| scholarly article | Q13442814 |
| P356 | DOI | 10.1515/REVEH-2015-0030 |
| P698 | PubMed publication ID | 26613328 |
| P50 | author | Olle Johansson | Q5887294 |
| Mary Redmayne | Q62606969 | ||
| P2860 | cites work | Personal digital assistant (PDA) cell phone units produce elevated extremely-low frequency electromagnetic field emissions | Q39789674 |
| Brain proteome response following whole body exposure of mice to mobile phone or wireless DECT base radiation | Q40017143 | ||
| Sleep as neuronal detoxification and restitution | Q40404563 | ||
| The effects of radiofrequency fields on cell proliferation are non-thermal | Q40956561 | ||
| Children are not little adults: just ask their hematopoietic stem cells | Q42171373 | ||
| EEG coherence and symptom profiles of children with Attention-Deficit/Hyperactivity Disorder | Q44147092 | ||
| Melatonin metabolite excretion among cellular telephone users | Q44232401 | ||
| Mobile phone emission modulates inter-hemispheric functional coupling of EEG alpha rhythms in elderly compared to young subjects. | Q44443678 | ||
| Use of mobile phones and changes in cognitive function in adolescents | Q44489599 | ||
| Brain oxidation is an initial process in sleep induction | Q45226071 | ||
| Oxidative damage in the kidney induced by 900-MHz-emitted mobile phone: protection by melatonin. | Q46540381 | ||
| Age-related oxidative stress and antioxidant parameters in middle-aged and older European subjects: the ZENITH study. | Q46778433 | ||
| Stimulation of the brain with radiofrequency electromagnetic field pulses affects sleep-dependent performance improvement | Q48130311 | ||
| Mobile phone emission modulates interhemispheric functional coupling of EEG alpha rhythms | Q48204246 | ||
| Age-dependent tissue-specific exposure of cell phone users | Q48281394 | ||
| Sleep after mobile phone exposure in subjects with mobile phone-related symptoms. | Q48340007 | ||
| Acute mobile phone operation affects neural function in humans. | Q48480067 | ||
| Effects of pulsed high-frequency electromagnetic fields on the neuroendocrine system | Q48507558 | ||
| Mobile telephone use is associated with changes in cognitive function in young adolescents. | Q51817298 | ||
| Working memory span development: a time-based resource-sharing model account. | Q51939146 | ||
| Accelerated age-dependent transition of human regulatory T cells to effector memory phenotype. | Q51967977 | ||
| Age-dependent effects of in vitro radiofrequency exposure (mobile phone) on CD95+ T helper human lymphocytes | Q56998177 | ||
| Mobile phone radiation induces reactive oxygen species production and DNA damage in human spermatozoa in vitro | Q21143746 | ||
| Effects of radiofrequency electromagnetic waves (RF-EMW) from cellular phones on human ejaculated semen: an in vitro pilot study | Q28294593 | ||
| Evening exposure to a light-emitting diodes (LED)-backlit computer screen affects circadian physiology and cognitive performance | Q28307559 | ||
| Impact of genomic damage and ageing on stem cell function | Q28308125 | ||
| Reactive oxygen species (ROS) homeostasis and redox regulation in cellular signaling | Q28388989 | ||
| New vistas for α-frequency band oscillations | Q30052035 | ||
| Splenium of corpus callosum: patterns of interhemispheric interaction in children and adults | Q30615192 | ||
| Influence of smartphone Wi-Fi signals on adipose-derived stem cells | Q33441439 | ||
| Defining CD95 as a tumor suppressor gene | Q34042835 | ||
| Between-country comparison of whole-body SAR from personal exposure data in Urban areas | Q34295059 | ||
| Alpha rhythms as physiological and abnormal phenomena | Q34430718 | ||
| Could myelin damage from radiofrequency electromagnetic field exposure help explain the functional impairment electrohypersensitivity? A review of the evidence | Q34437644 | ||
| Electromagnetic fields, such as those from mobile phones, alter regional cerebral blood flow and sleep and waking EEG. | Q34529508 | ||
| Effects of high-frequency electromagnetic fields on human EEG: a brain mapping study | Q34535758 | ||
| Human brain wave activity during exposure to radiofrequency field emissions from mobile phones | Q34546025 | ||
| The effect of mobile phone electromagnetic fields on the alpha rhythm of human electroencephalogram. | Q34677257 | ||
| Melatonin, human aging, and age-related diseases | Q35974865 | ||
| Functional connectivity of frontal cortex in healthy and ADHD children reflected in EEG coherence | Q36157155 | ||
| Electromagnetic safety of children using wireless phones: a literature review | Q36214311 | ||
| Mobile phone use and exposures in children | Q36249143 | ||
| Role of melatonin in neurodegenerative diseases | Q36265216 | ||
| A meta-analysis for neurobehavioural effects due to electromagnetic field exposure emitted by GSM mobile phones | Q36967580 | ||
| RNA oxidation in Alzheimer disease and related neurodegenerative disorders | Q37409355 | ||
| Numerical dosimetry dedicated to children RF exposure | Q37946659 | ||
| Recent reports of Wi-Fi and mobile phone-induced radiation on oxidative stress and reproductive signaling pathways in females and males | Q38150754 | ||
| No effects of pulsed radio frequency electromagnetic fields on melatonin, cortisol, and selected markers of the immune system in man. | Q39563722 | ||
| Does evening exposure to mobile phone radiation affect subsequent melatonin production? | Q39749062 | ||
| Effects of 2G and 3G mobile phones on performance and electrophysiology in adolescents, young adults and older adults. | Q39750437 | ||
| Neuropsychological sequelae of digital mobile phone exposure in humans. | Q39751960 | ||
| P433 | issue | 4 | |
| P304 | page(s) | 323-335 | |
| P577 | publication date | 2015-12-01 | |
| P1433 | published in | Reviews on Environmental Health | Q23582803 |
| P1476 | title | Radiofrequency exposure in young and old: different sensitivities in light of age-relevant natural differences | |
| P478 | volume | 30 |
| Q40414068 | Radiofrequency-electromagnetic field exposures in kindergarten children | cites work | P2860 |
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