Optimising courier specimen collection time improves patient access to HIV viral load testing in South Africa

Optimising courier specimen collection time improves patient access to HIV viral load testing in South Africa

Background South Africa uses a courier network for transporting specimens to public laboratories. After the daily collection of specimens from the facility by the courier, patients not yet attended to are unlikely to receive same-day blood draws, potentially inhibiting access to viral load (VL) test...

Full description

Saved in:
Bibliographic Details
Published in:African journal of laboratory medicine Vol. 11; no. 1; pp. 1 - 6
Main Authors: Girdwood, Sarah J., Crompton, Thomas, Cassim, Naseem, Olsen, Floyd, Sejake, Portia, Diallo, Karidia, Berrie, Leigh, Chimhamhiwa, Dorman, Stevens, Wendy, Nichols, Brooke
Format: Journal Article
Language:English
Published: Cape Town AOSIS 2022
AOSIS (Pty) Ltd
African Society for Laboratory Medicine (Ethiopia)
Subjects:
Data analysis
Data warehouses
Health facilities
HIV
HIV viral load
Human immunodeficiency virus
Information systems
Medical Laboratory Technology
Original Research
Patient access
Patient-centered care
Regression analysis
Research centers
Scale-up
South Africa
specimen transport
Testing laboratories
United States > US
South Africa
California
scale-up
South Africa
specimen transport
patient access
HIV viral load
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Background South Africa uses a courier network for transporting specimens to public laboratories. After the daily collection of specimens from the facility by the courier, patients not yet attended to are unlikely to receive same-day blood draws, potentially inhibiting access to viral load (VL) testing for HIV patients.Objective We aimed to design an optimised courier network and assess whether this improves VL testing access.Methods We optimised the specimen transport network in South Africa for 4046 facilities (November 2019). For facilities with current specimen transport times (n = 356), we assessed the relationship between specimen transport time and VL testing access (number of annual VL tests per antiretroviral treatment patient) using regression analysis. We compared our optimised transport times with courier collection times to determine the change in access to same-day blood draws.Results The number of annual VL tests per antiretroviral treatment patient (1.14, standard deviation: 0.02) was higher at facilities that had courier collection after 13:36 (the average latest collection time) than those that had their last collection before 13:36 (1.06, standard deviation: 0.03), even when adjusted for facility size. Through network optimisation, the average time for specimen transport was delayed to 14:35, resulting in a 6% – 13% increase in patient access to blood draws.Conclusion Viral load testing access depends on the time of courier collection at healthcare facilities. Simple solutions are frequently overlooked in the quest to improve healthcare. We demonstrate how simply changing specimen transportation timing could markedly improve access to VL testing.
ISSN:2225-2002
2225-2010
2225-2010
DOI:10.4102/ajlm.v11i1.1725