Alpha 2.0
Login Register
» Articles » PMID: 24736460

Iterative Development of Visual Control Systems in a Research Vivarium

Overview
Journal PLoS One
Specialties General Medicine
Science
Date 2014 Apr 17
PMID 24736460
Citations 2
Authors
James A Bassuk
Ida M Washington
Affiliations
Soon will be listed here.
Abstract

The goal of this study was to test the hypothesis that reintroduction of Continuous Performance Improvement (CPI) methodology, a lean approach to management at Seattle Children's (Hospital, Research Institute, Foundation), would facilitate engagement of vivarium employees in the development and sustainment of a daily management system and a work-in-process board. Such engagement was implemented through reintroduction of aspects of the Toyota Production System. Iterations of a Work-In-Process Board were generated using Shewhart's Plan-Do-Check-Act process improvement cycle. Specific attention was given to the importance of detecting and preventing errors through assessment of the following 5 levels of quality: Level 1, customer inspects; Level 2, company inspects; Level 3, work unit inspects; Level 4, self-inspection; Level 5, mistake proofing. A functioning iteration of a Mouse Cage Work-In-Process Board was eventually established using electronic data entry, an improvement that increased the quality level from 1 to 3 while reducing wasteful steps, handoffs and queues. A visual workplace was realized via a daily management system that included a Work-In-Process Board, a problem solving board and two Heijunka boards. One Heijunka board tracked cage changing as a function of a biological kanban, which was validated via ammonia levels. A 17% reduction in cage changing frequency provided vivarium staff with additional time to support Institute researchers in their mutual goal of advancing cures for pediatric diseases. Cage washing metrics demonstrated an improvement in the flow continuum in which a traditional batch and queue push system was replaced with a supermarket-type pull system. Staff engagement during the improvement process was challenging and is discussed. The collective data indicate that the hypothesis was found to be true. The reintroduction of CPI into daily work in the vivarium is consistent with the 4P Model of the Toyota Way and selected Principles that guide implementation of the Toyota Production System.

Citing Articles

How to increase value and reduce waste in research: initial experiences of applying Lean thinking and visual management in research leadership.

Hildebrandt M, Kidholm K, Pedersen J, Naghavi-Behzad M, Knudsen T, Krag A BMJ Open. 2023; 12(6):e058179.

PMID: 36691235 PMC: 9171225. DOI: 10.1136/bmjopen-2021-058179.

Using the Lean Six Sigma Methodology to Reduce Mouse Cage Sanitation Time for Animal Care and Use Programs.

Kovach J, Dash A J Am Assoc Lab Anim Sci. 2019; 58(5):551-557.

PMID: 31319901 PMC: 6774460. DOI: 10.30802/AALAS-JAALAS-18-000121.

References
1.
Khan N, Umrysh B . Improving animal research facility operations through the application of lean principles. ILAR J. 2008; 49:E15-22. DOI: 10.1093/ilar.49.2.e15. View
2.
Bassuk J, Washington I . The a3 problem solving report: a 10-step scientific method to execute performance improvements in an academic research vivarium. PLoS One. 2013; 8(10):e76833. PMC: 3812205. DOI: 10.1371/journal.pone.0076833. View
3.
Barnas K . ThedaCare's business performance system: sustaining continuous daily improvement through hospital management in a lean environment. Jt Comm J Qual Patient Saf. 2011; 37(9):387-99. DOI: 10.1016/s1553-7250(11)37049-3. View
4.
Stapleton F, Hendricks J, Hagan P, DelBeccaro M . Modifying the Toyota Production System for continuous performance improvement in an academic children's hospital. Pediatr Clin North Am. 2009; 56(4):799-813. DOI: 10.1016/j.pcl.2009.05.015. View
5.
Rutledge J, Xu M, Simpson J . Application of the Toyota Production System improves core laboratory operations. Am J Clin Pathol. 2009; 133(1):24-31. DOI: 10.1309/AJCPD1MSTIVZI0PZ. View