, with the three brands of individual dosimeters used in France i.e. dosimeters supplied by Dosilab; Landauer and IRSN., (© 2024 Society for Radiological Protection. Published on behalf of SRP by IOP Publishing Limited. All rights reserved.)

Published

2024

32. Range shifter contribution to neutron exposure of patients undergoing proton pencil beam scanning.

Author

Romero-Expósito M, Liszka M, Christou A, Toma-Dasu I, and Dasu A

Subjects

Humans, Radiotherapy Planning, Computer-Assisted methods, Monte Carlo Method, Radiation Exposure analysis, Radiation Dosage, Neutrons, Proton Therapy instrumentation, Phantoms, Imaging, Radiotherapy Dosage

Abstract

Background: Superficial targets require the use of the lowest energies within the available energy range in proton pencil-beam scanning (PBS) technique. However, the lower efficiency of the energy selection system at these energies and the requirement of a greater number of layers may represent disadvantages for this approach. The alternative is to use a range shifter (RS) at nozzle exit. However, one of the concerns of using this beamline element is that it becomes an additional source of neutrons that could irradiate organs situated far from the target., Purpose: The purpose of this study is to assess the increase in neutron dose due to the RS in proton PBS technique. Additionally, an analytical model for the neutron production is tested., Methods: Two clinical plans, designed to achieve identical target coverage, were created for an anthropomorphic phantom. These plans consisted of a lateral field delivering an absorbed dose of 60 Gy (RBE) to the target. One of the plans employed the RS. The MCNP code was used to simulate the plans, evaluating the distribution of neutron dose equivalent (H n ) and the equivalent dose in organ. In the plan with the RS plan, neutron production from both the patient and the RS were assessed separately. H n values were also fitted versus the distance to field edge using a Gaussian function., Results: H n per prescription dose, in the plan using the RS, ranged between 1.4 and 3.7 mSv/Gy at the field edge, whereas doses at 40 cm from the edge ranged from 9.9 to 32 μSv/Gy. These values are 1.2 to 10 times higher compared to those obtained without the RS. Both this factor and the contribution of neutrons originating from the RS increases with the distance from field edge. A triple-Gaussian function was able to reproduce the equivalent dose in organs within a factor of 2, although underestimating the values., Conclusions: The dose deposited in the patient by the neutrons originating from the RS predominantly affects areas away from the target (beyond approximately 25 cm from field edge), resulting in a neutron dose equivalent of the order of mSv. This indicates an overall low neutron contribution from the use of RS in PBS., (© 2023 The Authors. Medical Physics published by Wiley Periodicals LLC on behalf of American Association of Physicists in Medicine.)

Published

2024

33. Significance of the sample determination in assessment of radiological examinations frequencies for population doses due to medical exposures.

Author

Hourdakis CJ, Vogiatzi S, Kalathaki M, Tritakis P, Simantirakis G, Pafilis C, Manousaridis G, Thrapsanioti Z, Liotsou V, Nikolaou M, Tzoumi N, and Lamprinakou M

Subjects

Humans, Uncertainty, Radiation Exposure analysis, Radiation Dosage

Abstract

The radiological examination frequency, i.e. the number of examinations performed annually, is necessary for estimating the collective effective dose of the population from medical exposures with ionizing radiation. Examination frequency surveys usually collect data from a limited number of radiological facilities participating in the survey. The collected data are then extrapolated to the existing radiological facilities in a country/region. Thus, the number of facilities and the specific facilities to participate, as well as, the extrapolation method used, are significant elements when designing the survey sample and methodology for examinations frequency assessments. This work attempted to simulate the situation when examination frequency data are collected from a limited number of facilities by investigating several "virtual sample" designs and two extrapolation methods. Comparisons between the calculated - by extrapolation - and the actual examination frequency in the country were made, for several scenarios and examination type data sets. The uncertainties were estimated and discussed thoroughly. The findings of this work highlighted the need for appropriate registry of the existing facilities in a country/region, the categorization of facilities considering the medical sector pattern in the country/region, the representativity and homogeneity of the samples used for a survey, as well as, the necessity for quality control of the collected examination frequency data. The results showed that when the aforementioned conditions were fulfilled, the examination frequency could be calculated with reasonable accuracy, based on data collected from a limited number of facilities. The paper also provides suggestions and tips for the collection and analysis of examination frequency data., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Associazione Italiana di Fisica Medica e Sanitaria. Published by Elsevier Ltd. All rights reserved.)

Published

2024

34. Exploring the potential of combined B-mode features and color Doppler ultrasound in the diagnosis of ureteric stone as an alternative to ionizing radiation exposure by computed tomography.

Author

Abdel Gawad AM, Moustafa BA, Abouelgreed TA, Elnady EA, Khater S, Rehan M, Elebiary MF, Fathy BA, Shaalan A, Ramadan N, Hindawy M, and Abdelkader SF

Subjects

Humans, Male, Female, Middle Aged, Aged, Adult, Radiation Exposure analysis, Sensitivity and Specificity, Aged, 80 and over, Prospective Studies, Young Adult, Ureteral Calculi diagnostic imaging, Ultrasonography, Doppler, Color methods, Tomography, X-Ray Computed methods

Abstract

Objective: To assess the diagnostic efficacy of integrating B-mode and color Doppler capabilities of ultrasound (US) to establish a robust standalone diagnostic tool for the diagnosis of ureteric stones as an alternative to non-contrast-enhanced computed tomography (NCCT)., Methods: A total of 140 consecutive patients diagnosed with ureteric stones using NCCT were enrolled. On the same day, US in both B-mode and Color Doppler was performed by an experienced radiologist who was blinded to the NCCT scan results. The diagnostic rate of US for stone detection was recorded. Additionally, baseline patient and stone characteristics were analyzed for their association with the accuracy of stone detection using US., Results: US exhibited a high sensitivity of 91.43%, detecting 128 out of 140 stone foci. Notably, ureteric stones in the proximal and uretero-vesical junction (UVJ) segments were readily identifiable compared to those in the pelvic region (p = 0.0003). Additionally, hydronephrosis enhanced the US's ability to detect stones (p < 0.0001). Conversely, abdominal gases and obesity adversely affected US capabilities (p < 0.0001 and p = 0.009, respectively). Stone side, size, and density showed no statistically significant impact (p > 0.05)., Conclusions: US with its color Doppler capabilities could serve as a reliable and safe alternative imaging modality in the diagnostic work up of patients with ureterolithiasis. Factors including stone location, Hydronephrosis, weight and abdominal gases significantly influenced its accuracy.

Published

2024

35. Rapid assessment of cosmic radiation exposure in aviation based on BP neural network method.

Author

Wang B, Fang M, Song D, Cheng J, and Wu K

Subjects

Humans, Occupational Exposure analysis, Computer Simulation, Radiation Exposure analysis, Aircraft, Cosmic Radiation, Neural Networks, Computer, Monte Carlo Method, Radiation Monitoring methods, Radiation Dosage, Aviation

Abstract

Cosmic radiation exposure is one of the important health concerns for aircrews. In this work, we constructed a back propagation neural network model for the real-time and rapid assessment of cosmic radiation exposure to the public in aviation. The multi-dimensional dataset for this neural network was created from modeling the process of cosmic ray transportation in magnetic field by geomagnetic cutoff rigidity method and air shower simulation by a Monte Carlo based Geant4 code. The dataset was characterized by parameters including cosmic ray energy spectrum, Kp-index, coordinated universal time, altitude, latitude, and longitude. The effective dose and dose rate was finally converted from the particle fluxes at flight position by the neural network. This work shows a good agreement with other models from International Civil Aviation Organization. It is also illustrated that the effective dose rate by galactic cosmic ray is <10 μSv h-1 and the value during ground level enhancement (GLE) 42 is 4 ~ 10 times larger on the routes calculated in this work. In GLE 69, the effective dose rate reaches several mSv h-1 in the polar region. Based on this model, a real-time warning system is achieved., (© The Author(s) 2024. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2024

36. Statistical evaluation of individual external exposure dose of outdoor worker and ambient dose rate at evacuation ordered zones after the Fukushima Daiichi Nuclear Power Station accident.

Author

Saisu M, Ando T, Uchiyama K, Ueno T, Takizawa K, Endo Y, Yoshimura K, and Sanada Y

Subjects

Humans, Japan, Air Pollutants, Radioactive analysis, Radiation Exposure analysis, Nuclear Power Plants, Fukushima Nuclear Accident, Radiation Monitoring methods, Occupational Exposure analysis, Radiation Dosage

Abstract

Following the accident at the Fukushima Daiichi Nuclear Power Station, evacuation orders were issued for the surrounding communities. In order to lift the evacuation order, it is necessary to determine individual external doses in the evacuated areas. The purpose of this study was to determine the quantitative relationship between individual external doses and ambient dose rates per hour as conversion coefficients. More specifically, individual external doses of Tokyo Electric Power Company Holdings employees in difficult-to-return zone were measured broadly over a long period (fiscal year 2020 to fiscal year 2022). To obtain highly accurate estimates, we used not only ambient dose rates based on airborne radiological monitoring data, but also Integrated dose rate map data that had been statistically corrected to correspond to local ambient dose rate gradients on the ground. As a result, the conversion coefficients based on the ambient dose rate map measured by airborne radiological monitoring were 0.42 for the Evacuation-Order Lifted Zones (ELZs), 0.37 for the Special Zones for Reconstruction and Rehabilitation (SZRRs), and 0.47 for the Difficult-to-Return Zones without SZRRs (DRZs). On the other hand, the conversion coefficients based on the Integrated dose rate map which is a highly accurate dose rate map based on statistical analysis of various types of monitoring that have been studied in government projects in recent years, were 0.78 for the ELZs, 0.72 for the SZRRs and 0.82 for the DRZs. Using these conversion coefficients, the individual external dose can be estimated from two representative ambient dose rate maps provided by the government., (Creative Commons Attribution license.)

Published

2024

37. High-radiation-exposure tasks in Korean pressurized heavy-water reactors.

Author

Song C, Kong TY, Kim S, Son J, Kim J, Park J, Kim HG, and Kim Y

Subjects

Humans, Republic of Korea, Radiation Protection instrumentation, Radiation Exposure analysis, Nuclear Reactors, Water, Occupational Exposure analysis, Occupational Exposure prevention & control, Radiation Dosage, Radiation Monitoring methods, Radiation Monitoring instrumentation

Abstract

This study analysed the occupational dose in Korean pressurized heavy-water reactors (PHWRs) and identified tasks involving high radiation exposure. The average individual dose was sufficiently low to be below the annual effective dose limit for radiation workers and is even lower than the dose limit for the general public. However, some workers received relatively higher doses than others. Furthermore, most PHWR workers are exposed to radiation during planned maintenance periods. In this study, the radiation dose was normalized (radiation dose per unit time) to determine the high-radiation-exposure tasks in Korean PHWRs. Consequently, end-fitting lapping, delayed neutron tube work and fuel channel fixed-end change tasks were identified as high-radiation-exposure tasks in Korean PHWRs. If appropriate radiation protection measures are prioritized for the identified high-dose exposure tasks, optimization of radiological protection will be effectively achieved by reducing the dose that is relatively higher than the average., (© The Author(s) 2024. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2024

38. Clinical diagnostic reference levels in neuroradiology based on clinical indication.

Author

Aly A, Tsapaki V, Ahmed AZ, Own A, Patro S, Al Naemi H, and Kharita MH

Subjects

Humans, Adult, Male, Middle Aged, Female, Aged, Radiation Exposure analysis, Intracranial Arteriovenous Malformations radiotherapy, Intracranial Arteriovenous Malformations diagnostic imaging, Stroke diagnostic imaging, Intracranial Aneurysm diagnostic imaging, Diagnostic Reference Levels, Neuroradiography methods, Aged, 80 and over, Young Adult, Radiation Dosage

Abstract

This study focuses on patient radiation exposure in interventional neuroradiology (INR) procedures, a field that has advanced significantly since its inception in the 1980s. INR employs minimally invasive techniques to treat complex cerebrovascular diseases in the head, neck, and spine. The study establishes diagnostic reference levels (DRLs) for three clinical indications (CIs): stroke (S), brain aneurysms (ANs), and brain arteriovenous malformation (AVM). Data from 209 adult patients were analyzed, and DRLs were determined in terms of various dosimetric and technical quantities. For stroke, the established DRLs median values were found to be 78 Gy cm2, 378 mGy, 118 mGy, 12 min, 442 images, and 15 runs. Similarly, DRLs for brain AN are 85 Gy cm2, 611 mGy, 95.5 mGy, 19.5, 717 images, and 26 runs. For brain AVM, the DRL's are 180 Gy cm2, 1144 mGy, 537 mGy, 36 min, 1375 images, and 31 runs. Notably, this study is unique in reporting DRLs for specific CIs within INR procedures, providing valuable insights for optimizing patient safety and radiation exposure management., (© The Author(s) 2024. Published by Oxford University Press.)

Published

2024

39. A survey of the radiation safety practices of veterinary practitioners during portable equine radiography in Ireland.

Author

Daly S, Skelly C, Lewis M, and Toomey R

Subjects

Ireland, Horses, Animals, Humans, Surveys and Questionnaires, Radiography statistics & numerical data, Radiography standards, Radiography adverse effects, Veterinarians, Radiation Dosage, Radiation Exposure analysis, Radiation Protection, Occupational Exposure analysis, Occupational Exposure prevention & control

Abstract

Veterinary practitioners and other personnel involved in the examination are exposed to ionizing radiation while performing portable radiographs on horses. An online survey was distributed to all Veterinary Council of Ireland-registered practices where the self-reported practice profile is at least 20% equine work. The survey contained questions relating to radiation safety training, protocols, personal dosimetry and lead protection usage, repeat exposures, sedation, and personnel roles during the examination. The aim of the survey was to document the current radiation safety practices of equine veterinary practitioners during portable radiography. The results showed that although adherence to guidance set out by the Environmental Protection Agency (EPA) is reasonably good, compliance rates can be improved. Personal dosemeter usage and repeat rate reduction could particularly benefit from further improvement. This is of the utmost importance in ensuring that occupational radiation exposure to veterinary practitioners is kept to an absolute minimum during their daily practice., (© The Author(s) 2024. Published by Oxford University Press.)

Published

2024

40. Evaluation of overexposure risk when there is a space between the subject and the couch in computed tomography: a phantom study.

Author

Fujiwara Y, Kamihoriuchi Y, Higuchi F, Nakayama S, Ohyama Y, Sasaki T, Watanabe S, and Masuda T

Subjects

Humans, Radiation Dosage, Patient Positioning, Risk, Radiation Exposure analysis, Tomography, X-Ray Computed instrumentation, Phantoms, Imaging

Abstract

The purpose of this study was to investigate the risk of overexposure associated with automatic tube current modulation (ATCM) and automatic couch height positioning compensation mechanism (AHC) in computed tomography (CT) systems, particularly in scenarios involving a gap between the subject and the couch. Results revealed that when AHC was enabled, CT dose index volume (CTDI vol ) increased by approximately 10% at 2.5 cm, 20% at 5.0 cm, and 40% at 10.0 cm gaps compared to close contact conditions. While the AHC function ensures consistent exposure doses and image quality regardless of subject positioning relative to the CT gantry isocenter, the study highlights a potential risk of overexposure when a gap exists between the subject and the couch. These findings offer valuable insights for optimizing CT imaging protocols and underscore the importance of carefully considering subject positioning in clinical practice., (© 2024. The Author(s), under exclusive licence to Japanese Society of Radiological Technology and Japan Society of Medical Physics.)

Published

2024

41. Protracted Exposure to a Sub-background Radiation Environment Negatively Impacts the Anhydrobiotic Recovery of Desiccated Yeast Sentinels.

Author

Lapointe MR, Laframboise T, Pirkkanen J, Tai TC, Lees SJ, Santa Maria SR, Tharmalingam S, Boreham DR, and Thome C

Subjects

Rad51 Recombinase metabolism, Radiation Exposure adverse effects, Radiation Exposure analysis, Radiation Dosage, Saccharomyces cerevisiae radiation effects, Desiccation

Abstract

Abstract: Experiments that examine the impacts of subnatural background radiation exposure provide a unique approach to studying the biological effects of low-dose radiation. These experiments often need to be conducted in deep underground laboratories in order to filter surface-level cosmic radiation. This presents some logistical challenges in experimental design and necessitates a model organism with minimal maintenance. As such, desiccated yeast ( Saccharomyces cerevisiae ) is an ideal model system for these investigations. This study aimed to determine the impact of prolonged sub-background radiation exposure in anhydrobiotic (desiccated) yeast at SNOLAB in Sudbury, Ontario, Canada. Two yeast strains were used: a normal wild type and an isogenic recombinational repair-deficient rad51 knockout strain ( rad51 Δ). Desiccated yeast samples were stored in the normal background surface control laboratory (68.0 nGy h -1 ) and in the sub-background environment within SNOLAB (10.1 nGy h -1 ) for up to 48 wk. Post-rehydration survival, growth rate, and metabolic activity were assessed at multiple time points. Survival in the sub-background environment was significantly reduced by a factor of 1.39 and 2.67 in the wild type and rad51 ∆ strains, respectively. Post-rehydration metabolic activity measured via alamarBlue reduction remained unchanged in the wild type strain but was 26% lower in the sub-background rad51 ∆ strain. These results demonstrate that removing natural background radiation negatively impacts the survival and metabolism of desiccated yeast, highlighting the potential importance of natural radiation exposure in maintaining homeostasis of living organisms., (Copyright © 2024 Health Physics Society.)

Published

2024

42. Medical staff dose estimation during pediatric cardiac interventional procedures.

Author

Roberto MR, Leite LMA, Cruz ARP, Khoury H, de Barros VSM, Neves JR, Cartaxo JM, Ubeda C, and Asfora VK

Subjects

Humans, Child, Cardiac Catheterization, Radiation Protection, Lens, Crystalline radiation effects, Radiography, Interventional, Radiation Exposure analysis, Occupational Exposure analysis, Radiation Dosage

Abstract

The purpose of this study is to evaluate the occupational doses (eye lens, extremities and whole body) in paediatric cardiac interventional and diagnostic catheterization procedures performed in a paediatric reference hospital located in Recife, Pernambuco. For eye lens dosimetry, the results show that the left eye receives a higher dose than the right eye, and there is a small difference between the doses received during diagnostic (D) and therapeutic (T) procedures. The extrapolated annual values for the most exposed eye are close to the annual limit. For doses to the hands, it was observed that in a significant number of procedures (37 out of 45 therapeutic procedures, or 82%) at least one hand of the physician was exposed to the primary beam. During diagnostic procedures, the physician's hand was in the radiation field in 11 of the 17 catheterization procedures (65%). This resulted in a 10-fold increase in dose to the hands. The results underscore the need for optimization of radiation safety and continued efforts to engage staff in a radiation safety culture., (© 2024 Society for Radiological Protection. Published on behalf of SRP by IOP Publishing Limited. All rights reserved.)

Published

2024

43. Relationship between assistant's lens exposure and dose information during computed tomography examinations.

Author

Ito H, Matsubara K, Kobayashi I, Shimakawa Y, Murayama D, Sakai T, Isobe T, Yanagawa N, and Ochi S

Subjects

Humans, Radiation Protection, Radiation Exposure analysis, Lens, Crystalline radiation effects, Radiation Dosage, Occupational Exposure analysis, Tomography, X-Ray Computed

Abstract

According to International Commission of Radiological Protection, the equivalent dose limit for the eye lens for occupational exposure is recommended to be 20 mSv yr -1 , averaged over 5 years, with no single year above 50 mSv. Some studies reported the measurement of assistant's lens exposure in diagnostic computed tomography (CT) examinations, but further investigation is still required in the association between the lens dose for assistants and various dose parameters. Therefore, we measured the assistant's lens exposure using small optically stimulated luminescence dosimeters. The type of occupation, type of assistance, total scan time, total mAs, total scan length, and dose-length product (DLP) were recorded and analyzed in association with air kerma at the lens position. The assistance was classified into four types: 'assisted ventilation,' 'head holding,' 'body holding,' and 'raising patient's arm.' The air kerma of lens position was not significantly different for each assistance type ( p < 0.05, Kruskal-Wallis test). Further, the lens doses for assistants correlated with DLP, but with various strengths of correlation with the assistance type and were influenced by the distance from the CT gantry. In conclusion, lens dose during assistance and DLP demonstrated the strongest correlation. 'Raising patient's arm' and 'head holding' exhibited stronger correlations, which required less table movement during the CT scan than 'assisted ventilation' and 'body holding'., (© 2024 Society for Radiological Protection. Published on behalf of SRP by IOP Publishing Limited. All rights reserved.)

Published

2024

44. Cosmic-ray exposure assessment using particle and heavy ion transport code system: case study Douala-Cameroon.

Author

Didier TSS, Joel GSC, Saïdou, Samuel BG, and Maurice NM

Subjects

Humans, Cameroon, Solar Activity, Computer Simulation, Radiation Exposure analysis, Cosmic Radiation, Monte Carlo Method, Radiation Monitoring methods, Radiation Dosage, Heavy Ions

Abstract

According to UNSCEAR, cosmic radiation contributes to ~16% (0.39 mSv/y) of the total dose received by the public at sea level. The exposure to cosmic rays at a specific location is therefore a non-negligible parameter that contributes to the assessment of the overall public exposure to radiation. In this study, simulations were conducted with the Particle and Heavy Ion Transport code System, a Monte Carlo code, to determine the fluxes and effective dose due to cosmic rays received by the population of Douala. In minimum solar activity, the total effective dose considering the contribution of neutron, muon+, muon-, electron, positron and photon, was found to be 0.31 ± 0.02 mSv/y at the ground level. For maximum solar activity, it was found to be 0.27 ± 0.02 mSv/y at ground level. During maximum solar activity, galactic cosmic rays are reduced by solar flares and winds, resulting in an increase in the solar cosmic-ray component and a decrease in the galactic cosmic-ray component on Earth. This ultimately leads to a decrease in the total cosmic radiation on Earth. These results were found to be smaller than the UNSCEAR values, thus suggesting a good estimation for the population of Douala city located near the equatorial line. In fact, the cosmic radiation is more deflected at the equator than near the pole. Muons+ were found to be the main contributors to human exposure to cosmic radiation at ground level, with ~38% of the total effective dose due to cosmic exposure. However, electrons and positrons were found to be the less contributors to cosmic radiation exposure. As regards the obtained results, the population of Douala is not significantly exposed to cosmic radiation., (© The Author(s) 2024. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2024

45. Patient perspectives on ionising radiation exposure from computed tomography in Saudi Arabia: a knowledge and perception study.

Author

Alashban Y and Alghamdi SA

Subjects

Humans, Saudi Arabia, Male, Female, Middle Aged, Adult, Surveys and Questionnaires, Aged, Young Adult, Radiation Protection, Adolescent, Tomography, X-Ray Computed methods, Health Knowledge, Attitudes, Practice, Radiation, Ionizing, Radiation Exposure analysis, Radiation Dosage

Abstract

The objective of this study was to evaluate patient knowledge and understanding of ionising radiation and dosage, as well as the accompanying risks related to computed tomography scans. A total of 412 outpatients who underwent computed tomography (CT) scans were surveyed to assess their understanding of radiation dose and exposure risks. CT was correctly classified as an ionising radiation by 56.8% of the respondents. More than half of the patients reported that a CT scan increases the probability of inducing cancer. Awareness of varying radiation doses in different CT exams was noted in 75.2% of patients, but only 21.4% reported having discussions with their physician about radiation dose. Gender, age and employment were significantly correlated with knowledge levels. The survey findings indicate a limited understanding of the hazards associated with ionising radiation used in CT scans, highlighting a need for increased awareness and education on radiation protection to ensure informed consent., (© The Author(s) 2024. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2024

46. Occupational dose measurement in interventional cardiology practice.

Author

Wickramasinghe SU, Ramanathan V, Sarasanandarajah S, De Zoyza M, and Paranamana R

Subjects

Humans, Algorithms, Protective Clothing, Radiation Exposure analysis, Occupational Exposure analysis, Occupational Exposure prevention & control, Radiation Dosage, Radiation Protection methods, Cardiology methods, Radiation Monitoring methods

Abstract

Ensuring the safety of healthcare workers in interventional cardiology necessitates effective monitoring of occupational radiation exposure. This study aims to assess the accuracy of the over-apron single dosimetric approach compared with double dosimetric methods and explore the relationship between under-apron and over-apron doses. This investigation showed that the prescribed annual dose constraint of 20 mSv year-1 was not exceeded by the maximum annual occupational doses determined by dosimetric algorithms, which were 0.13 ± 0.02, 0.15 ± 0.02 and 0.27 ± 0.04 mSv, respectively. The study demonstrated excellent statistically significant correlations among single and double dosimetric algorithms and between direct under-apron and over-apron doses. Consequently, single dosimetric algorithms could effectively estimate doses for double dosimetric algorithms, highlighting the limited added value of under-apron measurements. These findings significantly impact the practice of interventional cardiology in Sri Lanka, playing a crucial role in enhancing radiation protection measures., (© The Author(s) 2024. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2024

47. Potential risk assessment: a model for quality evaluation in fluoroscopy-guided interventional procedures.

Author

Oliveira M, Navarro M, Costa E, Kremer D, Pinheiro R, Freitas V, Modesto I, Macedo E, Ferreira J, Andrade D, Damasceno L, and Joseneas E

Subjects

Humans, Fluoroscopy methods, Risk Assessment methods, Female, Male, Radiography, Interventional adverse effects, Radiation Monitoring methods, Radiation Protection standards, Radiation Protection methods, Radiology, Interventional methods, Radiology, Interventional standards, Radiation Exposure analysis, Radiation Dosage, Occupational Exposure analysis, Occupational Exposure prevention & control

Abstract

This study presented a model applied for potential risk assessment in an interventional radiology setting. The model of potential risk assessment (MARP) consisted of the creation of a scale of indicators ranging from 0 to 5. The radiation levels were categorized according to gender, kind of procedure, value of kerma air product (Pka), and accumulated radiation dose (mGy). The MARP model was applied in 121 institutions over 8 y. A total of 201 656 patient radiation doses (Dose-area product and accumulated kerma) data were launched into the system over time, with an average of 22 406 doses per year. In the context of the workers (cardiologists, radiographers, and nurses) monitored during the MARP application, 8007 cases (with an average of 890 per year) of occupational radiation doses were recorded. This study showed a strategy for quality evaluation in fluoroscopy using a model with a compulsory information system for monitoring safety., (© The Author(s) 2024. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2024

48. Estimation of internal-exposure contribution in radiation dose exposure for boron neutron capture therapy.

Author

Narita R and Sakurai Y

Subjects

Humans, Radiotherapy Dosage, Neutrons, Radiation Dosage, Radiometry methods, Radiation Protection methods, Radiation Exposure analysis, Radiotherapy Planning, Computer-Assisted methods, Monte Carlo Method, Head and Neck Neoplasms radiotherapy, Phantoms, Imaging, Computer Simulation, Boron Neutron Capture Therapy methods

Abstract

Although boron neutron capture therapy (BNCT) causes minor damage to normal cells owing to the nuclear reactions induced by neutrons with major elements of tissues such as hydrogen and nitrogen, it is useful to estimate the accurate exposure dose for radiation protection. This study aims to estimate the contribution of internal exposure in radiation exposure dose for BNCT. The study was performed by referring to clinical studies at a reactor-based BNCT facility on the basis of computational dosimetry. Five irradiation regions of head and neck were selected for the estimation. The results suggest that external exposure occurred primarily in and around the irradiation field. Furthermore, during the exposure dose estimation in BNCT, internal exposure was found to be not negligible, implying that the irradiation regions in treatment planning must be considered for avoiding damage to certain critical organs that are susceptible to internal exposure., (© The Author(s) 2024. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2024

49. Urinary thymidine dimer excretion reflects personal ultraviolet radiation exposure levels.

Author

Lerche CM, Frederiksen NJS, Thorsteinsson IS, Køster B, Nybo L, Flouris AD, Heydenreich J, Philipsen PA, Hædersdal M, Wulf HC, and Granborg JR

Subjects

Humans, Male, Adult, Female, DNA Damage, Middle Aged, Mass Spectrometry, Chromatography, Liquid, Young Adult, Radiation Exposure analysis, Healthy Volunteers, Ultraviolet Rays, Pyrimidine Dimers analysis

Abstract

Exposure to ultraviolet radiation (UVR) leads to skin DNA damage, specifically in the form of cyclobutane pyrimidine dimers, with thymidine dimers being the most common. Quantifying these dimers can indicate the extent of DNA damage resulting from UVR exposure. Here, a new liquid chromatography-mass spectrometry (LC-MS) method was used to quantify thymidine dimers in the urine after a temporary increase in real-life UVR exposure. Healthy Danish volunteers (n = 27) experienced increased UVR exposure during a winter vacation. Individual exposure, assessed via personally worn electronic UVR dosimeters, revealed a mean exposure level of 32.9 standard erythema doses (SEDs) during the last week of vacation. Morning urine thymidine dimer concentrations were markedly elevated both 1 and 2 days post-vacation, and individual thymidine dimer levels correlated with UVR exposure during the last week of the vacation. The strongest correlation with erythema-weighted personal UVR exposure (Power model, r 2  = 0.64, p < 0.001) was observed when both morning urine samples were combined to measure 48-h thymidine dimer excretion, whereas 24-h excretion based on a single sample provided a weaker correlation (Power model, r 2  = 0.55, p < 0.001). Sex, age, and skin phototype had no significant effect on these correlations. For the first time, urinary thymidine dimer excretion was quantified by LC-MS to evaluate the effect of a temporary increase in personal UVR exposure in a real-life setting. The high sensitivity to elevated UVR exposure and correlation between urinary excretion and measured SED suggest that this approach may be used to quantify DNA damage and repair and to evaluate photoprevention strategies., (© 2024. The Author(s).)

Published

2024

50. Intraoperative computed tomography for detection of residual stones in endourology procedures: systematic review and meta-analysis.

Author

Lepine HL, Vicentini FC, Mazzucchi E, Molina WR, Marchini GS, Torricelli FC, Batagello CA, Danilovic A, and Nahas WC

Subjects

Humans, Kidney Calculi surgery, Kidney Calculi diagnostic imaging, Intraoperative Care methods, Treatment Outcome, Fluoroscopy methods, Radiation Exposure analysis, Tomography, X-Ray Computed methods, Nephrolithotomy, Percutaneous methods, Nephrolithotomy, Percutaneous adverse effects, Ureteroscopy methods, Ureteroscopy adverse effects

Abstract

Background: Success rates in endourological procedures, notably percutaneous nephrolithotomy (PCNL) and ureteroscopy (URS), have demonstrated suboptimal outcomes, leading to more reinterventions and radiation exposure. Recently, the use of intraoperative computed tomography (ICT) scans has been hypothesized as a promising solution for improving outcomes in endourology procedures. With this considered, we conducted a comprehensive systematic review and meta-analysis encompassing all available studies that evaluate the impact of the use of intraoperative CT scans on surgical outcomes compared to conventional fluoroscopic-guided procedures., Methods: This systematic review was conducted in accordance with PRISMA guidelines. Multiple databases were systematically searched up to December of 2023. This study aimed to directly compare the use of an ICT scan with the standard non-ICT-guided procedure. The primary endpoint of interest was success rate, and the secondary endpoints were complications and reintervention rates, while radiation exposure was also evaluated. Data extraction and quality assessment were performed following Cochrane recommendations. Data was presented as an Odds ratio with 95%CI across trials and a random-effects model was selected for pooling of data., Results: A comprehensive search yielded 533 studies, resulting in the selection of 3 cohorts including 327 patients (103 ICT vs 224 in non-ICT). Primary outcome was significantly higher in the experimental group versus the control group (84.5% vs 41.4% respectively, 307 patients; 95% CI [3.61, 12.72]; p<0.00001; I2=0). Reintervention rates also decreased from 32.6% in the control to 12.6% in the ICT group (OR 0.34; 95%CI [0.12,0.94]; p =0.04; I2= 48%), whereas complication rates did not exhibit significant differences. Radiation exposure was also significantly reduced in two of the included studies., Conclusion: This meta-analysis highlights a favorable outcome with intraoperative CT scan use in PCNL procedures, showing a considerable increase in SFR when compared to standard fluoroscopy and nephroscopy. Despite limited studies, our synthesis underscores the potential of ICT scans to significantly reduce residual stones and their consequences for endourology patients, as reinterventions and follow-up ionizing radiation studies., Competing Interests: None declared., (Copyright® by the International Brazilian Journal of Urology.)

Published

2024