pharmacovigilance
TRANSCRIPT
Moderator: Dr. Mohammad Tariq Salman
Presented by : Dr. Fariha Fatima
Junior Resident 1
Pharmacovigilance
What is Pharmacovigilance
???
“The science and activities relating to the detection,
evaluation, understanding and prevention of adverse
drug reactions or any other drug-related problems.”
Pharmakon (Pharmacon) = Drug
+
Vigilare = to watch; alert watchfulness;
- watchfulness in respect of danger;
- process of paying close and continuous attention.
• So Pharmacovigilance generally refers to continuous
monitoring for unwanted effects and other safety – related
aspects of marketed drugs.
Why pharmacovigilance is needed ??? Tests in animals are insufficiently predictive of human safety.
In clinical trials patients are selected and limited in number—may miss rare ADRs
Conditions of use in trials differ from those in clinical practice—may miss drug interactions; Off-label uses.
Duration of trials is limited—may miss ADRs that develop after years.
Special groups (such as children, the elderly or pregnant women)—not involved in clinical trials.
Illegal sale of medicines and drugs of abuse.
Increasing self-medication practices OTC drugs.
Widespread manufacture and sale of counterfeit and substandard
medicines.
Increasing use of traditional medicines and herbal medicines with
other medicine with potential for adverse interactions.
Additional factors which enhance the need of Pharmaco-Vigilance:
The ultimate goal of Pharmacovigilance is to ensure the safe and
rational use of medicines, thereby, improving patient care and
public health.
To prevent unnecessary suffering by patients and to decrease the
financial loss sustained by the patient due to the inappropriate or
unsafe use of medicines.
What are the major Aims of PV ??? According to WHO….
Early detection of unknown safety problems
Detection of increases in frequency
Identification of risk factors
Quantifying risks
Preventing patients from being affected unnecessarily
Rational and Safe use of Medicines
Some of the drugs are mandatorily banned by Drugs
Controller General of India (DCGI) but are still available in
the market (e.g. human placental extract).
Adverse Drug Reaction (ADR)?
The Drug Regulatory Authority defines an Adverse Drug
Reactions (ADR) or adverse reaction as a response to a
medicine used in humans or animals, which is noxious and
unintended, including lack of efficacy, and which occurs at
any dosage and can also result from overdose, misuse or
abuse of a medicine.
Type of
Reaction
Mnemonic Features Examples Mx
A: Dose
related
Augmented Common,
Related to ph.
Action,
Predictable,
Low mortality
Digoxin toxicity,
SSRI serotonin syn.
S/E
TCA- anti-Ach
Reduce dose or
with hold
B: Non-dose
related
Bizarre Uncommon,
Not related to
ph. Action,
Unpredictable,
High mortality
Idiosyncratic
reaction,
Acute porphyria,
Malig.
Hyperthermia,
Withhold and
avoid in future
C: Dose
related and
time related
Chronic Uncommon,
Related the
cumulative dose
Steroid- decrease
HPA axis
Reduce doses or
withhold
withdrawal
- slowly
- prolonged
Type of
Reaction
Mnemonic Features Examples Mx
D: Time
related
Delayed Uncommon,
Dose related,
Teratogenesis ,
Carcinogenesis,
Tardive
dyskinesia
Often
intractable
E: Withdrawal End of
use
Uncommon,
After
withdrawal
Opioid withdrawal
MI- β blocker
withdrawal
Reintroduce
and withdraw
slowly
F: Failure of
therapy
Failure Common,
Dose related,
Caused by
drug
interaction
Contraceptive
failure
Increase dose,
Consider effect
of concomitant
therapy
ADRs are common and constitute major health problem.
World statistics show that 5 -10% of the hospital admissions are attributed to adverse drug reactions, and 0.3% of adverse reactions are fatal in nature.
Several studies in Europe, Israel, and USA have estimated 5-10% of all admittance to emergency medical ward are due to ADRs.
As many as 98,000 death in USA per year due to medical error.
Severity of ADR: it has been graded as:
Minor: no therapy , antidote or prolongation of
hospitalization is required.
Moderate: requires change in drug therapy, specific
treatment or prolongs hospital stay by atleast one day.
Severe: potentially life threatening, causes permanent
damage or requires intensive medical treatment.
Lethal: directly or indirectly contributes to the death of the
patient.
Side effects:
These are unwanted but often unavoidable
Pharmacodynamic effects that occur at therapeutic doses.
They can be predicted from the pharmacological profile of a
drug and are known to occur in a given percentage of drug
recipients.
Reduction in dose generally ameliorates the symptoms.
Toxic effects:
These are the results of excessive pharmacological action of
drug due to overdosage or prolonged use.
Overdosage may be :
Absolute(accidental,homicidal,suicidal)
Relative (i.e., usual dose of gentamicin in presence of renal
impairment)
Who should report Adverse Drug Reactions?
All health care workers, including doctors, dentists, pharmacists,
nurses and other health professionals are requested to report all
suspected adverse reactions to drugs (including vaccines, X-ray
contrast media, traditional and herbal remedies),
especially when the reaction is unusual, potentially serious or
clinically significant.
Firstly, find out whether a patient taking Suspected drug or not
Obtain complete details of Event ,Suspected drug & other Relevant information
Event:-
•Time of onset
•Duration
•Nature & Severity
•Previous history
Suspected drug:-
•Name (Trade name if possible)
•Dose (frequency & duration)
•Time & Route of administration
•Previous report of reaction
Other relevant information:-
•Patient’s demographic data
•Presenting complaints
•Past medication history
•Current drug therapy details
•OTC medications
•Treatment with any other system of medicine
•Risk factors
Causality assessment
Patient’s interview Reviewing prescriptions
How do we detect ???
Causality assessment :
To determine likelihood of a causal relationship b/w
drug exposure and adverse events.
Causality Classification:
The WHO has provided a list of causality assessment
criteria for deciding on the contribution of the medicine
towards the adverse event.
WHO Definitions for Causality Assessment:
Certain:
Clinical event, lab test abnormality with plausible time
relationship to drug intake.
Cannot be explained by concurrent disease or other drugs
/chemicals.
Response to dechallenge- plausible.
Event must be definitive pharmacologically /
immunologically.
Positive rechallenges (if performed).
Probable/ Likely:
Unlikely to be to concurrent disease, drugs / chemicals.
Clinically reasonable response to withdrawal (dechallenge).
Rechallenge not required.
Clinical event, lab test abnormality with reasonable time
relationship to drug intake.
Possible:
Clinical event lab test abnormality with reasonable time
relationship to drug intake.
Could also be explained by concurrent disease or other
drugs or chemical.
Information on drug withdrawal may be lacking or unclear.
Unlikely:
Clinical event , lab test with improbable time relationship to
drug intake.
Other drugs , chemicals or underlying disease provide
plausible explanations.
Inaccessible /unclassifiable:
Insufficient /contradictory evidence which cannot be
supplemented or verified.
Conditional / unclassified:
More data is essential for proper assessment or additional data
are under examination.
Periodic Safety Update Reports
(PSURs)
Provides an update of world-wide safety experience at 6
months for 2 years, annually for two years, and then 5-yearly
or immediately on request
Description of the reaction
Detail about the Contents
Overall safety evaluation
Approval of the product, new drugs should be closely monitored for their
clinical safety once they are marketed. The applicants shall furnish
Periodic Safety Update Reports (PSURs) in order to-
a) Report all the relevant new information from appropriate sources;
b) Relate these data to patient exposure;
c) Summarize the market authorization status in different countries
and any significant variations related to safety; and
d) Indicate whether changes should be made to produce information in
order to optimize the use of the product.
Schedule Y :
Structure of PSUR:
A title page stating: Periodic safety update report for the product,
applicant’s name, period covered by the report, date of approval of
new drug, date of marketing of new drug and date of reporting;
Introduction,
Current worldwide market authorization status,
Update of actions taken for safety reasons,
Changes to reference safety information,
Estimated patient exposure,
Presentation of individual case histories,
Studies,
Other information,
Overall safety evaluation,
Conclusions,
Appendix providing material relating to indications, dosing,
pharmacology and other related information.
The Licensing Authority reserves the right to reject
any data or any document(s) if such data or contents of
such documents are found to be of doubtful integrity.
The Drug Regulatory Authority and the Department of
Health’s Essential Drug Programme are committed to
improving drug safety through adverse drug reaction
monitoring .
Through the Drug Regulatory Authority’s national
pharmacovigilance programme, adverse reactions should be
reported on a daily basis.
In general, the prime activity of the Pharmacovigilance
Program of India (PvPI) is to collect, collate and analyze
data on adverse drug reactions to arrive at an inference to
recommend regulatory interventions, besides communicating
associated risks to healthcare professionals.
In June 2010, Central Drugs Standard Control Organization
(CDSCO), Directorate General of Health Services under the
aegis of Ministry of Health & Family Welfare, Government
of India in collaboration with Indian Pharmacopeia
Commission, Ghaziabad initiated a nation-wide
Pharmacovigilance programme for protecting the health of
the patients by assuring drug safety with well defined goal
with predestined road map to ensure its future growth and
progress.
Objectives of the PvPI:To monitor Adverse Drug Reactions in Indian population.
To create awareness amongst healthcare professionals about
the importance of ADR reporting in India.
To monitor benefit-risk profile of medicines.
Generate independent, evidence based recommendations on
the safety of medicines.
Support the CDSCO for formulating safety related
regulatory decisions for medicines.
Communicate findings with all key stakeholders.
Create a national centre of excellence at par with global
drug safety monitoring standards.
Program was designed in five phases which included:
initiation phase (2010-2011)
expansion and consolidation phase (2011-2012),
expansion and maintenance phase (2012-2013),
expansion and optimization phase(2013-2014)
Excellence phase (2014-15).
Phase I (Initiation phase), 2010 -2011
Enrol 40 medical colleges.
Start data collection for Adverse event following
immunization.
Development and establishment of training centre.
Training of pharmacovigilance human resource.
Linkage with uppsal monitoring centre, sweden.
Initiate software development for national drug safety data
base.
Publication of drug safety news letter.
Phase II (Expansion and consolidation phase), 2011-2012
Enrol additional 60 medical colleges.
Training of pharmacovigilance human resource.
Training in pharmacovigilance software provided by UMC.
Identify gaps and address through appropriate training
Software development and validation.
Zonal workshop for public awareness of drug safety.
Publication of drug safety news letter.
Phase III (Expansion and maintenance phase),2012- 2013:
Enroll additional 100 medical college.
Training of pharmacovigilance human resource.
Zonal workshop for public awareness of drug safety.
Publication of drug safety news letter.
Phase IV (Expansion and optimization phase), 2013- 2014:
Enroll additional 100 medical college.
Training of pharmacovigilance human resource.
Interaction with international pharmacovigilance bodies.
Publication of drug safety news letter.
Phase V (Excellence phase) 2014-2015
Create centre of excellence for pharmacovigilance in Asia
pacific
To ensure that the PvPI is functioning effectively and
achieving its objectives, there is a provision to monitor and
evaluate the program using indicators viz ;
(i) process (i.e. process number of AMCs participating in the
PvPI, number of AMC personnel trained in a year, funds
budgeted for PvPI and funds spent and AMC personnel
working full-time for PvPI).
(ii) outcome (i.e. software platform established, outcome
number of ADR reports received in a year, number of ADR
reports processed in a year and number of ADR reports
submitted to Vigiflow) and ;
(iii) impact (i.e. number of impact signals generated and
confirmed, number of safety related alerts issued by
CDSCO).
Drug safety suveillance relies heavily on the techniques of
pharmacoepidemiology which includes:
Voluntary Reporting:
doctors, nurses and pharmacists are supplied with cards
on which to record suspected adverse reaction to drugs.in
the UK this is called the ‘yellow card’ system and the
committee on safety of medicines collates the results and
advises the government’s medicines control agency.
It is recommended for :
Newer drugs: all suspected reactions should be noted.
Established drugs: all serious suspected reactions should be
reported, even if the effect is well recognised.
HISTORICAL BACKGROUND
Non systematized form
Thalidomide disaster in early 1960
Yellow card system in UK (now CSM)
Spontaneous reporting system in USA in 1968 by FDA
Benefits of spontaneous reporting are:
Early recognition/actual potential problem
Continuous monitoring system
Compare ADR profile
Iatrogenic syndrome/predisposing factors
What to report ??? 22
For new drugs
All suspected reactions including minor ones.
For established drugs All serious or unexpected ADRs
Any increased frequency of a given reaction
All suspected ADRs associated with drug-drug interactions
ADRs of special population Elderly, Child, Pregnancy &
Lactation
ADRs associated with Drug abuse & Drug withdrawals
ADRs occurring from overdose or medication error
Lack of efficacy
All adverse events should be reported.
Need and Advantage of Spontaneous Reporting
Large population can be covered
All marketed drugs can be monitored
Drug may be monitored throughout their lifetime
Risk factors predisposing to ADR may be identified
Inexpensive and simple ADR system
PEM (Prescription Event Monitoring):
Generating and testing hypothesis about ADRs in defined
population of users.
Active Surveillance: Registries
Hospital-based systems: Intensive Surveillance
Form of observational cohort study.
Medical record linkage:
Allows computer correlation in a population of life and
health events(birth , marriage ,death , hospital admission)
with history of drug use.
The largest medical record linkage is the General
Practitioner Research Data Base at the Medicines Control
Agency.
Population statistics: eg . Birth defect registers and cancer
registers.
These are insensitive unless a drug induced event is highly
remarkable or very frequent.
If suspicions are aroused then case control and
observational cohort studies will be initiated.
Conclusion
If all healthcare professional including physicians, nurses,
pharmacist and others including the patient report all ADRs
then regulatory authority can take action as soon as possible,
and drugs which are banned worldwide may be not available
in India too.
Careful premarketing screening should reduce the problem
but may also reduce the number of potentially useful drugs
available for full development and subsequent licensing.
Better risk management strategies are needed to handle
problems when they arise, by means other than revocation of
licenses.
You can reduce the suffering and save thousands of
patients lives by doing one thing :
Report suspected adverse drug
reactions