Evaluation of Drug Administration Errors in a Teaching Hospital
News Mar 23, 2012
Medication errors can occur at any of the three steps of the medication use process: prescribing, dispensing and administration. We aimed to determine the incidence, type and clinical importance of drug administration errors and to identify risk factors.
Prospective study based on disguised observation technique in four wards in a teaching hospital in Paris, France (800 beds). A pharmacist accompanied nurses and witnessed the preparation and administration of drugs to all patients during the three drug rounds on each of six days per ward. Main outcomes were number, type and clinical importance of errors and associated risk factors. Drug administration error rate was calculated with and without wrong time errors. Relationship between the occurrence of errors and potential risk factors were investigated using logistic regression models with random effects.
Twenty-eight nurses caring for 108 patients were observed. Among 1501 opportunities for error, 415 administrations (430 errors) with one or more errors were detected (27.6%). There were 312 wrong time errors, ten simultaneously with another type of error, resulting in an error rate without wrong time error of 7.5% (113/1501). The most frequently administered drugs were the cardiovascular drugs (425/1501, 28.3%). The highest risks of error in a drug administration were for dermatological drugs. No potentially life-threatening errors were witnessed and 6% of errors were classified as having a serious or significant impact on patients (mainly omission). In multivariate analysis, the occurrence of errors was associated with drug administration route, drug classification (ATC) and the number of patient under the nurse's care.
This article is published on line in BMC Health Services Research and is free to access.
Researchers Discover Key Link Between Mitochondria and Cocaine AddictionNews
Researchers were able to block response in mitochondria to cocaine.READ MORE
Researchers Test Drug Transfer Using Placenta-On-A-ChipNews
Researchers have demonstrated the feasibility of their "organ-on-a-chip" platform in studying how drugs are transported across the human placental barrier.READ MORE
'Click Chemistry' Reactions Could Boost Cancer-Fighting Drug PotencyNews
Researchers at The Scripps Research Institute (TSRI) have developed a quick and easy way to simultaneously modify dozens of drugs or molecules to improve their disease-fighting properties.READ MORE