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A subscription-based product of the International Council for Harmonisation of Technical Requirements for Pharmaceuticals for Human Use (ICH), MedDRA or Medical Dictionary for Regulatory Activities is a clinically validated international medical terminology dictionary-thesaurus used by regulatory authorities and the biopharmaceutical industry during the regulatory process, from pre-marketing (clinical research phase 0 to phase 3) to post-marketing activities (pharmacovigilance or clinical research phase 4), and for safety information data entry, retrieval, evaluation, and presentation.[1] Also, it is the adverse event classification dictionary.[2]

The first version of MedDRA was released in 1999 in English and Japanese.

MedDRA is now translated into Chinese, Czech, Dutch, French, German, Hungarian, Italian, Korean, Portuguese, Brazilian Portuguese, Russian, and Spanish.[3] In MedDRA version 25.0, Swedish and Latvian translations were also added.[4]

In many countries/regions the use of MedDRA by biopharmaceutical companies is mandated for safety reporting. Many other industries, including tobacco and cosmetics, are also beginning to use MedDRA for capturing adverse health events.

All Regulatory Members of ICH are expected to implement MedDRA within 5 years.

As of 2020, the following ICH Regulatory Members have implemented MedDRA: EC, Europe; FDA, United States; HSA, Singapore;[5] Health Canada, Canada;[6] MHLW/PMDA, Japan; Swissmedic, Switzerland; and TFDA, Taiwan.[citation needed]

Information about the implementation status of MedDRA by ICH Regulatory Members is updated by ICH on its website.[7]

MedDRA is widely used internationally, with close to 7,500 subscribing organizations in almost 130 countries.[4] Each organization, regardless of its number of users, requires only one subscription to MedDRA.

MedDRA Vision

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In developing and continuously maintaining MedDRA, ICH endeavours to facilitate the exchange of clinical information through a single standardized international medical terminology that can be used for regulatory communication and evaluation of data pertaining to medicinal products for human use.[8] As a result, MedDRA is designed for use in the registration, documentation, and safety monitoring of medicinal products through all phases of the development life cycle.[8] The single standardized terminology offers several clear advantages for regulators, industry, and other stakeholders:

  • Removal of the need to convert data from one terminology to another preventing the loss and/or distortion of data and allowing savings in resources;
  • Improvements in the ease, quality, and timeliness of data available for effective analysis, exchange, and decision making;
  • Consistency of the terminology throughout the different stages of the development of a medicinal product allowing effective cross-references and analysis of data;
  • Facilitation of the electronic exchange of data relating to medicinal products.

Organization of the dictionary

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The MedDRA dictionary is organized with a five-level hierarchy. The highest or broadest level is System Organ Class (SOC), further divided into High-Level Group Terms (HLGT), High-Level Terms (HLT), Preferred Terms (PT), and finally into the most granular Lowest Level Terms (LLT).[9] In addition, the MedDRA dictionary includes Standardized MedDRA Queries (SMQs). SMQs are groupings of terms that relate to a defined medical condition or area of interest.[10]

SMQs are developed to facilitate retrieval of MedDRA-coded data as a first step in investigating drug safety issues in pharmacovigilance and clinical development.

As of MedDRA 25.1, 110 SMQs have been created comprising 120 lower-level SMQs. Additional SMQs are created as the need arises.[11]

Individual cases are usually coded for data entry at the most specific (LLT) level, and outputs of counts or cases are usually provided at the PT level. The higher levels (HLT, HLGT, and SOC), as well as SMQs, are used for searching and for organizing and subtotalling outputs.

MedDRA hierarchy

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The five-level hierarchy provides degrees or levels of super-ordination and subordination. The superordinate term is a broad grouping term applicable to each subordinate descriptor linked to it. Hierarchical levels thus represent vertical links in the terminology.[12]

Hierarchies are an important mechanism for flexible data retrieval and for the clear presentation of data. The five-level structure of this terminology provides options for retrieving data by specific or broad groupings, according to the level of specificity required. The Lowest Level Term (LLT) level provides maximum specificity.[12]

The terminology was not developed as a formal classification or taxonomy; each level in the hierarchy may reflect a variable degree of specificity or “granularity” from one System Organ Class to another. High-Level Terms (HLTs) and High-Level Group Terms (HLGTs) facilitate data retrieval and presentation by providing clinically relevant grouping of terms. Collectively, the HLT and HLGT levels are sometimes referred to as the “grouping terms” in MedDRA.[12]

The 27 System Organ Classes (SOCs) represent parallel axes that are not mutually exclusive. This characteristic, called “multi-axiality,” allows a term to be represented in more than one SOC and to be grouped by different classifications (e.g., by etiology or manifestation site), allowing retrieval and presentation via different data sets. Grouping terms are pre-defined in the terminology and not selected on an ad hoc basis by data entry staff. Rather, the terminology is structured so that selection of a data entry term leads to the automatic assignment of grouping terms higher in the hierarchy. Multi-axial links of terms are pre-assigned in MedDRA, ensuring comprehensive and consistent data retrieval, irrespective of which SOC is selected at data retrieval.

As of MedDRA 25.1 (September 2022):

  • SOC – 27
    • The 27 SOCs are: Blood and lymphatic system disorders; Cardiac disorders; Congenital, familial and genetic disorders; Ear and labyrinth disorders; Endocrine disorders; Eye disorders; Gastrointestinal disorders; General disorders and administration site conditions; Hepatobiliary disorders; Immune system disorders; Infections and infestations; Injury, poisoning and procedural complications; Investigations; Metabolism and nutrition disorders; Musculoskeletal and connective tissue disorders; Neoplasms benign, malignant and unspecified (incl cysts and polyps); Nervous system disorders; Pregnancy, puerperium and perinatal conditions; Product issues; Psychiatric disorders; Renal and urinary disorders; Reproductive system and breast disorders; Respiratory, thoracic and mediastinal disorders; Skin and subcutaneous tissue disorders; Social circumstances; Surgical and medical procedures; Vascular disorders.
  • HLGT – 337
  • HLT – 1,737
  • PT – 25,592
  • LLT – 85,668
    • LLT count represents 76,364 current terms, including PTs, and 9,304 non-current terms.

Maintenance of MedDRA

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MedDRA is hierarchical, multiaxial, multilingual,[13] regularly-updated, and strictly maintained by the Maintenance and Support Services Organization (MSSO). ICH holds the intellectual property rights (ownership) of MedDRA.

MedDRA is available free for all regulators worldwide, academics, health care providers, and non-profit organizations. The subscription price is based according to company revenue for the industry.[14] The Japanese counterpart for the MSSO is called the Japanese Maintenance Organization (JMO).[15]

Four types of subscriptions are available from the MSSO:

  • Regulatory Authority;
  • Non-Profit/Non-Commercial (such as medical library, educational institution, organization engaged in not for profit activities);
  • Commercial;
  • System Developer (developer of software products that utilize MedDRA).

The MSSO updates MedDRA according to subscriber change requests, for example, to add a new medical concept that is not yet in MedDRA or to change/modify an existing concept. The decisions on submitted change requests are made by a team of international medical officers on how to map the terminology within the grouping categories according to a general team consensus. The final decisions are based on multiple factors including the Points to Consider documentation, implications on legacy data, and language considerations internationally.

The MSSO and JMO release updated MedDRA versions twice a year - in March and September. The English and Japanese translation are released on 1 March and September and all other translations are released on the 15th. The March release is the main annual release and contains changes at the HLT level and above along with LLT and PT changes. The September release contains changes only at the LLT and PT level. As of September 2024, Version 27.1 is the most recent version.[16]

The MSSO frequently incorporates feedback from the user community to stay abreast of its unique perspectives and nuanced needs. Input from these constituencies helps MSSO adapt MedDRA accordingly.

As global regulators expand the scope of product types they regulate, there is a corresponding increase in the adaptation of and interest in the proactive use of MedDRA before regulatory mandates. Such expansion has increased in MedDRA terms applicable to many product types. The addition of the 27th SOC Product issues in Version 19.0 has even further expanded use of MedDRA for product quality, supply, distribution, manufacturing and quality system issue as well as device issues.

See also

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References

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[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

MedDRA

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from Grokipedia
MedDRA, or the Medical Dictionary for Regulatory Activities, is a clinically validated, international medical terminology developed under the auspices of the International Council for Harmonisation of Technical Requirements for Pharmaceuticals for Human Use (ICH) to standardize the coding, reporting, and analysis of safety data for medical products, including pharmaceuticals, biologics, vaccines, and medical devices. It serves as a rich and highly specific tool for facilitating the global exchange of regulatory information across pre- and post-marketing phases, enabling consistent data entry, retrieval, and evaluation to support pharmacovigilance, clinical trials, and regulatory submissions. Developed in response to the limitations of earlier terminologies like WHO Adverse Reaction Terminology (WHO-ART) and the Coding Symbols for a Thesaurus of Adverse Reaction Terms (COSTART), MedDRA originated from the Medicines Control Agency's terminology in the 1990s and was first implemented in 1999, with Version 2.0 agreed upon by ICH in July 1997 and the first public release (Version 2.1) in March 1999. Today, it is maintained by the MedDRA Maintenance and Support Services Organization (MSSO) in collaboration with a Japanese Maintenance Organization (JMO), under the governance of the ICH MedDRA Management Committee and Steering Committee, ensuring annual updates—such as Version 28.1 released in September 2025—to reflect evolving medical knowledge and regulatory needs. MedDRA's hierarchical structure organizes terms into five levels: 27 System Organ Classes (SOCs) at the top (e.g., "Infections and infestations"), followed by High-Level Group Terms (HLGTs), High-Level Terms (HLTs), Preferred Terms (PTs) as the core clinical descriptors, and Lowest Level Terms (LLTs) for synonyms and specifics, allowing for precise granularity in adverse event reporting and signal detection via tools like Standardised MedDRA Queries (SMQs). It is accessible worldwide, free for regulators, academics, and non-commercial users, while industry subscriptions are scaled by annual turnover, and it is primarily available in English with ongoing translation efforts.

Background

Development and History

MedDRA originated in the as a response to the inconsistencies and limitations of existing medical terminologies, such as the Adverse Reaction Terminology (WHO-ART) and the Coding Symbols for a Thesaurus of Adverse Reaction Terms (COSTART), which complicated harmonized international regulatory reporting of adverse reactions and other . These earlier systems often suffered from overlapping or incompatible terms, leading to challenges in and analysis across regulatory authorities. In 1993, regulatory authorities and industry representatives reviewed and amended the UK's original MedDRA terminology developed by the Medicines Control Agency (now MHRA). The need for a unified, precise, and medically accurate terminology became evident during discussions within the and regulatory bodies, prompting the development of a standardized dictionary tailored for regulatory purposes. A pivotal milestone occurred in October 1994 when the International Council for Harmonisation of Technical Requirements for Pharmaceuticals for Human Use (ICH) endorsed MedDRA Version 1.0 as the foundation for an international medical terminology and established the ICH M1 Expert Working Group to guide its refinement. Version 1.0 was released for alpha testing by pharmaceutical companies and regulatory authorities in February 1996. Development accelerated in 1997 with ICH's agreement on Version 2.0, officially renaming the system as the Medical Dictionary for Regulatory Activities to emphasize its focus on regulatory applications. In May 1998, the ICH Assembly established the ICH MedDRA Management Committee, and in November 1998, the MedDRA Maintenance and Support Services Organization (MSSO) was contracted by the International Federation of Pharmaceutical Manufacturers and Associations (IFPMA) to maintain and support MedDRA. The Japanese Maintenance Organization (JMO) was established in January 1999. By March 1999, Version 2.1 was made available through the MSSO in the United States and the JMO, marking the first implementation primarily in Europe, Japan, and the US, with subsequent global expansion as regulatory agencies adopted it for safety reporting. During the 2000s, MedDRA continued to evolve to accommodate advancing regulatory needs, including its integration with electronic standards such as the ICH E2B format for the transmission of individual case safety reports, which standardized the coding of adverse events in digital submissions. This period also saw a shift from paper-based regulatory processes to digital formats in the early 2000s, with MedDRA supporting the (eCTD) for streamlined data exchange. To broaden its applicability, later versions incorporated terms related to medical devices; for instance, Version 11.0 in March 2008 introduced device-specific patient terms, followed by additional expansions in Version 11.1, extending MedDRA's utility beyond pharmaceuticals to device safety surveillance.

Vision and Objectives

MedDRA, or the Medical Dictionary for Regulatory Activities, is a clinically validated, international medical terminology developed under the auspices of the International Council for Harmonisation of Technical Requirements for Pharmaceuticals for Human Use (ICH) to support regulatory activities in human health product regulation. It provides a standardized set of terms for recording, reporting, and analyzing medical data related to pharmaceuticals, , and drug-device combinations across all phases of product development and post-marketing surveillance. The primary objectives of MedDRA are to facilitate consistent , , and reporting of adverse events associated with products, while supporting signal detection and activities. By enabling the exchange of regulatory information internationally, it aims to improve data quality, timeliness, and availability for decision-making, particularly through electronic formats like the ICH eCTD and E2B Individual Case Safety Reports. This standardized approach overcomes limitations of prior terminologies by promoting unified regulatory communication and evaluation of safety data. Key principles underlying MedDRA include its multi-axial structure, which allows terms to be classified under multiple categories for flexible retrieval and analysis, and its multilingual support to accommodate global usage. Unlike clinical diagnostic systems, MedDRA emphasizes regulatory needs, focusing on adverse events and product issues rather than precise diagnoses. The intended benefits of MedDRA encompass harmonization among global regulators such as the FDA, EMA, and PMDA, leading to improved data comparability and efficiency in post-marketing surveillance. It eliminates the need for between systems, reduces resource costs, and enhances cross-referencing for better safety monitoring worldwide. However, its scope is limited to regulatory purposes for human medicinal products and is not intended as a diagnostic or billing tool.

Governance and Maintenance

Organizational Structure

The International Council for Harmonisation (ICH) serves as the primary governing body for MedDRA, ensuring its integrity, harmonization, and global applicability in regulatory activities. ICH comprises regulatory authorities from major regions, including the U.S. (FDA), the (EMA), and Japan's Ministry of Health, Labour and Welfare (MHLW), alongside industry representatives from pharmaceutical associations such as the International Federation of Pharmaceutical Manufacturers and Associations (IFPMA). This structure facilitates collaborative oversight, with ICH promoting standardized to support and clinical trials worldwide. The MedDRA Maintenance and Support Services Organization (MSSO), currently operated by under contract with ICH since 2021, handles the day-to-day operations of MedDRA. Established to manage practical aspects following an earlier transition in management, the MSSO is responsible for maintaining the terminology's quality, distributing updates, and providing user support, including software tools and processes certified under ISO 9001:2015. The ICH MedDRA Management Committee provides strategic oversight of the MSSO, comprising representatives from the six ICH parties (regulatory authorities and industry), the UK's Medicines and Healthcare products Regulatory Agency (MHRA), , and the (WHO) as an observer. This committee holds decision-making authority on the inclusion or exclusion of terms based on user-submitted change requests, ensuring alignment with evolving medical knowledge and regulatory needs while coordinating with global regulators to maintain consistency. Access to MedDRA operates on a subscription model that funds its ongoing maintenance: it is provided free of charge to all regulatory authorities worldwide and non-commercial users such as academics, while pharmaceutical companies and commercial entities pay annual fees scaled according to their parent company's revenue, ranging from $139 to $63,800 USD. This revenue-based system ensures without compromising accessibility for essential users. The MSSO delivers comprehensive support services to MedDRA users, including multilingual training programs conducted by certified trainers in languages such as English, French, Spanish, Chinese, and others, as well as a dedicated help desk for technical and coding inquiries. Additionally, the MSSO collaborates with organizations like the Council for International Organizations of Medical Sciences (CIOMS) to align MedDRA with broader standards, particularly in developing Standardized MedDRA Queries (SMQs) for signal detection.

Update and Versioning Process

MedDRA follows a biannual update cycle, with major releases designated as version X.0 occurring on March 1 and minor releases as X.1 on September 1 each year. For example, version 28.0 was released on March 1, 2025, followed by version 28.1 on September 1, 2025. These releases ensure the terminology remains current with evolving medical knowledge while maintaining stability for users. The begins with submissions from authorized MedDRA subscribers via the WebCR online tool on the MSSO portal, limited to 100 term or Standardized MedDRA Query (SMQ) requests per month, excluding unlimited . Requests must include detailed justification and comply with MedDRA guidelines, with cutoff deadlines such as December 1, 2025, at 17:00 USA EST for inclusion in version 29.0. Following submission, the MSSO verifies compliance and forwards requests for medical evaluation by a panel of International Medical Officers (IMOs) and expert working groups, who assess clinical relevance and reach consensus on approval, rejection, or suspension. The MSSO, responsible for processing these requests, provides final disposition reports to submitters, typically within 10 working days outside cutoff periods. Changes encompass new terms to capture emerging medical concepts, modifications to existing terms for improved precision, relocations within the , inactivations or deletions to eliminate redundancy, and updates to SMQs or translations. These originate from regulatory authorities' needs, such as ICH directives; advancements in medical science; or direct user feedback through the system. Simple changes (at Preferred Term or Lower Level Term levels) are incorporated biannually, while complex structural alterations (at System Organ Class, High Level Group Term, or High Level Term levels) are limited to the March X.0 release following annual review from May to August. Quality assurance is integral, involving rigorous validation for clinical accuracy by medical experts, consistency across multilingual versions (available in over 20 languages as of 2025), and minimization of redundancy to preserve the terminology's multi-axial structure. is prioritized, ensuring prior versions can map to new ones without loss of , with approved changes posted for user review before final integration. In version 28.1, for instance, 1,032 of 1,412 submitted requests were approved, focusing on point-level updates. As of 2025, recent updates have included expansions in biologics categories, such as new Lowest Level Terms for CAR T-cell investigations like "CAR T-cell expansion in peripheral blood," and enhancements to terminology through updated IMDRF-to-MedDRA mappings, including Annex E for clinical (published March 2025), with Annex A mappings for device problems in progress. Prior versions incorporated COVID-19-related terms to address pandemic-specific adverse events, with ongoing maintenance via the MSSO's proactive process for general terminology improvements.

Terminology Structure

Dictionary Organization

The Medical Dictionary for Regulatory Activities (MedDRA) is structured as a hierarchical, multi-axial comprising 119,737 terms organized across 27 System Organ Classes (SOCs) as of version 28.1. These terms encompass a wide range of medical concepts relevant to regulatory activities, including adverse events, indications, and investigations, enabling standardized coding and analysis in and clinical trials. The dictionary's design supports international by providing a comprehensive yet flexible framework for capturing medical information without loss of specificity. A key feature of MedDRA's organization is its multi-axial classification system, which allows individual terms, particularly at the Preferred Term (PT) level, to be assigned to multiple SOCs based on different perspectives such as etiology, anatomical site, or clinical purpose. For example, a term describing might be linked to the SOC "Infections and infestations" for its infectious cause and to "Respiratory, thoracic and mediastinal disorders" for its location, facilitating versatile data retrieval and analysis while avoiding rigid single-category assignments. To manage potential overlaps in reporting, each PT is designated a primary SOC according to established rules prioritizing the site of manifestation or clinical relevance, with exceptions for categories like congenital anomalies (assigned to SOC "Congenital, familial and genetic disorders") and neoplasms (assigned to SOC "Neoplasms benign, malignant and unspecified"). Secondary SOC linkages provide additional grouping options without altering the primary classification. MedDRA terms are categorized by status to support both current and historical : active terms are available for ongoing coding, while inactive (non-current) terms, such as those deemed vague, obsolete, or superseded, are retained in the to ensure continuity for legacy datasets. Non-current Lowest Level Terms (LLTs) are flagged accordingly but remain accessible, preventing the need to recode historical reports. The primary SOC assignment for inactive terms follows the same rules as for active ones, maintaining consistency across the . Supplementary tools enhance the usability and analytical capabilities of the dictionary. The MedDRA Web-Based Browser (WBB) serves as an online interface for searching, navigating the , and exploring terms in English or translated versions, aiding users in coding and term selection. Standardized MedDRA Queries (SMQs) provide predefined groupings of PTs related to specific medical conditions or areas of interest, such as "Anaphylactic reaction" or "Cardiac failure," to streamline signal detection and safety analysis; as of version 28.1, there are 110 main SMQ topics comprising 230 individual queries. These tools are updated biannually alongside the dictionary to reflect evolving medical knowledge. MedDRA's organization aligns with international data standards to facilitate electronic submissions and . It is maintained under an ISO 9001:2015 , ensuring rigorous processes for term development and updates. The terminology incorporates elements compatible with HL7 for health data exchange, ISO standards for medical device reporting, and the Identification of Medicinal Products (IDMP) for substance and product identification, particularly in SOCs like "Investigations" which harmonize with LOINC and IUPAC nomenclature. This integration supports regulatory requirements for structured data in individual case safety reports (ICSRs) under ICH guidelines.

Hierarchical Levels

MedDRA employs a five-level to organize its , enabling the of adverse events from highly specific descriptors at the bottom to broad categories at the top. This structure facilitates and analysis by allowing users to aggregate information at varying degrees of , with each level building logically upon the one below it. The is multiaxial, meaning terms can be assigned to multiple System Organ Classes (SOCs) via primary and secondary linkages, though this section focuses on the vertical descent within the structure. At the highest level, the System Organ Class (SOC) comprises 27 top-level categories that group terms by body system, etiology, or purpose, providing a broad framework for organizing medical concepts. Examples include "Blood and lymphatic system disorders," which encompasses hematologic conditions, and "Cardiac disorders," covering heart-related events. SOCs serve as the primary axis for data summarization in , ensuring comprehensive coverage without across categories. The second level, High Level Group Term (HLGT), subdivides each SOC into more focused subgroups based on shared anatomical, pathological, or etiological characteristics. For instance, under the SOC "Blood and disorders," the HLGT "Haematological disorders" groups related blood-related conditions. HLGTs number 337 as of version 28.1 and act as intermediate collectors, enhancing the 's ability to handle nuanced groupings within broader classes. The third level, High Level Term (HLT), offers further specificity by clustering terms around particular therapeutic, diagnostic, or physiological themes within an HLGT. An example is "Anaemias non-haemolytic and marrow depression" under the HLGT "Haematological disorders," which includes non-immune anemias and related issues. HLTs number 1,739 as of version 28.1, enabling targeted of disease subsets, with thousands available to support detailed querying without overwhelming specificity. The fourth level consists of Preferred Term (PT), which provides standardized, unambiguous labels for individual medical concepts such as signs, symptoms, diseases, or procedures. PTs are the core reporting units in MedDRA, with each representing a single idea; for example, "Anaemia" serves as a PT under the aforementioned HLT. All PTs are current and linked upward to HLTs, ensuring consistency in global regulatory submissions; there are 27,163 PTs as of version 28.1. At the base, the Lowest Level Term (LLT) delivers the greatest granularity, capturing synonyms, regional variants, or highly specific descriptors that align with how events are reported in practice. LLTs, numbering 90,471 as of version 28.1 (including 81,143 current terms), link exclusively to one PT; for instance, "Iron deficiency anaemia" is an LLT under the PT "Anaemia." They include both current terms for active use and non-current ones, which are retained for historical mapping but not recommended for new coding to maintain terminological accuracy. This level-to-level flow—from LLT to SOC—ensures a logical progression from granular details to overarching classifications, supporting flexible data aggregation.

Applications and Use

Regulatory and Pharmacovigilance Roles

MedDRA has been mandated for use by major regulatory authorities worldwide since the early 2000s to standardize safety reporting. In the United States, the Food and Drug Administration (FDA) requires MedDRA for adverse event reporting in the FDA Adverse Event Reporting System (FAERS) since 1997, enabling consistent coding of post-marketing safety data for drugs and biologics. The European Medicines Agency (EMA) has similarly mandated its use in EudraVigilance since 2001 for monitoring suspected adverse reactions to medicines across the European Economic Area. Japan's Pharmaceuticals and Medical Devices Agency (PMDA) implemented MedDRA coding for all adverse event terms in its database starting October 2003, supporting regulatory submissions and safety surveillance. Health Canada adopted MedDRA in the early 2000s for its Canada Vigilance Program, facilitating pre- and post-market risk assessments for health products. In pharmacovigilance, MedDRA plays a central role in coding adverse drug reactions (ADRs), medical device incidents, and vaccine events within Individual Case Safety Reports (ICSRs), ensuring precise and comparable safety data across reports. This standardization supports the detection of safety signals and risk management for marketed products. Regulatory compliance is further enforced through the International Council for Harmonisation (ICH) E2B(R3) guidelines, which specify MedDRA terms for electronic ICSR transmission to authorities, promoting interoperability in global safety reporting. Additionally, MedDRA is integral to Periodic Benefit-Risk Evaluation Reports (PBRERs), where it structures cumulative safety data, including MedDRA Preferred Terms (PTs), Higher Level Terms (HLTs), and System Organ Class (SOC) analyses, to evaluate ongoing benefit-risk balances. MedDRA facilitates global harmonization by enabling in the World Health Organization's (WHO) VigiBase, the largest collection of ICSRs, where reports are coded in MedDRA for multinational signal detection and collaboration among over 180 member states, territories, and areas. It also supports post-authorization studies (PASS), which investigate specific safety concerns post-approval, using MedDRA's hierarchical for consistent event in observational and non-interventional . By standardizing , MedDRA reduces reporting errors and inconsistencies, minimizing ambiguities in interpretation and enhancing overall data quality in workflows.

Coding Practices and Analysis

In MedDRA coding, the workflow begins with selecting the Lowest Level Term (LLT) that most closely matches the source verbatim, prioritizing clinical accuracy and specificity to ensure consistent representation of adverse events. This selection can employ a "bottom-up" approach, starting from the verbatim and searching for the nearest LLT, or a "top-down" approach, navigating the from higher levels to identify suitable terms. Once an LLT is chosen, it automatically maps to its corresponding Preferred Term (PT) within the hierarchy, facilitating standardized aggregation at higher levels for analysis. The MedDRA Term Selection: Points to Consider (MTS:PTC) document provides ICH-endorsed guidelines for this process, emphasizing the avoidance of forcing unfit terms and the use of current MedDRA versions to maintain . For grouping terms across the dictionary, users can leverage Standardised MedDRA Queries (SMQs), which are predefined, hierarchical groupings designed for specific safety topics of regulatory interest, such as the SMQ for "Anaphylactic reaction" that aggregates relevant PTs from multiple System Organ Classes (SOCs) like Disorders and Cardiac Disorders. SMQs enable efficient retrieval of related events without manual term-by-term searches, supporting both narrow and broad scopes for sensitivity in signal detection. Alternatively, custom queries allow tailored groupings for unique needs, such as combining specific PTs or HLTs not covered by SMQs, though they require validation to ensure reproducibility and alignment with MedDRA's multiaxial structure. The choice between SMQs and custom queries depends on the analysis scope, with SMQs preferred for standardized reporting. Analysis techniques in MedDRA-coded data often involve disproportionality analysis to detect safety signals, where metrics like the quantify the disproportionate reporting of an event for a specific compared to others in spontaneous reporting databases. For instance, an elevated for a PT or SMQ group may flag potential signals requiring further investigation, applied during routine screening. Multi-axial searches enhance retrieval by querying terms across primary and secondary SOC linkages, ensuring comprehensive capture of events that span multiple organ systems, such as cardiac manifestations in an immune-related reaction. These techniques prioritize focused, hierarchical queries to balance in large datasets. Best practices for MedDRA coding include avoiding over-coding by selecting a single, most appropriate LLT per verbatim rather than multiple terms unless justified by distinct events, which helps prevent inflation and analysis biases. For ambiguous or vague terms—such as truncated or misspelled verbatims—coders should consult the MTS:PTC for resolution strategies, including contextual review or deferral to higher-level terms if no exact match exists, with the Maintenance and Support Services Organization (MSSO) providing additional guidance through query resolution services. for coders is essential, typically involving MSSO-developed courses on term selection, , and version updates to achieve certification and ensure inter-coder reliability. MedDRA integrates seamlessly with safety databases like Argus Safety and Empirica Signal, where dictionary loading enables automated coding, versioning, and query execution directly within the platform for streamlined case processing and signal management. These integrations support scalable analysis in global safety monitoring.

References

  1. https://www.ich.org/page/meddra
  2. https://alt.meddra.org/files_acrobat/intguide_27_1_English.pdf
  3. https://pubmed.ncbi.nlm.nih.gov/10082069/
  4. https://www.meddra.org/about-meddra/history
  5. https://www.meddra.org/news-and-events/news/english-meddra-version-281-now-available-download
  6. https://www.canada.ca/en/health-canada/services/drugs-health-products/medeffect-canada/adverse-reaction-database/about-medical-dictionary-regulatory-activities-canada-vigilance-adverse-reaction-online-database.html
  7. https://www.sciencedirect.com/science/article/pii/S1532046414000793
  8. https://pmc.ncbi.nlm.nih.gov/articles/PMC3401103/
  9. https://admin.ich.org/sites/default/files/inline-files/Understanding_MedDRA_2013.pdf
  10. https://www.ema.europa.eu/en/documents/scientific-guideline/international-conference-harmonisation-technical-requirements-registration-pharmaceuticals-human-use-guideline-e2b-r3-electronic-transmission-individual-case-safety-reports-icsrs-data-elements_en.pdf
  11. https://www.sciencedirect.com/topics/medicine-and-dentistry/meddra
  12. https://alt.meddra.org/files_acrobat/intguide_27_0_English.pdf
  13. https://www.meddra.org/about-meddra/vision
  14. https://www.meddra.org/news-and-events/news/msso-contract-transfer
  15. https://www.meddra.org/about-meddra/organisation/msso
  16. https://admin.meddra.org/sites/default/files/page/documents_insert/000688_What_is_MedDRA_and_How_is_It_Used_Webinar.pdf
  17. https://www.meddra.org/subscription-rates
  18. https://cioms.ch/working-groups/meddra/
  19. https://files.meddra.org/www/Website%20Files/Change%20Requests/000188%20R4_changereq_info.pdf
  20. https://www.meddra.org/news-and-events/news
  21. https://www.meddra.org/how-to-use/support-documentation/english/welcome
  22. https://www.meddra.org/how-to-use/change-requests
  23. https://www.meddra.org/
  24. https://files.meddra.org/www/Training%20Materials/2025/Materials/001286_Whats_New_with_MedDRA_V28.1_Webinar.pdf
  25. https://www.meddra.org/COVID-19-terms-and-MedDRA
  26. https://www.jmo.pmrj.jp/download/2695
  27. https://www.meddra.org/how-to-use/support-documentation
  28. https://admin.new.meddra.org/sites/default/files/page/documents/meddra2013.pdf
  29. https://alt.meddra.org/files_acrobat/intguide_28_1_English.pdf
  30. https://www.meddra.org/multiaxiality
  31. https://admin.new.meddra.org/sites/default/files/page/documents_insert/8572-100_primary_soc_allocation_in_meddra.pdf
  32. http://mssotools.com/mssoweb/wbb_msso/wbb_index.html
  33. https://www.meddra.org/standardised-meddra-queries
  34. https://alt.meddra.org/files_acrobat/whatsnew_28_1_English.pdf
  35. https://www.meddra.org/how-to-use/basics/hierarchy
  36. https://evsexplore.semantics.cancer.gov/evsexplore/hierarchy/mdr/10005329
  37. https://admin.meddra.org/sites/default/files/guidance/file/000714_termselptc_r4_22_mar2022.pdf
  38. https://www.fda.gov/drugs/surveillance/fdas-adverse-event-reporting-system-faers
  39. https://www.meddra.org/how-to-use/regulatory-use
  40. https://admin.new.meddra.org/sites/default/files/page/documents_insert/meddra_japanese_experience_daisaku_sato_12_june_2011.pdf
  41. https://ich.org/page/e2br3-individual-case-safety-report-icsr-specification-and-related-files
  42. https://www.fda.gov/regulatory-information/search-fda-guidance-documents/e2cr2-periodic-benefit-risk-evaluation-report-pbrer
  43. https://who-umc.org/about-the-who-programme-for-international-drug-monitoring/programme-members/
  44. https://admin.meddra.org/sites/default/files/guidance/file/001006_termselptc_r4_24_mar2024.pdf
  45. https://files.meddra.org/www/Training%2520Materials/2025/Materials/001194_MedDRA_Coding_Basics_Webinar.pdf
  46. https://www.meddra.org/how-to-use/tools/smqs
  47. https://cioms.ch/sd7fdh93gewd882ds/78yudej8fddqd6s-red-book/CIOMS-MedDRA-RedBook-SECURED.pdf
  48. https://www.sciencedirect.com/topics/pharmacology-toxicology-and-pharmaceutical-science/disproportionality-analysis
  49. https://alt.meddra.org/htmlPages/drp_ptc_r322.html
  50. https://admin.meddra.org/sites/default/files/page/documents_insert/Understanding%2520Coding%2520with%2520MedDRA_NIDS%2520MDV%2520CoE_14Sept.pdf
  51. https://www.meddra.org/training-materials
  52. https://docs.oracle.com/en/industries/life-sciences/argus-safety/8.4.3/aeoao/enable-meddra-integration-argus-console.html
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