Thermophysiological responses of human volunteers to whole body RF exposure at 220 MHz

Adair, E. R.; Blick, Dennis W.; Allen, Stewart J.; Mylacraine, Kevin S.; Ziriax, John M.; Scholl, Dennis M.

doi:10.1002/bem.20105

Cited by 29 publications

(18 citation statements)

References 33 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…At these very low levels, temperature considerations are likely to be meaningless [Adair et al, 2005]. At these very low levels, temperature considerations are likely to be meaningless [Adair et al, 2005].…”

Section: Exposure To Base Stations Compared To Other Rf Sourcesmentioning

confidence: 99%

Feasibility of future epidemiological studies on possible health effects of mobile phone base stations

Neubauer

Feychting

Hamnerius

et al. 2006

Bioelectromagnetics

114

101

View full text Add to dashboard Cite

The increasing deployment of mobile communication base stations led to an increasing demand for epidemiological studies on possible health effects of radio frequency emissions. The methodological challenges of such studies have been critically evaluated by a panel of scientists in the fields of radiofrequency engineering/dosimetry and epidemiology. Strengths and weaknesses of previous studies have been identified. Dosimetric concepts and crucial aspects in exposure assessment were evaluated in terms of epidemiological studies on different types of outcomes. We conclude that in principle base station epidemiological studies are feasible. However, the exposure contributions from all relevant radio frequency sources have to be taken into account. The applied exposure assessment method should be piloted and validated. Short to medium term effects on physiology or health related quality of life are best investigated by cohort studies. For long term effects, groups with a potential for high exposure need to first be identified; for immediate effect, human laboratory studies are the preferred approach.

show abstract

Section: Exposure To Base Stations Compared To Other Rf Sourcesmentioning

confidence: 99%

Feasibility of future epidemiological studies on possible health effects of mobile phone base stations

Neubauer

Feychting

Hamnerius

et al. 2006

Bioelectromagnetics

114

101

View full text Add to dashboard Cite

show abstract

“…The parameters of the RF field used in our studies is a 13.56‐megahertz (MHz) frequency and generates power ranging from 100 to 900 watts (approximately 1 kiloelectron volt‐20 kiloelectron volts/m 2 ). Electromagnetic energy produced in shortwave frequencies has a low tissue‐specific absorption rate and therefore has excellent whole‐body penetration with documented safety in humans . However, the question of what molecular changes RF treatment can stimulate inside cells and whether they diverge between normal and malignant cells remains poorly understood.…”

Section: Introductionmentioning

confidence: 99%

Autophagy and enhanced chemosensitivity in experimental pancreatic cancers induced by noninvasive radiofrequency field treatment

Koshkina

Briggs

Palalon

et al. 2013

Cancer

View full text Add to dashboard Cite

Background Patients with pancreatic adenocarcinoma (PDAC) have limited therapeutic options and poor response to the standard gemcitabine (GCB)-based chemotherapy. We investigated the feasibility of non-invasive short-wave RF electric fields to improve cytotoxic effect of GCB on PDAC cells and determined its mechanism of action. Methods Cytotoxicity of RF alone and in combination with GCB was studied in vitro on normal pancreatic HPDE cells and different PDAC cell lines by flow cytometry, and in vivo on ectopic and orthotopic human PDAC xenograft models in mice. Mechanism of RF activity was studied by western blot and immunohistochemistry analysis. Toxicity was determined by histopathology. Results Exposure of different PDAC cells to 13.56 MHz radiowaves resulted in substantial cytotoxic effect, which was accompanied by induction of autophagy, but not apoptosis. These effects of RF were absent in normal cells. Excessive numbers of autophagosomes in cancer cells persisted 24-48 h after RF exposure and then declined. Addition of a subtoxic dose of GCB to RF treatment inhibited the recovery of cancer cells from the RF-induced autophagy and enhanced cytotoxic effect of the latter on cancer cells. Treatment of PDAC cancer in situ in mice with combination of non-invasive RF and GCB had superior antitumor effect than RF or GCB alone, yet had no evidence of systemic toxicity. Conclusions Non-invasive RF treatment induced autophagy, not apoptosis in cancer cells and showed a potential as an enhancer of chemotherapy for treating pancreatic cancer without toxicity to normal cells.

show abstract

“…As in the previous model, our study was based on a generic model of the coil and the truncation of the head model at the neck did not allow realistic modeling of the full length for the DBS implant, usually connected to a stimulator placed on the clavicle. This study showed the computed electric field and SAR during MRI in tissues surrounding a DBS implant and did not include information about temperature, which depends on SAR as well as thermal properties of tissues and thermoregulatory mechanisms of the body [72]. A thermal analysis was beyond the scope of this work, which focused on quantifying the influence of the spatial resolution on the modeling of the electric field and inform decision-making with respect to low versus high resolution modeling.…”

Section: Discussionmentioning

confidence: 99%

MRI-Based Multiscale Model for Electromagnetic Analysis in the Human Head with Implanted DBS

Iacono

Makris

Mainardi

et al. 2013

Computational and Mathematical Methods in Medicine

View full text Add to dashboard Cite

Deep brain stimulation (DBS) is an established procedure for the treatment of movement and affective disorders. Patients with DBS may benefit from magnetic resonance imaging (MRI) to evaluate injuries or comorbidities. However, the MRI radio-frequency (RF) energy may cause excessive tissue heating particularly near the electrode. This paper studies how the accuracy of numerical modeling of the RF field inside a DBS patient varies with spatial resolution and corresponding anatomical detail of the volume surrounding the electrodes. A multiscale model (MS) was created by an atlas-based segmentation using a 1 mm3 head model (mRes) refined in the basal ganglia by a 200 μm2 ex-vivo dataset. Four DBS electrodes targeting the left globus pallidus internus were modeled. Electromagnetic simulations at 128 MHz showed that the peak of the electric field of the MS doubled (18.7 kV/m versus 9.33 kV/m) and shifted 6.4 mm compared to the mRes model. Additionally, the MS had a sixfold increase over the mRes model in peak-specific absorption rate (SAR of 43.9 kW/kg versus 7 kW/kg). The results suggest that submillimetric resolution and improved anatomical detail in the model may increase the accuracy of computed electric field and local SAR around the tip of the implant.

show abstract

Thermophysiological responses of human volunteers to whole body RF exposure at 220 MHz

Cited by 29 publications

References 33 publications

Feasibility of future epidemiological studies on possible health effects of mobile phone base stations

Feasibility of future epidemiological studies on possible health effects of mobile phone base stations

Autophagy and enhanced chemosensitivity in experimental pancreatic cancers induced by noninvasive radiofrequency field treatment

MRI-Based Multiscale Model for Electromagnetic Analysis in the Human Head with Implanted DBS

Contact Info

Product

Resources

About