10.5061/DRYAD.051H0
Cox, Helen
University of Cape Town
Dickson-Hall, Lindy
University of Cape Town
Ndjeka, Norbert
National Department of Health
van't Hoog, Anja
Grant, Alison
University of KwaZulu-Natal
University of the Witwatersrand
Cobelens, Frank
Amsterdam Institute for Global Health and Development
University of Amsterdam
Stevens, Wendy
National Health Laboratory Service
Nicol, Mark
University of Cape Town
National Health Laboratory Service
van’t Hoog, Anja
Amsterdam Institute for Global Health and Development
University of Amsterdam
Data from: Delays and loss to follow up before treatment of drug-resistant
TB following implementation of Xpert MTB/RIF in South Africa: a
retrospective cohort study
Dryad
dataset
2018
Tuberculosis
MDR-TB
Drug resistance
2018-01-20T00:00:00Z
2018-01-20T00:00:00Z
en
https://doi.org/10.1371/journal.pmed.1002238
385923 bytes
1
CC0 1.0 Universal (CC0 1.0) Public Domain Dedication
Background: South Africa has a large burden of rifampicin-resistant
tuberculosis (RR-TB), with 18,734 patients diagnosed in 2014. The number
of diagnosed patients has increased substantially with the introduction of
the Xpert MTB/RIF test, used for TB diagnosis for all patients with
presumptive TB. Routine aggregate data suggest a large treatment gap
(pre-treatment loss to follow up) between the numbers of laboratory
confirmed RR-TB patients and those reported to have started second-line
treatment. We aimed to assess the impact of Xpert MTB/RIF implementation
on the delay to treatment initiation and loss to follow-up before
second-line treatment for RR-TB across South Africa. Methods and findings:
A nationwide retrospective cohort study was conducted to assess
second-line treatment initiation and treatment delay among laboratory
diagnosed RR-TB patients. Cohorts, including approximately 300
sequentially diagnosed RR-TB patients per South African province, were
drawn from 2011 and 2013, before and after Xpert implementation. Patients
with prior laboratory RR-TB diagnoses within 6 months and currently
treated patients were excluded. Treatment initiation was determined
through data linkage with national and local treatment registers, medical
record review, interviews with healthcare staff, and direct contact with
patients or household members. Additional laboratory data were used to
track cases. National estimates of percentage treatment initiation and
time to treatment were weighted to account for the sampling design. There
were 2,508 and 2,528 eligible patients in the 2011 and 2013 cohorts
respectively; 92% were newly diagnosed with RR-TB (new RR-TB, no prior
RR-TB diagnoses). Nationally, among 2,340 and 2,311 new RR-TB patients in
the 2011 and 2013 cohorts, 55% (95% CI 53-57) and 63% (95% CI 61-65)
respectively started treatment within 6 months of their diagnostic
specimen being sent (p<0.001). However, in 2013, there was no
difference in the percentage of patients who initiated treatment at six
months between the 1,368174 new RR-TB patients diagnosed by Xpert (62%,
95% CI 59-65) and the 943ose diagnosed by other methods (64%, 95% CI
61-67) (p=0.39). The median time to treatment decreased from 44 (IQR
20-69) days in 2011 to 22 (IQR 2-43) days in 2013 (p<0.001). In
2013, across the nine provinces, there were substantial variations in both
treatment initiation (range 51-73% by six months) and median time to
treatment (range 15-36 days, N=1,450), and only 53% of 1,448 new RR-TB who
received treatmented patients were recorded on the national RR-TB
register. This retrospective study is limited by the lack of information
to assess reasons for non-initiation of treatment, particularly
pre-treatment mortality data. Other limitations include the use of names
and dates of birth to locate patient-level data, potentially resulting in
missed treatment initiation among some patients. Conclusions: In 2013,
there was a large treatment gap for RR-TB in South Africa which varied
significantly across provinces. Xpert implementation, while reducing
treatment delay, had not contributed substantially to reducing the
treatment gap in 2013. However, given improved case detection with Xpert,
overall a larger proportion of the total RR-TB burden has received
treatment, with reduced delays. Nonetheless, strategies to further improve
linkage to treatment for all diagnosed RR-TB patients are urgently
required.
Data from: Delays and loss to follow up before treatment of drug-resistant
TB following implementation of Xpert MTB/RIF in South Africa: a
retrospective cohort studyData for submission Jan 2017.xlsx
South Africa