Lean Six Sigma in the implementation of automated dispensing systems: improving the safe use of medications in thoracic surgery

e202204039

Authors

  • Siria Pablos Bravo Servicio de Farmacia. Hospital Universitario 12 de Octubre. Madrid. España.
  • José Manuel Caro Teller Servicio de Farmacia. Hospital Universitario 12 de Octubre. Madrid. España.
  • Candelas López-López Unidad de Cuidados Intensivos. Hospital Universitario 12 de Octubre. Madrid. España. Grupo de Investigación en Cuidados (InveCuid). Instituto de Investigación Sanitaria Hospital 12 de Octubre (imas12). Madrid. España. / Facultad de Enfermería, Fisioterapia y Podología. Universidad Complutense de Madrid. Madrid. España.
  • Ana María Carro Ruiz Servicio de Cirugía de Tórax. Unidad de trasplante pulmonar. Hospital Universitario 12 de Octubre. Madrid. España.
  • Ana María Guede González Servicio de Farmacia. Hospital Universitario 12 de Octubre. Madrid. España.
  • José Miguel Ferrari Piquero Servicio de Farmacia. Hospital Universitario 12 de Octubre. Madrid. España.

Keywords:

Medication errors, Patient safety, Lean Six Sigma, Automated dispensing cabinet, Medication dispensing, Medication storage, Drug compounding, Drug administration, Total quality management

Abstract

Background: Medications errors are a major problem that can cause a harm to inpatients. The main objective of the study was to compared medication errors in pharmacotherapeutic process before and after to carried out an intervention: to implant an automated dispensing cabine with to use Lean Six Sigma methodology. The secondary objective was to assess process performance, sigma level and defects per one million opportunities for medication error.
Methods: Quasi-experimental and randomized study carried out in a Thoracic Surgery Unit of a Spanish Hospital. A pharmaceutic recorded and assesed the medication errors detected during pre-intervention period (july-august 2017) and post-intervention period (march-april 2018). The steps analyzed were dispensing, storage and compounding/administration. The pharmacist observed a third of the medication dispensed, stored and compounded/administered during the study period. The observed medication was randomly selected using AleatorMetod.xls software. To perform the statistical analysis, Student’s t test and Mann-Whitney U test were used to compare quantitative variables, and Chi-square test for qualitative variables. A significance level of p<0.05 was considered.
Results: The pharmaceutic recorded 4,538 drugs. After intervention, medication errors were decreased a 49% in total pharmacotherapeutic process (12.06% vs 6.15%; p<0.001). In addition, errors were decreased a 91.6% (4.27% vs 0.36%; p=0.004) in the step of medication storage; and a 75.8% (22.52% vs 5.46%; p<0.001) in the step of drugs compounding/administration. However, medication errors were increased in the step of medication dispensing (4.51% vs 15.29%; p<0.001). The process performance increased a 6% (87.9% vs 93.9%), sigma level increased from 2.67 to 3.04 and defects per one million opportunities for medication error decreased a 49%.
Conclusions: To implant an automated dispensing cabinet with Lean Six Sigma methodology helps create a safer environment for the inpatient, reducing medication errors in the steps of storage and preparation/administration, as well as improving the total process performance and sigma level.

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References

Aranaz Andrés Jesus Ma, Aibar Remón C,Vitaller Burillo J RLP. Estudio Nacional sobre los Efectos Adversos ligados a la Hospitalización . ENEAS 2005 Estudio Nacional sobre. Minist Sanid y Consum. 2006;170.

Ministerio de Sanidad España. Estrategia de Seguridad del Paciente del Sistema Nacional de Salud 2015-2020. Ministerio de Sanidad, Servicios Sociales e Igualdad. 2015. 1–128 p.

Aspden P, Wolcott JA, Bootman JL, Cronenwett LR, Editors. Preventing medication errors: Committee on Identifying and Preventing Medication Errors. Vol. 13, Metas de Enfermería. Washington, D.C.: National Academies Press; 2007. 1–480 p.

European Directorate for the Quality and Safety of Medicines & HealthCare. Creation of a better medication safety culture in Europe : Building up safe medication practices. Counc Eur. 2006;275.

Oswald S, Caldwell R. Dispensing error rate after implementation of an automated pharmacy carousel system. Am J Heal Pharm. 2007;64(13):1427–1431.

Oldland AR, Golightly LK, May SK, Barber GR, Stolpman NM. Electronic Inventory Systems and Barcode Technology: Impact on Pharmacy Technical Accuracy and Error Liability. Hosp Pharm. 2015;50(1):034–041.

Fanning L, Jones N, Manias E. Impact of automated dispensing cabinets on medication selection and preparation error rates in an emergency department: A prospective and direct observational before-and-after study. J Eval Clin Pract. 2016;22(2):156–163.

Risør BW, Lisby M, Sørensen J. Complex automated medication systems reduce medication administration errors in a Danish acute medical unit. Int J Qual Heal Care. 2018;30(6):457–465.

Berdot S, Blanc C, Chevalier D, Bezie Y, Maï Lê LM, Sabatier B. Impact of drug storage systems: A quasi-experimental study with and without an automated-drug dispensing cabinet. Int J Qual Heal Care. 2019;31(3):225–230.

Manias E, Kusljic S, Wu A. Interventions to reduce medication errors in adult medical and surgical settings: a systematic review. Ther Adv Drug Saf. 2020;11.

Tsao NW, Lo C, Babich M, Shah K, Bansback NJ. Decentralized automated dispensing devices: Systematic review of clinical and economic impacts in hospitals. Can J Hosp Pharm. 2014;67(2):138–148.

Gates PJ, Hardie RA, Raban MZ, Li L, Westbrook JI. How effective are electronic medication systems in reducing medication error rates and associated harm among hospital inpatients? A systematic review and meta-analysis. J Am Med Inform Assoc. 2021;28(1):167–176.

Zheng WY, Lichtner V, Van Dort BA, Baysari MT. The impact of introducing automated dispensing cabinets, barcode medication administration, and closed-loop electronic medication management systems on work processes and safety of controlled medications in hospitals: A systematic review. Res Soc Adm Pharm. 2021;17(5):832–841.

Font Noguera I, Fernández Megía MJ, Ferrer Riquelme AJ, Balasch I Parisi S, Edo Solsona MD, Poveda Andres JL. Mejora del proceso farmacoterapéutico del paciente hospitalizado mediante la metodología Lean Seis Sigma. Rev Calid Asist. 2013;28(6):370–380.

Nayar P, Ojha D, Fretrik A, Nguyen A. Applying Lean Six Sigma to improve medication management. Int J Health Care Qual Assur. 2013;20:572–584.

Van de Plas A, Slikkerveer M, Hoen S, Schrijnemakers R, Driessen J, de Vries F et al. Experiences with Lean Six Sigma as improvement strategy to reduce parenteral medication administration errors and associated potential risk of harm. BMJ Qual Improv Reports. 2017;6(1):u215011.w5936.

Sánchez M, Suárez M, Asenjo M, Bragulat E. Improvement of emergency department patient flow using lean thinking. Int J Qual Heal care. 2018 May 1;30(4):250–256.

West LM, Brincat A, Mercieca M, Fsadni D, Rapa I, Cordina M. Applying lean methodology to improve parenteral chemotherapy and monoclonal antibody documentation processes based on Normalisation Process Theory. Eur J Hosp Pharm. 2018;25(1):32–37.

George A, Joseph AM, Kolencherry S, Kodath VV, Menaka K, Duraisingh B et al. Application of Six Sigma DMAIC Methodology to Reduce Medication Errors in a Major Trauma Care Centre in India. Indian J Pharm Pract. 2018;11(4):182–187.

Caro Teller JM, Pablos Bravo S, Serrano Garrote O, Ojeda García C, Carro Ruiz AM, Guede González AM et al. Implementation of the Lean Six Sigma in the improvement of the medication dispensing circuit. J Healthc Qual Res [Internet]. 2020;35(6):364–71. Disponible en: https://doi.org/10.1016/j.jhqr.2020.04.005

Chen X, Li X, Liu Y, Yao G, Yang J, Li J et al. Preventing dispensing errors through the utilization of lean six sigma and failure model and effect analysis: A prospective exploratory study in China. J Eval Clin Pract. 2020;(October):1–9.

Bajaj P, Kollipara U, Koganti R, Wang D (Claire), Chennu N, Bhat D et al. Coupled Effect of Electronic Medical Record Modifications and Lean Six Sigma Methodology on Rheumatoid Arthritis Disease Activity Measurement and Treat‐to‐Target Outcomes. ACR Open Rheumatol. 2021;0(0):1–9.

Gayoso-Rey M, Martínez-López de Castro N, Paradela-Carreiro A, Samartín-Ucha M, Rodríguez-Lorenzo D, Piñeiro-Corrales G. Metodología Lean: diseño y evaluación de un modelo estandarizado de almacenaje de medicación. Farm Hosp. 2020;45(1):3–9.

Departamento de Métodos Cuantitativos en Econo-mía y Gestión de la Universidad de Las Palmas. Clasificación de hospitales públicos españoles mediante el uso del análisis de conglomerados [Internet]. 2007 [cited 2021 Sep 27]. Disponible en: https://www.mscbs.gob.es/estadEstudios/estadisticas/docs/NormaGRD2008/CLASIFICACIONHOSPITALESCLUSTER.pdf

Ogrinc G, Davies L, Goodman D, Batalden P, Davidoff F, Stevens D. SQUIRE 2.0 (Standards for QUality Improvement Reporting Excellence): Revised publication guidelines from a detailed consensus process. BMJ Qual Saf. 2016 Dec 1;25(12):986–992.

Ramos-Álvarez MM. Programa AleatorMetod para la aleatorización por ciclos [Internet]. 2005 [cited 2021 Oct 25]. Disponible en: http://www4.ujaen.es/~mramos/EPIP/DescribeAleatorMetod.pdf

Instituto para el Uso Seguro de los Medicamentos y Grupo TECNO. Las Recomendaciones para el Uso Seguro de los Sistemas Automatizados de Dispensación. 2011.

Otero MJ, Martín R, Dominguez Gil A. Instituto para el uso seguro de medicamentos. In: Errores de medicación: prevención, diagnóstico y tratamiento. 2001. p. 95–102.

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Published

2022-04-12

How to Cite

1.
Pablos Bravo S, Caro Teller JM, López-López C, Carro Ruiz AM, Guede González AM, Ferrari Piquero JM. Lean Six Sigma in the implementation of automated dispensing systems: improving the safe use of medications in thoracic surgery: e202204039. Rev Esp Salud Pública [Internet]. 2022 Apr. 12 [cited 2024 Dec. 11];96:14 páginas. Available from: https://ojs.sanidad.gob.es/index.php/resp/article/view/295

Issue

Vol. 96 (2022)

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Copyright (c) 2022 Siria Pablos Bravo, José Manuel Caro Teller, Candelas López-López, Ana María Carro Ruiz, Ana María Guede González, José Miguel Ferrari Piquero

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