Exposure to Medical Radiation during Fetal Life, Childhood and Adolescence and Risk of Brain Tumor in Young Age: Results from The MOBI-Kids Case-Control Study

Pasqual, Elisa; Castaño‐Vinyals, Gemma; Thierry-Chef, Isabelle; Kojimahara, Noriko; Sim, Malcolm Ross; Kundi, Michael; Krewski, Daniel; Momoli, Franco; Lacour, Brigitte; Rémen, Thomas; Radon, Katja; Weinmann, Tobias; Petridou, Eleni; Moschovi, Maria; Dikshit, Rajesh; Sadetski, Siegal; Maule, Milena; Farinotti, Mariangela; Ha, Mina; Mannetje, Andrea ’t; Alguacil, Juan; Aragonés, Núria; Vermeulen, Roel; Kromhout, Hans; Cardis, Elisabeth

doi:10.1159/000506131

Cited by 7 publications

(6 citation statements)

References 46 publications

(64 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…There are strong estimates of excess risk of cancer in childhood in the OSCC study of Bithell and Stiller ( Bithell and Stiller 1988 ) and of Bithell ( Bithell 1993 ) ( Table 2 , Supplementary Table S7 ), at doses that likely do not exceed 0.03 Gy, and borderline significant indications of excess risk for lympho-haematopoietic malignancies in the range of attained ages up to 61 years in the Southern Urals study of Schüz et al ( Schüz et al 2017 ) and for all thyroid nodules (mainly benign) at an attained age of 25–30 years in the Ukraine 131 I-exposed cohort of Hatch et al ( Hatch et al 2019 ) ( Table 3 , Supplementary Table S7 ). There are weaker indications of excess brain tumour risk in a case-control study of medical diagnostic exposures ( Pasqual et al 2020 ) ( Table 2 , Supplementary Table S7 ), for solid cancer in the in utero exposed Japanese atomic bomb survivors in the incidence study of Preston et al ( Preston et al 2008 ) at attained age of 12–55 years and in the mortality study of Sugiyama et al ( Sugiyama et al 2021 ) at attained age of 5–67 years ( Table 4 , Supplementary Table S7 ), and for lymphoma, leukaemia and solid cancer in the offspring of US radiologic technologists ( Johnson et al 2008 ) at attained age up to 20 years ( Table 3 , Supplementary Table S7 ).…”

Section: Resultsmentioning

confidence: 99%

Review of the risk of cancer following low and moderate doses of sparsely ionising radiation received in early life in groups with individually estimated doses

Little

Wakeford

Bouffler³

et al. 2022

Environment International

View full text Add to dashboard Cite

Section: Resultsmentioning

confidence: 99%

Review of the risk of cancer following low and moderate doses of sparsely ionising radiation received in early life in groups with individually estimated doses

Little

Wakeford

Bouffler³

et al. 2022

Environment International

View full text Add to dashboard Cite

“…A 2-year lag time was applied to reduce the likelihood that the CT scan was done related to early symptoms of the brain tumour [11] leaving out the CT scans conducted within 2 years before the date of brain tumour diagnosis (Lag 2). 'Number of brain CT was the sum of CTs that include brain area, while 'Number of head CTs' was the sum of CTs conducted at the 1), based on a review of data published by Pasqual et al [12], who reported the radiation dose to the brain from conventional x-ray and CT. The literatures given time-age frame [13] and an estimation of brain dose [14] were used in a reference table . Mean dose values were estimated for new-borns and other age groups for head CTs and conventional x-rays of the head and neck, including whole body and unknown sites, excluding examinations conducted within the past 2 years.…”

Section: Exposure Assessmentmentioning

confidence: 99%

Computed tomography of the head and the risk of brain tumours during childhood and adolescence: results from a case–control study in Japan

et al. 2020

Self Cite

View full text Add to dashboard Cite

To clarify whether medical radiation exposure, especially from head computed tomography (CT), increases the risk of brain tumours in young patients in Japan, which ranks the second highest in the world in the number of paediatric CT examinations following the US. From 2011 to 2015, we performed a case–control study of 120 brain tumour patients and 360 appendicitis patients as controls. Reasons, the number of brain and head CT scans date were available from interviews. A cumulative radiation dose to the brain was calculated as a sum of doses received from head CT scans and from conventional x-rays and estimated using a reference table derived from a literature review of published studies. We performed conditional logistic regression to assess the risk of brain tumours from brain and head CT, and from conventional head x-ray procedures. The case group received on average 1.8 CTs to the brain area and 2.2 CTs to the whole head, with a mean estimated brain dose of 32 ± 13 mGy. The odds ratio for developing a brain tumour from having a brain CT was 0.93 (95% confidence interval: 0.38–1.82). This was hardly altered when adjusting for parental educational history and for other diseases (history of neurological disease and attention-deficit disorder/attention-deficit hyperactivity disorder). Neither whole head CT nor cumulative brain dose to the brain increased the risk of glioma or of all brain tumours. Although this study conducted in Japan, where ranks second in the number of CT scans conducted in the world, did not show an increased risk of brain tumours related to CT scans, it should be taken with caution due to a case–control study with limited sample size.

show abstract

“…The benefits of the usage of VRT in neurorehabilitation are the opportunity of recuperating a compromised characteristic as a manner to stimulate [23] neuronal reorganization and the induction of neuroplasticity (to maximize motor mastering and neuroplasticity) and regain capabilities and abilities (even partially) with the aid of using interacting with a digital truth environment (VRE). The reference literature indicates that the alleged hazard of the usage of smartphones [29,24], specifically as a danger component for the improvement of mind tumors, is in truth nonetheless debated and, although the worry may be justified, we haven't any proof that the hazard is real [06, 19,20]. "…”

Section: Literature Reviewmentioning

confidence: 99%

Effects of Digital Technology on Mental Health of Children

Chauhan¹,

Maseleno²

2022

JMHIB

View full text Add to dashboard Cite

COVID-19 has triggered barriers in persevering with ordinary existence nearly anywhere with inside the global with the aid of using inflicting the implementation of social distancing and sooner or later enforcing the lockdown. This has emerged as the purpose for the boom in generation utilization in every day existence for expert paintings in addition to for leisure purposes. There has been an accelerated incidence of generation utilization in youth and kids for the duration of lockdown leaving its effect on their lives both in a advantageous or bad aspect. The usual documented percent boom of generation utilization in kids became approximately 15%, of which telephone utilization has 61.7% of incidence. Disturbance in mind functioning is usually recommended to be originated with the aid of using compromise of neuroplasticity of the nerves. The radiofrequency (RF) radiations emitting from the telephone are of dubious situation as a mind tumour threat element in kids. The accelerated utilization will have consequences on mind functioning to be able to compromise sleep and cognitive skills and expand threat for sure intellectual ailments including, however now no longer restrained to, melancholy, anxiety, Alzheimer`s disease, and attention-deficit/hyperactive disorder (ADHD). Despite being a hazard for growing intellectual illness, video games are demonstrated to lessen melancholy and anxiety, and boom creativity, skills, and cognition in kids. The accelerated utilization of generation will have a advantageous and bad effect at the intellectual improvement of youth and kids relying at the traits with inside the utilization. However, dad and mom must be tracking their kids’ intellectual fitness and conduct in those tough instances of pandemic.

show abstract

Exposure to Medical Radiation during Fetal Life, Childhood and Adolescence and Risk of Brain Tumor in Young Age: Results from The MOBI-Kids Case-Control Study

Cited by 7 publications

References 46 publications

Review of the risk of cancer following low and moderate doses of sparsely ionising radiation received in early life in groups with individually estimated doses

Review of the risk of cancer following low and moderate doses of sparsely ionising radiation received in early life in groups with individually estimated doses

Computed tomography of the head and the risk of brain tumours during childhood and adolescence: results from a case–control study in Japan

Effects of Digital Technology on Mental Health of Children

Contact Info

Product

Resources

About