The Cellular Response Is Determined by a Combination of Different ELF-EMF Exposure Parameters: A Scope Review.

Since the establishment of regulations for exposure to extremely low-frequency (0-300) Hz electromagnetic fields, scientific opinion has prioritised the hypothesis that the most important parameter determining cellular behaviour has been intensity, ignoring the other exposure parameters (frequency, time, mode, waveform). This has been reflected in the methodologies of the in vitro articles published and the reviews in which they are included. A scope review was carried out, grouping a total of 79 articles that met the proposed inclusion criteria and studying the effects of the different experiments on viability, proliferation, apoptosis, oxidative stress and the cell cycle. These results have been divided and classified by frequency, intensity, exposure time and exposure mode (continuous/intermittent). The results obtained for each of the processes according to the exposure parameter used are shown graphically to highlight the importance of a good methodology in experimental development and the search for mechanisms of action that explain the experimental results, considering not only the criterion of intensity. The consequence of this is a more than necessary revision of current exposure protection regulations for the general population based on the reductionist criterion of intensity.

Design and characterisation of a cell exposure system with high magnetic field homogeneity: RILZ coils.

In vitro studies requiring controlled exposure to low-frequency electromagnetic fields employ exposure systems with different geometries and configurations, the Helmholtz configuration being one of the most widely used. This configuration has limitations in the homogeneity of the spatial distribution of the magnetic field intensity values. We present the design, manufacturing, and characterisation of a new coil system, called RILZ configuration, which improves the distribution of magnetic field intensity values in the three dimensions of space for three different heights in comparison with the traditional circular coils in Helmholtz configuration. In addition, a comparative study of the cellular response in CT2A cultures exposed to a magnetic field of 50 Hz and 100 µT for 48 hrs is performed with both exposure systems. The results of the study show reduced values of deviation from the central value of magnetic field intensity using the RILZ coil system. These differences are statistically significant compared to the Helmholtz configuration for the three Cartesian directions: x (p < 0.01), y (p < 0.01), z (p < 0.01). In addition, the intensity values for three different heights are statistically significantly correlated using the RILZ coil system (p < 0.01). The differences in cell behaviour are also statistically significant between the two systems (p < 0.01) and may be directly related to the differences found in the distribution of intensity values between the two systems. This study highlights the importance of the homogeneity of the magnetic field intensity generated by the exposure systems used and offers an effective solution to control the magnetic field exposure parameters in vitro assays.

Compact Exposimeter Device for the Characterization and Recording of Electromagnetic Fields from 78 MHz to 6 GHz with Several Narrow Bands (300 kHz).

A novel compact device with spectrum analyzer characteristics has been designed, which allows the measuring of the maximum power received in multiple narrow frequency bands of 300 kHz, recording the entire spectrum from 78 MHz to 6 GHz; the device is capable of measuring the entire communications spectrum and detecting multiple sources of electromagnetic fields using the same communications band. The proposed device permits the evaluation of the cross-talk effect that, in conventional exposimeters, generates a mistake estimation of electromagnetic fields. The device was calibrated in an anechoic chamber for far-fields and was validated against a portable spectrum analyzer in a residential area. A strong correlation between the two devices with a confidence higher than 95% was obtained; indicating that the device could be considered as an important tool for electromagnetic field studies.

Quantification of lectins in Synsepalum dulcificum and comparison with reference foods.

A healthy life means a balance between physical activity and a diet rich in fruits and vegetables, however, some plant-based foods can have certain adverse effects due to the presence of anti-nutritional factors, such as lectins, capable of binding molecules and preventing their normal assimilation. The level of lectins in Synsepalum dulcificum fruit was determined by hemagglutination assays in human blood, and its comparison with foods characterized as having high and low lectin content. The relative hemagglutinating activity of berries from Synsepalum dulcificum compared to our positive high lectin content food reference (Pinto bean) corresponds to 3.13-6.25%, representing safe levels for nutritional food.

Significant Cellular Viability Dependence on Time Exposition at ELF-EMF and RF-EMF In Vitro Studies.

The human concern about the effect of electromagnetic fields (EMFs) has changed over time from the effects produced by EMFs of extremely low frequencies (ELFs) to the effects produced by exposure to a radio frequency (RF), with concerns shifting toward EMFs due to the development of new technologies and forms of communication. Previous studies have analysed the effects produced at different frequencies without considering in detail the effect of the time of exposure. Therefore, in the present study, we analysed in vitro the effect produced by a 100 µT EMF at different ELFs and exposure times in glioblastomas, as well as the effect produced in a fibroblast by an RF-EMF of 2.54 GHz. Our results indicate a significant time dependence in cell viability of fibroblasts exposed to an RF-EMF of 2.54 GHz and a non-time-dependent effect in cell viability of glioblastomas exposed to an ELF-EMF, highlighting the possible relation between frequency and time of exposure.

Neuroimagen en fibromialgia / Neuroimaging in fibromialgia

Introducción. La mayoría de las investigaciones actuales sugiere que la fibromialgia es una enfermedad producida por una alteración en el procesamiento de la señal dolorosa en el sistema nervioso central. En los últimos años, gracias al avance de las técnicas de imagen cerebral no invasivas o mínimamente invasivas, se ha podido averiguar cómo participan las diferentes áreas del sistema nervioso en la etiopatogenia de enfermedades consideradas hasta ahora como de perfil funcional. Objetivo. Describir los cambios objetivados, tanto funcionales como estructurales, que ocurren en el cerebro de pacientes con fibromialgia a través de las técnicas de neuroimagen disponibles en la actualidad. Desarrollo. Se revisan los estudios clínicos, tanto anatómicos como moleculares, que se han realizado hasta ahora, con las diferentes técnicas de imagen cerebral, en el campo de la fibromialgia. Conclusiones. Se han descrito diferentes áreas del sistema nervioso central, relacionadas entre sí, que se alteran no sólo de forma funcional, sino también estructural, en los pacientes con fibromialgia. Estas áreas involucradas se extienden más allá de los circuitos de dolor, lo que explicaría la variada sintomatología de los pacientes y el dolor característico referido por ellos

Introduction. Most current research suggests that fibromyalgia is a disease produced by an alteration in the processing of pain signals in the central nervous system. In recent years, advances in non- or minimally-invasive brain imaging techniques have made it possible to discover how different areas of the nervous system are involved in the aetiopathogenesis of diseases that up until now have been considered as having a functional profile. Aim. To describe the objectified functional and the structural changes that take place in the brains of patients with fibromyalgia by means of the currently available neuroimaging techniques. Development. This work reviews the clinical studies, both anatomical and molecular, that have been conducted to date in the field of fibromyalgia using different brain imaging techniques. Conclusions. Different, but related, areas of the central nervous system have been described as altering not only the functional but also the structural form, in patients with fibromyalgia. These involved areas extend beyond the pain circuits, which would explain the variety of symptoms in patients, in addition to the characteristic pain reported by them