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2. Application of the Monte Carlo Method for the Estimation of Uncertainty in Radiofrequency Field Spot Measurements

Author

Iakovidis S., Apostolidis C., and Samaras T.

Subjects
uncertainty, monte carlo, exposure quotient, electromagnetic field measurements, human exposure, Mathematics, QA1-939
Abstract

The objective of the present work is the application of the Monte Carlo method (GUMS1) for evaluating uncertainty in electromagnetic field measurements and the comparison of the results with the ones obtained using the 'standard' method (GUM). In particular, the two methods are applied in order to evaluate the field measurement uncertainty using a frequency selective radiation meter and the Total Exposure Quotient (TEQ) uncertainty. Comparative results are presented in order to highlight cases where GUMS1 results deviate significantly from the ones obtained using GUM, such as the presence of a non-linear mathematical model connecting the inputs with the output quantity (case of the TEQ model) or the presence of a dominant nonnormal distribution of an input quantity (case of U-shaped mismatch uncertainty). The deviation of the results obtained from the two methods can even lead to different decisions regarding the conformance with the exposure reference levels.

Published
2015
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3. Magnetic nanoparticles: An indicator of health risks related to anthropogenic airborne particulate matter

Author

European Commission, Kermenidou, M., Balcells, Lluis, Martínez Boubeta, Carlos, Chatziavramidis, A., Konstantinidis, I., Samaras, T., Sarigiannis, D., Simeonidis, Konstantinos, European Commission, Kermenidou, M., Balcells, Lluis, Martínez Boubeta, Carlos, Chatziavramidis, A., Konstantinidis, I., Samaras, T., Sarigiannis, D., and Simeonidis, Konstantinos

Abstract

Due to their small dimensions, airborne particles are able to penetrate through inhalation into many human organs, from the lungs to the cardiovascular system and the brain, which can threaten our health. This work establishes a novel approach of collecting quantitative data regarding the fraction, the composition and the size distribution of combustion-emitted particulate matter through the magnetic characterization and analysis of samples received by common air pollution monitoring. To this end, SQUID magnetometry measurements were carried out for samples from urban and suburban areas in Thessaloniki, the second largest city of Greece, taking into consideration the seasonal and weekly variation of airborne particles levels as determined by occurring traffic and meteorological conditions. The level of estimated magnetically-responding atmospheric particulate matter was at least 0.5 % wt. of the collected samples, mostly being present in the form of ultrafine particles with nuclei sizes of approximately 14 nm and their aggregates. The estimated quantities of magnetic particulate matter show maximum values during autumn months (0.8 % wt.) when increased commuting takes place, appearing higher in the city center by up to 50% than those in suburban areas. In combination with high-resolution transmission electron imaging and elemental analysis, it was found that Fe3O4 and similar ferrites, some of them attached to heavy metals (Co, Cr), are the dominant magnetic contributors arising from anthropogenic high-temperature processes, e.g. due to traffic emissions. Importantly, nasal cytologic samples collected from residents of both central and suburban areas showed same pattern in what concerns magnetic behavior, thus verifying the critical role of nanosized magnetic particles in the assessment of air pollution threats. Despite the inherent statistical limitations of our study, such findings also indicate the potential transmission of infectious pathogens by means of pollut

Published
2021

8. Europe and the future for WPT COST action IC1301 team

Author

Carvalho,NB, Georgiadis,A, Costanzo,A, Stevens,N, Kracek,J, Luís Manuel Pessoa, Roselli,L, Dualibe,F, Schreurs,D, Mutlu,S, Rogier,H, Visser,H, Takacs,A, Rocca,P, Dimitriou,A, Michalski,J, Raida,Z, Tedjini,S, Joseph,W, Duroc,Y, Sahalos,JN, Bletsas,A, Samaras,T, Nikoletseas,S, Raptis,TP, Boaventura,A, Collado,A, Trevisan,R, Minnaert,B, Svanda,M, Pereira,M, Mongiardo,M, Popov,G, Pan,N, Aubert,H, Viani,F, Siachalou,S, Kant,P, Vera,GA, Polycarpou,AC, Cruz,P, Mastri,F, Mazanek,M, Santos,H, Alimenti,F, Garcia Vazquez,H, Pollin,S, Poli,L, Belo,D, Masotti,D, Machac,J, Vítor Grade Tavares, Mezzanotte,P, Ndungidi,P, Oliveri,G, Fernandes,R, Salgado,H, Moeyaert,V, Massa,A, Goncalves,R, Pinho,P, Monti,G, Tarricone,L, Dionigi,M, Russer,P, and Russer,J

Subjects
IBCN
Published
2017

10. Electromagnetic field exposure assessment in Europe radiofrequency fields (10 MHz–6 GHz)

Author

Gajsek, Ravazzani P., Wiart J., Grellier J., Samaras T., Thuróczy G., Radio-Fréquences Microondes et Ondes Millimétriques (RFM2), Laboratoire Traitement et Communication de l'Information (LTCI), Institut Mines-Télécom [Paris] (IMT)-Télécom Paris-Institut Mines-Télécom [Paris] (IMT)-Télécom Paris, Département Communications & Electronique (COMELEC), and Télécom ParisTech

Subjects
Electromagnetic field, exposure assessment, sources of exposure, Epidemiology, Rf exposure, Future risk, Population, exposimetry, Toxicology, Emf exposure, [SPI]Engineering Sciences [physics], Electromagnetic Fields, RF electromagnetic fields, Radiation Monitoring, Humans, education, Remote sensing, Exposure assessment, education.field_of_study, business.industry, Public Health, Environmental and Occupational Health, Electrical engineering, European population, Radiation Exposure, Pollution, [STAT]Statistics [stat], Europe, Radiation monitoring, Environmental science, business
Abstract

Average levels of exposure to radiofrequency (RF) electromagnetic fields (EMFs) of the general public in Europe are difficult to summarize, as exposure levels have been reported differently in those studies in which they have been measured, and a large proportion of reported measurements were very low, sometimes falling below detection limits of the equipment used. The goal of this paper is to present an overview of the scientific literature on RF EMF exposure in Europe and to characterize exposure within the European population. A comparative analysis of the results of spot or long-term RF EMF measurements in the EU indicated that mean electric field strengths were between 0.08 V/m and 1.8 V/m. The overwhelming majority of measured mean electric field strengths were

Published
2013
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11. Effectiveness of FDTD in Predicting SAR Distributions from the Lucite Cone Applicator

Author

Samaras, T., Rietveld, P. J. M., and van Rhoon, G. C.

Subjects
Breast cancer -- Care and treatment, Microwaves -- Research, Hyperthermia treatment systems (Medical care) -- Research, Thermotherapy -- Equipment and supplies, Business, Computers, Electronics, Electronics and electrical industries
Abstract

The benefits of using superficial hyperthermia together with radiotherapy has long been proven for recurrent breast carcinomas. The lucite cone applicator has been introduced by some hospital hyperthermia units for superficial treatments. It is characterized by a large effective field size. The modeling techniques used in the past for the study of this, as well as other applicators used for superficial hyperthermia, have failed to address some treatment parameters, such as the dimensions of the waterbolus, which are significant for clinical practice. In this paper, the finite-difference time-domain (FDTD) method is used for modeling the applicators. The numerical results are compared with thermographic measurements. The agreement between predicted and measured specific-absorption-rate distribution is very good. The use of the FDTD method is expected to promote the study of treatment specific factors and help improve future treatment quality. Index Terms--cancer, dielectric loaded waveguides, electro-magnetic heating, FDTD, hyperthermia, medical treatment.

Published
2000

12. Arrangement at the nanoscale: Effect on magnetic particle hyperthermia

Author

Myrovali, E., primary, Maniotis, N., additional, Makridis, A., additional, Terzopoulou, A., additional, Ntomprougkidis, V., additional, Simeonidis, K., additional, Sakellari, D., additional, Kalogirou, O., additional, Samaras, T., additional, Salikhov, R., additional, Spasova, M., additional, Farle, M., additional, Wiedwald, U., additional, and Angelakeris, M., additional

Published
2016
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23. Assessment of lung ventilation in infants with respiratory distress syndrome using electrical impedance tomography.

Author

Chatziioannidis, I., Samaras, T., Mitsiakos, G., Karagianni, P., and Nikolaidis, N.

Subjects
*RESPIRATORY distress syndrome, *ELECTRICAL impedance tomography, *ARTIFICIAL respiration, *LUNG abnormalities, *NEONATAL intensive care
Abstract

Aim: The aim of the present study was to determine immediate changes of global and regional lung function after exogenous surfactant administration in mechanically ventilated infants with respiratory distress syndrome (RDS) using electrical impedance tomography (EIT) measurements. Materials and Methods: A prospective study was conducted in a Neonatal Intensive Care Unit at a university hospital. Seventeen preterm infants (<12 hours old) suffering from RDS were included in this study. Interventions taken were lowpressure recruitment maneuver, surfactant administration and minimal adjustments in ventilator settings. Repeated EIT measurements (401 in total) were performed before and after (15 min - 30 min) surfactant administration. Global lung function changes were assessed with two markers, namely absolute resistivity (AbsR) and normalized impedance change (ΔZ); redistribution of regional lung ventilation was assessed as well. Airway pressure and arterial blood gases were recorded. Results: Surfactant administration resulted in a statistically significant increase of both the AbsR and ΔZ markers. Moreover, there was a ventilation shift towards dorsal - dependent lung areas with less asymmetry in the right-to-left air distribution. Conclusions: Surfactant administration in the recruited lung with RDS modifies regional ventilation, as assessed by EIT, contributing to a more homogeneous air distribution. Furthermore, significant changes in EIT markers reflect improvement of global lung function after surfactant administration. [ABSTRACT FROM AUTHOR]

Published
2013

24. Electrical Impedance Tomography: a new study method for neonatal Respiratory Distress Syndrome?

Author

Chatziioannidis, I., Samaras, T., and Nikolaidis, N.

Subjects
*ELECTRICAL impedance tomography, *RESPIRATORY distress syndrome, *RESPIRATORY diseases in old age, *HYALINE membrane disease, *MEDICAL imaging systems, *DIAGNOSIS, *THERAPEUTICS, DIAGNOSIS of neonatal diseases
Abstract

Treatment of cardiorespiratory system diseases is a procedure that usually demands data collection on terms of the anatomy and the operation of the organs that are under study. Electrical Impedance Tomography (EIT) is an alternative approach, in comparison to existing techniques. With EIT electrodes are placed in the perimeter of the human body and images of the estimated organ are reconstructed, using the measurement of its impendence (or resistance) distribution and determining its alteration through time, while at the same time the patient is not exposed to ionizing radiation. Its clinical use presupposes the correct placement of the electrodes over the perimeter of the human body, the rapid data collection and electrical safety. It is a low cost technique and it is implemented near the patient. It is able to determine the distribution of ventilation, blood supply, diffused or localized lung defects, but it can also estimate therapeutic interventions or alteration to assisted ventilation of the neonate. EIT was developed at the beginning of the 1980s, but it has only recently begun to be implemented on neonates, and especially in the study of their respiratory system function. The low rate of image analysis is considered to be a drawback, but it is offset by the potential offered for the estimation of lungs' function (both under normal and pathological conditions), since ventilation and resistance are two quite similar concepts. In this review the most important studies about EIT are mentioned as a method of estimating respiratory distress syndrome in neonates. In terms of the above mentioned development, it is supposed that this technique will offer a great amount of help to the doctor in his / her estimations of the cardiorespiratory system and to his / her selection of the best intervening strategies. [ABSTRACT FROM AUTHOR]

Published
2011

25. Are 20th-century recommendations for growth and height correct? A review.

Author

Samaras, T. T.

Subjects
*BODY size, *BODY weight, *LONGEVITY, *CHRONIC diseases, *ANIMAL models in research
Abstract

Findings supporting the counter-intuitive thesis that smaller body size promotes greater health and longevity are reviewed. In addition, the risks of promoting further growth through genetic manipulation are explored in relation to chronic disease and longevity. Supporting examples from animal research are also covered. The biological mechanisms that relate to height and longevity conclude the review. [ABSTRACT FROM AUTHOR]

Published
2009
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27. A Validated Methodological Approach to Prove the Safety of Clinical Electromagnetic Induction Systems in Magnetic Hyperthermia.

Author

Rouni MA, Shalev B, Tsanidis G, Markakis I, Kraus S, Rukenstein P, Suchi D, Shalev O, and Samaras T

Abstract

The present study focuses on the development of a methodology for evaluating the safety of MNH systems, through the numerical prediction of the induced temperature rise in superficial skin layers due to eddy currents heating under an alternating magnetic field (AMF). The methodology is supported and validated through experimental measurements of the AMF's distribution, as well as temperature data from the torsos of six patients who participated in a clinical trial study. The simulations involved a computational model of the actual coil, a computational model of the cooling system used for the cooling of the patients during treatment, and a detailed human anatomical model from the Virtual Population family. The numerical predictions exhibit strong agreement with the experimental measurements, and the deviations are below the estimated combined uncertainties, confirming the accuracy of computational modeling. This study highlights the crucial role of simulations for translational medicine and paves the way for personalized treatment planning.

Published
2024
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28. A study of the long term changes in the electromagnetic environment using data from continuous monitoring sensors in Greece.

Author

Manassas A, Apostolidis C, Iakovidis S, Babas D, and Samaras T

Subjects
Humans, Greece, Radio Waves adverse effects, Records, Electromagnetic Fields adverse effects, Electricity
Abstract

Owing to the advancement of wireless technologies, there is a strong public perception of increasing exposure to Radiofrequency (RF) electromagnetic fields (EMF). The aim of this study is to determine the evolution of EMF in the environment, and consequently, human exposure to them, over a period of about two decades, spanning from the end of 2003 until February 2022. The study is based on data collected by two non-ionizing radiation monitoring networks in Greece. The networks consist of fixed EMF sensors that register the RMS electric field value every 6 min, on a 24 h basis. We used the Seasonal-Trend decomposition method using (LOESS), known as the STL method to decompose the time series into trend, seasonal, and noise components. Additionally, since the sensors include frequency filters for separating the cellular frequencies, the recorded data were used to identify the exposure contribution by cellular networks in comparison to other EMF sources. The study indicates that RF-EMF do not explicitly decrease or increase but rather fluctuate over time. Similarly, the contribution of mobile cellular networks to the total field change over time., (© 2023. Springer Nature Limited.)

Published
2023
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29. Investigating Visual Monitoring of the Scrotum as a Supplementary Tool for Boar Semen Quality Evaluation.

Author

Stravogianni V, Samaras T, Boscos CM, Basioura A, Markakis I, and Tsakmakidis IA

Abstract

Farm animals behavior research uses video cameras, mainly for visual observation and recording. The purpose of this feasibility study was to enrich the predictable methods of boar semen production capacity by correlating sperm variables with the scrotal contractions (SC) frequency and intensity. A video camera was used to record the reaction of the scrotum during ejaculation. The respective collected ejaculates were evaluated and semen parameters, such as viability, morphology, membranes functional integrity and kinematics, were determined. The camera recorded the scrotal contractions/relaxations and the video was handled by the Image Processing Toolbox of Matlab (Mathworks Inc., Natick, MA, USA). The SC intensity was verified as a percentage change in the scrotum size among the video frames of maximum contraction and relaxation. The archived data from the frames were analyzed statistically, using a linear mixed effects model that involved sperm assessed parameters. Correlations of the SC intensity with the average path velocity, VAP (R 2 = 0.591, p = 0.043) and with the percentage of the cytoplasmic droplets (R 2 = 0.509, p = 0.036) were noticed. Previous studies reported the positive correlation of VAP with the number of live-born piglets. In conclusion, video monitoring of the boar scrotal function during ejaculation is useful, but more research is needed to establish its appropriateness as a supplementary method for the prognosis of boar ability to produce high-quality semen.

Published
2022
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30. Electromagnetic Fields Exposure Assessment in Europe Utilizing Publicly Available Data.

Author

Iakovidis S, Apostolidis C, Manassas A, and Samaras T

Subjects
Humans, Environmental Exposure adverse effects, Radio Waves adverse effects, Europe, Electromagnetic Fields adverse effects, Cell Phone
Abstract

The ever-increasing use of wireless communication systems during the last few decades has raised concerns about the potential health effects of electromagnetic fields (EMFs) on humans. Safety limits and exposure assessment methods were developed and are regularly updated to mitigate health risks. Continuous radiofrequency EMF monitoring networks and in situ measurement campaigns provide useful information about environmental EMF levels and their variations over time and in different microenvironments. In this study, published data from the five largest monitoring networks and from two extensive in situ measurement campaigns in different European countries were gathered and processed. Median electric field values for monitoring networks across different countries lay in the interval of 0.67-1.51 V/m. The median electric field value across different microenvironments, as evaluated from in situ measurements, varied from 0.10 V/m to 1.42 V/m. The differences between networks were identified and mainly attributed to variations in population density. No significant trends in the temporal evolution of EMF levels were observed. The influences of parameters such as population density, type of microenvironment, and height of measurement on EMF levels were investigated.

Published
2022
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31. Computational Study of Magnetic Particle Motion inside the Nasal Cavity under the Impact of an External Magnetic Field for Biomedical Applications.

Author

Pradakis N, Maniotis N, and Samaras T

Abstract

The blood−brain barrier is a highly selective semipermeable border that separates blood circulation from the brain and hinders the accumulation of substances in the central nervous system. Hence, a treatment plan aiming to combat neurodegenerative diseases may be restricted. The exploitation of the nose−brain pathway could be a promising bypass method. However, pharmaceutical uptake through the olfactory epithelium is insignificant in terms of treatment, if relying only on fluid dynamic interactions. The main reasons for this are the highly complicated geometry of the nose and the residence time of the substance. The issue can be tackled by using magnetic particles as drug carriers. With the application of an external magnetic field, further control of the particle motion can be achieved, leading to increased uptake. The present work studies this approach computationally by employing magnetite particles with a radius of 7.5 μm while a magnetic field is applied with a permanent neodymium-iron-boron magnet of 9.5×105 A/m magnetization. Through this investigation, the best drug delivery protocol achieved a 2% delivery efficiency. The most significant advantage of this protocol is its straightforward design, which does not require complex equipment, thus rendering the protocol portable and manageable for frequent dosing or at-home administration.

Published
2022
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32. Detailed measurements and simulations of electric field distribution of two TMS coils cleared for obsessive compulsive disorder in the brain and in specific regions associated with OCD.

Author

Tzirini M, Roth Y, Harmelech T, Zibman S, Pell GS, Kimiskidis VK, Tendler A, Zangen A, and Samaras T

Subjects
Brain diagnostic imaging, Brain physiology, Head, Humans, Transcranial Magnetic Stimulation, Motor Cortex physiology, Obsessive-Compulsive Disorder therapy
Abstract

The FDA cleared deep transcranial magnetic stimulation (Deep TMS) with the H7 coil for obsessive-compulsive disorder (OCD) treatment, following a double-blinded placebo-controlled multicenter trial. Two years later the FDA cleared TMS with the D-B80 coil on the basis of substantial equivalence. In order to investigate the induced electric field characteristics of the two coils, these were placed at the treatment position for OCD over the prefrontal cortex of a head phantom, and the field distribution was measured. Additionally, numerical simulations were performed in eight Population Head Model repository models with two sets of conductivity values and three Virtual Population anatomical head models and their homogeneous versions. The H7 was found to induce significantly higher maximal electric fields (p<0.0001, t = 11.08) and to stimulate two to five times larger volumes in the brain (p<0.0001, t = 6.71). The rate of decay of electric field with distance is significantly slower for the H7 coil (p < 0.0001, Wilcoxon matched-pairs test). The field at the scalp is 306% of the field at a 3 cm depth with the D-B80, and 155% with the H7 coil. The H7 induces significantly higher intensities in broader volumes within the brain and in specific brain regions known to be implicated in OCD (dorsal anterior cingulate cortex (dACC), dorsolateral prefrontal cortex (dlPFC), inferior frontal gyrus (IFG), orbitofrontal cortex (OFC) and pre-supplementary motor area (pre-SMA)) compared to the D-B80. Significant field ≥ 80 V/m is induced by the H7 (D-B80) in 15% (1%) of the dACC, 78% (29%) of the pre-SMA, 50% (20%) of the dlPFC, 30% (12%) of the OFC and 15% (1%) of the IFG. Considering the substantial differences between the two coils, the clinical efficacy in OCD should be tested and verified separately for each coil., Competing Interests: I have read the journal’s policy and the authors of this manuscript have the following competing interests: Dr. Roth and Dr. Zangen are key inventors of Deep TMS technology and have financial interest in BrainsWay. Dr. Harmelech, Dr. Zibman and Dr. Pell are BrainsWay employees. Dr. Tendler serves as the chief medical officer of and has a financial interest in BrainsWay, and he has ownership interest in Advanced Mental Health Care, Inc. Dr. Samaras, Dr. Kimiskidis and Ms. Tzirini have no competing interests. This does not alter our adherence to PLOS ONE policies on sharing data and materials.

Published
2022
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33. The Use of Animal's Body, Scrotal Temperature and Motion Monitoring in Evaluating Boar Semen Production Capacity.

Author

Stravogianni V, Samaras T, Boscos CM, Markakis J, Krystallidou E, Basioura A, and Tsakmakidis IA

Abstract

Biomedical measurements by specialized technological equipment have been used in farm animals to collect information about nutrition, behavior and welfare. This study investigates the relation of semen quality (CASA analysis, viability, morphology, membrane biochemical activity and DNA fragmentation) with boar behavior during ejaculation. Sensors were placed on the boar’s body. Movement features were collected using an inertial measurement unit (IMU), comprising an accelerometer, a gyroscope and a magnetometer. Boar, scrotal and dummy temperatures were measured by an infrared (IR) camera and an IR thermometer, while the face salivation of the boar was recorded by a moisture meter (also based on IR technology). All signals and images were logged on a mobile device (smartphone or tablet) using a Bluetooth connection and then transferred wirelessly to the cloud. The data files were then processed using scripts in MATLAB 2021a (MathWorks, Natick, Massachusetts) to derive the necessary indices. Ninety-four ejaculates from five boars were analyzed in this study. The statistical analysis was performed in the Statistics and Machine Learning Toolbox of MATLAB 2021a using a linear mixed effects model. Significant and strong negative correlations (R2 > 0.5, p ≤ 0.05) were observed between boar, dummy and scrotal temperature with the progressive, rapid and slow movement of spermatozoa, VCL (curvilinear velocity), VSL (straight line velocity) and ALH (amplitude of lateral head displacement) kinematics. The volume of the ejaculate was correlated with the scrotal and dummy temperature. Dummy’s temperature was negatively correlated with BCF (beat/cross-frequency), viability and total time of ejaculation, while it was positively correlated with abnormal morphology. Body temperature was negatively correlated with BCF. Positive correlations were noticed between VAP (average path velocity) and total time of ejaculation with body acceleration features, as well as between the overall dynamic body acceleration (ODBA) and total time of ejaculation. In conclusion, the use of biomedical sensors can support the evaluation of boar sperm production capacity, providing valuable information about semen quality.

Published
2022
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34. Numerical Simulation of Temperature Variations during the Application of Safety Protocols in Magnetic Particle Hyperthermia.

Author

Pefanis G, Maniotis N, Tsiapla AR, Makridis A, Samaras T, and Angelakeris M

Abstract

Unavoidably, magnetic particle hyperthermia is limited by the unwanted heating of the neighboring healthy tissues, due to the generation of eddy currents. Eddy currents naturally occur, due to the applied alternating magnetic field, which is used to excite the nanoparticles in the tumor and, therefore, restrict treatment efficiency in clinical application. In this work, we present two simply applicable methods for reducing the heating of healthy tissues by simultaneously keeping the heating of cancer tissue, due to magnetic nanoparticles, at an adequate level. The first method involves moving the induction coil relative to the phantom tissue during the exposure. More specifically, the coil is moving symmetrically-left and right relative to the specimen-in a bidirectional fashion. In this case, the impact of the maximum distance (2-8 cm) between the coil and the phantom is investigated. In the second method, the magnetic field is applied intermittently (in an ON/OFF pulsed mode), instead of the continuous field mode usually employed. The parameters of the intermittent field mode, such as the time intervals (ON time and OFF time) and field amplitude, are optimized based on the numerical assessment of temperature increase in healthy tissue and cancer tissue phantoms. Different ON and OFF times were tested in the range of 25-100 s and 50-200 s, respectively, and under variable field amplitudes (45-70 mT). In all the protocols studied here, the main goal is to generate inside the cancer tissue phantom the maximum temperature increase, possible (preferably within the magnetic hyperthermia window of 4-8 °C), while restricting the temperature increase in the healthy tissue phantom to below 4 °C, signifying eddy current mitigation.

Published
2022
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35. Electrical field measurements and simulations of the H7 and D-B80 coils: Non-equivalence of the TMS coils for obsessive compulsive disorder.

Author

Tzirini M, Roth Y, Harmelech T, Zibman S, Pell GS, Kimiskidis V, Tendler A, Zangen A, and Samaras T

Subjects
Humans, Transcranial Magnetic Stimulation, Obsessive-Compulsive Disorder therapy
Abstract

Competing Interests: Declaration of competing interest Dr. Roth and Dr. Zangen are key inventors of deep TMS technology and have financial interest in BrainsWay. Dr. Harmelech, Dr. Zibman and Dr. Pell are BrainsWay employees. Dr. Tendler has a financial interest in BrainsWay and a clinical and research TMS center. Ms. Tzirini, Dr. Samaras and Dr. Kimiskidis have no relevant financial interests.

Published
2021
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36. Feasibility of Temperature Control by Electrical Impedance Tomography in Hyperthermia.

Author

Poni R, Neufeld E, Capstick M, Bodis S, Samaras T, and Kuster N

Abstract

We present a simulation study investigating the feasibility of electrical impedance tomography (EIT) as a low cost, noninvasive technique for hyperthermia (HT) treatment monitoring and adaptation. Temperature rise in tissues leads to perfusion and tissue conductivity changes that can be reconstructed in 3D by EIT to noninvasively map temperature and perfusion. In this study, we developed reconstruction methods and investigated the achievable accuracy of EIT by simulating HT treatmentlike scenarios, using detailed anatomical models with heterogeneous conductivity distributions. The impact of the size and location of the heated region, the voltage measurement signal-to-noise ratio, and the reference model personalization and accuracy were studied. Results showed that by introducing an iterative reconstruction approach, combined with adaptive prior regions and tissue-dependent penalties, planning-based reference models, measurement-based reweighting, and physics-based constraints, it is possible to map conductivity-changes throughout the heated domain, with an accuracy of around 5% and cm-scale spatial resolution. An initial exploration of the use of multifrequency EIT to separate temperature and perfusion effects yielded promising results, indicating that temperature reconstruction accuracy can be in the order of 1 ∘C. Our results suggest that EIT can provide valuable real-time HT monitoring capabilities. Experimental confirmation in real-world conditions is the next step.

Published
2021
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37. Toxic and Microbiological Effects of Iron Oxide and Silver Nanoparticles as Additives on Extended Ram Semen.

Author

Tsakmakidis IA, Samaras T, Anastasiadou S, Basioura A, Ntemka A, Michos I, Simeonidis K, Karagiannis I, Tsousis G, Angelakeris M, and Boscos CM

Abstract

The aim of the study was to investigate the effect of iron oxide (Fe) and silver (Ag) nanoparticles (NPs) on ram semen. A skim milk extender without antibiotics was used as a diluent of 21 ejaculates (8 rams; 2-3 ejaculates/ram). The groups of control (C; semen without NPs), Fe NPs (3.072 mg Fe 3 O 4 /mL semen), and Ag NPs (2.048 mg Ag-Fe/mL semen) were incubated (15 °C; 30 min), and then a magnetic field was used for NPs' removal. Standard microbiological procedures were performed for all groups. Post-treated samples were stored (15 °C) for 24 h, and sperm variables (kinetics by computer assisted sperm analysis (CASA); viability; morphology; HOST; DNA integrity) were evaluated at 6 and 24 h. Semen data were analyzed by a mixed model for repeated measures and microbiological data with Student's t -test for paired samples. At 6 h of storage, VCL and rapid movement-spermatozoa, and at 24 h, total/progressive motility and amplitude of lateral head displacement (ALH) were significantly decreased in group Ag compared to control. In group Fe, progressive/rapid movement-spermatozoa were significantly lower compared to control after 24 h of storage. Only in group Ag was a significant reduction of total bacterial count revealed. In conclusion, the examined Fe NPs demonstrated slight antibacterial effect, while the examined Ag NPs provided higher antibacterial properties accompanied by cytotoxicity.

Published
2021
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38. Improvement of Magnetic Particle Hyperthermia: Healthy Tissues Sparing by Reduction in Eddy Currents.

Author

Balousis A, Maniotis N, and Samaras T

Abstract

Attenuation of the unwanted heating of normal tissues due to eddy currents presents a major challenge in magnetic particle hyperthermia for cancer treatment. Eddy currents are a direct consequence of the applied alternating magnetic field, which is used to excite the nanoparticles in the tumor and have been shown to limit treatment efficacy in clinical trials. To overcome these challenges, this paper presents simple, clinically applicable, numerical approaches which reduce the temperature increase due to eddy currents in normal tissue and simultaneously retain magnetic nanoparticles heating efficiency within the tumor. More specifically, two protocols are examined which involve moving the heating source, an electromagnetic coil, relative to a tumor-bearing phantom tissue during the exposure. In the first protocol, the linear motion of the coil on one side with respect to the hypothesized tumor location inside the phantom is simulated. The estimated maximum temperature increase in the healthy tissue and tumor is reduced by 12% and 9%, respectively, compared to a non-moving coil, which is the control protocol. The second technique involves a symmetrical variation of the first one, where the coil is moving left and right of the phantom in a bidirectional fashion. This protocol is considered as the optimum one, since the estimated maximum temperature rise of the healthy tissue and tumor is reduced by 25% and 1%, respectively, compared to the control protocol. Thus, the advantages of a linearly moving coil are assessed through tissue sparing, rendering this technique suitable for magnetic particle hyperthermia treatment.

Published
2021
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39. Mitigation of magnetic particle hyperthermia side effects by magnetic field controls.

Author

Tsiapla AR, Kalimeri AA, Maniotis N, Myrovali E, Samaras T, Angelakeris M, and Kalogirou O

Subjects
Humans, Hyperthermia, Magnetic Fields, Magnetics, Temperature, Hyperthermia, Induced
Abstract

Objective: In magnetic particle hyperthermia, a promising least-invasive cancer treatment, malignant regions in proximity with magnetic nanoparticles undergo heat stress, while unavoidably surrounding healthy tissues may also suffer from heat either directly or indirectly by the induced eddy currents, due to the developed electric fields as well. Here, we propose a facile upgrade of a typical magnetic particle hyperthermia protocol, to selectively mitigate eddy currents' heating without compromising the beneficial role of heating in malignant regions. Method: The key idea is to apply the external magnetic field intermittently (in an ON/OFF pulse mode), instead of the continuous field mode typically applied. The parameters of the intermittent field mode, such as time intervals (ON time: 25-100 s, OFF time: 50-200 s, Duty Cycle:16-100%) and field amplitude (30-70 mT) are optimized based on evaluation on healthy tissue and cancer tissue phantoms. The goal is to sustain in cancer tissue phantom the maximum temperature increase (preferably within 4-8°C above body temperature of 37°C), while in the healthy tissue phantom temperature variation is suppressed far below the 4°C dictating the eddy current mitigation. Results: Optimum conditions of intermittent field (ON/OFF: 50/100 in s, Duty Cycle: 33%, magnetic field: 45mT) are then examined in ex-vivo samples verifying the successful suppression of eddy currents. Simultaneously, a well-elaborated theoretical approach provides a rapid calculation of temperature increase and, furthermore, the ability to quickly simulate a variety of duty cycle times and field controls may save experimental time. Conclusion: Eventually, the application of an intermittent field mode in a magnetic particle hyperthermia protocol, succeeds in eddy current mitigation in surrounding tissues and allows for the application of larger field amplitudes that may augment hyperthermia efficiency without objecting typical biomedical applicability field constraints such as Brezovich criterion.

Published
2021
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40. Iron Oxide Nanoparticles as an Alternative to Antibiotics Additive on Extended Boar Semen.

Author

Tsakmakidis IA, Samaras T, Anastasiadou S, Basioura A, Ntemka A, Michos I, Simeonidis K, Karagiannis I, Tsousis G, Angelakeris M, and Boscos CM

Abstract

This study examined the effect of Fe 3 O 4 nanoparticles on boar semen. Beltsville thawing solution without antibiotics was used to extend ejaculates from 5 boars (4 ejaculates/boar). Semen samples of control group (C) and group with Fe 3 O 4 (Fe; 0.192 mg/mL semen) were incubated under routine boar semen storage temperature (17 °C) for 0.5 h and nanoparticles were removed by a magnetic field. Before and after treatment, aliquots of all groups were cultured using standard microbiological methods. The samples after treatment were stored (17 °C) for 48 h and sperm parameters (computer-assisted sperm analyzer (CASA) variables; morphology; viability; hypo-osmotic swelling test (HOST); DNA integrity) were evaluated at storage times 0, 24, 48 h. Semen data were analyzed by a repeated measures mixed model and microbial data with Student's t-test for paired samples. Regarding CASA parameters, Fe group did not differ from C at any time point. In group C, total motility after 24 h and progressive motility after 48 h of storage decreased significantly compared to 0 h. In group Fe, linearity (LIN) after 48 h and head abnormalities after 24 h of storage increased significantly compared to 0 h. The microbiological results revealed a significant reduction of the bacterial load in group Fe compared to control at both 24 and 48 h. In conclusion, the use of Fe 3 O 4 nanoparticles during semen processing provided a slight anti-microbiological effect with no adverse effects on sperm characteristics.

Published
2020
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41. Spatial focusing of magnetic particle hyperthermia.

Author

Myrovali E, Maniotis N, Samaras T, and Angelakeris M

Abstract

Magnetic particle hyperthermia is a promising cancer therapy, but a typical constraint of its applicability is localizing heat solely to malignant regions sparing healthy surrounding tissues. By simultaneous application of a constant magnetic field together with the hyperthermia inducing alternating magnetic field, heating focus may be confined to smaller regions in a tunable manner. The main objective of this work is to evaluate the focusing parameters, by adequate selection of magnetic nanoparticles and field conditions, and explore spatially focused magnetic particle hyperthermia efficiency in tissue phantom systems comprising agarose gel and magnetic nanoparticles. Our results suggest the possibility of spatially focused heating efficiency of magnetic nanoparticles through the application of a constant magnetic field. Tuning of the constant magnetic field parameters may result in minimizing thermal shock in surrounding regions without affecting the beneficiary thermal outcome in the focusing region., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published
2019
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42. Efficient and Sensitive Electrically Small Rectenna for Ultra-Low Power RF Energy Harvesting.

Author

Assimonis SD, Fusco V, Georgiadis A, and Samaras T

Abstract

A new electrically small antenna with size ka = 0.415 is presented, fabricated and measured in this work. This is intrinsically matched to 50 Ω, has omni-directional and linear-polarized radiation pattern in the horizontal plane with maximum directivity of 1.75 dBi and simulated radiation efficiency of 93%. The antenna in combination with a low-complex and co-planar rectifier with one single diode forms a high efficient and sensitive electrically small rectenna with ka = 0.53 at 868 MHz (UHF RFID-band in Europe). The latter has measured efficiency 22.5% for -19 dBm power input and sensitivity of -44 dBm (or equivalently 0.00028 μW/cm 2 power density), while at 2.25 μW/cm 2 is able to supply continuously, i.e., without a boost converter or use of any energy tank, a small electrical device with 118 μW. In order to increase the dc output voltage and the delivered dc power to the load for lower power density levels, rectenna-array configuration is exploited. Application to batteryless, backscatter wireless sensor node powering is discussed. Specifically, for a power density of 0.1237 μW/cm 2 the RF energy harvesting system delivers 172 μW at 2.85 V every 22.5 s.

Published
2018
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43. Review of Studies Concerning Electromagnetic Field (EMF) Exposure Assessment in Europe: Low Frequency Fields (50 Hz-100 kHz).

Author

Gajšek P, Ravazzani P, Grellier J, Samaras T, Bakos J, and Thuróczy G

Subjects
Electronics instrumentation, Environmental Exposure adverse effects, Environmental Exposure analysis, Europe epidemiology, Guidelines as Topic, Household Articles, Humans, Power Plants, Radiometry, Risk Assessment, Electromagnetic Fields adverse effects, Environmental Exposure statistics & numerical data, Environmental Monitoring, Radiation Monitoring
Abstract

We aimed to review the findings of exposure assessment studies done in European countries on the exposure of the general public to low frequency electric and magnetic fields (EMFs) of various frequencies. The study shows that outdoor average extremely low frequency magnetic fields (ELF-MF) in public areas in urban environments range between 0.05 and 0.2 µT in terms of flux densities, but stronger values (of the order of a few µT) may occur directly beneath high-voltage power lines, at the walls of transformer buildings, and at the boundary fences of substations. In the indoor environment, high values have been measured close to several domestic appliances (up to the mT range), some of which are held close to the body, e.g., hair dryers, electric shavers. Common sources of exposure to intermediate frequencies (IF) include induction cookers, compact fluorescent lamps, inductive charging systems for electric cars and security or anti-theft devices. No systematic measurement surveys or personal exposimetry data for the IF range have been carried out and only a few reports on measurements of EMFs around such devices are mentioned. According to the available European exposure assessment studies, three population exposure categories were classified by the authors regarding the possible future risk analysis. This classification should be considered a crucial advancement for exposure assessment, which is a mandatory step in any future health risk assessment of EMFs exposure., Competing Interests: The authors declare no conflict of interest.

Published
2016
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44. Electromagnetic field exposure assessment in Europe radiofrequency fields (10 MHz-6 GHz).

Author

Gajšek P, Ravazzani P, Wiart J, Grellier J, Samaras T, and Thuróczy G

Subjects
Europe epidemiology, Humans, Radiation Monitoring, Electromagnetic Fields adverse effects, Radiation Exposure statistics & numerical data
Abstract

Average levels of exposure to radiofrequency (RF) electromagnetic fields (EMFs) of the general public in Europe are difficult to summarize, as exposure levels have been reported differently in those studies in which they have been measured, and a large proportion of reported measurements were very low, sometimes falling below detection limits of the equipment used. The goal of this paper is to present an overview of the scientific literature on RF EMF exposure in Europe and to characterize exposure within the European population. A comparative analysis of the results of spot or long-term RF EMF measurements in the EU indicated that mean electric field strengths were between 0.08 V/m and 1.8 V/m. The overwhelming majority of measured mean electric field strengths were <1 V/m. It is estimated that <1% were above 6 V/m and <0.1% were above 20 V/m. No exposure levels exceeding European Council recommendations were identified in these surveys. Most population exposures from signals of radio and television broadcast towers were observed to be weak because these transmitters are usually far away from exposed individuals and are spatially sparsely distributed. On the other hand, the contribution made to RF exposure from wireless telecommunications technology is continuously increasing and its contribution was above 60% of the total exposure. According to the European exposure assessment studies identified, three population exposure categories (intermittent variable partial body exposure, intermittent variable low-level whole-body (WB) exposure and continuous low-level WB exposure) were recognized by the authors as informative for possible future risk assessment.

Published
2015
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45. Temperature increase in the fetus exposed to UHF RFID readers.

Author

Fiocchi S, Parazzini M, Liorni I, Samaras T, and Ravazzani P

Subjects
Female, Humans, Pregnancy, Body Temperature radiation effects, Environmental Exposure, Fetus radiation effects, Models, Biological, Radio Frequency Identification Device, Radio Waves
Abstract

Exposure to electromagnetic fields (EMFs) has prominently increased during the last decades due to the rapid development of new technologies. Among the various devices emitting EMFs, those based on Radio-frequency identification (RFID) technologies are used in all aspects of everyday life, and expose people unselectively. This scenario could pose a potential risk for some groups of the general population, such as pregnant women, who are expected to be possibly more sensitive to the thermal effects produced by EMF exposure. This is the first paper that addresses the estimation of temperature rise in two pregnant women models exposed to ultrahigh frequency RFID by computational techniques. Results show that the maximum temperature increase of the fetus and of the pregnancy-related tissues is relatively high (even about 0.7 °C), not too far from the known threshold of biological effects. However, this increase is confined to a small volume in the tissues.

Published
2014
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46. Transtelephonic electrocardiographic transmission in the preparticipation screening of athletes.

Author

Samaras T, Karavasiliadou S, Kouidi E, Sahalos JN, and Deligiannis A

Abstract

Transtelephonic electrocardiographic transmission (TET) is the most widespread form of telecardiology since it enables clinicians to assess patients at a distance. The purpose of this study was to assess the efficacy and effectiveness of TET either by fixed telephone line (POTS) or by mobile phone in the preparticipation screening of young athletes. A total of 506 players, aged 20.5 +/- 6.2 years, from 23 soccer clubs in the prefecture of Thessaloniki, Greece, were physically examined in their playfields by a general practitioner (GP) and had their ECG recorded. In 142 cases, and on the judgment of the GP, the ECG was transmitted via POTS and/or global system for mobile communications (GSM) to a specialised medical centre where it was evaluated by a cardiologist. The mean total time for recording, storing, and transmitting the ECG was four minutes per subject. It was found that the success rate for transmission at first attempt was similar for both fixed and mobile networks, that is, 93% and 91%, respectively. The failure rate in the GSM network was correlated to the reception level at the site of transmission. Only in about half (n = 74) of the transmitted ECGs did the cardiologist confirm "abnormal" findings, although in 16, they were considered to be clinically insignificant. Consequently, 58 athletes were referred for further medical examination. Our results indicate that TET (either by fixed telephone line or by mobile phone) can ensure valid, reliable, and objective measurements, and significantly contribute to the application of medical screening in a great number of athletes. Therefore, it is recommended as an alternative diagnostic tool for the preparticipation screening of athletes living in remote areas.

Published
2008
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47. Worst case temperature rise in a one-dimensional tissue model exposed to radiofrequency radiation.

Author

Samaras T, Christ A, Klingenböck A, and Kuster N

Subjects
Animals, Computer Simulation, Environmental Exposure, Humans, Radiation Dosage, Scattering, Radiation, Body Temperature physiology, Body Temperature radiation effects, Connective Tissue physiology, Connective Tissue radiation effects, Models, Biological, Radio Waves, Radiometry methods
Abstract

This paper investigates the temperature rise in a 1-D layered tissue model, which is irradiated with nonionizing radiation. Of the numerous tissue configurations that correspond to realistic body trunk and limb representations, only those are examined which maximize the averaged specific absorption rate (SAR). The results show that the old IEEE standard on safety was more conservative in terms of temperature rise than the Non-Ionizing Radiation Protection guidelines. They also indicate that the removal of heat exchange from the skin surface can induce a significant temperature rise in it, which is, however, mostly due to imposing the adiabatic conditions themselves, rather than the electromagnetic energy absorption.

Published
2007
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48. Height, body size and longevity.

Author

Samaras TT and Elrick H

Subjects
Heart Diseases epidemiology, Humans, Incidence, Mortality, Neoplasms epidemiology, Body Constitution, Body Height, Longevity
Abstract

Life expectancy, mortality and longevity data related to height and body size for various US and world population samples are reviewed. Research on energy restriction, smaller body size and longevity is also examined. Information sources include various medical and scientific journals, books and personal communications with researchers. Additional information is presented based on research involving eight populations of the world noted for their health, vigor and longevity. This information includes the findings of one of the authors who led research teams to study these populations. While conflicting findings exist on the cardiovascular death rates for shorter people, many examples of short populations with very little heart disease are described. Most cancer studies indicate that shorter people have significantly lower mortality risk. Considerable data suggest that shorter people generally have greater longevity than taller people, and extensive animal research supports human longevity findings. Tall populations with low mortality rates are also described. Shorter stature and smaller body weight appear to promote better health and longevity in the absence of malnutrition and infectious diseases. Several theoretical reasons for this greater longevity potential are covered. Also discussed, is the role of socioeconomic status, diet, relative weight, environment and other factors in increasing or decreasing the longevity of individuals, regardless of their heights and weights.

Published
1999

50. Impact of height and weight on life span.

Author

Samaras TT and Storms LH

Subjects
Adult, Age Factors, Aged, Aged, 80 and over, Baseball statistics & numerical data, Body Composition, Body Constitution, Body Mass Index, California epidemiology, Ethnicity, Hospitals, Veterans, Humans, Life Expectancy, Male, Middle Aged, Body Height, Body Weight, Longevity
Abstract

The study was conducted to evaluate one aspect of the entropy theory of aging, which hypothesizes that aging is the result of increasing disorder within the body, and which predicts that increasing mass lowers life span. The first evaluation of the impact of human size on longevity or life span in 1978, which was based on data for decreased groups of athletes and famous people in the USA, suggested that shorter, lighter men live longer than their taller, heavier counterparts. In 1990, a study of 1679 decreased men and women from the general American population supported these findings. In the present study data on the height, weight, and age at death of 373 men were obtained from records at the Veterans Administration Medical Center, San Diego, CA, USA. Men of height 175.3 cm or less lived an average of 4.95 years longer than those of height over 175.3 cm, while men of height 170.2 cm or less lived 7.46 years longer than those of at least 182.9 cm. An analysis by weight difference revealed a 7.72-year greater longevity for men of weight 63.6 kg or less compared with those of 90.9 kg or more. This corroborates earlier evidence and contradicts the popular notion that taller people are healthier. While short stature due to malnutrition or illness is undesirable, our study suggests that feeding children for maximum growth and physical development may not add to and may indeed be harmful to their long-term health and longevity.

Published
1992

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