Optimizing the Supply Chain of Intensive Care Unit Blood Culture Samples to Clinical Microbiology Laboratory Using Lean Six Sigma

David Sancho; Raquel Acero Cacho; Maria José Lavilla; Miriam Corral; Andrés Carrillo-López; Antonio Rezusta

doi:10.4028/p-n04TQG

Paper Titles

Last Trends in the Application of the Hybrid Additive and Subtractive Manufacturing in the Aeronautic Industry
p.353

Prospective in Additive Manufacturing Based on R-Meta-Analysis and Bibliometric Study
p.363

Application of the Human-Oriented Planning Model in the Supply Chain: From the Global System to Specific Cases
p.373

A Maintenance-Based Project Management Approach towards Organizational Sustainability Goals
p.384

Optimizing the Supply Chain of Intensive Care Unit Blood Culture Samples to Clinical Microbiology Laboratory Using Lean Six Sigma
p.394

The Use of Simulation and Artificial Intelligence as a Decision Support Tool for Sustainable Production Lines
p.405

Impact of Key Enabling Technologies on Safety Risks in Shipbuilding. Application to Painting Activities on Large Vessels
p.413

Guide for the Implementation of Operational Control Procedures in Underwater Cutting and Welding Activities
p.423

Performance Improvement in Service Manufacturing Lines Supported by Information Sharing and Task Assignment Flexibility
p.432

HomeAdvances in Science and TechnologyAdvances in Science and Technology Vol. 132Optimizing the Supply Chain of Intensive Care Unit...

Optimizing the Supply Chain of Intensive Care Unit Blood Culture Samples to Clinical Microbiology Laboratory Using Lean Six Sigma

Abstract:

This paper targets the application of Lean Six Sigma (LSS) framework to microbiological diagnosis processes performed in a clinical microbiology laboratory of a tertiary level Spanish hospital.The increase in clinical samples and diagnostic requests during the COVID-19 pandemic led many microbiology laboratories to optimize their processes. Blood culture samples are one of the most critical cultures because a blood infection may endanger the individual's life. Not only the speed and quality of the diagnosis is important, but also the efficiency in the sample’s supply chain to the laboratory and its preservation conditions. To this end, the supply circuits of blood culture samples to the microbiology laboratory play a major role in the process, being the samples from intensive care units (ICUs) among the most critical. The work presents the analysis and optimization of the ordering and supply process of blood culture samples from an intensive care unit to a microbiology laboratory using LSS methodology and tools. The process starts with the blood culture’s order generation from the intensive care unit specialist and ends with the final reception of the blood culture sample in the pre-analytical area of the microbiology laboratory. The project is structured considering DMAIC problem-solving methodology. Main lean tools used for the supply process analysis and optimization were Gemba Walk, Value Stream Analysis (VSA) and mistake proofing. After project results validation with ICU and microbiology specialists, the next steps are the pilot implementation of the process improvement measures and their impact evaluation on the key performance indicators. The development of a lean concept, eliminating the waste and increasing the added-value of the blood culture samples ordering and supply process, improves the efficiency of the blood culture diagnosis process reducing the lead-time and impacting directly on the patient.