ABSTRACT
Objetivo Conocer el grado de implantación de las prácticas seguras con los medicamentos en los Servicios de Medicina Intensiva e identificar oportunidades de mejora. Diseño Estudio descriptivo multicéntrico. Ámbito Servicios de Medicina Intensiva. Participantes/procedimiento Cuarenta Servicios de Medicina Intensiva que voluntariamente cumplimentaron el «Cuestionario de autoevaluación de la seguridad del uso de los medicamentos en los Servicios de Medicina Intensiva» entre marzo y septiembre del 2020. El cuestionario contiene 147 ítems de evaluación agrupados en 10 elementos clave. Variables principales de interés Puntuación media y porcentaje medio sobre el valor máximo posible en el cuestionario completo, en los elementos clave y en los ítems de evaluación. Resultados La puntuación media del cuestionario completo en los Servicios de Medicina Intensiva fue de 436,8 (49,2% del valor máximo posible). No se encontraron diferencias según dependencia funcional, tamaño del hospital y tipo de servicio. Los elementos clave referentes a la incorporación de farmacéuticos en estos servicios, así como a la competencia y la formación de los profesionales en prácticas de seguridad, mostraron los valores más bajos (31,2% y 33,2%, respectivamente). Otros tres elementos clave relativos a la accesibilidad a la información sobre los pacientes y los medicamentos; a la estandarización, el almacenamiento y la distribución de los medicamentos, y a los programas de calidad y gestión de riesgos mostraron porcentajes inferiores al 50%. Conclusiones Se han identificado numerosas prácticas seguras efectivas cuyo grado de implantación en los Servicios de Medicina Intensiva es bajo y que es preciso abordar para reducir los errores de medicación en el paciente crítico (AU)
Objective To assess the level of implementation of medication safety practices in Intensive Care Units (ICUs) and to identify opportunities for improvement. Design A descriptive multicenter study was carried out. Setting Intensive Care Units. Participants/procedure A total of 40 ICUs voluntarily completed the Medication use-system safety self-assessment for Intensive Care Units between March and September 2020. The survey comprised 147 items for evaluation grouped into 10 key elements. Main variables Calculation was made of the mean scores and mean percentages based on the maximum possible values for the overall survey, for the key elements and for each individual item for evaluation. Results The mean score of the overall questionnaire among the participating ICUs was 436.8 (49.2% of the maximum possible score). No differences were found according to functional dependence, size of the hospital or type of ICU. The key elements referred to the incorporation of clinical pharmacists in these units, as well as the competence and training of the professionals in safety practices yielded the lowest values (31.2% and 33.2%, respectively). Three other key elements related to accessibility to information about patients and medicines; to the standardization, storage and distribution of medicines; and to the quality and risk management programs, yielded percentages below 50%. Conclusions Numerous effective safety medication practices have been identified with a low level of implementation in ICUs. This situation must be addressed in order to reduce medication errors in critically ill patients (AU)
Subject(s)
Humans , Pharmacy Service, Hospital/standards , Intensive Care Units , Medication Errors/prevention & control , Patient Safety , Critical Care , Surveys and Questionnaires , Critical IllnessABSTRACT
OBJECTIVE: To assess the level of implementation of medication safety practices in Intensive Care Units (ICUs) and to identify opportunities for improvement. DESIGN: A descriptive multicenter study was carried out. SETTING: Intensive Care Units. PARTICIPANTS/PROCEDURE: A total of 40 ICUs voluntarily completed the "Medication use-system safety self-assessment for Intensive Care Units" between March and September 2020. The survey comprised 147 items for evaluation grouped into 10 key elements. MAIN VARIABLES: Calculation was made of the mean scores and mean percentages based on the maximum possible values for the overall survey, referred to the key elements and to each individual item for evaluation. RESULTS: The mean score of the overall questionnaire among the participating ICUs was 436.8 (49.2% of the maximum possible score). No differences were found according to functional dependence, size of the hospital or type of ICU. The key elements referred to the incorporation of clinical pharmacists in these Units, as well as the competence and training of the professionals in safety practices yielded the lowest values (31.2% and 33.2%, respectively). Three other key elements related to accessibility to information about patients and medicines; to the standardization, storage and distribution of medicines; and to the quality and risk management programs, yielded percentages <50%. CONCLUSIONS: Numerous effective safety medication practices have been identified with a low level of implementation in ICUs. This situation must be addressed in order to reduce medication errors in critically ill patients.
Subject(s)
Intensive Care Units , Medication Errors , Humans , Medication Errors/prevention & control , Critical Illness , Pharmacists , Surveys and QuestionnairesABSTRACT
OBJECTIVE: To assess the level of implementation of medication safety practices in Intensive Care Units (ICUs) and to identify opportunities for improvement. DESIGN: A descriptive multicenter study was carried out. SETTING: Intensive Care Units. PARTICIPANTS/PROCEDURE: A total of 40 ICUs voluntarily completed the "Medication use-system safety self-assessment for Intensive Care Units" between March and September 2020. The survey comprised 147 items for evaluation grouped into 10 key elements. MAIN VARIABLES: Calculation was made of the mean scores and mean percentages based on the maximum possible values for the overall survey, for the key elements and for each individual item for evaluation. RESULTS: The mean score of the overall questionnaire among the participating ICUs was 436.8 (49.2% of the maximum possible score). No differences were found according to functional dependence, size of the hospital or type of ICU. The key elements referred to the incorporation of clinical pharmacists in these units, as well as the competence and training of the professionals in safety practices yielded the lowest values (31.2% and 33.2%, respectively). Three other key elements related to accessibility to information about patients and medicines; to the standardization, storage and distribution of medicines; and to the quality and risk management programs, yielded percentages below 50%. CONCLUSIONS: Numerous effective safety medication practices have been identified with a low level of implementation in ICUs. This situation must be addressed in order to reduce medication errors in critically ill patients.
ABSTRACT
Objetivo Elaborar una relación de nombres de medicamentos similares con letras mayúsculas resaltadas, que facilite y estandarice la implantación de esta técnica en prácticas dirigidas a reducir errores por similitud de nombres. Material y métodos Se realizaron dos encuestas estructuradas. La primera incluyó 46 pares, grupos o nombres de medicamentos similares con letras mayúsculas, procedentes de las listas establecidas por la FDA, ISMP y CAPCA/ISMP-Canadá, y 32 seleccionados de la base de datos del ISMP-España y Consejo de COF. La segunda incluyó 27 pares, grupos o nombres propuestos por los encuestados y 11 procedentes de la actualización del ISMP. Se formularon preguntas sobre la utilidad de la técnica y su implantación en los hospitales. Participaron en la primera encuesta 90 farmacéuticos de diferentes hospitales y 89 en la segunda. Resultados La relación de nombres de medicamentos similares con letras mayúsculas resaltadas elaborada recoge 107 nombres agrupados en 44 pares o grupos. Un 93,3% de los encuestados opinó que esta técnica debería implantarse para denominar a los medicamentos, tanto en el etiquetado de la industria farmacéutica (91,1%) como en otros lugares donde aparecen los nombres, como en las pantallas de prescripción informatizada (90%), de farmacia (82,2%) o de los sistemas automatizados de dispensación (81,1%), en etiquetado de preparaciones y estantes, etc. Solo 9 (10%) de los hospitales utilizaban esta técnica. Conclusiones La disponibilidad de esta relación de nombres similares en los que se recomienda utilizar letras mayúsculas resaltadas podría facilitar su aplicación en prácticas de diferenciación de nombres, actualmente reducida en nuestro país(AU)
Objective To develop a list of look-alike drug names with tall man letters, that will facilitate and standardize the implementation of this technique in safety practices designed to reduce errors caused by look-alike names. Material and methods Two structured surveys were carried out. The first survey included 46 pairs, groups, or individual look-alike drug names with tall man letters from the lists established by the FDA, ISMP and CAPCA/ISMP-Canada, and 32 selected from ISMP-Spain and the COF Council database. The second survey included 27 proposals made by those respondents who completed the first survey and 11 from the ISMP updated list. Participants were asked about the usefulness and current implementation of the technique. Ninety pharmacists from different hospitals participated in the first survey and 89 in the second. Results The list of look-alike drug names with tall man letters which has been developed includes 107 names structured into 44 pairs or groups. Of the respondents, 93.3% felt that this technique should be implemented for identifying medications, not only on pharmaceutical industry labels (91.1%) but also in other places where drug names appear, including computerized prescription screens (90%), pharmacy system screens (82.2%), automated dispensing cabinet screens (81.1%), labels for pharmacy preparations and shelves, etc. Only 9 hospitals (10%) were using this technique. Conclusions The availability of this list of look-alike drug names for which tall man lettering is recommended may encourage the use of this technique for differentiating names in Spain where it is currently not greatly used (AU)
Subject(s)
Humans , Drug Labeling/standards , Medication Errors/prevention & control , Drug Prescriptions/standards , Safety Management/methods , Pharmacy Service, Hospital/standards , Similar DrugsABSTRACT
OBJECTIVE: To develop a list of look-alike drug names with tall man letters, which will facilitate and standardize the implementation of this technique in safety practices designed to reduce errors caused by look-alike names. MATERIAL AND METHODS: Two structured surveys were carried out. The first survey included 46 pairs, groups, or individual look-alike drug names with tall man letters from the lists established by the FDA, ISMP and CAPCA/ISMP-Canada, and 32 selected from ISMP-Spain and the COF Council database. The second survey included 27 proposals made by those respondents who completed the first survey and 11 from the ISMP updated list. Participants were asked about the usefulness and current implementation of the technique. Ninety pharmacists from different hospitals participated in the first survey and 89 in the second. RESULTS: The list of look-alike drug names with tall man letters which has been developed includes 107 names structured into 44 pairs or groups. Of the respondents, 93.3% felt that this technique should be implemented for identifying medications, not only on pharmaceutical industry labels (91.1%) but also in other places where drug names appear, such as computerized prescription screens (90%), pharmacy system screens (82.2%), automated dispensing cabinet screens (81.1%), labels for pharmacy preparations and shelves, etc. Only 9 hospitals (10%) were using this technique. CONCLUSIONS: The availability of this list of look-alike drug names for which tall man lettering is recommended may encourage the use of this technique for differentiating names in Spain where it is currently not greatly used.
Subject(s)
Drug Labeling/methods , Drug Labeling/standards , Medication Errors/prevention & control , HumansABSTRACT
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