Embed Size (px)
Citation preview
Special Issue 14
2
A c c e s s t o I N F R A S T R U C T U R E S f o r R a d i a t i o n p r o t e c t i o n R e s e a r c h
This project has received funding from the Euratom research and training programme 2014-2018 under grant agreement No 662287
Contents:
SHAMISEN-SINGS WP1
SHAMISEN-SINGS WP2
SHAMISEN-SINGS WP3
SHAMISEN-SINGS WP4
Editorial
C ONCERT has been finished since May 31st. No extension despite the disruptions caused by the pandemic. Nevertheless, we would like to give you an overview of all the results of the projects supported by CONCERT. So here is a special issue dedicated to the results of the
SHAMISEN-SINGS project. This project is dedicated to citizen participation, which plays a crucial role during a nuclear accident. Following all the other projects whose results you could read about in previous newsletters, this project illustrates the extent of Concert's fields of activity and the richness of bringing together in the same consortium experts in physics, biology, medicine, ecology, human and social sciences... Let's hope that a CONCERT 2 can be born without too much delay in order to continue this fruitful dynamic.
Dr Laure Sabatier, CEA
The floor to... Lessons learned from previous nuclear accidents
One of the major lessons learned from previous nuclear accidents, in particular Cher-nobyl and Fuku-shima, is the need to increase stake-holder engage-ment in accident preparedness and response.
Community participation through dialogue with local facilitators and experts was key to under-standing the needs of the affected populations (including real time information feedback, RP sup-port, health assessment and follow-up) and build-ing trust in local representatives after the Fuku-shima accident. The use of personal dosimeters (such as the D-Shuttle) or other devices that allow populations to perform their own dose measure-ments has also proven successful in empowering them to take control of their lives in recovery situ-ations. In addition, public participation in health surveillance studies can lead to enhanced compli-ance and acceptance of results.
Importantly, these citizen participation initiatives can also be a very valuable tool to guide decision making processes related to accident manage-ment and/or recovery.
For these reasons, it is of vital importance to strengthen mechanisms of citizen participation in
radiation accident preparedness and response, and to do this “in times of peace” so that they are in place before (events in the early phase of an emergency
happen very quickly and there is no time to set-up such mechanisms then).
Information technology and citizen participation in data collection
Information and communication technologies and uses have evolved rapidly since Chernobyl (31 years ago) and even since Fukushima (6 years ago). The prevalence of smart communication devices (phones, tablets) has greatly increased (it is estimated that ~70% of the world’s population uses smartphones in 2020), as has the availability of APPs that, with or without additional body sen-sors, are capable of measuring and logging radio-activity levels, localisation, physical activity, physi-ological parameters, and provide users with infor-mation and feedback.
July 2020
SHAMISEN-SINGS Coordinators Elisabeth Cardis,
Head of Radiation programme at ISGlobal
Liudmila Liutsko, Postdoc, Radiation programme at
ISGlobal
Ph
oto
: M
. So
lan
o/I
SGlo
bal
SHAMISEN (Nuclear Emergency Situations - Im-
provement of dosimetric, Medical And Health Sur-
veillance) - Stakeholder INvolvement in Generating
Science (SINGS)
Partners:
Barcelona Institute for Global Health (ISGlobal, Spain)
Instituto Superiore di Sanità (ISS, Italy)
Fukushima Medical University (FMU, Japan)
Institute for Radiological Protec-tion and Nuclear Safety (IRSN, France)
Centre d’étude sur l’Evaluation de la Protection dans le domaine Nucléaire (CEPN, France)
Norwegian University of Life Sciences (NMBU, Norway)
Universitat Autòma de Barcelona (UAB, Spain)
4 external experts: Philippe Pirard (Santé Publique France; France), Vadim Chumak (National Research Center for Ra-diation Medicine, National Acade-my of Medical Sciences of Ukraine, Ukraine), Natallia Novikava (ISEI-BSU, Belarus) and An van Nieu-wenhuyse (LNS, Luxembourg)
Duration of the project: 30 months
Total project budget: 476,099 €
Contacts: Elisabeth Cardis [email protected]
Liudmila Liutsko [email protected]
D9.135 - Consensus workshop report on ethical issues, Oughton D. et. al. : https://www.researchgate.net/publication/341788401_Consensus_Workshop_Report_on_Ethical_Aspects_of_Radiation_Monitoring_and_Health_Apps
Stakeholders feedback on mobile Apps and devices for dose and health measurements after nuclear accident (SHAMISEN SINGS project), Liutsko L. et al. (April, 2019), NERIS, Roskilde, Denmark
Individual differences in preferences on mobile apps for dose and health measurements in case of a nuclear accident, Liutsko L. et al.; SHAMISEN SINGS Consortium (July, 2019), ISSID2019, Italy
Stakeholder needs (consultation, engagement and
feedback on proposals)
G ood information exchange and a strong relationship with local stakeholders and affected populations are crucial in manag-
ing the aftermath of a nuclear accident. People will be differently affected and have different needs, as well as varying levels of scientific litera-cy.
The objective of WP1 was to engage stakeholders (in particular representatives of local populations, teachers, medical personnel and local and nation-al authorities) in identifying their needs for infor-mation and support in the recovery phase of an accident and to develop a framework to address these needs using new tech-nologies (mobile devices/applications) using citizens and expert resources.
To achieve the above, we carried out the following activities: Under the lead of ISGlobal, an online consultation was prepared, in 7 languages, to identify unmet needs of stakeholders. This SHAMISEN-SINGS Survey was dissemi-nated on the project web; ISGlobal blog and through distribution of leaflets with a QR code to access the online Survey) (Figure 1). 401 participants from 28 countries took part and the survey results have been presented at the NERIS, RICOMET, ISSID and ERPW
conferences, and a scientific article is in preparation.
Several national and international focus groups and stakeholder meetings were held in 2018-2019, to present and discuss the results of WP2 and WP3 (requirements for and specifications of apps and devices for dose measurement and health and well-being monitoring) to determine if they corre-spond to the needs of stakeholders. The SHAM-ISEN-SINGS booklet “Mobile apps for monitoring radiation doses, health and welfare in the context of a nuclear or radiological accident: Guidelines and recommendations for users, developers and public authorities” was reviewed in final stake-holder groups in March 2019 and comments and suggestions have been included in the final ver-sion.
A two-day international consensus workshop took place in Oslo to address the societal, ethical and technical challenges with app development and use, in particular in the context of Citizen Science. Apart from project partners, participants included ethicists, social scientists, app developers and philosophers, as well as representatives of affect-ed populations (Norway, Belarus, Ukraine and Japan). This stimulated joint reflection between social scientists, natural scientists, radiation pro-tection researchers, and the public/citizens and resulted in Ethics Recommendations that are in-cluded in the SHAMISEN-SINGS Booklet.
ID Card:
Work Package lead: Barcelona Institute for Global Health (ISGlobal) Partners invloved in the WP: FMU, IRSN, UAB, ISGlobal Expert: Vadim Chumak External expert: Charles Ess (University of Oslo) Open access of produced data: All disseminative materials will be published on the project website and ResearchGate:
1) Infographics “How to measure radiation with your mobile phone”
2) Videotutorials
3) A booklet (final version will be submitted at the end of May 2020) Internet link: https://radiation.isglobal.org/shamisen-sings/ Contacts: Elisabeth Cardis
Liudmila Liutsko
[email protected] Related to: NERIS EURADOS SHARE
Special Issue 14
July 2020
2) A group discussion during the workshop on Ethics (organised by NMBU, Oslo)
SHAMISEN-SINGS WP1
Ph
oto
: A. C
abre
ra/I
SGlo
bal
Liudmila Liutsko
1) A leaflet of the SHAMISEN-SINGS Survey
Ph
oto
: P
. Llo
be
t/R
adia
tio
n p
rogr
amm
e, IS
Glo
bal
Ph
oto
: L.
Liu
tsko
/ISG
lob
al
E xperience from the Chernobyl and Fuku-
shima accidents has shown that radiation
measurements by citizens can create op-
portunities for providing information to individuals
and empower them to take decisions about their
own radiation protection, thus regaining control of
their lives.
Such measurements would also facilitate the inter-
pretation of official exposure levels and the formu-
lation of protective actions. With modern technolo-
gies, most of the necessary data for dose measure-
ments can be collected automatically, using mobile
devices and appropriate applications (apps). The
use of these technologies should thus be encour-
aged, but minimum quality and reliability standards
should be established and their misuse should be
avoided.
The objective of this WP was to review and im-
prove the use of plug-in devices and apps that con-
vert smartphones, tablets and other smart devices
into radiation detectors for self-made measure-
ments by different sectors of the population, and
to provide guidelines for data collection and use,
which is key issue for dose reconstruction.
Surveys showed that citizens are likely to use mo-
bile apps to measure radiation exposure, for in-
stance in areas contaminated by previous accidents
(Chernobyl, Fukushi-
ma), around nuclear
plants, or in the case
of a future accident.
It is therefore neces-
sary to provide them
with guidelines on
how to correctly per-
form and interpret
measurements, as
well as with infor-
mation on the
strengths and limita-
tions of devices and
apps. Public authori-
ties need to be pre-
pared for extensive
use of monitoring
devices in case of an
emergency.
Under SHAMISEN-
SINGS WP2,
strengths and
limitations of the
mobile apps for
radiation meas-
urements were
investigated.
A series of experi-
mental tests with commercial apps and devices
was carried out under varying conditions (such as
temperature, light, battery level, measurement
time) and with different mobile phone models.
Particular attention was paid to the errors re-
sulting from human factors, such as poor cover-
ing of the camera sensor (Figure below) or the
use of the mobile phone during data acquisition.
The final deliverable of WP2 was a toolkit with
necessary app characteristics and instructions for
use addressed to different stakeholders: 1) mo-
bile app developers; 2) citizens; and 3) local au-
thorities that can be involved in, and benefit
from, such measurements after a radiation acci-
dent.
D9.133 - Review of applications and devices for citizen dose measurement, Fattibene P., Della Monaca S., Liutsko L., Trompier F., Chumak V., Ohba T., Tanigawa K. (2018) available at https://www.concert-h2020.eu/en/Publications
D9.136 - Guidelines/concept for dose measurement apps and tools, Fattibene P., Angelis C., Della Monaca S., Liutsko L., Nuccetelli C., Trompier F., Chumak V. (2019) available at https://www.concert-h2020.eu/en/Publications
Citizen participation in radiation measurements
SHAMISEN-SINGS WP2
ID Card:
Work Package lead: Instituto Superiore di Sanità (ISS) Partners invloved in the WP: FMU, IRSN, UAB, ISGlobal; Expert: Vadim Chumak Open access of produced data: All disseminative materials will be published on the project website and ResearchGate:
1) Infographics “How to measure radiation with your mobile phone”
2) Videotutorials
3) A booklet (final version will be submitted at the end of May 2020) Internet link: https://radiation.isglobal.org/shamisen-sings/ Contact: Paola Fattibene
Related to: NERIS EURADOS SHARE
Special Issue 14
July 2020
Counts per minute acquired in 25 minutes. The camera was covered in both the acquisitions: in one case (black symbols) the sensors was protected by a black tape, in the other case (green symbols) the whole mobile phone was completely protected. This prevented the occurrence of light leaking through the phone chassis which can lead to unwanted exposure of the sensor to visible light.
Paola Fattibene
Graph: ISS
Ph
oto
: IS
S
I n recent years, communication technology
has progressed across the world, mobile
phones have become widely used, and mo-
bile device applications have become widespread.
At the same time, past nuclear accidents such as
Chernobyl and Fukushima have highlighted the
need to address the overall well-being of affected
populations, including eating habits, stress, daily
health status, and physical symptoms related to
radiation protection measures such as long-term
evacuation.
Under WP3, we first reviewed existing mobile
applications for data collection on health and well
-being indicators in the aftermath of a nuclear
accident. Our second study was to evaluate gen-
eral health and well-being assessment tools relat-
ed to radiation, based on lessons learned from
the Fukushima Daiichi nuclear power plant
(FDNPP) accident, and to prepare recommenda-
tions for how these tools can be used in mobile
phone applications.
In a first phase, we reviewed health applications
being used in Fukushima as part of the residents'
support activities after the FDNPP accident and
proposals to mitigate the physical and psychologi-
cal effects related to radiation measurements;
and summarized the content of the guidelines for
stakeholders. Then, we identified a series of examples derived
from the health and well-being assessment tools
used by the Fukushima Health Management Sur-
vey. The App used by Fukushi-
ma Prefecture provides a series
of incentives to support health
promotion activities. Projects
initiated by the Japanese Minis-
try of the Environment have led
to the development of two
useful information sources for
Q&As for the general popula-
tion and stakeholders.
Based on this work, we formu-
lated 8 recommendations for
the development of mobile
phone apps:
optimisation of indicators
balancing development costs
providing support sys-
tems for app users
providing incentives
for app users
preparing a series of
Q&As related to radia-
tion
paying special atten-
tion to vulnerable pop-
ulations (children, pregnant women, and the
elderly)
adapting the app for migrants or foreign visitors
considering ethics issues.
In conclusion, few existing applications for moni-
toring health parameters are adapted for nuclear
accident recovery. When developing a mobile
phone application to be used in this context, it is
important to ensure flexibility and convenience of
the tool in order to respond to community needs
that may change constantly. The major keys are
to work with the community, effectively share
opinions among users and stakeholders, and
package the tool with services to connect users
with appropriate health and well-being support
channels.
Optimisation of a mobile phone application’s interface for interactive support of residents returning after a nuclear accident, Ohba T., Lyamzina Y., Goto A. et al. (October 2019), ERPW2019, Stockholm, Sweden
Development of a mobile phone application for interactive support of residents returning after a nuclear accident, Ohba T., Lyamzina Y., Goto A. et al. (July 2019), RICOMET2019, Barcelona, Spain
Citizen participation in health and well-being monitoring
Special Issue 14
July 2020
ID Card:
Work Package lead: Fukushima Medical University (FMU) Partners invloved in the WP: ISGlobal, IRSN, WIV-ISP, NMBU, CEPN; Expert: Philippe Pirard Open access of produced data: All disseminative materials will be published on the project website and ResearchGate:
1) Infographics “How to measure radiation with your mobile phone”
2) Videotutorials
3) A booklet (final version will be submitted at the end of May 2020) Internet link: https://radiation.isglobal.org/shamisen-sings/ Contact: Koichi Tanigawa
[email protected] Related to: NERIS EURADOS SHARE
Koichi Tanigawa
Ph
oto
: Fu
tab
a M
edic
al C
ente
r
SHAMISEN-SINGS WP3
Landscape of our meeting
Photo: A. Goto/Fukushima Medical University
D9.138 - Concept/guidelines for apps and tools for radiation dose measurements and health and well-being monitoring, Liutsko L., Fattibene P., Sarukhan A., Brescianini S., Della Monaca S., Cardis E. et al. (2019) available at: https://concert-h2020.eu/en/Publications
D9.139 - Tutorial for apps and tools, including database management plan, Fattibene P., Della Monaca S., Liutsko L., Sarukhan A., Oughton D., Tomkiv Y., Cardis E. et al. (2019) available at: https://concert-h2020.eu/en/Publications
Concept and specifications of App(s) and/or
tools
T he goal of WP4 was to create a framework for use and development of mobile apps to measure dose and welfare. Based on
the input of WPs 1-3, the guidelines/concept for such monitoring apps/tools were elaborated and summarised. Regular interactions with stakehold-ers were organised to improve these. WP4 resulted in a description of the possible ben-efits of these apps for local and national stake-holders (citizens, medical and educational staff), as well as for Citizen Science projects). We out-lined essential characteristics of a management plan for data collected through dose and welfare apps, the requirements they must meet to be in-formative, the procedures needed to reduce measurement errors, data protection issues and ethical considerations as well as the physical and environmental limitations of the apps. We devel-oped infographics for the general public (“How to use your mobile phone to measure radiation”) as well as short video tutorials to accompany them, in 7 languages: English, French, Italian, Japanese, Russian, Spanish and Ukrainian. This material is available on the project webpage and in ResearchGate. The final results of the SHAMISEN-SINGS project were summarised in the form of a booklet entitled “Mobile apps for monitoring radiation doses, health and welfare in the context of a nuclear or radiological accident: Guidelines and recommen-dations for users, developers and public authori-ties”, a pdf version of which can be downloaded from the project website and printed. This booklet contains a set of recommenda-tions for the devel-opment and use of apps for measuring radiation doses and monitoring health/well-being indica-tors, particularly in the aftermath of a nuclear accident. The goal of these recommendations is to promote the correct use and interpretation of commercially avail-
able apps by citizens, provide au-thorities and profession-als with technical require-ments and ethical con-siderations for the use or sharing of citizen data, and to es-tablish a minimal standard of requirements for the development of future apps. The booklet provides recommendations for three different target audiences: a) public authorities and professionals in public health and radiation protection; b) app developers; and c) the general public. Altogether, these guidelines should help to en-gage citizens to participate in preparedness for, and recovery from, a radiation accident through the use of mobile apps. This should improve the resilience of affected populations and reduce pos-sible negative effects on their health and well-being.
ID Card:
Work Package lead: Scientific Institute of Public Health (WIV-ISP) Partners invloved in the WP: IRSN, ISGlobal, ISS; Experts: Vadim Chumak, Philippe Pirard Open access of produced data: All disseminative materials will be published on the project website and ResearchGate:
1) Infographics “How to measure radiation with your mobile phone”
2) Videotutorials
3) A booklet (final version will be submitted at the end of May 2020) Internet link: https://radiation.isglobal.org/shamisen-sings/ Contact: Liudmila Liutsko
[email protected] Elisabeth Cardis
[email protected] Paola Fattibene
[email protected] Deborah Oughton
[email protected] Related to: NERIS EURADOS SHARE
Special Issue 14
July 2020
Explanations how to measure radiation with a mobile phone app for general pu-blic (left); The SHAMISEN-SINGS recommendations booklet (right)
SHAMISEN-SINGS WP4
Co
llage
: L. L
iuts
ko/I
SGlo
bal
L. Liutsko & E. Cardis (up)
P. Fattibene & D. Oughton (down)
Infographics designer: M. Beltrán for SHAMISEN-SINGS
Special Issue 14
July 2020
2
A c c e s s t o I N F R A S T R U C T U R E S
Future events:
1st ISORED scientific and organisation
meeting, Sitges, Spain:
Postponed until spring 2021 because of
the COVID-19 pandemic. The new dates
will be communicated soon.
ERPW2020: European Radiation Protec-
tion Week 2020, Estoril, Portugal:
Postponed to 2021. More information
to be announced soon.
To verify for modifications
due to the COVID-19
outbreak!
See also on CONCERT website
Exposure platforms
FIGARO
B3, Animal Contamination Facility
Pulex Cosmic Silence
SNAKE
Radon exposure chamber
Biological Irradiation Facility
CIRIL
Mixed alpha and X-ray exposure facility
SCRS-GIG
Facility radionuclides
availability, transfer and migration
LIBIS gamma low dose rate
facility ISS
Microtron laboratory
Nanoparticle Inhalation Facility
Infrastructure for
retrospective radon & thoron dosimetry
1st CONCERT Call:
CONFIDENCE, LDLensRad, TERRITORIES
Alpha Particles Irradiator
Calibration Laboratory at KIT
Changing Dose rate (SU) Low dose rate (SU)
Chernobyl Exclusion Zone
MELAF
MICADO’LAB
DOS NDS
CALLAB
Radon Calibration Laboratory
Calibration and Dosimetry Laboratory (INTE-UPC)
NMG
MEDIRAD
UNIPI-AmBe
Databases, Sample banks, Cohorts
FREDERICA
The Wismut Cohort and Biobank
STORE
French Haemangioma Cohort
and Biobank
3-Generations exposure study
Wildlife TransferDatabase
Portuguese Tinea Capitis Cohort
Elfe Cohort
RES3T
INWORKS cohort
JANUS
EPI-CT Scan cohort
UEF Biobanking
Chernobyl Tissue Bank
1st CONCERT Call: CONFIDENCE, LDLensRad,
TERRITORIES
Chernobyl clean-up workers from Latvia
Belgian Soil Collection
Estchern Cohort
German airline crew cohort
Techa River Cohort (TRC)
MEDIRAD
Greek interventional cardiologists cohort
Analytical platforms, Models & Tools
RENEB
The Hungarian Genomics Research Network
METABOHUB
Dose Estimate, CABAS, NETA
PROFI
Radiobiology and immunolo-gy platform (CTU-FBME)
LDRadStatsNet
ERICA Tool
CROM-8
France Génomique
Transcriptomics platform SCKCEN
CATI
The Analytical Platform of
the PREPARE project
HZDR Radioanalytical Laboratories
1st CONCERT Call: CONFIDENCE, LDLensRad,
TERRITORIES
SYMBIOSE
Advanced Technologies Net-work Center
BfS whole and partial body
Counting
INFRAFONTIER
ECORITME
CERES
CORIF
Centre for Omic Sciences (COS)
iGE3
MEDIRAD
SNAP
Issue
Oct 2015, #1
Nov 2015, #2
Dec 2015, #3
Feb 2016, #4
Mar 2016, #5
Apr 2016, #6
May2016, #7
Jun 2016, #8
Jul 2016, #9
Sep 2016, #10
Oct 2016 #11
Nov 2016, #12
Dec 2016, #13
Feb 2017, #14
Special Issue 1
Mar 2017, #15
Apr 2017, #16
May 2017, #17
Jun 2017, #18
Jul 2017, #19
Sep 2017, #20
Oct 2017, #21
Nov 2017, #22
Dec 2017, #23
Special Issue 2
Feb 2018, #24
Published to date:
Editorial Committee: Maria Panagiotopoulou, Jean-Michel Dolo, Laure Sabatier
Special Issue 14
July 2020
2
A c c e s s t o I N F R A S T R U C T U R E S
Exposure platforms
2nd CONCERT Call: LEU-TRACK, PODIUM, SEPARATE, VERIDIC,
ENGAGE, SHAMISEN-SINGS
IRRAD
Forest observatory site in Yamakiya
Belgian NORM Observatory
Site
CERF
TIFPA
HIT
PTB Microbeam
AGOR Facility at KVI-CART LNK
PARISII
The MIRCOM microbeam
NSRL
IRSE Experimental Farm
PG stack at Barreiro, Portugal
LERF
FAIR
AMBIC
FRM II
CONFIDENCE
PODIUM
LDLensRad
ENGAGE
LEU-TRACK
CIEMAT External Dosimetry Service and
Retrospective Luminescence Dosimetry Lab,
AIFIRA Microbeam, The Calliope Facility,
ZATU
TERRITORIES
VERIDIC
HARMONIC
SHAMISEN-SINGS
Databases, Sample banks, Cohorts
2nd CONCERT Call: LEU-TRACK, PODIUM, SEPARATE, VERIDIC,
ENGAGE, SHAMISEN-SINGS
MARiS
BBM
The German Thorotrast Cohort Study
Mayak PA worker cohort
RHRTR
The TRACY cohort
The BRIDE platform
The ISIBELa cohort
The ISE cohort
LSAH & LSDA
The MWF database
CONSTANCES
IMMO-LDRT01 cohort
The BACCARAT study
LSS
REQUITE
CONFIDENCE
PODIUM
LDLensRad
ENGAGE
LEU-TRACK
The ‘hematopoietic system’ database for Mayak nuclear workers chronically exposed
to ionizing radiation
TERRITORIES
VERIDIC
HARMONIC
SHAMISEN-SINGS
Analytical platforms, Models & Tools
2nd CONCERT Call: LEU-TRACK, PODIUM, SEPARATE, VERIDIC,
ENGAGE, SHAMISEN-SINGS
BIANCA
OEDIPE
VIB Proteomics Core
Geant4-DNA
D-DAT
COOLER
BRENDA
MARS beamline at SOLEIL
CIEMAT WBC
EFFTRAN
GeneLab
DSA Environmental Laboratory
The MCDA Tool
Radiochemical and Radioac-
tive Analysis Laboratory (INTE-UPC)
CIEMAT In Vitro Internal Dosimetry Laboratories
LRM
TU Dublin Analytical Platform
CONFIDENCE
PODIUM
LDLensRad
ENGAGE
LEU-TRACK
TERRITORIES
VERIDIC
HARMONIC
SHAMISEN-SINGS
Issue
Special Issue 3
Mar 2018, #25
Apr 2018, #26
May 2018, #27
Jun 2018, #28
Jul 2018, #29
Sep 2018, #30
Oct 2018, #31
Nov 2018, #32
Dec 2018, #33
Feb 2019, #34
Special Issue 4
Mar 2019, #35
Apr 2019, #36
May 2019, #37
Jun 2019, #38
Jul 2019, #39
Sep 2019, #40
Special Issue 5
Special Issue 6
Special Issue 7
Special Issue 8
Special Issue 9
Special Issue 10
Special Issue 11
Special Issue 12
Special Issue 13
Special Issue 14
Published to date:
Editorial Committee: Maria Panagiotopoulou, Jean-Michel Dolo, Laure Sabatier
