Nuria Barba scite author profile

BackgroundBlood samples are usually collected daily from different collection points, such hospitals and health centers, and transported to a core laboratory for testing. This paper presents a project to improve the collection routes of two of the largest clinical laboratories in Spain. These routes must be designed in a cost-efficient manner while satisfying two important constraints: (i) two-hour time windows between collection and delivery, and (ii) vehicle capacity.MethodsA heuristic method based on a genetic algorithm has been designed to solve the problem of blood sample collection. The user enters the following information for each collection point: postal address, average collecting time, and average demand (in thermal containers). After implementing the algorithm using C programming, this is run and, in few seconds, it obtains optimal (or near-optimal) collection routes that specify the collection sequence for each vehicle. Different scenarios using various types of vehicles have been considered. Unless new collection points are added or problem parameters are changed substantially, routes need to be designed only once.ResultsThe two laboratories in this study previously planned routes manually for 43 and 74 collection points, respectively. These routes were covered by an external carrier company. With the implementation of this algorithm, the number of routes could be reduced from ten to seven in one laboratory and from twelve to nine in the other, which represents significant annual savings in transportation costs.ConclusionsThe algorithm presented can be easily implemented in other laboratories that face this type of problem, and it is particularly interesting and useful as the number of collection points increases. The method designs blood collection routes with reduced costs that meet the time and capacity constraints of the problem.

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Laboratory sample stability. Is it possible to define a consensus stability function? An example of five blood magnitudes

Gómez-Rioja¹,

Martínez

Segovia³

et al. 2018

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Current status of verification practices in clinical biochemistry in Spain

Gómez-Rioja¹,

Álvarez²,

Ventura³

et al. 2013

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Evaluation of Aution Max AX-4280 Automated Urine Test-Strip Analyser

Zaman¹,

Roggeman²,

Cappelletti³

et al. 2001

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Aution Max AX-4280, an automated urine test-strip analyser, was evaluated in three centres. Method comparison, imprecision, carry-over, linearity, detection limit and drift studies were performed for glucose, protein, blood and leukocytes using Uriflet S 9UB strips. These strips enable measurement of pH, glucose, protein, blood, leukocytes, ketones, bilirubin, urobilinogen and nitrite. Specific gravity is determined by the refractive index method. Within-run and between-day imprecision, assessed using pooled urines and quality control materials, were good. No drift over 24 h or sample carry-over was observed. Method comparison with quantitative methods for glucose, protein and specific gravity yielded good correlations. Ascorbate negatively interfered with haemoglobin, glucose and nitrite measurements. Acetylsalicylic acid lowered pH, the effect being greatest when protein was absent. During the assessment period no malfunction or breakdown was reported. The Aution Max is easy to use and needs minimal maintenance.

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Nuria Barba

Preanalytical quality control program – an overview of results (2001–2005 summary)

On the improvement of blood sample collection at clinical laboratories

Laboratory sample stability. Is it possible to define a consensus stability function? An example of five blood magnitudes

Current status of verification practices in clinical biochemistry in Spain

Evaluation of Aution Max AX-4280 Automated Urine Test-Strip Analyser

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