Drug Class Browser
Browse medications organized by WHO ATC drug classification system. Explore drug classes, see related medications, and understand class-based side effects.
เปิดเครื่องมือ →WHO ATC Drug Classification
The Anatomical Therapeutic Chemical (ATC) classification system, maintained by the WHO Collaborating Centre for Drug Statistics Methodology, organizes drugs into groups according to the organ or system on which they act and their therapeutic, pharmacological, and chemical properties.
The hierarchy has five levels: Anatomical main group (e.g., A: Alimentary tract and metabolism), Therapeutic subgroup, Pharmacological subgroup, Chemical subgroup, and Chemical substance. ATC codes are used worldwide for drug utilization research and prescribing guidelines.
Understanding drug classes helps patients recognize that medications in the same class share mechanisms of action, similar side effect profiles, and potential cross-reactivity. This knowledge is important when switching medications or checking for class-level contraindications.
อ้างอิงในคู่มือ
-
Generic vs. Brand Name DrugsGeneric drugs contain the same active ingredient as their brand-name counterparts and must meet rigorous FDA standards. Understanding how generics …
-
What Is a Drug Class?Drug classes group medications that share a mechanism of action, chemical structure, or therapeutic use. Understanding drug classes helps you …
-
Children's Medications: What Parents Need to KnowMedicating children safely requires more precision than medicating adults — dosing is weight-based, formulations differ, and children's bodies process drugs …
-
Medications for Older AdultsAging changes how the body processes medications, increases the risk of drug interactions, and creates unique challenges in managing multiple …
-
Blood Thinner InteractionsAn in-depth guide to drug interactions with anticoagulants and antiplatelet medications — including warfarin, DOACs, and aspirin — covering both …
-
Pain Medication InteractionsA practical guide to interactions involving opioid and non-opioid pain medications — from NSAIDs and acetaminophen to opioids and adjuvant …
-
How to Use an Interaction CheckerA step-by-step guide to using drug interaction checkers effectively — understanding how to interpret results, what the severity ratings mean, …
-
Managing Multiple Medications SafelyA comprehensive guide to safely managing polypharmacy — keeping an accurate medication list, working with pharmacists, understanding medication reconciliation, and …
-
How Antibiotics Kill BacteriaAntibiotics attack bacteria through several distinct mechanisms — from punching holes in cell walls to jamming protein factories. Understanding how …
-
How Blood Pressure Medications WorkHigh blood pressure can be treated with several different drug classes — each working at a different point in the …
-
How Statins Lower CholesterolStatins are among the most prescribed medications in the world. They work by blocking a key enzyme in cholesterol production, …
-
How Insulin and Diabetes Drugs WorkDiabetes treatment encompasses a wide range of drugs — from insulin that replaces a missing hormone to newer agents that …
-
How Immunosuppressants WorkImmunosuppressants are used in organ transplantation and autoimmune diseases to prevent the immune system from attacking the body or a …
-
Complete Guide to Blood Pressure MedicationsA patient-friendly overview of the main drug classes used to treat high blood pressure, how they work, key differences, and …
-
Complete Guide to Diabetes MedicationsAn accessible overview of medications used for type 2 diabetes — from metformin to insulin — covering how each class …
-
Complete Guide to Cholesterol MedicationsA clear explanation of the main drugs used to manage high cholesterol — statins, ezetimibe, PCSK9 inhibitors, and more — …
-
Complete Guide to Asthma MedicationsA clear breakdown of asthma medications — relievers, controllers, and biologics — explaining how bronchodilators and anti-inflammatory drugs work together …
-
Complete Guide to Arthritis MedicationsA comprehensive guide to medications for osteoarthritis and rheumatoid arthritis — covering NSAIDs, DMARDs, biologics, biosimilars, and combination therapy strategies.
-
Pediatric Dosing PrinciplesWhy children are not simply small adults when it comes to medications — how age and weight affect dosing, why …
-
Geriatric PharmacologyHow aging changes the way the body handles medications, why older adults are more vulnerable to side effects, and practical …
-
Medications and Kidney DiseaseHow chronic kidney disease affects drug clearance, which drugs accumulate to dangerous levels in kidney disease, and how renal dosing …
-
Medications and Liver DiseaseHow liver disease affects drug metabolism and first-pass elimination, why hepatic dose adjustments are less predictable than renal adjustments, and …
-
Obesity and Medication DosingHow obesity changes drug distribution and metabolism, why standard doses may be inadequate or excessive in people with obesity, and …
-
Mental Health Medications and WeightWhy many psychiatric medications cause weight gain, the mechanisms behind it, which medications carry the highest risk, and evidence-based strategies …
-
The Microbiome and Drug MetabolismTrillions of bacteria in your gut can transform drugs before they even reach your bloodstream. Learn how the gut microbiome …
How to Use
-
1
Navigate the WHO ATC hierarchy
Begin at the ATC anatomical main group level (e.g., A for alimentary tract, C for cardiovascular) and drill down through therapeutic, pharmacological, and chemical subgroups to explore the complete ATC classification tree. The WHO ATC/DDD Index 2024 is the reference standard for classification.
-
2
View drugs within a class
Select any ATC subgroup to display all FDA-approved drugs classified within it, including both brand and generic names, along with key pharmacological attributes such as mechanism of action, approved indications, and common adverse effects characteristic of the class.
-
3
Compare class-specific side effects
Review the adverse effect profile shared by drugs in the same class, reflecting their common mechanism of action. Class-level side effects — such as myopathy risk with statins, hyperkalemia with RAASi agents, or QT prolongation with antiarrhythmics — apply across members and inform therapeutic substitution decisions within the class.
About
Drug class organization is fundamental to pharmacology education, clinical prescribing, and pharmacovigilance. The WHO Anatomical Therapeutic Chemical classification system provides a globally standardized hierarchical framework for categorizing drugs by anatomical target, therapeutic purpose, pharmacological mechanism, and chemical structure. This five-level taxonomy enables consistent international comparison of drug prescribing patterns, supports pharmacoepidemiology research, and provides the organizational backbone for national formularies and clinical decision support systems.
Understanding drug classes enhances clinical reasoning in several important ways. First, knowledge of class mechanisms predicts adverse effect profiles, enabling clinicians to anticipate risks when prescribing and patients to recognize class-related symptoms. Second, class-level contraindications apply broadly across members: a documented allergy to one sulfonamide antibiotic, for example, raises concern about cross-reactivity within the class and with structurally related non-antibiotic sulfonamide derivatives used in diuretics and hypoglycemics. Third, class awareness supports formulary management and therapeutic substitution decisions when preferred agents are unavailable or not tolerated.
This drug class browser implements the WHO ATC hierarchy to enable hierarchical exploration of the pharmacological landscape, from broad anatomical categories down to individual chemical substances. Each class node displays drugs grouped at the appropriate ATC level along with their shared pharmacological attributes and class-characteristic adverse effects. The integration of class-level adverse effect data — such as angioedema risk with ACE inhibitors, nephrotoxicity risk with aminoglycosides, or Steven-Johnson syndrome risk with aromatic anticonvulsants — reflects the standard approach used in clinical pharmacology education and in structured product labeling guidance issued by FDA and ICH.