ISMP
ISMP ISMP
 
     
 
ISMP
What’s in a generic name?
Clues about the drug’s use and possible adverse effects
March 9, 2017

Many healthcare professionals, particularly pharmacists, know that a drug’s nonproprietary (generic) name can often help position it among other drugs in the same therapeutic class by recognizing drug name stems, a collection of short name fragments, that have been embedded in the nonproprietary drug names. Because drugs in each of these therapeutic classes work on similar sites in the body and have similar effects and side effects, the nonproprietary name can help healthcare professionals understand how the drug might be used clinically and alert them to possible adverse effects often seen with drugs within the specific class of medications. However, not all healthcare professionals realize that nonproprietary drug names provide these very important clues.

USAN naming process

Since 1961, the United States Adopted Names (USAN) Council has been responsible for selecting simple, informative, and unique nonproprietary drug names based on pharmacological and/or chemical relationships.1,2 For pharmaceutical companies, obtaining a generic name is required before bringing a new drug to the market. Today, there are 5 members of the USAN Council, including the American Medical Association (AMA), United States Pharmacopeia (USP), American Pharmacists Association (APhA), US Food and Drug Administration (FDA), and a member at large. ISMP also has an important role with USAN by identifying medication errors that have been tied to nonproprietary drug names.

At the crux of the USAN naming process is the collection of standard stems used as prefixes, suffixes, and infixes to identify the pharmacologic property and/or chemical structure of the medication, or both. Sometimes, the standard name stems used for nonproprietary drug names can lead to name similarities that cause mix-ups among the various drugs with the same stem. However, the stem helps position an unfamiliar drug with others in a class and provides clues as to its use and effects. For example, drugs ending in the stem -olol belong to the class of drugs known as beta blockers. Some examples of beta blockers available in the US include atenolol, bisoprolol, esmolol, metoprolol, and propranolol. While this class of drugs may be used to treat a variety of conditions, in general, a drug with an -olol stem in its generic name is often used to treat heart failure, cardiac arrhythmias, and hypertension, and shares similar adverse effects, like bradycardia and hypotension.

Another example is the group of drugs ending with the stem -oxetine used for antidepressants (FLUoxetine type). Examples of drugs with this name stem include vortioxetine (TRINTELLIX), FLUoxetine (PROZAC), and PARoxetine (PAXIL). These drugs are selective serotonin reuptake inhibitors (SSRI). They work by increasing levels of the neurotransmitter serotonin in the brain by blocking their reabsorption or reuptake. These drugs are used for various psychiatric disorders such as depression, anxiety, and obsessive-compulsive disorder. They share many of the same side effects.

Once the nonproprietary names are built using the appropriate stem and other conventions, occasionally the pharmaceutical company supplies a syllable or two that may be meaningful to the drug development process. For example, the multiple myeloma drug carfilzomib (KYPROLIS) includes the stem -zomib reserved for proteasome inhibitors, and is also named after molecular biologist Philip Whitcome and his wife, Carla, who both died from cancer (“fil” instead of “phil” was used for Phillip to make the drug name globally compatible).3 Dasatinib (SPRYCEL) includes the stem -tinib reserved for tyrosine kinase inhibitors and is also named after research fellow Jagabandhu Das.3

Coordination of nonproprietary drug names

The USAN Council seeks to coordinate nonproprietary drug names with the World Health Organization (WHO) International Nonproprietary Names (INN) Program so that a single, acceptable worldwide generic name is used when communicating drug names. The single generic name also facilitates communication in global professional journals and research. The INN system began operating earlier than USAN in 1950, when the first list of INN for pharmaceutical substances was published.4 With few exceptions (Table 1), nonproprietary drug names used in the US are the same as those adopted for use outside the US by the INN.

Overlooked clues in nonproprietary drug names

Understanding the clues found in nonproprietary drug names is much like learning English vocabulary by studying Greek and Latin roots—learn what the stem means and you’ll have clues to help understand what the drug does and how it affects the body.3 Unfortunately, not all healthcare professionals involved in the medication-use process have been taught to recognize drug name stems. Generic names may be a mystery requiring brute memorization, and these healthcare professionals may not associate the drug with potential adverse effects within a certain class of drugs. Some healthcare professionals may have received extensive education during academic and clinical training regarding medications, including pharmacology, therapeutic uses, possible adverse effects, and potential interactions, but the drug nomenclature and importance of stems may not have been stressed.

Despite this lack of training, it is more than likely that healthcare professionals have learned, through experience, that drugs with generic names that end in -cillin are antibiotics in the penicillin family; drugs with names that end in -pressin are vasoconstrictors; drugs with names that end in -prazole are antiulcer drugs; drugs with names that end in -parin are heparin derivatives; and so on. But if they have not been explicitly taught to recognize the stems in generic names, it may be difficult to classify drugs into categories so that much of the general mechanism of action, intended indication, and possible adverse effects can be known simply from the drug name. This is not to say that healthcare professionals should not investigate unfamiliar medications to learn more about them, but rather that important clues might be easily overlooked up front with the drug name that could signal the need for additional information or patient evaluation.

How ISMP and pharmacists can help

There are hundreds of drug name stems and subgroups of these stems used by USAN and INN. For example, the general stem -cept refers to receptor molecules, and the subgroups define the targets (e.g., -farcept for interferon receptors, -vircept for antiviral receptors). New stems are constantly being created for novel pharmacologic categories of medications.5 Exhaustive lists for healthcare professionals may not be helpful, nor are lists that describe the meaning of drug name stems in terms that may not be understandable to all healthcare professionals without extensive training in pharmacotherapy (e.g., phosphodiesterase-5 enzyme inhibitors for -afil [e.g., tadalafil]). However, pharmacists can help provide other healthcare professionals with information about the stems associated with the most common drugs prescribed or administered within their specialties, along with the stems for drugs used to treat common chronic conditions. Short educational programs covering a few stems at a time related to a specific class of medications are recommended. This should be accompanied by information regarding the clinical effects and common or dangerous adverse effects found within each class of drugs.

To this end, ISMP also plans to begin a regular series of short features in the ISMP Nurse AdviseERR and the ISMP Long-Term Care AdviseERR highlighting common drug name stems to promote their recognition and understanding of the many benefits that healthcare professionals receive when they understand this common language. ISMP is borrowing the idea from an outstanding effort that is already underway in the French publication, Prescrire International, a subscription-based journal provides reliable, independent information that enables fully informed decision-making about medications.6 The journal, which has long advocated the use of the INN as an important tool in the appropriate use of medications, also offers a free Independent Drug & Healthcare Newsletter.7

References

  1. American Medical Association. USAN Council. January 13, 2017. Accessed on March 6, 2017, at: www.ismp.org/sc?id=2873.   
  2. American Medical Association. Procedure for USAN name selection. 2016. Accessed on March 6, 2017, at: www.ismp.org/sc?id=2875.  
  3. Drahl C. Where drug names come from. Behind every generic name lies a specific process. J Amer Chem Soc. 2012;90(3):36-7.
  4. World Health Organization. International Nonproprietary Names. 2017. Accessed on March 6, 2017, at: www.ismp.org/sc?id=2876.  
  5. American Medical Association. United States Adopted Names approved stems. 2017. Accessed on March 6, 2017, at: www.ismp.org/sc?id=2879.
  6. Prescrire. Welcome to the Prescrire in English website. Accessed on March 6, 2017, at: http://english.prescrire.org.
  7. Prescrire. Sign up to receive the newsletter. Accessed on March 6, 2017, at: www.ismp.org/sc?id=2877.  
  8. Aronson JK. “Where name and image meet”—the argument for “adrenaline.” BMJ. 2000;320(7233):506-9.
Resources
Acute Care Main Page
Current Issue
Past Issues
Highlighted articles
Action Agendas
  - Free Nursing CEs
Special Alerts
Group Purchasing Subscription
Subscribe
Newsletter Editions
Acute Care
Community/Ambulatory Care
Nurse AdviseERR
Long-Term Care AdviseERR
Safe Medicine
Home | Contact UsEmployment  |   Legal Notices | Privacy Policy | Help Support ISMP
 Med-ERRS | Medication Safety Officer Society Medication Safety Officers Society | Consumer Medication Safety For consumers
ISMP Canada | ISMP Spain  | ISMP Brasil  | International Group  | Pennsylvania Patient Safety Authority

200 Lakeside Drive, Suite 200, Horsham, PA 19044, Phone: (215) 947-7797,  Fax: (215) 914-1492
© 2017 Institute for Safe Medication Practices. All rights reserved

ISMP
ISMP