Marta Luri1, Leire Leache2, Gabriel Gastaminza3, Antonio Idoate4, Ana Ortega5. 1. Hospital Pharmacy Services, Clínica Universidad de Navarra, Pio XII Avenue 36, Zip code: 31008, Pamplona, Spain. Electronic address: martalurifdm@gmail.com. 2. Unit of Innovation and Organization, Navarre Health Service, Tudela Street 20, 1(st) floor, Zip code: 31003, Pamplona, Spain. Electronic address: lleachea@navarra.es. 3. Allergology Department, Clínica Universidad de Navarra, Pio XII Avenue 36, Zip code: 31008, Pamplona, Spain. Electronic address: gastaminza@unav.es. 4. Hospital Pharmacy Services, Clínica Universidad de Navarra, Pio XII Avenue 36, Zip code: 31008, Pamplona, Spain. Electronic address: aidote@unav.es. 5. Hospital Pharmacy Services, Clínica Universidad de Navarra, Pio XII Avenue 36, Zip code: 31008, Pamplona, Spain. Electronic address: aortega@unav.es.
Abstract
BACKGROUND AND OBJECTIVE: Drug allergy alert systems (DAAS), have been considered an effective strategy to reduce preventable adverse drug events (ADEs), improving patient's safety. To date, no review has been conducted analyzing characteristics of DAAS in the hospital setting. Therefore, the aim of this study is to identify, describe and summarize the DAAS used in hospitals. The secondary objectives are to analyse drug allergy alerts (DAA) characteristics, the override rate (OvR) and the clinical consequences of alert overrides. METHODS: Searches were conducted in Medline and Cochrane Library to identify studies describing DAAS. Systems characteristics, generated alerts, DAA, OvR, and its clinical consequences were extracted and analyzed. RESULTS: Twenty-eight articles were included in the review. Seventeen different electronic DAAS were identified, of which 53% were commercially available. Systems differed in drug allergy information and rules for generating alerts. DAA were generally interruptive, triggered by non-exact match at drug prescribing and when ignored, an override reason was mandatory. The OvR ranged from 43.7% to 97%. The main override reason given by providers was that 'patient had previously tolerated or had taken the drug without allergic reaction'. Clinical consequences of overriding DAA were only analyzed in four studies, with an ADE incidence between 0% and 6%. CONCLUSIONS: Different DAAS are used in hospitals with some degree of heterogeneity. Accurate and updated drug allergy information is important to generate only high value alerts. A regular review of DAAS and a standardization of alert rules, alert information and override reasons are necessary to optimize systems. Future studies should evaluate the impact of the DAAS aspects on preventing ADEs.
BACKGROUND AND OBJECTIVE: Drug allergy alert systems (DAAS), have been considered an effective strategy to reduce preventable adverse drug events (ADEs), improving patient's safety. To date, no review has been conducted analyzing characteristics of DAAS in the hospital setting. Therefore, the aim of this study is to identify, describe and summarize the DAAS used in hospitals. The secondary objectives are to analyse drug allergy alerts (DAA) characteristics, the override rate (OvR) and the clinical consequences of alert overrides. METHODS: Searches were conducted in Medline and Cochrane Library to identify studies describing DAAS. Systems characteristics, generated alerts, DAA, OvR, and its clinical consequences were extracted and analyzed. RESULTS: Twenty-eight articles were included in the review. Seventeen different electronic DAAS were identified, of which 53% were commercially available. Systems differed in drug allergy information and rules for generating alerts. DAA were generally interruptive, triggered by non-exact match at drug prescribing and when ignored, an override reason was mandatory. The OvR ranged from 43.7% to 97%. The main override reason given by providers was that 'patient had previously tolerated or had taken the drug without allergic reaction'. Clinical consequences of overriding DAA were only analyzed in four studies, with an ADE incidence between 0% and 6%. CONCLUSIONS: Different DAAS are used in hospitals with some degree of heterogeneity. Accurate and updated drug allergy information is important to generate only high value alerts. A regular review of DAAS and a standardization of alert rules, alert information and override reasons are necessary to optimize systems. Future studies should evaluate the impact of the DAAS aspects on preventing ADEs.
Keywords:
Decision support systems, clinical; Drug hypersensitivity; Drug therapy, computer-assisted; Hospital information systems; Medical order entry systems