An e-Conference by Barry Sands
Available OnDemand and on CD .
If you are planning a clinical trial in Europe, now is the time to learn about risk management in clinical trials. Risk management plays a critical new role in ISO/FDIS 14155 "Investigation of medical devices in human subjects—good clinical practices". The standard is expected to be published in late 2010 or early 2011 and will be incorporated into the AIMD and MDD immediately; there will be no phase in period.
Compliance with risk management is required
The
ISO 14971, "Medical devices—Application of risk management to medical
devices" standard is a normative reference for ISO/FDIS 14155; meaning
its implementation is indispensable for the conduct of clinical trials.
In other words, in order to be compliant with ISO/FDIS 14155, the entire
clinical trial process must also be compliant with ISO 14971.
Hazards, harms, and risks in clinical trials
It's
simple: in risk management terms a hazard is a situation that could
cause harm, a harm is an adverse event, a risk is the likelihood that
the harm will occur. For example, a lose connection is a hazard, an
unwanted electrical shock is a harm, the risk is the mathematical
probability that the harm will occur. In a clinical trial you focus on
subject-centric risks: what happens to the subject if the device's
handle falls off? What happens to the subject if the procedure takes too
long? Then you consider the probability that the adverse event will
occur and the severity to the subject if it does occur.
Risk and its application to clinical trials
Applying
risk management to making sound/informed decisions on clinical study
initiation, suspension, modification, reinitiation and stoppage are
among the most intense decisions your organization will make. These
decisions affect patient safety, clinician/surgeon
reputation/relationships, company reputations and product liability.
As clinical research professionals responsible for these studies you aren't unfamiliar with risk concepts, but you will have to learn a new language. For example, what is the difference between risk estimation, risk analysis, risk assessment, risk evaluation, risk control, residual risk, a risk analysis report, risk management, and a risk management file? Here is a partial list of some of the issues you will face with regard to risk management.
Clinical evaluation report
The ISO/FDIS 14155
(2010) takes a whole new strategy toward initiating a clinical trial.
Before you start writing the protocol you review the scientific data to
prepare a clinical evaluation report consistent with the principles of GHTF Study Group 5.
CDG has written several whitepapers on how to prepare clinical evaluation reports and scientific
literature reviews. One outcome of the clinical evaluation report is a
justification for the design of your clinical study.
Risk analysis report
Another outcome of the
clinical evaluation report is a Risk Analysis Report. "What's that?" you
ask? It is a table of potential adverse events (i.e. harms) that may
occur to the subject as a result of participation in the trial. The list
includes all the adverse events that might occur from use error (say,
perforating the bowel during a colonoscopy), device malfunction (a laser
that over-delivers energy), or the procedure itself (tooth loss
following radiation for head and neck cancer). Then the next columns of
the table identify the frequency with which the event will occur, the
severity of the event if it does occur, the risk (likelihood) that the
event will occur, how you will mitigate the event (protect against
occurrence or treat should it occur), and finally any residual risks
left after mitigation. The table might look like this:
RISK ANALYSIS REPORT
POSSIBLE ADVERSE
EVENT | FREQUENCY | SEVERITY | RISK | MITIGATION | RESIDUAL RISK
The standard is serious about risk management; any serious adverse event that occurs and is not identified in the Risk Analysis Report is considered unanticipated and is subject to expedited reporting.
There is a skill to writing Risk Analysis Reports. One colleague prepared a three page report on the risks of removing medical tape from your skin. Don't include so many minor harms that you obfuscate the important ones. Don't omit serious harms, even when they have only a slight chance of occuring. Update the Report and the Investigator's Brochure whenever there is a change in perceived risks.
Informed consent
It isn't enough to prepare a
Risk Analysis Report; you have to share it with the subject as part of
the informed consent.
Resulting decisions
You will decide whether or
not to establish a data monitoring committee based on the findings in
the Risk Analysis Report. You will decide whether or not to audit the
study based on the Risk Analysis Report. You will determine the
follow-up period based on the Report, the follow-up period should be
long enough to asses whether or not a harm occurs. And the decision to
suspend or terminate a study due to unacceptable risk to subjects will
follow naturally from the Risk Analysis Report.
Final report
The conclusion section of the final
report shall assess the risks and benefits of the investigational device
and identify any groups of persons that are at particular risk.
Expertise in ISO/EN 14971
I've asked Barry Sands
to walk us through ISO/FDIS 14155 and ISO/EN 14971 and examine all the
ways in which risk and risk concepts are to be applied to clinical
trials. Barry is experienced in both clinical research and risk
management and we are lucky to have him. He will provide examples on how
this process was and was not effectively applied to actual medical
device clinical trials.
If you liked this whitepaper, take the e-conference
In
this e-conference you will learn how to apply risk management concepts
to the clinical research process. You will learn how risk management
allows a manufacturer to make more objective and informed decisions
about when to initiate, suspend, restart, modify or stop a clinical
study. And you will learn how specific risk management tools can assist
in these clinical study decisions.
You will receive
[x] PowerPoint slides.
[x] An
expert speaker who has worked for industry and FDA.
[x] Knowledge
essential for ISO/FDIS 14155 compliance.
[x] Chance for Q&A.
[x]
CEUs and certificate of attendance.
[x] Please purchase your own
copy of ISO/DIS 14155 from DIN and ISO/EN 14971 at www.iso.org.
Who should attend?
[x] Anyone who's considering a
device trial outside the United States.
[x] Anyone who monitors
clinical trials outside the United States.
[x] Regulatory
professionals who prepare documents for CE certification and marking.
[x]
Regulatory professionals submitting foreign data to FDA.
[x] FDA
personnel who review data from foreign trials.
[x] FDA inspectors who
inspect foreign sites or sponsors.
Instructor
Mr. Barry Sands is a biomedical engineer with a
chemical engineering concentration. He has seven years experience as a
Biomedical Engineer and Sr. Scientific Reviewer at FDA/CDRH/ODE and
FDA’s Boston District. This government experience was followed with
seventeen (17) years in midlevel and executive
regulatory/clinical/quality affairs management positions in small
start-up and large multinational medical device companies. His firm
provides support in the areas of regulatory submissions (510k, IDE, PMA,
HUD/HDE, Design Dossiers), Clinical Study Design/Management, Risk
Management, Quality System Design/Audits (FDA QSR and ISO 13485) and FDA
Negotiation and Communication (QSR Audits, 483s, Warning Letters,
Bioresearch Monitoring, Medical Device Reports, Recalls). He can be
reached at barrysands@rqmis.com.
System requirements
[x] Personal computer.
[x] Internet
Access.
[x] Telephone.
The purchase is $424 for OnDemand access and $474 for the CD. Each attendee is eligible for 0.15 CEUs upon completing the course feedback via the link provided with the event materials. Click here to purchase.
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