Estimation of effective dose and lifetime attributable risk from multiple head CT scans in ventriculoperitoneal shunted children

Aims To benchmark the radiation dose to patients during the course of treatment for a spinal deformity. Methods Our radiation dose database identified 25,745 exposures of 6,017 children (under 18 years of age) and adults treated for a spinal deformity between 1 January 2008 and 31 December 2016. Patients were divided into surgical (974 patients) and non-surgical (5,043 patients) cohorts. We documented the number and doses of ionizing radiation imaging events (radiographs, CT scans, or intraoperative fluoroscopy) for each patient. All the doses for plain radiographs, CT scans, and intraoperative fluoroscopy were combined into a single effective dose by a medical physicist (milliSivert (mSv)). Results There were more ionizing radiation-based imaging events and higher radiation dose exposures in the surgical group than in the non-surgical group (p < 0.001). The difference in effective dose for children between the surgical and non-surgical groups was statistically significant, the surgical group being significantly higher (p < 0.001). This led to a higher estimated risk of cancer induction for the surgical group (1:222 surgical vs 1:1,418 non-surgical). However, the dose difference for adults was not statistically different between the surgical and non-surgical groups. In all cases the effective dose received by all cohorts was significantly higher than that from exposure to natural background radiation. Conclusion The treatment of spinal deformity is radiation-heavy. The dose exposure is several times higher when surgical treatment is undertaken. Clinicians should be aware of this and review their practices in order to reduce the radiation dose where possible.

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Epidemiological studies of CT scans and cancer risk: the state of the science

British Journal of Radiology ◽

10.1259/bjr.20210471 ◽

2021 ◽

Vol 94 (1126) ◽

pp. 20210471 ◽

Cited By ~ 1

Author(s):

Amy Berrington de Gonzalez ◽

Elisa Pasqual ◽

Lene Veiga

Keyword(s):

Brain Tumors ◽

Effective Dose ◽

Dose Response ◽

Public Health Problem ◽

Epidemiological Studies ◽

Ct Scans ◽

Medical Record Linkage ◽

Cancer Risks ◽

Organ Doses ◽

Study Methodology

20 years ago, 3 manuscripts describing doses and potential cancer risks from CT scans in children raised awareness of a growing public health problem. We reviewed the epidemiological studies that were initiated in response to these concerns that assessed cancer risks from CT scans using medical record linkage. We evaluated the study methodology and findings and provide recommendations for optimal study design for new efforts. We identified 17 eligible studies; 13 with published risk estimates, and 4 in progress. There was wide variability in the study methodology, however, which made comparison of findings challenging. Key differences included whether the study focused on childhood or adulthood exposure, radiosensitive outcomes (e.g. leukemia, brain tumors) or all cancers, the exposure metrics (e.g. organ doses, effective dose or number of CTs) and control for biases (e.g. latency and exclusion periods and confounding by indication). We were able to compare results for the subset of studies that evaluated leukemia or brain tumors. There were eight studies of leukemia risk in relation to red bone marrow (RBM) dose, effective dose or number of CTs; seven reported a positive dose–response, which was statistically significant (p < 0.05) in four studies. Six of the seven studies of brain tumors also found a positive dose–response and in five, this was statistically significant. Mean RBM dose ranged from 6 to 12 mGy and mean brain dose from 18 to 43 mGy. In a meta-analysis of the studies of childhood exposure the summary ERR/100 mGy was 1.78 (95%CI: 0.01–3.53) for leukemia/myelodisplastic syndrome (n = 5 studies) and 0.80 (95%CI: 0.48–1.12) for brain tumors (n = 4 studies) (p-heterogeneity >0.4). Confounding by cancer pre-disposing conditions was unlikely in these five studies of leukemia. The summary risk estimate for brain tumors could be over estimated, however, due to reverse causation. In conclusion, there is growing evidence from epidemiological data that CT scans can cause cancer. The absolute risks to individual patients are, however, likely to be small. Ongoing large multicenter cohorts and future pooling efforts will provide more precise risk quantification.

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Semantic Segmentation of Intracranial Hemorrhages in Head CT Scans

2019 IEEE 10th International Conference on Software Engineering and Service Science (ICSESS) ◽

10.1109/icsess47205.2019.9040733 ◽

2019 ◽

Author(s):

Yuhang Qiu ◽

Chia Shuo Chang ◽

Jiun Lin Yan ◽

Li Ko ◽

Tian Sheuan Chang

Keyword(s):

Semantic Segmentation ◽

Ct Scans ◽

Intracranial Hemorrhages ◽

Head Ct

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Recurrent Sub-volume Analysis of Head CT Scans for the Detection of Intracranial Hemorrhage

Lecture Notes in Computer Science - Medical Image Computing and Computer Assisted Intervention – MICCAI 2019 ◽

10.1007/978-3-030-32248-9_96 ◽

2019 ◽

pp. 864-872 ◽

Cited By ~ 1

Author(s):

M. S. Vidya ◽

Yogish Mallya ◽

Arun Shastry ◽

J. Vijayananda

Keyword(s):

Intracranial Hemorrhage ◽

Ct Scans ◽

Volume Analysis ◽

Head Ct

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Usefulness of cancer-free survival in estimating the lifetime attributable risk of cancer incidence from radiation exposure

Journal of Radiological Protection ◽

10.1088/1361-6498/aac3f3 ◽

2018 ◽

Vol 38 (3) ◽

pp. N17-N24

Author(s):

Songwon Seo ◽

Dal Nim Lee ◽

Young Woo Jin ◽

Won Jin Lee ◽

Sunhoo Park

Keyword(s):

Radiation Exposure ◽

Cancer Incidence ◽

Attributable Risk ◽

Free Survival ◽

Lifetime Attributable Risk ◽

Risk Of Cancer

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How much is the effective dose from medical imaging in pediatric patients in the neurosurgery department?

Radioprotection ◽

10.1051/radiopro/2021014 ◽

2021 ◽

Author(s):

B. Zeinali-Rafsanjani ◽

S. Haseli ◽

R. Jalli ◽

M. Saeedi-Moghadam

Keyword(s):

Medical Imaging ◽

Ionizing Radiation ◽

Ct Scan ◽

Effective Dose ◽

Pediatric Patients ◽

Ct Scans ◽

Imaging Data ◽

Plain Radiographs ◽

Brain Ct ◽

Abdomen Ct

Medical imaging with ionizing radiation in pediatric patients is rising, and their radiation sensitivity is 2–3 times more than adults. The objective of this study was to estimate the total effective dose (ED) of all medical imaging by CT scan and plain radiography in patients in pediatric neurosurgery department. Patients with at least one brain CT scan and recorded dose length product (DLP) were included. Patients’ imaging data were collected from the picture-archiving-and-communicating system (PACS) using their national code to find all their medical imaging. Total ED (mSv) from CT scans and plain radiographs were calculated. A total of 300 patients were included, of which 129 were females and 171 males with a mean age of 5.45 ± 4.34 years. Mean DLPs of brain, abdomen, and chest CT were 329.16, 393.06, 284.46 mGy.cm. The most frequent CT scans in these children were brain CT scans with ED range of 0.09 to 47.09 mSv. Total ED due to all CT scans and plain radiographs were in the range of 0.38 to 63.41 mSv. Although the mean DLP of each brain, chest, and abdomen CT of patients was in the range of DRLs reported by previous studies, the patients with numerous CT scans received more radiation doses than mean ED (6.21 mSv between all age groups). The most frequent CT scan was the brain, and the most frequent plain radiographs were chest and lower extremities. It can be concluded that reducing the number of CT scans or plain radiographs by appropriate physical exams or replacing them with modalities that do not use ionizing radiation can reduce ED.

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