The WPC was placed in a "box" with RF absorbing ferrite walls [Laval et al., 2000; Joubert et al., 2006]. An identical sham "box" was placed in the same incubator at 37 °C, 5% CO2.
Aufbau
The WPC allowed simultaneous and equal exposure of eight 35-mm Petri dishes.
Chen C et al.
(2014):
Exposure to 1800 MHz radiofrequency radiation impairs neurite outgrowth of embryonic neural stem cells
Liu YX et al.
(2012):
Exposure to 1950-MHz TD-SCDMA Electromagnetic Fields Affects the Apoptosis of Astrocytes via Caspase-3-Dependent Pathway
Calabro E et al.
(2012):
Modulation of heat shock protein response in SH-SY5Y by mobile phone microwaves
Zeni O et al.
(2012):
Radiofrequency radiation at 1950 MHz (UMTS) does not affect key cellular endpoints in neuron-like PC12 cells
Terro F et al.
(2012):
GSM-900MHz at low dose temperature-dependently downregulates alpha-synuclein in cultured cerebral cells independently of chaperone-mediated-autophagy
Ait-Aissa S et al.
(2010):
In situ detection of gliosis and apoptosis in the brains of young rats exposed in utero to a Wi-Fi signal
Campisi A et al.
(2010):
Reactive oxygen species levels and DNA fragmentation on astrocytes in primary culture after acute exposure to low intensity microwave electromagnetic field
Cao Y et al.
(2009):
900-MHz microwave radiation enhances gamma-ray adverse effects on SHG44 cells
Del Vecchio G et al.
(2009):
Effect of radiofrequency electromagnetic field exposure on in vitro models of neurodegenerative disease
Yilmaz F et al.
(2008):
Whole-body exposure of radiation emitted from 900 MHz mobile phones does not seem to affect the levels of anti-apoptotic bcl-2 protein
Hoyto A et al.
(2008):
Proliferation, Oxidative Stress and Cell Death in Cells Exposed to 872 MHz Radiofrequency Radiation and Oxidants
Kim TH et al.
(2008):
Local exposure of 849 MHz and 1763 MHz radiofrequency radiation to mouse heads does not induce cell death or cell proliferation in brain
Joubert V et al.
(2008):
Apoptosis is Induced by Radiofrequency Fields through the Caspase-Independent Mitochondrial Pathway in Cortical Neurons
Ning W et al.
(2007):
Effects of GSM 1800 MHz on dendritic development of cultured hippocampal neurons
Buttiglione M et al.
(2007):
Radiofrequency radiation (900 MHz) induces Egr-1 gene expression and affects cell-cycle control in human neuroblastoma cells
Zhao TY et al.
(2007):
Exposure to cell phone radiation up-regulates apoptosis genes in primary cultures of neurons and astrocytes
Lantow M et al.
(2006):
Comparative study of cell cycle kinetics and induction of apoptosis or necrosis after exposure of human mono mac 6 cells to radiofrequency radiation
Gurisik E et al.
(2006):
An in vitro study of the effects of exposure to a GSM signal in two human cell lines: monocytic U937 and neuroblastoma SK-N-SH
Merola P et al.
(2006):
Proliferation and apoptosis in a neuroblastoma cell line exposed to 900 MHz modulated radiofrequency field
Caraglia M et al.
(2005):
Electromagnetic fields at mobile phone frequency induce apoptosis and inactivation of the multi-chaperone complex in human epidermoid cancer cells
Hook GJ et al.
(2004):
Measurement of DNA damage and apoptosis in Molt-4 cells after in vitro exposure to radiofrequency radiation
Maeda K et al.
(2004):
In vitro and in vivo induction of human LoVo cells into apoptotic process by non-invasive microwave treatment: a potentially novel approach for physical therapy of human colorectal cancer
Capri M et al.
(2004):
In vitro exposure of human lymphocytes to 900 MHz CW and GSM modulated radiofrequency: studies of proliferation, apoptosis and mitochondrial membrane potential
Capri M et al.
(2004):
1800 MHz radiofrequency (mobile phones, different Global System for Mobile communication modulations) does not affect apoptosis and heat shock protein 70 level in peripheral blood mononuclear cells from young and old donors
Marinelli F et al.
(2004):
Exposure to 900 MHz electromagnetic field induces an unbalance between pro-apoptotic and pro-survival signals in T-lymphoblastoid leukemia CCRF-CEM cells
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