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Host InstitutionHost LaboratoryMain Research TopicsContact Person
Swinburne University of Technology
John Street
Hawthorn
Victoria 3122
Australia		6G Research and Innovation Lab– Characterizing Corneal Collagen Changes Induced by Millimeter Wave Radiation Using Raman Spectroscopy.
– Investigating the Effect of 26 GHz Millimeter Wave Radiation on Tissue Metabolism Using Fluorescence Lifetime Imaging Microscopy (FLIM).
– Investigating Millimeter Wave Radiation Effects on Corneal Metabolism and Cellular Stress Using Raman Spectroscopy.		Prof Ali Yavari
ayavari@swin.edu.au

Lawson Health Research Institute 268 Grosvenor Street
London, Ontario
Canada 
1. Bioelectromagnetics and Human Threshold Research Group
2. Imaging Program
3. AND
4. Departments of Medical Biophysics, Medical Imaging and School of Kinesiology		Threshold for magnetophosphenes perception at 50 and 60 Hz – study replication
– Human vestibular response to powerline frequency magnetic fields up to 100 mT, vestibule-ocular torsion reflex
– Experimental threshold for peripheral nerve stimulation induced by 50/60 Hz magnetic field in humans
– Experimental threshold for peripheral nerve stimulation induced by 50 kHz magnetic field in humans (pending)
– Effects of extremely low frequency magnetic field (up to 80 mT) on human working memory and associated electroencephalographic activity		Prof. Alexander Legros
alexandre.legros@gmail.com
Institute of Photonics and Electronics of the Czech Academy of Sciences, Chaberska 1014/57 18200 Prague
Czechia		Bioelectrodynamics Research Team– Interaction of proteins with electric field.
– Molecular simulations of electric field effects on proteins (hybrid remote/onsite STMs possible).
– Microwave dielectric spectroscopy.
– Electrochemical effects of pulsed electric field.
-Biochemiluminescence for real-time label-free monitoring of reactive oxygen species.		Dr. Michal Cifra
cifra@ufe.cz
IMS Laboratory Bat A31
351 cours de la Libéra9on
33405 Talence
France		SANE team 1. Effects of 5G signal (3.5 GHz) on brain cells in vitro : cell cultures, flow cytometry, Bioluminescence Resonance Electron Transmission BRET spectroscopy (Yann Percherancier, Isabelle Lagroye and Florence Poulletier de Gannes).
2. Effects of 5G signal (3.5 and 26 GHz) on 3D epidermal models and 3D corneal models (cell cultures, PCR, flow cytometry)
(Isabelle Lagroye and Florence Poulletier de Gannes).
3. Effects of 5G signal (3.5 GHz) on thermoregulation in mice: authorization to experiment
on live animals, western blot … (Yann Percherancier, Isabelle Lagroye and Florence
Poulletier de Gannes)
4. Electroporation: Effects of nanoseconds pulsed electric fields at the cellular and molecular levels: cell cultures and BRET spectroscopy signal measurement (Rosa Orlacchio and Yann Percherancier)
1. Dr. Isabelle Lagroye 
isabelle.lagroye@ephe.psl.eu
 2. Dr. Florence Poulletier d.G. 
florence.poulletier@ims-bordeaux.fr 
3. Dr. Rosa Orlacchio
rosa.orlacchio@ephe.sorbonne.fr
4. Dr.Yann Percherancier
yann.percherancier@ims-bordeaux.fr
 
 
 
 
 
 
University of Montpellier and IMT Mines Ales
34090 Montpellier
France		EuroStim within EuroMov Digital Health in Motion

Threshold for magnetophosphenes perception at 50 and 60 Hz – study replication
– Human vestibular response to powerline frequency magnetic fields up to 100 mT, vestibule-ocular torsion reflex.
– Experimental threshold for peripheral nerve stimulation induced by 50/60 Hz magnetic field in humans.
– Experimental threshold for peripheral nerve stimulation induced by 50 kHz magnetic field in humans (pending).
– Effects of extremely low frequency magnetic field (up to 80 mT) on human working memory and associated electroencephalographic activity. 		Prof. Alexander Legros
alexandre.legros@gmail.com
UMR CNRS 6164
263 Avenue du Général Leclerc 35042 Rennes
France		eWAVES (Electromagnetic Waves in Complex Media)1.1 Multi-scale human body modelling
1.2 Coupled multi-physics problems
1.3 Novel methods and concepts for BioEM
1.4 Wireless sensors for medical applications
1.5 Exposure reduction techniques.
1.6 Body-centric wireless networks.
1.7 Millimeter-wave technologies.
1.8 Wireless power transfer for BioEM
1.9 Bio-inspired EM systems and technologies
2.1 Wearable devices – On-body antennas-
2.2 Radars for medical applications
2.3 Flexible electronics2.4 mmW phantoms		1. Dr. Maxim Zhadobov
maxim.zhadobov@univ-rennes.fr
2. Dr. Giulia Sacco
giulia.sacco@cnrs.fr
XLIM Research Institute,  123, Avenue Albert Thomas – 87060 Limonges Cedex
France		MIcro and Nanostructures for Telecommunications – MINT – Bioelectrodynamic groupBioEM single cell characterization, Cell electromanipulation, high frequency dielectrophoresis, microfluidic, Lab-On-Chip, cancer diagnosis
Dr Pothier Arnaud 
arnaud.pothier@xlim.fr
Institute of High Frequency Technology, RWTH Aachen University, Melatener Straße 25
52074 Aachen
Germany		EMF Research TeamHigh frequency EMF exposure assessment and evaluation using measurements, calculations and simulations. The focus lies on mobile radio networks, especially 5G and 6G systems
Dr.Thanh Tam Julian Ta
ta@ihf.rwth-aachen.de
Dept. of Microbiology & Immunology
Rm 202 Remsen Building
66 College Street Geisel School of Medicine at Dartmouth
Hanover NH 03755
Germany		http://www.dartmouthbiofilm.org– Bacterial Biofilms
– Polymicrobial communities and antibiotic tolerance
– Bacterial surface sensing		Dr. George A. O’Toole
georgeo@Dartmouth.edu
Department of Electrical, Computer and Biomedical Engineering
University of Pavia
Ferrata 5
27100 Pavia
Italy		Microwave Laboratory/
Bioengineering Laboratory		– Dielectric characterization of biological samples
– Tissue-mimicking phantoms
– microwave/mm-wave radar imaging for cancer detection
Dr. Simona Di Meo 
simona.dimeo@unipv.it
University of Cassino and Southern
Lazio. Via G. di Biasio
43 – 03043 – Cassino (FR)
Italy		Microwave Laboratory (mu-Lab)
Director Prof. Marco Donald Migliore		– Design and characterization of exposure systems
– Electromagnetic characterization of materials
– Numerical dosimetry
– EMF measurements		Prof. Fulvio Schettino 
schettino@unicas.it
Department for Life Quality Studies
University of Bologna
Via San Donato 19/2
40127 Bologna
Italy		Neurophysiology Research Unit– In human neocortical neurons derived from induced. Pluripotent Stem Cells (iPSCs), we study the effect of 5G exposure on:
a)ion channel function, by patch-clamp recording;
b)action potential firing rate and network activity, by Multi Electrode Array (MEA) recording;
c)DNA methylation, by high-throughput microarrays in a case-control design.
– In human keratinocytes, we study the effect of 5G exposure on: 
a)TRPV ion channel function, by patch-clamp recording;
b) intracellular calcium concentration, by fluorescence live imaging microscopy;
c) DNA methylation, by high-throughput microarrays in a case-control design.		Prof. Giorgio Aicardi
giorgio.aicardi@unibo.it
ENEA
Via Anguillarese 301
00123 Rome
Italy		Division of Biotechnologies Laboratory of Red Biotechnologies (BIOTECH-RED)
Reaserch Grouop in Bioelectromagnetics		– In vitro and in vivo exposures on different biological models
– Numerical and experimental dosimetry and modelling
– Pulsed electric field applications in oncology and regenerative medicine
– TMS applications and dosimetry
– AI based algorithms for EM-based medical applications
– Exposure systems design and development		Dr. Caterina Merla, 
caterina.merla@enea.it
National Research Council of Italy (CNR) – Institute for Elecromagnetic Sensing of the Environment (IREA)
Via Diocleziano 328
80124 Naples
Italy 		1. Bioelectromagnetic Laboratory (BioEMLab)
2. MEDEM (Medical Electromagnetics Laboratory)		1.1 Study of interaction mechanisms of radiofrequency electromagnetic fields (RF-EMF) with mammalian cell cultures by means of cellular and molecular techniques 
1.2 Evaluation of combined effects of RF-EMF with other physical and chemical agents
1.3 Design, realization and characterization of RF exposure systems for cell cultures
1.4 Study of electroporation phenomenon by means of experimental activities on cell cultures exposed in bulk or real-time conditions
2 Computational and experimental research activities on:
2.1 microwave imaging for medical diagnostics (mainly but not limited to breast cancer and brain stroke.
2.2 microwave imaging for thermal treatments monitoring (ablation, hyperthermia).
2.3 contrast enhanced microwave imaging (breast cancer diagnosis, bone structural healing).
2.4 tissue mimicking material and phantoms implementation.
2.5 computational methods for microwave imaging and treatment planning.		Dr. Olga Zeni
zeni.o@irea.cnr.it
Dr. Rosa Scapaticci
scapaticci.r@irea.cnr.it


University of Malta, Msida
Campus Msida
MSD 2080
Malta		Electromagnetics Research Group, Department of Physics– Dielectric spectroscopy
– Microwave ablation
– Microwave hyperthermia		Prof Lourdes Farrugia 
lourdes.farrugia@um.edu.mt
Institute for Risk Assessment Sciences (IRAS), Utrecht University
Yalelaan 2
3584 CM Utrecht
the Netherlands		IRAS
– Exposure assessment of humans, environmental epidemiology, environmental health.
– Static fields, extremely-low frequency fields, intermediate fields, radiofrequency fields, visible light.
– Health, disease, wellbeing, sleep, symptoms, risk perception.
– Occupational exposures, occupational health.
– Planetary health, exposome, citizen science.		Dr.Anke Huss 
a.huss@uu.nl 


University of Ljubljana, Faculty of Electrical Engineering
Tržaška cesta 25
1000 Ljubljana
Slovenia		Laboratory of BiocyberneticsElectroporation and electroporation-based treatments and therapies: numerical modelling, experiments on cells in vitro (cell lines and primary cardiac cells) using most up-to-date equipment and facilities including super-resolution and TIRF microscope, flow cytometer, multiplate reader for fluorescence/absorbance/luminescence, video imaging epifluorescence microscope, optical system for monitoring myocyte contractility and calcium, system for classical and optical electrophysiology, studies on electrochemistry at the electrode-electrolyte interface,
experiments on plant and ex vivo animal tissue, development of hardware/software tools 		Prof. Damijan Miklavčič
damijan.miklavcic@fe.uni-lj.si
University of Exeter
Stocker Rd
Exeter EX4 4PY
United Kingdom		Living Systems Institute and Department of Physics– Spin dynamics 
– Biophysical modelling
– Radical pair mechanism
– Low magnetic field effects
-Magnetoreception		Prof. Daniel Kattnig 
d.r.kattnig@exeter.ac.uk
UK Health Security Agency, Harwell Science Campus
Fermi Avenue
Chilton, Didcot
Oxfordshire, OX11 0RQ
United Kingdom 		Electromagnetic Fields Dosimetry Group– Advises the UK Government on the public health aspects of exposure to Electromagnetic Fields (EMFs), including those from radio frequency (RF) sources and to equipment related to electricity distribution
– UKHSA provides public health advice on limiting exposures to EMFs based on the published scientific evidence
Dr. Darren Addison
Darren.Addison@ukhsa.gov.uk