A dosimetry measurement on head and neck sensitive organs during CT scan, a comprehensive study

The increasing use of Computed Tomography (CT) significantly aids in diagnosing various diseases. However, patient radiation exposure remains a major concern. This study presents experimental dosimetry measurements of the radiation dose received by sensitive organs in the head and neck region during...

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Published inApplied radiation and isotopes Vol. 225; p. 111949
Main Authors Khoshhal, Amir Reza, Torshabi, Ahmad Esmaili, Zehtabian, Mehdi
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.11.2025
Subjects
Absorbed dose
CT-Scan
Head - diagnostic imaging
Head - radiation effects
Humans
Neck - diagnostic imaging
Neck - radiation effects
Phantoms, Imaging
Radiation Dosage
Radiometry - methods
Sensitive organs
Thermoluminescent dosimeter
Thermoluminescent Dosimetry
Tomography, X-Ray Computed - adverse effects
Tomography, X-Ray Computed - methods
CT-Scan
Absorbed dose
Thermoluminescent dosimeter
Sensitive organs
Online AccessGet full text
ISSN0969-8043
1872-9800
1872-9800
DOI10.1016/j.apradiso.2025.111949

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Abstract The increasing use of Computed Tomography (CT) significantly aids in diagnosing various diseases. However, patient radiation exposure remains a major concern. This study presents experimental dosimetry measurements of the radiation dose received by sensitive organs in the head and neck region during CT imaging with a Canon CT scanner using scan parameters of 135 kV, 150 mA, 6.6 s, and 5 mm slice thickness. Calibrated GR-200 Thermoluminescent Dosimeters (TLDs) were used to measure the absorbed doses at various points on a Rando phantom. A total of 84 TLDs were used for: the occipital (24) and temporal lobes (24), the thalamus (12), the hypothalamus (6), right parotid gland (4), eyes (4) and for background dose measurement (10). The absorbed doses were found to be 23.84 mGy for the occipital lobe, 23.11 mGy for the temporal lobe, 22.81 mGy for the hypothalamus, 22.94 mGy for the thalamus, 17.63 mGy for the left eye, 17.08 mGy for the right eye, and 28.08 mGy for the right parotid gland. The highest and lowest doses were observed in the right parotid gland and eyes, respectively. This study provides valuable insights for clinicians and radiologists, understanding the risk of overexposure with a quantitative vision in sensitive head and neck organs during scanning especially in pediatric and repeat-scan cases. •Absorbed dose measurement at sensitive organs during Head and Neck CT scan.•Absorbed dose assessment at eyes, occipital, temporal, thalamus, hypothalamus and parotid in a comparative fashion.•Using TLDs dosimeters inside Anthropomorphic Rando Phantom for dose measurement.•Quantifying the amount of imaging dose reached to the organs during CT considering the risk of side effects.
AbstractList The increasing use of Computed Tomography (CT) significantly aids in diagnosing various diseases. However, patient radiation exposure remains a major concern. This study presents experimental dosimetry measurements of the radiation dose received by sensitive organs in the head and neck region during CT imaging with a Canon CT scanner using scan parameters of 135 kV, 150 mA, 6.6 s, and 5 mm slice thickness. Calibrated GR-200 Thermoluminescent Dosimeters (TLDs) were used to measure the absorbed doses at various points on a Rando phantom. A total of 84 TLDs were used for: the occipital (24) and temporal lobes (24), the thalamus (12), the hypothalamus (6), right parotid gland (4), eyes (4) and for background dose measurement (10). The absorbed doses were found to be 23.84 mGy for the occipital lobe, 23.11 mGy for the temporal lobe, 22.81 mGy for the hypothalamus, 22.94 mGy for the thalamus, 17.63 mGy for the left eye, 17.08 mGy for the right eye, and 28.08 mGy for the right parotid gland. The highest and lowest doses were observed in the right parotid gland and eyes, respectively. This study provides valuable insights for clinicians and radiologists, understanding the risk of overexposure with a quantitative vision in sensitive head and neck organs during scanning especially in pediatric and repeat-scan cases.
The increasing use of Computed Tomography (CT) significantly aids in diagnosing various diseases. However, patient radiation exposure remains a major concern. This study presents experimental dosimetry measurements of the radiation dose received by sensitive organs in the head and neck region during CT imaging with a Canon CT scanner using scan parameters of 135 kV, 150 mA, 6.6 s, and 5 mm slice thickness. Calibrated GR-200 Thermoluminescent Dosimeters (TLDs) were used to measure the absorbed doses at various points on a Rando phantom. A total of 84 TLDs were used for: the occipital (24) and temporal lobes (24), the thalamus (12), the hypothalamus (6), right parotid gland (4), eyes (4) and for background dose measurement (10). The absorbed doses were found to be 23.84 mGy for the occipital lobe, 23.11 mGy for the temporal lobe, 22.81 mGy for the hypothalamus, 22.94 mGy for the thalamus, 17.63 mGy for the left eye, 17.08 mGy for the right eye, and 28.08 mGy for the right parotid gland. The highest and lowest doses were observed in the right parotid gland and eyes, respectively. This study provides valuable insights for clinicians and radiologists, understanding the risk of overexposure with a quantitative vision in sensitive head and neck organs during scanning especially in pediatric and repeat-scan cases.The increasing use of Computed Tomography (CT) significantly aids in diagnosing various diseases. However, patient radiation exposure remains a major concern. This study presents experimental dosimetry measurements of the radiation dose received by sensitive organs in the head and neck region during CT imaging with a Canon CT scanner using scan parameters of 135 kV, 150 mA, 6.6 s, and 5 mm slice thickness. Calibrated GR-200 Thermoluminescent Dosimeters (TLDs) were used to measure the absorbed doses at various points on a Rando phantom. A total of 84 TLDs were used for: the occipital (24) and temporal lobes (24), the thalamus (12), the hypothalamus (6), right parotid gland (4), eyes (4) and for background dose measurement (10). The absorbed doses were found to be 23.84 mGy for the occipital lobe, 23.11 mGy for the temporal lobe, 22.81 mGy for the hypothalamus, 22.94 mGy for the thalamus, 17.63 mGy for the left eye, 17.08 mGy for the right eye, and 28.08 mGy for the right parotid gland. The highest and lowest doses were observed in the right parotid gland and eyes, respectively. This study provides valuable insights for clinicians and radiologists, understanding the risk of overexposure with a quantitative vision in sensitive head and neck organs during scanning especially in pediatric and repeat-scan cases.
The increasing use of Computed Tomography (CT) significantly aids in diagnosing various diseases. However, patient radiation exposure remains a major concern. This study presents experimental dosimetry measurements of the radiation dose received by sensitive organs in the head and neck region during CT imaging with a Canon CT scanner using scan parameters of 135 kV, 150 mA, 6.6 s, and 5 mm slice thickness. Calibrated GR-200 Thermoluminescent Dosimeters (TLDs) were used to measure the absorbed doses at various points on a Rando phantom. A total of 84 TLDs were used for: the occipital (24) and temporal lobes (24), the thalamus (12), the hypothalamus (6), right parotid gland (4), eyes (4) and for background dose measurement (10). The absorbed doses were found to be 23.84 mGy for the occipital lobe, 23.11 mGy for the temporal lobe, 22.81 mGy for the hypothalamus, 22.94 mGy for the thalamus, 17.63 mGy for the left eye, 17.08 mGy for the right eye, and 28.08 mGy for the right parotid gland. The highest and lowest doses were observed in the right parotid gland and eyes, respectively. This study provides valuable insights for clinicians and radiologists, understanding the risk of overexposure with a quantitative vision in sensitive head and neck organs during scanning especially in pediatric and repeat-scan cases. •Absorbed dose measurement at sensitive organs during Head and Neck CT scan.•Absorbed dose assessment at eyes, occipital, temporal, thalamus, hypothalamus and parotid in a comparative fashion.•Using TLDs dosimeters inside Anthropomorphic Rando Phantom for dose measurement.•Quantifying the amount of imaging dose reached to the organs during CT considering the risk of side effects.
ArticleNumber 111949
Author Torshabi, Ahmad Esmaili
Zehtabian, Mehdi
Khoshhal, Amir Reza
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Keywords CT-Scan
Absorbed dose
Thermoluminescent dosimeter
Sensitive organs
Language English
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Snippet The increasing use of Computed Tomography (CT) significantly aids in diagnosing various diseases. However, patient radiation exposure remains a major concern....
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StartPage 111949
SubjectTerms Absorbed dose
CT-Scan
Head - diagnostic imaging
Head - radiation effects
Humans
Neck - diagnostic imaging
Neck - radiation effects
Phantoms, Imaging
Radiation Dosage
Radiometry - methods
Sensitive organs
Thermoluminescent dosimeter
Thermoluminescent Dosimetry
Tomography, X-Ray Computed - adverse effects
Tomography, X-Ray Computed - methods
Title A dosimetry measurement on head and neck sensitive organs during CT scan, a comprehensive study
URI https://dx.doi.org/10.1016/j.apradiso.2025.111949
https://www.ncbi.nlm.nih.gov/pubmed/40460643
https://www.proquest.com/docview/3215573230
Volume 225
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