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Pharmacovigilance (PV or PhV), also known as drug safety, is the pharmacological science relating to the collection, detection, assessment, monitoring, and prevention of adverse effects with pharmaceutical products.The etymological roots for the word "pharmacovigilance" are: pharmakon (Greek for drug) and vigilare (Latin for to keep watch). As such, pharmacovigilance heavily focuses on adverse drug reactions, or ADRs, which are defined as any response to a drug which is noxious and unintended, including lack of efficacy (the condition that this definition only applies with the doses normally used for the prophylaxis, diagnosis or therapy of disease, or for the modification of physiological disorder function was excluded with the latest amendment of the applicable legislation). Medication errors such as overdose, and misuse and abuse of a drug as well as drug exposure during pregnancy and breastfeeding, are also of interest, even without an adverse event, because they may result in an adverse drug reaction.
Pharmacology is the branch of biology concerned with the study of drug action, where a drug can be broadly defined as any man-made, natural, or endogenous molecule which exerts a biochemical or physiological effect on the cell, tissue, organ, or organism. More specifically, it is the study of the interactions that occur between a living organism and chemicals that affect normal or abnormal biochemical function. If substances have medicinal properties, they are considered pharmaceuticals.
Science is a systematic enterprise that builds and organizes knowledge in the form of testable explanations and predictions about the universe.
An adverse drug reaction (ADR) is an injury caused by taking medication. ADRs may occur following a single dose or prolonged administration of a drug or result from the combination of two or more drugs. The meaning of this expression differs from the meaning of "side effect", as this last expression might also imply that the effects can be beneficial. The study of ADRs is the concern of the field known as pharmacovigilance. An adverse drug event (ADE) refers to any injury occurring at the time a drug is used, whether or not it is identified as a cause of the injury. An ADR is a special type of ADE in which a causative relationship can be shown.
Information received from patients and healthcare providers via pharmacovigilance agreements (PVAs), as well as other sources such as the medical literature, plays a critical role in providing the data necessary for pharmacovigilance to take place. In fact, in order to market or to test a pharmaceutical product in most countries, adverse event data received by the license holder (usually a pharmaceutical company) must be submitted to the local drug regulatory authority. (See Adverse event reporting below.)
Medical literature is the scientific literature of medicine: articles in journals and texts in books devoted to the field of medicine. Many references to the medical literature include the health care literature generally, including that of dentistry, veterinary medicine, pharmacy, nursing, and the allied health professions.
Ultimately, pharmacovigilance is concerned with identifying the hazards associated with pharmaceutical products and with minimizing the risk of any harm that may come to patients. Companies must conduct a comprehensive drug safety and pharmacovigilance audit to assess their compliance with worldwide laws, regulations, and guidance.
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Pharmacovigilance has its own unique terminology that is important to understand. Most of the following terms are used within this article and are peculiar to drug safety, although some are used by other disciplines within the pharmaceutical sciences as well.
An adverse event (AE) is any untoward medical occurrence in a patient or clinical investigation subject administered a pharmaceutical product and which does not necessarily have a causal relationship with this treatment. An adverse event (AE) can therefore be any unfavourable and unintended sign, symptom, or disease temporally associated with the use of a medicinal (investigational) product, whether or not related to the medicinal (investigational) product.
Clinical trials are experiments or observations done in clinical research. Such prospective biomedical or behavioral research studies on human participants are designed to answer specific questions about biomedical or behavioral interventions, including new treatments and known interventions that warrant further study and comparison. Clinical trials generate data on safety and efficacy. They are conducted only after they have received health authority/ethics committee approval in the country where approval of the therapy is sought. These authorities are responsible for vetting the risk/benefit ratio of the trial – their approval does not mean that the therapy is 'safe' or effective, only that the trial may be conducted.
Efficacy is the ability to get a job done satisfactorily. The word comes from the same roots as effectiveness, and it has often been used synonymously, although in pharmacology a distinction is now often made between efficacy and effectiveness. The word efficacy is used in pharmacology and medicine to refer both to the maximum response achievable from a pharmaceutical drug in research settings, and to the capacity for sufficient therapeutic effect or beneficial change in clinical settings.
The activity that is most commonly associated with pharmacovigilance (PV), and which consumes a significant amount of resources for drug regulatory authorities (or similar government agencies) and drug safety departments in pharmaceutical companies, is that of adverse event reporting. Adverse event (AE) reporting involves the receipt, triage, data entering, assessment, distribution, reporting (if appropriate), and archiving of AE data and documentation. The source of AE reports may include: spontaneous reports from healthcare professionals or patients (or other intermediaries); solicited reports from patient support programs; reports from clinical or post-marketing studies; reports from literature sources; reports from the media (including social media and websites); and reports reported to drug regulatory authorities themselves. For pharmaceutical companies, AE reporting is a regulatory requirement in most countries. AE reporting also provides data to these companies and drug regulatory authorities that play a key role in assessing the risk-benefit profile of a given drug. The following are several facets of AE reporting:
If one or more of these four elements is missing, the case is not a valid ICSR. Although there are no exceptions to this rule there may be circumstances that may require a judgment call. For example, the term "identifiable" may not always be clear-cut. If a physician reports that he/she has a patient X taking drug Y who experienced Z (an AE), but refuses to provide any specifics about patient X, the report is still a valid case even though the patient is not specifically identified. This is because the reporter has first-hand information about the patient and is identifiable (i.e. a real person) to the physician. Identifiability is important so as not only to prevent duplicate reporting of the same case, but also to permit follow-up for additional information.
The concept of identifiability also applies to the other three elements. Although uncommon, it is not unheard of for fictitious adverse event "cases" to be reported to a company by an anonymous individual (or on behalf of an anonymous patient, disgruntled employee, or former employee) trying to damage the company's reputation or a company's product. In these and all other situations, the source of the report should be ascertained (if possible). But anonymous reporting is also important, as whistle blower protection is not granted in all countries. In general, the drug must also be specifically named. Note that in different countries and regions of the world, drugs are sold under various tradenames. In addition, there are a large number of generics which may be mistaken for the trade product. Finally, there is the problem of counterfeit drugs producing adverse events. If at all possible, it is best to try to obtain the sample which induced the adverse event, and send it to either the EMA, FDA or other government agency responsible for investigating AE reports.
The European Medicines Agency (EMA) is a European Union agency for the evaluation and supervision of medicinal products. Prior to 2004, it was known as the European Agency for the Evaluation of Medicinal Products or European Medicines Evaluation Agency (EMEA).
If a reporter can't recall the name of the drug they were taking when they experienced an adverse event, this would not be a valid case. This concept also applies to adverse events. If a patient states that they experienced "symptoms", but cannot be more specific, such a report might technically be considered valid, but will be of very limited value to the pharmacovigilance department of the company or to drug regulatory authorities.
Adverse event coding is the process by which information from an AE reporter, called the "verbatim", is coded using standardized terminology from a medical coding dictionary, such as MedDRA (the most commonly used medical coding dictionary). The purpose of medical coding is to convert adverse event information into terminology that can be readily identified and analyzed. For instance, Patient 1 may report that they had experienced "a very bad headache that felt like their head was being hit by a hammer" [Verbatim 1] when taking Drug X. Or, Patient 2 may report that they had experienced a "slight, throbbing headache that occurred daily at about two in the afternoon" [Verbatim 2] while taking Drug Y. Neither Verbatim 1 nor Verbatim 2 will exactly match a code in the MedDRA coding dictionary. However, both quotes describe different manifestations of a headache. As a result, in this example both quotes would be coded as PT Headache (PT = Preferred Term in MedDRA).
Although somewhat intuitive, there are a set of criteria within pharmacovigilance that are used to distinguish a serious adverse event from a non-serious one. An adverse event is considered serious if it meets one or more of the following criteria:
Aside from death, each of these categories is subject to some interpretation. Life-threatening, as it used in the drug safety world, specifically refers to an adverse event that places the patient at an immediate risk of death, such as cardiac or respiratory arrest. By this definition, events such as myocardial infarction, which would be hypothetically life-threatening, would not be considered life-threatening unless the patient went into cardiac arrest following the MI. Defining what constitutes hospitalization can be problematic as well. Although typically straightforward, it's possible for a hospitalization to occur even if the events being treated are not serious. By the same token, serious events may be treated without hospitalization, such as the treatment of anaphylaxis may be successfully performed with epinephrine. Significant disability and incapacity, as a concept, is also subject to debate. While permanent disability following a stroke would no doubt be serious, would "complete blindness for 30 seconds" be considered "significant disability"? For birth defects, the seriousness of the event is usually not in dispute so much as the attribution of the event to the drug. Finally, "medically significant events" is a category that includes events that may be always serious, or sometimes serious, but will not fulfill any of the other criteria. Events such as cancer might always be considered serious, whereas liver disease, depending on its CTCAE (Common Terminology Criteria for Adverse Events) grade—Grades 1 or 2 are generally considered non-serious and Grades 3-5 serious—may be considered non-serious.
Also known as SAE (serious adverse event) reporting from clinical trials, safety information from clinical studies is used to establish a drug's safety profile in humans and is a key component that drug regulatory authorities consider in the decision-making as to whether to grant or deny market authorization (market approval) for a drug. SAE reporting occurs as a result of study patients (subjects) who experience serious adverse events during the conducting of clinical trials. (Non-serious adverse events are also captured separately.) SAE information, which may also include relevant information from the patient's medical background, are reviewed and assessed for causality by the study investigator. This information is forwarded to a sponsoring entity (typically a pharmaceutical company) that is responsible for the reporting of this information, as appropriate, to drug regulatory authorities.
Spontaneous reports are termed spontaneous as they take place during the clinician's normal diagnostic appraisal of a patient, when the clinician is drawing the conclusion that the drug may be implicated in the causality of the event. Spontaneous reporting system relies on vigilant physicians and other healthcare professionals who not only generate a suspicion of an ADR, but also report it. It is an important source of regulatory actions such as taking a drug off the market or a label change due to safety problems. Spontaneous reporting is the core data-generating system of international pharmacovigilance, relying on healthcare professionals (and in some countries consumers) to identify and report any adverse events to their national pharmacovigilance center, health authority (such as EMA or FDA), or to the drug manufacturer itself.Spontaneous reports are, by definition, submitted voluntarily although under certain circumstances these reports may be encouraged, or "stimulated", by media reports or articles published in medical or scientific publications, or by product lawsuits. In many parts of the world adverse event reports are submitted electronically using a defined message standard.
One of the major weaknesses of spontaneous reporting is that of under-reporting, where, unlike in clinical trials, less than 100% of those adverse events occurring are reported. Further complicating the assessment of adverse events, AE reporting behavior varies greatly between countries and in relation to the seriousness of the events, but in general probably less than 10% (some studies suggest less than 5%) of all adverse events that occur are actually reported. The rule-of-thumb is that on a scale of 0 to 10, with 0 being least likely to be reported and 10 being the most likely to be reported, an uncomplicated non-serious event such as a mild headache will be closer to a "0" on this scale, whereas a life-threatening or fatal event will be closer to a "10" in terms of its likelihood of being reported. In view of this, medical personnel may not always see AE reporting as a priority, especially if the symptoms are not serious. And even if the symptoms are serious, the symptoms may not be recognized as a possible side effect of a particular drug or combination thereof. In addition, medical personnel may not feel compelled to report events that are viewed as expected. This is why reports from patients themselves are of high value. The confirmation of these events by a healthcare professional is typically considered to increase the value of these reports. Hence it is important not only for the patient to report the AE to his health care provider (who may neglect to report the AE), but also report the AE to both the biopharmaceutical company and the FDA, EMA, ... This is especially important when one has obtained one's pharmaceutical from a compounding pharmacy.
As such, spontaneous reports are a crucial element in the worldwide enterprise of pharmacovigilance and form the core of the World Health Organization Database, which includes around 4.6 million reports (January 2009), growing annually by about 250,000.
Aggregate reporting, also known as periodic reporting, plays a key role in the safety assessment of drugs. Aggregate reporting involves the compilation of safety data for a drug over a prolonged period of time (months or years), as opposed to single-case reporting which, by definition, involves only individual AE reports. The advantage of aggregate reporting is that it provides a broader view of the safety profile of a drug. Worldwide, the most important aggregate report is the Periodic Safety Update Report (PSUR) and Development Safety Update Report (DSUR). This is a document that is submitted to drug regulatory agencies in Europe, the US and Japan (ICH countries), as well as other countries around the world. The PSUR was updated in 2012 and is now referred to in many countries as the Periodic Benefit Risk Evaluation report (PBRER). As the title suggests, the PBRER's focus is on the benefit-risk profile of the drug, which includes a review of relevant safety data compiled for a drug product since its development.
Some countries legally oblige spontaneous reporting by physicians. In most countries, manufacturers are required to submit, through its Qualified Person for Pharmacovigilance (QPPV), all of the reports they receive from healthcare providers to the national authority. Others have intensive, focused programmes concentrating on new drugs, or on controversial drugs, or on the prescribing habits of groups of doctors, or involving pharmacists in reporting. All of these generate potentially useful information. Such intensive schemes, however, tend to be the exception. A number of countries have reporting requirements or reporting systems specific to vaccine-related events.
Risk management is the discipline within pharmacovigilance that is responsible for signal detection and the monitoring of the risk-benefit profile of drugs. Other key activities within the area of risk management are that of the compilation of risk management plans (RMPs) and aggregate reports such as the Periodic Safety Update Report (PSUR), Periodic Benefit-Risk Evaluation Report (PBRER), and the Development Safety Update Report (DSUR).
One of the most important, and challenging, problems in pharmacovigilance is that of the determination of causality. Causality refers to the relationship of a given adverse event to a specific drug. Causality determination (or assessment) is often difficult because of the lack of clear-cut or reliable data. While one may assume that a positive temporal relationship might "prove" a positive causal relationship, this is not always the case. Indeed, a "bee sting" AE—where the AE can clearly be attributed to a specific cause—is by far the exception rather than the rule. This is due to the complexity of human physiology as well as that of disease and illnesses. By this reckoning, in order to determine causality between an adverse event and a drug, one must first exclude the possibility that there were other possible causes or contributing factors. If the patient is on a number of medications, it may be the combination of these drugs which causes the AE, and not any one individually. There have been a number of recent high-profile cases where the AE led to the death of an individual. The individual(s) were not overdosed with any one of the many medications they were taking, but the combination there appeared to cause the AE. Hence it is important to include in your/one's AE report, not only the drug being reported, but also all other drugs the patient was also taking.
For instance, if a patient were to start Drug X and then three days later were to develop an AE, one might be tempted to attribute blame Drug X. However, before that can be done, the patient's medical history would need to be reviewed to look for possible risk factors for the AE. In other words, did the AE occur with the drug or because of the drug? This is because a patient on any drug may develop or be diagnosed with a condition that could not have possibly been caused by the drug. This is especially true for diseases, such as cancer, which develop over an extended period of time, being diagnosed in a patient who has been taken a drug for a relatively short period of time. On the other hand, certain adverse events, such as blood clots (thrombosis), can occur with certain drugs with only short-term exposure. Nevertheless, the determination of risk factors is an important step of confirming or ruling-out a causal relationship between an event and a drug.
Often the only way to confirm the existence of a causal relationship of an event to a drug is to conduct an observational study where the incidence of the event in a patient population taking the drug is compared to a control group. This may be necessary to determine if the background incidence of an event is less than that found in a group taking a drug. If the incidence of an event is statistically significantly higher in the "active" group versus the placebo group (or other control group), it is possible that a causal relationship may exist to a drug, unless other confounding factors may exist.
Signal detection (SD) involves a range of techniques (CIOMS VIII). The WHO defines a safety signal as: "Reported information on a possible causal relationship between an adverse event and a drug, the relationship being unknown or incompletely documented previously". Usually more than a single report is required to generate a signal, depending upon the event and quality of the information available.
Data mining pharmacovigilance databases is one approach that has become increasingly popular with the availability of extensive data sources and inexpensive computing resources. The data sources (databases) may be owned by a pharmaceutical company, a drug regulatory authority, or a large healthcare provider. Individual Case Safety Reports (ICSRs) in these databases are retrieved and converted into structured format, and statistical methods (usually a mathematical algorithm) are applied to calculate statistical measures of association. If the statistical measure crosses an arbitrarily set threshold, a signal is declared for a given drug associated with a given adverse event. All signals deemed worthy of investigation, require further analysis using all available data in an attempt to confirm or refute the signal. If the analysis is inconclusive, additional data may be needed such as a post-marketing observational trial.
SD is an essential part of drug use and safety surveillance. Ideally, the goal of SD is to identify ADRs that were previously considered unexpected and to be able to provide guidance in the product's labeling as to how to minimize the risk of using the drug in a given patient population.
A risk management plan (RMP) is a documented plan that describes the risks (adverse drug reactions and potential adverse reactions) associated with the use of a drug and how they are being handled (warning on drug label or on packet inserts of possible side effects which if observed should cause the patient to inform/see his physician and/or pharmacist and/or the manufacturer of the drug and/or the FDA, EMA)). The overall goal of an RMP is to assure a positive risk-benefit profile once the drug is (has been) marketed. The document is required to be submitted, in a specified format, with all new market authorization requests within the European Union (EU). Although not necessarily required, RMPs may also be submitted in countries outside the EU. The risks described in an RMP fall into one of three categories: identified risks, potential risks, and unknown risks. Also described within an RMP are the measures that the Market Authorization Holder, usually a pharmaceutical company, will undertake to minimize the risks associated with the use of the drug. These measures are usually focused on the product's labeling and healthcare professionals. Indeed, the risks that are documented in a pre-authorization RMP will inevitably become part of the product's post-marketing labeling. Since a drug, once authorized, may be used in ways not originally studied in clinical trials, this potential "off-label use", and its associated risks, is also described within the RMP. RMPs can be very lengthy documents, running in some cases hundreds of pages and, in rare instances, up to a thousand pages long.
In the US, under certain circumstances, the FDA may require a company to submit a document called a Risk Evaluation and Mitigation Strategies (REMS) for a drug that has a specific risk that FDA believes requires mitigation. While not as comprehensive as an RMP, a REMS can require a sponsor to perform certain activities or to follow a protocol, referred to as Elements to Assure Safe Use (ETASU),to assure that a positive risk-benefit profile for the drug is maintained for the circumstances under which the product is marketed.
Pharmaceutical companies are required by law in most countries to perform clinical trials, testing new drugs on people before they are made generally available. This occurs after a drug has been pre-screened for toxicity, sometimes using animals for testing. The manufacturers or their agents usually select a representative sample of patients for whom the drug is designed – at most a few thousand – along with a comparable control group. The control group may receive a placebo and/or another drug, often a so-called "gold standard" that is "best" drug marketed for the disease.
The purpose of clinical trials is to determine:
Clinical trials do, in general, tell a good deal about how well a drug works. They provide information that should be reliable for larger populations with the same characteristics as the trial group – age, gender, state of health, ethnic origin, and so on though target clinical populations are typically very different from trial populations with respect to such characteristics[ citation needed ].
The variables in a clinical trial are specified and controlled, but a clinical trial can never tell you the whole story of the effects of a drug in all situations. In fact, nothing could tell you the whole story, but a clinical trial must tell you enough; "enough" being determined by legislation and by contemporary judgements about the acceptable balance of benefit and harm. Ultimately, when a drug is marketed it may be used in patient populations that were not studied during clinical trials (children, the elderly, pregnant women, patients with co-morbidities not found in the clinical trial population, etc.) and a different set of warnings, precautions or contraindications (where the drug should not be used at all) for the product's labeling may be necessary in order to maintain a positive risk/benefit profile in all known populations using the drug.
Pharmacoepidemiology is the study of the incidence of adverse drug reactions in patient populations using drug agents.
Although often used interchangeably, there are subtle differences between the two disciplines. Pharmacogenetics is generally regarded as the study or clinical testing of genetic variation that gives rise to differing responses to drugs, including adverse drug reactions. It is hoped that pharmacogenetics will eventually provide information as to which genetic profiles in patients will place those patients at greatest risk, or provide the greatest benefit, for using a particular drug or drugs. Pharmacogenomics, on the other hand, is the broader application of genomic technologies to new drug discovery and further characterization of older drugs.
The following organizations play a key collaborative role in the global oversight of pharmacovigilance.
The principle of international collaboration in the field of pharmacovigilance is the basis for the WHO Programme for International Drug Monitoring, through which over 150 member nations have systems in place that encourage healthcare personnel to record and report adverse effects of drugs in their patients. [ citation needed ]These reports are assessed locally and may lead to action within the country. Since 1978, the programme has been managed by the Uppsala Monitoring Centre to which member countries send their reports to be processed, evaluated and entered into an international database called VigiBase. Membership in the WHO Programme enables a country to know if similar reports are being made elsewhere. When there are several reports of adverse reactions to a particular drug, this process may lead to the detection of a signal, and an alert about a possible hazard communicated to members countries after detailed evaluation and expert review.
The ICH is a global organization with members from the European Union, the United States and Japan; its goal is to recommend global standards for drug companies and drug regulatory authorities around the world, with the ICH Steering Committee (SC) overseeing harmonization activities. Established in 1990, each of its six co-sponsors—the EU, the European Federation of Pharmaceutical Industries and Associations (EFPIA), Japan's Ministry of Health, Labor and Welfare (MHLW), the Japanese Pharmaceutical Manufacturers Association (JPMA), the U.S. Food and Drug Administration (FDA), and the Pharmaceutical Research and Manufacturers of America (PhRMA)—have two seats on the SC. Other parties have a significant interest in ICH and have been invited to nominate Observers to the SC; three current observers[ when? ] are the WHO, Health Canada, and the European Free Trade Association (EFTA), with the International Federation of Pharmaceutical Manufacturers Association (IFPMA) participating as a non-voting member of the SC.
The CIOMS, a part of the WHO, is a globally oriented think tank that provides guidance on drug safety related topics through its Working Groups.[ citation needed ] The CIOMS prepares reports that are used as a reference for developing future drug regulatory policy and procedures, and over the years, many of CIOMS' proposed policies have been adopted.[ citation needed ] Examples of topics these reports have covered include: Current Challenges in Pharmacovigilance: Pragmatic Approaches (CIOMS V); Management of Safety Information from Clinical Trials (CIOMS VI); the Development Safety Update Report (DSUR): Harmonizing the Format and Content for Periodic Safety Reporting During Clinical Trials (CIOMS VII); and Practical Aspects of Signal Detection in Pharmacovigilance: Report of CIOMS Working Group (CIOMS VIII).[ citation needed ]
The ISoP is an international non-profit scientific organization, which aims to foster pharmacovigilance both scientifically and educationally, and enhance all aspects of the safe and proper use of medicines, in all countries.It was established in 1992 as the European Society of Pharmacovigilance.
Society of Pharmacovigilance, India, also established in 1992, is partner member of ISoP. Local societies include the Boston Society of Pharmacovigilance Physicians.
Drug regulatory authorities play a key role in national or regional oversight of pharmacovigilance. Some of the agencies involved are listed below (in order of 2011 spending on pharmaceuticals, from the IMS Institute for Healthcare Informatics).
In the U.S., with about a third of all global 2011 pharmaceutical expenditures, [ citation needed ] FDA authority is exercised through enforcement of regulations derived from legislation, as published in the U.S. Code of Federal Regulations (CFR); the principal drug safety regulations are found in 21 CFR Part 312 (IND regulations) and 21 CFR Part 314 (NDA regulations).[ citation needed ] While those regulatory efforts address pre-marketing concerns, pharmaceutical manufacturers and academic/non-profit organizations such as RADAR and Public Citizen do play a role in pharmacovigilance in the US.[ citation needed ] The post-legislative rule-making process of the U.S. federal government provides for significant input from both the legislative and executive branches, which also play specific, distinct roles in determining FDA policy.[ citation needed ]the drug industry is regulated by the FDA, the largest national drug regulatory authority in the world.
The "pharmerging", or emerging pharmaceutical market economies, which include Brazil, India, Russia, Argentina, Egypt, Indonesia, Mexico, Pakistan, Poland, Romania, South Africa, Thailand, Turkey, Ukraine and Vietnam, accrued one fifth of global 2011 pharmaceutical expenditures; in future, aggregated data for this set will include China as well.
China's economy is anticipated to pass Japan to become second in the ranking of individual countries' in pharmaceutical purchases by 2015, and so its PV regulation will become increasing important; China's regulation of PV is through its National Center for Adverse Drug Reaction (ADR) Monitoring, under China's Ministry of Health.
As JE Sackman notes, as of April 2013 "there is no Latin American equivalent of the European Medicines Agency—no common body with the power to facilitate greater consistency across countries".For simplicity, and per sources, 17 smaller economies are discussed alongside the 4 pharmemerging large economies of Argentina, Brazil, Mexico and Venzuala—Bolivia, Chile, Colombia, Costa Rica, Cuba, Dominican Republic, Ecuador, El Salvador, Guatemala, Haiti, Honduras, Nicaragua, Panama, Paraguay, Peru, Suriname, and Uruguay. As of June 2012, 16 of this total of 21 countries have systems for immediate reporting and 9 have systems for periodic reporting of adverse events for on-market agents, while 10 and 8, respectively, have systems for immediate and periodic reporting of adverse events during clinical trials; most of these have PV requirements that rank as "high or medium...in line with international standards" (ibid.). The WHO's Pan American Network for Drug Regulatory Harmonization seeks to assist Latin American countries in develop harmonized PV regulations.
Some further PV regulatory examples from the pharmerging nations are as follows. In India, the PV regulatory authority is the Indian Pharmacopoeia Commission, with a National Coordination Centre under the Pharmacovigilance Program of India, in the Ministry of Health and Family Welfare. [ citation needed ] In Egypt, PV is regulated by the Egyptian Pharmacovigilance Center of the Egyptian Ministry of Health.[ citation needed ]Scientists working on pharmacovigilance share their experiences, findings, innovative ideas and researches during the annual meeting of Society of Pharmacovigilance, India.
The EU5 (France, Germany, Italy, Spain, United Kingdom) accrued ~17% of global 2011 pharmaceutical expenditures. [ citation needed ] The main responsibility of the EMA is to maintain and develop the pharmacovigilance database consisting of all suspected serious adverse reactions to medicines observed in the European Community; the data processing network and management system is called EudraVigilance and contains separate but similar databases of human and veterinary reactions. The EMA requires the individual marketing authorization holders to submit all received adverse reactions in electronic form, except in exceptional circumstances; the reporting obligations of the various stakeholders are defined by EEC legislation, namely Regulation (EC) No 726/2004, and for human medicines, European Union Directive 2001/83/EC as amended and Directive 2001/20/EC.[ citation needed ] In 2002, Heads of Medicines Agencies agreed on a mandate for an ad hoc Working Group on establishing a European risk management strategy; the Working Group considered the conduct of a high level survey of EU pharmacovigilance resources to promote the utilization of expertise and encourage collaborative working.[ citation needed ]PV efforts in the EU are coordinated by the European Medicines Agency (EMA) and are conducted by the national competent authorities (NCAs).
In conjunction with this oversight, individual countries maintain their distinct regulatory agencies with PV responsibility.For instance, in Spain, PV is regulated by the Agencia Española de Medicamentos y Productos Sanitarios (AEMPS), a legal entity that retains the right to suspend or withdraw the authorization of pharmaceuticals already on-market if the evidence shows that safety (or quality or efficacy) of an agent are unsatisfactory.
The remaining EU and non-EU countries outside the EU5 accrued ~7% of global 2011 pharmaceutical expenditures.Regulation of those outside the EU being managed by specific governmental agencies. For instance, in Switzerland, PV "inspections" for clinical trials of medicinal products are conducted by the Swiss Agency for Therapeutic Products.
In Japan, with ~12% of all global 2011 pharmaceutical expenditures, [ citation needed ]PV matters are regulated by the Pharmaceuticals and Medical Devices Agency (PMDA) and the Ministry of Health, Labour, and Welfare MHLW.
In Canada, with ~2% of all global 2006 and 2011 pharmaceutical expenditures,PV is regulated by the Marketed Health Products Directorate of the Health Products and Food Branch(MHPD). Canada was second, following the United States, in holding the highest total prescription drug expenditures per capita in 2011 at around 750 US dollars per person. Canada also pays such a large amount for pharmaceuticals that it was second, next to Switzerland, for the amount of money spent for a certain amount of prescription drugs (around 130 US dollars). It was also accessed that Canada was one of the top countries that increased its yearly average per capita growth on pharmaceutical expenditures the most from 2000-2010 with 4 percent a year (with taking inflation into account) The MHPD mainly collects adverse drug reaction reports through a network of reporting centers to analyze and issue possible warnings to the public, and currently utilizes newsletters, advisories, adverse reaction centers, as well as electronic mailing lists. However, it does not currently maintain a database or list of drugs removed from Canada as a result of safety concerns.
In August 2017, there was a government controversy in which a bill, known as “Vanessa’s Law”, to protect patients from potentially dangerous prescription drugs was not being fully realized by hospitals; Health Canada only required hospitals to report “unexpected” negative reactions to prescription drugs, rather than any and all adverse reactions, with the justification of managing “administrative overload”.
The Republic of Korea, with ~1% of all global 2011 pharmaceutical expenditures, [ citation needed ]PV matters are regulated in South Korea by the Ministry Of Food And Drug Safety (MFDS)
In Kenya, PV is regulated by the Pharmacy and Poisons Board.The Pharmacy and Poisons Board provides a Pharmacovigilance Electronic Reporting System which allows for the online reporting of suspected adverse drug reactions as well as suspected poor quality of medicinal products.The Pharmacovigilance activities in Kenya are supported by the School of Pharmacy, University of Nairobi through its Master of Pharmacy in Pharmacoepidemiology & Pharmacovigilance program offered by the Department of Pharmacology and Pharmacognosy.
In Uganda, PV is regulated by the National Drug Authority.[ citation needed ]
ROW accrued ~7% of global 2011 pharmaceutical expenditures. [ citation needed ]Some examples of PV regulatory agencies in ROW are as follows. In Iraq, PV is regulated by the Iraqi Pharmacovigilance Center of the Iraqi Ministry of Health.
Despite attention from the FDA and regulatory agencies of the European Union, procedures for monitoring drug concentrations and adverse effects in the environment are lacking.[ citation needed ] Pharmaceuticals, their metabolites, and related substances may enter the environment after patient excretion, after direct release to waste streams during manufacturing or administration, or via terrestrial deposits (e.g., from waste sludges or leachates). A concept combining pharmacovigilance and environmental pharmacology, intended to focus attention on this area, was introduced first as pharmacoenvironmentology in 2006 by Syed Ziaur Rahman and later as ecopharmacology with further concurrent and later terms for the same concept (ecopharmacovigilance [EPV], environmental pharmacology, ecopharmacostewardship).
The first of these routes to the environment, elimination through living organisms subsequent to pharmacotherapy, is suggested as the principal source of environmental contamination (apart from cases where norms for treatment of manufacturing and other wastes are violated), and EPV is intended to deal specifically with this impact of pharmacological agents on the environment.
Activities of EPV have been suggested to include:
A medical device is an instrument, apparatus, implant, in vitro reagent, or similar or related article that is used to diagnose, prevent, or treat disease or other conditions, and does not achieve its purposes through chemical action within or on the body (which would make it a drug). Whereas medicinal products (also called pharmaceuticals) achieve their principal action by pharmacological, metabolic or immunological means, medical devices act by physical, mechanical, or thermal means. Medical devices vary greatly in complexity and application. Examples range from simple devices such as tongue depressors, medical thermometers, and disposable gloves to advanced devices such as medical robots, cardiac pacemakers, and neuroprosthetics. This modern concept of monitoring and safety of medical devices which is known materiovigilance was quite documented in Unani System of medicine.
Given the inherent difference between medicinal products and medical products, the vigilance of medical devices is also different from that of medicinal products. To reflect this difference, a classification system has been adopted in some countries to stratify the risk of failure with the different classes of devices. The classes of devices typically run on a 1-3 or 1-4 scale, with Class 1 being the least likely to cause significant harm with device failure versus Classes 3 or 4 being the most likely to cause significant harm with device failure. An example of a device in the "low risk" category would be contact lenses. An example of a device in the "high risk" category would be cardiac pacemakers.
Medical device reporting (MDR), which is the reporting of adverse events with medical devices, is similar to that with medicinal products, although there are differences. For instance, in the US user-facilities such as hospitals and nursing homes are legally required to report suspected medical device-related deaths to both FDA and the manufacturer, if known, and serious injuries to the manufacturer or to FDA, if the manufacturer is unknown.This is in contrast to the voluntary reporting of AEs with medicinal products.
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The safety of herbal medicines has become a major concern to both national health authorities and the general public. [ full citation needed ] The use of herbs as traditional medicines continues to expand rapidly[ vague ] across the world; many people[ vague ] now take herbal medicines or herbal products for their health care in different national health-care settings.[ vague ][ citation needed ] However, mass media reports[ which? ] of adverse events with herbal medicines can be incomplete and therefore misleading.[ citation needed ] Moreover, it can be difficult to identify the causes of herbal medicine-associated adverse events since the amount of data on each event is generally less than for pharmaceuticals formally regulated as drugs (since the requirements for adverse event reporting are either non-existent or are less stringent for herbal supplements and medications).
Boston Society of Pharmacovigilance Physicians.
The Food and Drug Administration is a federal agency of the United States Department of Health and Human Services, one of the United States federal executive departments. The FDA is responsible for protecting and promoting public health through the control and supervision of food safety, tobacco products, dietary supplements, prescription and over-the-counter pharmaceutical drugs (medications), vaccines, biopharmaceuticals, blood transfusions, medical devices, electromagnetic radiation emitting devices (ERED), cosmetics, animal foods & feed and veterinary products. As of 2017, 3/4th of the FDA budget is paid by people who consume pharmaceutical products, due to the Prescription Drug User Fee Act.
The Medicines and Healthcare products Regulatory Agency (MHRA) is an executive agency of the Department of Health and Social Care in the United Kingdom which is responsible for ensuring that medicines and medical devices work and are acceptably safe.
In medicine, an adverse effect is an undesired harmful effect resulting from a medication or other intervention such as surgery.
A serious adverse event (SAE) in human drug trials is defined as any untoward medical occurrence that at any dose
A drug recall removes a prescription or over-the-counter drug from the market. Drug recalls in the United States are made by the FDA or the creators of the drug when certain criteria are met. When a drug recall is made, the drug is removed from the market and potential legal action can be taken depending on the severity of the drug recall.
The Council for International Organizations of Medical Sciences (CIOMS) is an international nongovernmental organization established jointly by WHO and UNESCO in 1949. CIOMS represents a substantial proportion of the biomedical scientific community through its member organizations. The mission of CIOMS is to advance public health through guidance on health research including ethics, medical product development and safety.
Uppsala Monitoring Centre (UMC), located in Uppsala, Sweden, is the field name for the World Health Organization Collaborating Centre for International Drug Monitoring. UMC works by collecting, assessing and communicating information from member countries' national pharmacovigilance centres in regard to the benefits, harm, effectiveness and risks of drugs.
The Yellow Card Scheme is the UK system for collecting information on suspected adverse drug reactions (ADRs) to medicines. The scheme allows the safety of the medicines and vaccines that are on the market to be monitored.
Postmarketing surveillance (PMS) is the practice of monitoring the safety of a pharmaceutical drug or medical device after it has been released on the market and is an important part of the science of pharmacovigilance. Since drugs and medical devices are approved on the basis of clinical trials, which involve relatively small numbers of people who have been selected for this purpose – meaning that they normally do not have other medical conditions which may exist in the general population – postmarketing surveillance can further refine, or confirm or deny, the safety of a drug or device after it is used in the general population by large numbers of people who have a wide variety of medical conditions.
EudraVigilance is the European data processing network and management system for reporting and evaluation of suspected adverse reactions during the development of new drugs and for following the marketing authorisation of medicinal products in the European Economic Area (EEA).
Research on Adverse Drug Events and Reports (RADAR) is a pharmacovigilance team of 25 doctors who receive calls about possible adverse drug reactions (ADR) and investigate. RADAR is based at Northwestern's Feinberg School of Medicine. RADAR is led by Dennis West. Though it was without funding for its first four years, RADAR has raised about $12 million through grants from the National Institutes of Health, the American Cancer Society and other such institutions. Its work has identified safety problems with 33 drugs. Adverse drug events are a serious health problem.
President of the United States George W. Bush signed the Food and Drug Administration Amendments Act of 2007 (FDAAA) on September 27, 2007. This law reviewed, expanded, and reaffirmed several existing pieces of legislation regulating the FDA. These changes allow the FDA to perform more comprehensive reviews of potential new drugs and devices. It was sponsored by Reps. Joe Barton and Frank Pallone and passed unanimously by the Senate.
The following outline is provided as an overview of and topical guide to clinical research:
The United States Food and Drug Administration Modernization Act of 1997 (FDAMA) amended the Federal Food, Drug, and Cosmetic Act. This act is related to the regulation of food, drugs, devices, and biological products by the FDA. These changes were made in order to recognize the changes in the way the FDA would be operating in the 21st century. The main focus of this is the acknowledgment in the advancement of technological, trade, and public health complexities.
The FDA Adverse Event Reporting System is a computerized information database designed to support the U.S. Food and Drug Administration's (FDA) postmarketing safety surveillance program for all approved drug and therapeutic biologic products. The FDA uses FAERS to monitor for new adverse events and medication errors that might occur with these products. It is a system that measures occasional harms from medications to ascertain whether the risk–benefit ratio is high enough to justify continued use of any particular drug and to identify correctable and preventable problems in health care delivery. The system interacts with several related systems including MedWatch and the Vaccine Adverse Event Reporting System. FAERS replaced legacy AERS system in Sep 2012.
Irish Medicines Formulary (IMF) 25 has just been published!
The Food and Drug Administration Safety and Innovation Act of 2012 (FDASIA) is a piece of American regulatory legislation signed into law on July 9, 2012. It gives the United States Food and Drug Administration (FDA) the authority to collect user fees from the medical industry to fund reviews of innovator drugs, medical devices, generic drugs and biosimilar biologics. It also creates the breakthrough therapy designation program and extends the priority review voucher program to make eligible rare pediatric diseases. The measure was passed by 96 senators voting for and one voting against.
VigiBase is a World Health Organization’s (WHO) global Individual Case Safety Report (ICSR) database that contains ICSRs submitted by the participating member states enrolled under WHO’s international drug monitoring programme. It is the single largest drug safety data repository in the world. Since 1978, the Uppsala Monitoring Centre on behalf of WHO, have been maintaining VigiBase. Vigibase is used to obtain the information about a safety profile of a medicinal product. These data are used by pharmaceutical industries, academic institutions and regulatory authorities for statistical signal detection, updating periodic reports, ICSR comparisons with company databases and studying the reporting patterns. The data is collected from each of its 110 member states which currently comprises to over 10 million ICSRs. About a hundred thousand ICSRs are added each year.
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