Abstract
Background and objectivesHealthcare systems require effective and efficient blood donation supply chains to provide an adequate amount of whole blood and blood components to hospitals and transfusion centres. However, some crucial steps of the chain, for example blood collection, are not adequately studied in the literature. This work analyses the operations in a blood collection centre with the twofold aim of analysing different configurations and evaluating the effectiveness and feasibility of schedules defined at higher planning levels.Materials and methodsThe analyses are performed through a discrete event simulation (DES) model that describes a customizable collection centre. Moreover, a feedback loop from the DES to the higher planning level allows to adjust scheduling decisions if they determine criticalities or infeasibilities at the operational level.ResultsNumerical tests have been conducted considering a real Italian provider. An experimental plan has been designed to compare different configurations for the blood collection centre and evaluate the best ones in terms of cost and service quality for the three main actors involved (donors, workers and managers). The best configurations have been also used to test the feedback loop.ConclusionsResults confirm the appropriateness of the proposed DES model, which can be considered a useful decision support tool for dimensioning and managing a blood collection centre, either as a standalone tool or in conjunction with a scheduler.
Highlights
Transfusion medicine is arguably one of the most industrial-like specialities in modern medical science
The cost-efficiency Key Performance Indicators (KPIs) was excluded from this first part of the analysis, as it is a function of cycle time and the cost associated with the number of resources involved
We study the operations in blood collection through a discrete event simulation (DES) model developed to describe a general collection centre in a flexible way
Summary
Transfusion medicine is arguably one of the most industrial-like specialities in modern medical science. Following the descriptions provided by Sundaram and Santhanam [5] and Osorio et al [6], the BDSC can be divided into four stages: (i) collection (including donor registration, donation and blood screening); (ii). Healthcare systems require effective and efficient blood donation supply chains to provide an adequate amount of whole blood and blood components to hospitals and transfusion centres. This work analyses the operations in a blood collection centre with the twofold aim of analysing different configurations and evaluating the effectiveness and feasibility of schedules defined at higher planning levels
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