Practices and Requirements of Stakeholders Involved in the Clinical
Evaluation of Innovative High-risk Medical Devices: A Qualitative
Study
Catherine Roussel
1
, Alexandrine Salis
2
and Sylvia Pelayo
3
1
INSERM CIC 1415, University Hospital, Tours, France
2
INSERM FCRIN UMS 015, University Hospital, Toulouse, France
3
Univ. Lille, INSERM, CHU Lille, CIC-IT 1403 - Centre d'Investigation Clinique, EA 2694, F-59000 Lille, France
Keywords: High-risk Medical Device, Risk, Evaluation, CE Marking.
Abstract Medical Devices are health products that combine complex technologies and new organizations. They are
under high constraints, both economic and regulatory, but also in terms of quality and safety requirements.
The new European regulation comes in addition and questions all of the actors of the maturation process from
the idea-to-market for medical devices (MDs). The objective of this qualitative study was to collect and
analyze feedback from various European stakeholders involved in the clinical evaluation of medical devices,
with a special focus on innovative high-risk medical devices. This paper presents the results of the first phase
which scope was limited to France with sixteen interviews. Results show the complexity of the clinical
evaluation of MD, particularly when dealing with an innovative, high-risk medical device. The need for
training and support of actors through specialized platforms was highlighted, as well as the need for
coordination between public and private actors, from the upstream phases of R&D. The collection of clinical
data must be part of an overall strategy considering the maturation cycle of the product and its different
dimensions. The collection of real-life data must be amplified and structured, with the contribution of new
digital technologies opening up new fields of research. This approach must be strengthened by (i) the
development of methods based on choices justification, and (ii) making it possible to capitalize on and cross-
reference data on the Medical Device throughout its life span. The brief overview provides convergent
conclusions, but the understanding of the required level for the evaluation of medical devices and of the way
to reach it was not uniform. This reflects a heterogeneous sector and it introduces the need of compromises
regarding development strategies and methodological approaches.
1 INTRODUCTION
What complexity when you are interested in medical
devices (MDs) and their evaluation! You find a large
and heterogeneous field of products with a
combination of advanced technologies. These are
essential tools in the delivery of innovative medical
care, in acute or chronic diseases as well as care of the
elderly. The transformational process from the idea to
the market requires many actors and experts to go
beyond high constraints as performance and safety of
the medical device, quality, regulatory, and economic
requirements. Scientists, industrialists and regulatory
bodies are lead to improve their skills and
organizations to be able to develop robust evaluation
of their MDs. Thus, they will ensure a better access
of European innovations in competitive international
markets. Approaches and methods for MDs
development are very specific, particularly with
regard to clinical evaluation. Stakeholders of the
domain are concerned about the impact of the new
European regulation (UE) 2017/745 which now
requires to carry out clinical investigations for high-
risk devices (current class III medical devices and
implantables), this based on a stringent and
continuous evaluation plan all along the product
lifetime. Regarding the dynamic of the industrial
sector mostly containing very small or small
companies, these changes have to be supported. In
this context, it is interesting to question the level of
convergence of the various stakeholders involved in
the evaluation of MDs, in terms of practices and
needs, especially for the development of innovative
high-risk devices.
Roussel, C., Salis, A. and Pelayo, S.
Practices and Requirements of Stakeholders Involved in the Clinical Evaluation of Innovative High-risk Medical Devices: A Qualitative Study.
DOI: 10.5220/0009372903290336
In Proceedings of the 13th International Joint Conference on Biomedical Engineering Systems and Technologies (BIOSTEC 2020) - Volume 1: BIODEVICES, pages 329-336
ISBN: 978-989-758-398-8; ISSN: 2184-4305
Copyright
c
2022 by SCITEPRESS – Science and Technology Publications, Lda. All rights reserved
329
The purpose of the project was to gather and
analyse feedback from European stakeholders
involved in the clinical evaluation of innovative,
high-risk medical devices: academic researchers,
clinicians, promoters, notified bodies, French health
authorities, the ANSM (French Agency for the Safety
of Health Products), the HAS (the French national
Health Authority), the CNEDIMTS (the National
Commission for the Evaluation of Medical Devices
and Health Technologies) and manufacturers. This
work was a first step focused on French stakeholders.
The objectives were:
to elucidate how the clinical evaluation of medical
devices is performed;
to grasp the key points and success factors in the
clinical evaluation of medical devices;
to evaluate the main obstacles to the development
of medical devices;
to identify the various expectations and
recommendations of all those involved.
2 METHOD
An exploratory research method was used to
investigate the question, not clearly defined and
formalized at the time being, to have a better
understanding and overview. The method of survey
was chosen to gather information from a predefined
group of respondents. A group representing most of
the relevant stakeholders in the domain was defined
to reach as far as possible data saturation. Semi-
structured interviews were performed with the
various players in the MD sector over a period of one
and a half months, from the end of March to mid-May
2019.
Stakeholders who took part in the study were all
involved in the clinical evaluation of innovative
medical devices. The sample was chosen to be
representative of all those involved in the cycle of
innovation, both from the public and private sectors :
academic promotors (head of platform,
methodologist and project coordinator in a living lab),
university hospital pharmacovigilance manager and
the head of the medical device committee
(Commission for medicinal products and sterile
Medical devices- COMEDIMs), University Hospital
surgeons (orthopaedic surgery network) and private
clinic surgeons, representatives from the medical
device industry (CEO, regulatory officer, distributor),
SNITEM professional organisation, French
authorities in charge of evaluating the ANSM files,
HAS files.
All stakeholders were asked to talk about their
practices, needs, difficulties and potential suggestions
to facilitate the process. The contents of the
interviews were processed in a transversal way to
pinpoint recurring themes and keywords from the
verbatim reports, with two readings performed by 2
independent operators.
Sixteen interviews were performed lasting ~1
hour. Eleven interviews were held over phone and
five of them were face-to-face. All the verbatims were
transcribed. A content analysis was performed to
identify the most recurrent themes. The most
significant verbatims were kept to illustrate the
purpose and to respect the integrity of the statements
without any bias.
3 RESULTS
Feedback from the experiences of the participants
particularly emphasized the heterogeneity of the
sector and the diversity of existing MDs. Nine topics
of interest presented hereafter, transpired from the
study: first, the particular aspects to MDs were
naturally highlighted. The eight other topics merge in
two parts: on the one hand the key points related to
the evaluation of MDs, including the risk assessment,
and on the other hand the needed strategy for
developing MDs. These results are close to already
known data, in particular some of which were
presented in the General Economic Council reports
(Picard, 2017, 2019).
3.1 Particular Aspects of MDs
What came out of this work is that the demonstration
of conformance to essential requirements requires to
take into consideration many specific aspects to MDs
and their evaluation. Indeed, while some aspects are
common to the development of a drug or a health
product in general (regulatory aspect, extension of the
indication, collaborative mode, risk, market…), some
others are typical of the evaluation of MDs (e.g.
evolutivity, usability, engineering, performance,
psycho-social aspect, context of use).
High-risk MDs are all the more concerned by
issues such as instrumental, biocompatibility,
reprocessing procedures, product lifespan and real-
life monitoring aspects.
With this in mind, one of the new requirement
imposed by the new European regulation could help:
the unique reference number of legacy devices (IUD)
which will be used for the registration on a european
database named EUDAMED. This new interoperable
ClinMed 2020 - Special Session on Designing Future Health Innovations as Needed
330
EUDAMED will be multipurpose: a registration
system, a collaborative system, a notification system,
a dissemination system (open to the public). Thus,
IUDs could help monitor the device timelife and
influence both the evaluation approach and the
overall strategy plan.
One of the Success Factors in the Development
of a MD is the Consideration of All These
Specificities and in All the Various Aspects of the
Evaluation, Right from the Early Stages and
Throughout the Product Lifetime.
3.2 Evaluation Approach for MDs
3.2.1 Issues with the Instruction of Study
Design Files by the Different
Competent Authorities
The European regulation (UE) 2017/745 introduced a
reinforcement of responsibilities and scope of
regulatory authorities. In France, this has
significantly modified the studies concerned, the
involved actors and the CE marking files evaluation
process, which has led to difficulties with regards to
the files instruction:
Within the Institutional Review Board (IRB):
blockages, longer waiting times, disparity of
evaluations, lack of expertise of members of the
boards, increase in the volume of studies.
Reinforcing the Skills of Notified Bodies (NB)
is Also Identified as a Necessity: the European
regulation has a strong impact on the NBs work:
difficulties in obtaining or renewing CE marking,
blockages, lack and search for competence; the
NB’s expectations are reinforced with
anticipation (right from before 2020); evaluations
depending on evaluators; the lack of clarity in
regulatory requirements giving way to
interpretations, and leading to differing opinions
within the teams of evaluators; heterogeneity of
expectations for the validation of special
processes (sterilisation, cleaning) between Class
IIa and III MDs.
Better Linkage between Expectations and the
Responses of the Various Regulatory
Authorities Has Become Essential: A lack of
clarity in recommendations transpired as well as a
lack of coherence or linearity in the evaluations
« a superposition of evaluations » and the absence
of a direct link between evaluations, causing
misunderstandings. CE marking evaluation and
evaluations for reimbursement purposes
correspond to different requirements. The
manufacturers need to really know the
requirements of each desk as well as their criteria,
in order to coordinate their studies and capitalize
the data collected. This requires good
coordination in the recommendations in a context
of regulatory change.
A strong Expectation for Official Guidelines
(Regarding European Regulation) Was Brought
to Light, as Well as the Necessary Corresponding
Training for All Those Involved to Avoid
Evaluator-Dependent Evaluations.
On the other side, authorities have reminded the
importance to improve the quality of submitted files
with a robust, rigorous and scientific procedure.
One of the Recommendations Was to Carefully
Line up the File-building for the CE Marking with
the Expectations of the Regulatory Bodies; a
Strong Argumentation for the Technical and
Methodological Choices May Help the Evaluators
When Examining the Files.
3.2.2 Importance of a Multidisciplinary
Evaluation Approach
Several points were emphasized by the different
stakeholders:
The importance of integrating a global highly
expert multidisciplinary approach in the
evaluation of a medical device was especially
emphasized by health authorities;
All of the participants agreed with the need to
facilitate connections and interfaces, with
accompaniment from platforms or structures,
“specific and reactive places for evaluation”, to
stimulate the clinical investigations and reinforce
the cooperation between industrials and academic
centers (e.g. https://www.cic-it.fr/ ;
https://www.forumllsa.org/).
Formalising the industrial’s expectations right
from the first contacts by using specific tools as a
« Project form» is advised by the platforms
managers;
The difficulty of billing this accompaniment (e.g.
in the file-building stages of application to Calls
for Projects),
A reminder that the members of regulatory
authorities don’t have an advisory role;
The lack of visibility on existing academic
support structures and the lack of gateways.
The Importance of Developing a
Multidisciplinary Approach to Get through All
the Stages of the MDs Life Cycle Was Elucidated
Along with the Contribution by Dedicated
Platforms/Structures and Academic Skills.
Practices and Requirements of Stakeholders Involved in the Clinical Evaluation of Innovative High-risk Medical Devices: A Qualitative
Study
331
3.2.3 Recommendations from Competent
Health Authorities for Clinical
Investigation
Stakeholders from the different health authorities’
structures stressed several specific points related to
clinical investigation:
To search for a cutting-edge infrastructure where
studies can be conducted, to be able to comply
with both logistics and reactivity needs;
The idea of « right choice » is highlighted for
several aspects, i.e. not just regarding the “right”
investigators, but also the “right” location of
investigations and the “right” methods;
To justify the procedure, the made choices with a
logical approach: « What question do I have to
answer? What would be the appropriate
methodology? Why can’t the ideal model be
applied? How can I break down the model and
how can I justify the final methodology I’ve
chosen? »
The advisable sources can be found on the HAS
website (HAS, 2017, 2019). The methodological
guides of the United Kingdom (NICE Guidelines
– National Institute for health and Care
Excellence) are also quoted as a reference.
The Justification of Choice in Terms of
Methodological Approach is Strongly
Recommended by People in Charge of Evaluating
Regulatory Files. The Choice of the Best
Methodology Depending on the Specificities of a
MD is Presented as a Key Factor. Thus,
Establishing Original Models is One of the Major
Challenges for the Domain. With This in Mind,
Public/Private Collaborations Appeared to be
Essential. The Importance of Being able to
Identify the Right Investigators was Emphasized,
as Well as Being Able to Find the Supporting
Structures. Those Are Essential for the Smooth
Running of Studies.
3.2.4 Importance of Users and Usability
Studies
The points underlined about usability studies were as
follows:
The importance of taking into account feedback
from users in the development of a MD;
Usability studies which may take place early in
the process and all along the development cycle;
Usability formative evaluations positioned
upstream may lead to early feedback;
In final phases, the absence of new risks may be
validated through usability summative evaluation
before CE marking: the figures are well defined,
with a clear purpose, the method is clearly
identified, i.e. user testing. The medical device’s
risk level does not seem to have any impact;
In the design phase, the degree of fidelity of the
simulation may be greater or lesser depending on
the type of MD, with a high level simulation for
high risk medical devices (simulation
laboratories, phantom);
During post-market evaluation, interviews may
serve to understand the actual use and feedback on
incidents; a decision tree may be formalized to
evaluate the interest of going back to a usability
evaluation. The risks related to the use of the MD
must be re-assessed as the MD evolves. For these
real-life studies, the methods are the same but
study designs must be provided for depending on
the context: town/hospital, public/private sector,
etc.
The interest of developing protocols combining a
clinical study with the use of the MD is stressed.
However, these methods have not yet been
completely successful: « It’s complicated to add
an extra secondary objective to a protocol which
already holds many questions. The investigation
time may still be leveraged to lead to ancillary
observations ».
Usage Studies (User-based Studies) Now Have
All Their Importance in the Evaluation of
Technological Innovations and May Be Used and
Adapted throughout the Lifecycle of MDs. In a
Context Dictated by Organizational, Time and
Budgetary Restrictions, it Has Become Interesting
to Develop Methodological Approaches
Combining Both Clinical and Usage Aspects.
3.2.5 Role of the MDs Risk Level
Finally, one of the purposes of this work was to
identify the role of the risk level of the MD in the
strategy and the evaluation methods:
The notion of risk appeared as a rather relative
datum: « Rather talk about MDs subjected to
mandatory clinical investigation; not forgetting
everything that’s non-implantable (quality
defects, raw materials); there is no “small” DM
».
The evaluation methods were not presented
differently by the participants according to the
MD Class. The essential requirements are similar
whatever the Class, just the level of requirements
is higher with a mandatory clinical investigation
for implantable and Class III MDs (except in cases
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wherein resorting to existing clinical data may be
rightly justified).
The HAS report on the elaboration of guidelines
on the methodological specificities of clinical
evaluation for MDs indicates that « the methods
for evaluating connected medical devices are
identical to those of other devices… the
complexity of evaluating a connected medical
device has been emphasized due to its
organisational impact and its impact on the
patients ». The CNEDiMTS files evaluated in this
report concern many implantable connected
medical devices.
The ANSM’s « Degree of originality » form
relative to medical devices proposes several
degrees of originality (from minor to major
innovation), depending on the level of
technological breakthrough and clinical impact.
Perhaps this type of segmentation could act as a
better guide for new methodological
recommendations than categories of risk?
It Was Revealed That a MD Should Be
Analysed as a Whole, beyond Merely Identifying
the Risk Category. « The clinical investigation is
mandatory for implantable and Class III medical
devices, and its absence remains the exception ».
3.3 Overall Strategy for MDs
Development
3.3.1 Critical Points for the Small
Companies and Start-ups of the MDs
Domain
Several points were highlighted as critical for small
companies or start-up:
The importance of having a strategic vision right
from the design stage and defining the position of
the MD in the therapeutic arsenal early on.
The importance of involving experts in the field
(health professionals, key opinion leaders) right
from the early stages to match the requirements of
industrials with the expectations of clinicians and
establish the development plan. The
manufacturer’s participants emphasized the
difficulties in identifying and approaching clinical
experts. Most of the participants agreed on the fact
that public platforms/structures could facilitate
this contact.
The importance of working out the business plan
very early on (target: French, European or other
market) in order to anticipate the procedures and
studies to be carried out; plan the economic model
from the outset depending on the claims, potential
sources of funding, and envisage public/private
collaborations to benefit from national or
European public funding. The HAS (French
national Health Authority) innovation grant
provides co-funding for clinical studies on highly
innovative medical devices by the public
authorities. “The sense of anticipation is a key-
factor for DMs development”.
Work is currently being carried out to establish
centralised procedures on a European level:
EUnetHTA network (European Network for
Health Technology Assessment), and INAHTA
(International Network of Agencies for Health
Technology Assessment), and early meetings are
being set up.
To Manufacturers, We Give the Following
Advices: Anticipate Their Overall Strategy,
Validate Their Clinical Claims with Experts from
the Field and Anticipate Their Economic Model.
3.3.2 Access to the Market and
Marketing
It is recommended that manufacturers anticipate the
reimbursement request process: in France, the
National Commission for the Evaluation of Medical
Devices and Health Technologies (CNEDiMTS)
gives notice based on criteria defined in the
regulations. The interviews did not highlight any
evidence of criteria specific to high risk MDs. The
requirement level appears to be appropriate to the
clinical context; hence there are more requirements
for high-risk and implantable medical devices.
The Functioning of the Public Sector Was
Pointed Out: hospital procurement procedures are
subject to government rules; the purchasing process
at the hospital is highly complex and lacks visibility
for industrialists.
The indexing of innovative devices in public
health facilities appeared to be structured:
In short, knowledge about the requirements for
this evaluation may help to guide the right choices
regarding criteria to be evaluated upstream, and
what methods should be used to achieve it.
Constituting a multidisciplinary indexing
committee proved to be pertinent for evaluating
and validating the purchase of a medical devices:
evaluation of the interest of the medical device
relative to the existing therapeutic arsenal,
evaluation of practices, requirements,
contribution to safety and the level of safety,
intended use, cost (link with the Estimated
Revenues and Expenditures). Clinical studies as
well as publications are involved in the decision-
Practices and Requirements of Stakeholders Involved in the Clinical Evaluation of Innovative High-risk Medical Devices: A Qualitative
Study
333
making. A lack of comparative studies versus the
gold-standard device and links between studies
was revealed; knowledge of the medical device as
a whole remains a real difficulty for end-
users (product lifespan, conditions of re-use,
means of sterilization, evolution of the medical
device...).
Analyse of various pertinent criteria for
evaluating the quality of the product (the medical
device itself and its packaging) relative to the
medical device retained as a reference, with a
weighting system; the medical advice must
overtake the economical interest only. An official
regulatory decision tree is also interesting for
material vigilance decisions.
A Comparison with Operations in the
Private Sector Appeared to Be Interesting:
Absence of a tender process or an indexing system
is a difficulty for practitioners; the choice of
medical device seems to be made depending on
available stock, and the sales force.
Superiority studies and available post-market data
are also insufficient with respect to the ever-
changing nature of surgical equipment.
Material Vigilance Monitoring and Post-
market Studies Were Another Point for Attention:
For Class III and implantable medical devices the
monitoring plan (PMS = Performance Monitoring
System) is updated at least once a year.
The particular example of implantable prostheses
was studied: the basic specifications must be
developed, specifying « how many prostheses, at
how many years, with what follow-up, what grid
should we use to evaluate the product The
guidance of the National Institute for Health and
Care Excellence (NICE) are still precise ; in
France, it depends on the experts ».
Favouring studies in which the University
Hospital is the promotor of the study would allow
the manufacturer to guarantee independence of
data, and favour the publication of negative
results.
The extent of post-market follow-up (type of
study, duration of follow-up) is confronted with
the principle of reality. It comes down to finding
the right compromise in order to remain within a
reasonable price-range.
The Conclusions Retained are That
Manufacturers Must Present a Clear Process
Regarding Their Claims, to Construct an
Appropriate Clinical Development Plan, so That it
is Possible to Obtain Data on the Clinical Benefits
and Position of the Medical Device in the
Therapeutic Strategy.
3.3.3 Need of Accompaniment and Training
of Stakeholders
Scientific approaches and methods used to
demonstrate the efficacy of a MD in the current
files have their limits;
There is a real need for learning, teaching and
accompanying in the construction of a
development plan and at each stage of
development;
The lack of a global vision and knowledge about
the various stages in the progress of MDs, the lack
of information and referencing of the players to
solicit is presented as difficulty.
The official guides, supports, summary
documents are difficult to identify.
Awareness of the New Regulation, Training
and Accompaniment of Those Involved Has
Become a Challenge for the Development of
Medical Devices.
4 DISCUSSION
The analysis of all the feedbacks from experiences
showed the complexity of the clinical evaluation of
MDs, particularly when dealing with an innovative,
high-risk MD, “manufacturers have to develop
cutting-edge expertise or deep analysis in very
diverse fields”. Regarding this, emphasis should be
placed on: make the industrials aware of the problem,
strengthen training and developing accompaniment
via specialised platforms, as well as favour
interactions between all those people involved in the
evaluation. “The innovative start-ups succeed if
gathering a set of technical regulatory and clinical
skills”. However, “there is a lack of skills, gateways,
advices and organizations”.
The gathering of clinical data must be reinforced
and anticipated in accordance with the overall
strategy, with the establishment of new adaptive
methodologies responding to the specific
requirements of a medical device evaluation. This
should open a wide range of opportunities to adapt
existing models or create new ones. Real-life data
collection must be amplified and structured with the
contribution of new digital technologies (big data),
opening new fields of research.
The overall strategy of manufacturer must be
anticipated and this should draw on a methodological
procedure based on justifying choices according to
ClinMed 2020 - Special Session on Designing Future Health Innovations as Needed
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clinical and therapeutic benefits and the interest of the
various available options and economic models for
public health. Lastly, as part of the reinforcement of
regulatory requirements, regulatory bodies must gain
coherence and homogeneity. It is important to issue
official recommendations. Linkage and structuration
of the players in the sector must be continued, taking
into account all needs in terms of resources (human
resources and expertise) to find the right balance and
continue to innovate.
Within the group of MDs, high-risk devices may
pose a greater risk to patients. Several European
organisms stress the importance to shape, within the
limits of the European legal framework, a coherent set
of rules, procedures, referentials for a guided,
responsible and reasoned maturation process of this
specific kind of MDs (Neyt et al., 2017). This work is
a first step with the gathering of feedbacks from most
of the French stakeholders involved in the process.
The work will be continued by a collection of data at
a more European level as part of a European project
to support and guide stakeholders considering
bottlenecks and strenghts of all the European
countries.
Some biases of the study have been identified.
The biases related to the sample are:
The profiles of certain protagonists who had more
experience of Class I MDs rather than high-risk
MDs;
The absence of inclusion of some important
perspectives in the interview panel such as the
end-users (e.g. patients, healthcare professionals),
specialized scientific societies, Notified bodies
and the Commission for the evaluation
(CNEDiMTS).
The biases related to the method are:
The possible lack of thorough questions about the
methods in the cases of high-risk MDs;
The study was performed over a short period and
in a highly evolving context. The issues identified
must be regularly put into perspective;
These results will have to be completed by a
« quantitative » investigation via a new
questionnaire focused on innovative high-risk
MDs;
Three themes deserve to be addressed to complete
the study: first, the ethical vision (questions about
the risk-benefits ratio, acceptance of the
technology or dependence on it, the choice and
appropriation by the patient or the medical
profession); second, the difficult question of
conflicts of interest among experts; and third, the
unavoidable aspects of intellectual property which
must be mastered right from the beginning.
5 CONCLUSION
This qualitative survey provides a current field
overview of some actors at French national level
regarding the clinical evaluation of MDs. There is a
growing awareness of the need to harmonize actions
around the evaluation of DMs.
Through the different points of view and the
topics addressed, the comments converged to express
the interest of a global evaluation strategy of the MD
and a methodological approach taking into account
the entire maturation cycle and the specific
dimensions of each DM, in particular for high risk
MDs. However, this approach must be strengthened
by the development of methods to capitalize and
combine DM data throughout its life cycle. A better
coordination between public and private actors,
starting from the upstream phases of R&D, will help
researchers, developers, academics, industrials,
pharmacists, hospitals professionals, to conduct first
a prototype to a CE marked product and then a CE
marked product to a reimbursed product.
REFERENCES
Haute Autorité de Santé (2019). Spécificités
méthodologiques d’évaluation clinique d’un dispositif
médical connecté (DMC) : Rapport d’élaboration du
guide sur ses spécificités d’évaluation clinique, en vue
de son accès au remboursement. Retrieved from
https://www.has-sante.fr/portail/upload/docs/applicati
on/pdf/2019-02/rapport_methodologiques_devaluati
on_clinique_dun_dmc.pdf
Haute Autorité de Santé (2019).
Guide_sur_les_specificites_devaluation_clinique_dun
_dmc_en_vue_de_son_acces_au_remboursement.
Retrieved from https://www.has-sante.fr/portail/up
load/docs/application/pdf/2019-02/guide_sur_les_spe
cificites_devaluation_clinique_dun_dmc_en_vue_de_s
on_acces_au_remboursement.pdf
Haute Autorité de Santé (2019). Principes d’évaluation de
la CNEDiMTS relatifs aux dispositifs médicaux à usage
individuel en vue de leur accès au remboursement.
Retrieved from https://www.has-
sante.fr/portail/upload/docs/application/pdf/2017-11/
principes_devaluation_de_la_cnedimts-v4-161117.pdf
Haute Autorité de Santé (2017). Parcours du Dispositif
Médical en France : Guide pratique. Retrieved from
https://www.has-sante.fr/portail/upload/docs/applicati
on/pdf/2009-12/guide_pratique_dm.pdf
Moreau-Gaudry, A., Pazart, L. (2010). Développement
d’une innovation technologique en santé : le cycle
CREPS, Concept-Recherche-Essais-Produit-Soins.
Innovation and Research in BioMedical engineering,
31, 12-21.
Practices and Requirements of Stakeholders Involved in the Clinical Evaluation of Innovative High-risk Medical Devices: A Qualitative
Study
335
Neyt, M., Baeyens, H., Pouppez, C., Slegers, P., Hulstaert,
F., Stordeur, S., Vinck, I. Introduction of high-risk
medical devices: national measures that can be taken
under the current European legislation to put the patient
interest central. Expert Review of Medical
Devices14:3, 181-188.
Picard, R., Renaud-Mazataud, N. (2017). Attractivité de la
France pour les entreprises de santé. (Rapport
N°2017/06/CGE/SG). Conseil Général de l’Economie.
Picard, R., Fagon, J.-Y., Diebolt, V., Oget-Gendre, C.
(2019). Réflexions stratégiques sur la politique
industrielle en matière de dispositifs médicaux.
(Rapport N°2018/26/CGE/SG). Conseil Général de
l’Economie.
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