Epidemiological studies of low and radio frequency exposure on children's health comprise the following studies:
Authors | Year | Study type | Study group | Observation period | Study location | Endpoints | Parameters |
---|---|---|---|---|---|---|---|
Kok RD et al. | 2004 | - | children, children in utero, newborns, 0–9 years | 1998 - 2000 | The Netherlands | birth weight, gestational age at birth, type of delivery, and arterial pH at birth, neurological evaluation (functioning of eyes and ears), gross and fine motor functioning, social development and communication | MRI |
Clements H et al. | 2000 | - | children in utero, newborns | not stated | UK | childhood development (adaptive, fine motor, gross motor, speech and language, and personal-social); neurological examination | MRI |
Baker PN et al. | 1994 | cross-sectional study | children, children in utero, 0–3 years | - | UK | reproductive effects and pregnancy outcomes, others | MRI |
Chou IJ et al. | 2014 | cross-sectional study | men, women, children, 7–60 years | - | UK | general discomfort, dizziness, noisiness, claustrophobia and feeling of cold or warm | MRI |
Bouyssi-Kobar M et al. | 2015 | cohort study | women, children, children in utero, newborns, 0–4 years | not stated | USA | functional skills in communication, daily living skills, socialization, motor skills; hearing and vision skills | MRI |
Chartier AL et al. | 2019 | case-control study | women, children in utero, newborns | 2008 - 2015 | USA | birth weight, hearing impairment | MRI |
Zvi E et al. | 2020 | cohort study | women, children, children in utero, newborns, 0–6 years | 2011 - 2017 | Israel | neurodevelopment: communication, daily living skills, socialization and motor skills | MRI |
Danzer E et al. | 2023 | - | children, children in utero | 2012 - 2019 | USA | neurodevelopment | MRI |
Holland SK et al. | 2014 | cohort study | children, 5–18 years | 2000 - 2002 | USA | safety of MRI | MRI |
Preece AW et al. | 2007 | survey | men, women, children | 2001 | Cyprus | all cancer, all childhood cancer, reproductive history, sex ratio, congenital abnormalities, specific illnesses such as diabetes, migraine; childhood illnesses, mortality, general health, risk perception | RF field, residential |
Dolk H et al. | 1997 | ecological study | men, women, children | 1974 - 1986 | Great Britain | acute leukemia, acute myeloid leukemia, acute lymphatic leukemia, chronic myeloid leukemia, chronic lymphatic leukemia, brain tumor, skin melanoma, bladder cancer, childhood leukemia, childhood brain/CNS tumor | TV broadcast (VHF/UHF), FM broadcast (UKW), residential |
Dolk H et al. | 1997 | ecological study | men, women, children | 1974 - 1986 | Great Britain | acute leukemia, acute myeloid leukemia, acute lymphatic leukemia, chronic myeloid leukemia, chronic lymphatic leukemia, benign and malignant brain tumors, in women and men, lung cancer, colorectal cancer, stomach cancer, prostate cancer, bladder cancer, skin melanoma, eye melanoma, childhood leukemia, other childhood cancer | TV broadcast (VHF/UHF), FM broadcast (UKW), residential |
Thomas S et al. | 2010 | cross-sectional study | children, 8–17 years | 2006 - 2008 | Germany | overall behavioural problems (emotional problems, conduct problems, hyperactivity, and peer relationship problems) | mobile communications, digital mobile phone, mobile phone base station, GSM, UMTS, RF field, DECT, W-LAN/WiFi, personal |
Divan HA et al. | 2008 | cohort study | children, children in utero, 7 years | November 2006 | Denmark | behavioral problems: conduct, hyperactivity, emotional, peer and social disorders | mobile communications, digital mobile phone, personal |
Abramson MJ et al. | 2009 | cross-sectional study | children, 11–14 years | 2005 - 2006 | Australia | cognitive function (signal detection, working memory, simple learning, associative learning, movement monitoring/estimation, Stroop test) | mobile communications, digital mobile phone, personal |
Milde-Busch A et al. | 2010 | cross-sectional study | children, 13–17 years | not stated | Germany | headache (migraine, tension-type headache, miscellaneous headache) | mobile communications, digital mobile phone, personal |
Thomas S et al. | 2010 | cohort study | children, 12–15 years | 2006 - 2007 | Australia | cognitive function (signal detection, working memory, learning, Stroop test) | mobile communications, digital mobile phone, personal |
Birks L et al. | 2017 | cohort study | children, children in utero, 5–7 years | 1996 - 2011 | Denmark, Netherlands, Korea, Norway, and Spain | overall behavioral problems, hyperactivity/inattention problems and emotional problems | mobile communications, mobile phone |
Papadopoulou E et al. | 2017 | cohort study | women, children, children in utero, newborns, 0–5 years | 1999 - 2008 | Norway | language skills, communication skills, motor skills | mobile communications, mobile phone |
Foerster M et al. | 2018 | cohort study | children, 12–17 years | 2012 - 2014, follow-up 2016 | Switzerland | memory performance | mobile communications, mobile phone |
Sudan M et al. | 2016 | cohort study | women, children in utero, 7–11 years | 1996 - 2002, follow-up at the age of 7 and 11 years | Denmark | emotional and behavioural difficulties | mobile communications, mobile phone |
Sudan M et al. | 2018 | - | children, children in utero, 4–6 years | - | Denmark, Spain, Korea | cognitive function | mobile communications, mobile phone |
Brzozek C et al. | 2019 | reanalysis | children, 9–11 years | 2011 - 2013 | Australia | cognitive function | mobile communications, mobile phone |
Taziki Balajelini MH et al. | 2022 | - | men, women, children | - | Sweden, Finland, Denmark, Spain und Brazil | hearing impairment | mobile communications, mobile phone |
Farashi S et al. | 2022 | meta-analysis | men, women, children, 6–80 years | - | - | headache | mobile communications, mobile phone |
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