SOUTH AFRICA has the worst human immunodefi ciency virus (HIV) associated tuberculosis (TB) epidemic in the world, with 300 000 cases each year.1 Previous national TB control policies have failed, confi rming the fact that we cannot treat our way out of this epidemic using TB case management alone. Implementation of preventive interventions is therefore imperative, and these include antiretroviral therapy (ART) and isoniazid preventive therapy (IPT). Whereas ART has been scaled up rapidly in much of sub-Saharan Africa, implementation of IPT has, in contrast, been very poor. Recognising that the process of tuberculin skin testing (TST) was a stumbling block to implementation of IPT, the World Health Organization (WHO) in 2011 revised the IPT guidelines and made a strong, explicit recommendation that ‘TST is not a requirement for initiating IPT in people living with HIV’, although it ‘can be used where feasible’.2 Eliminating the need for assessment of TST status may be an important factor underlying recent gains in implementation. In line with WHO policy, South Africa revised its national IPT policy in 2010,3 and in this issue of the Journal, Bristow and colleagues report on the impressive gains in numbers of HIV-infected patients being started on IPT in South Africa over the subsequent year.4 In a country where service delivery often falls well short of desired levels, this is highly commendable. However, as the authors clearly point out, their analysis simply presents numbers of patients started on IPT, but not the numbers completing treatment or the benefi t derived. Two key features of the current South African policy, however, may greatly limit the impact of scale-up, namely the lack of targeting of IPT and the use of courses of relatively short duration. While IPT benefi ts those who are TST-positive, there is strong evidence, from a meta-analysis of controlled trials that included 2490 patients with negative or anergic TST reactions, that these patients derive no signifi cant benefi t from IPT.5 While eliminating the need for TST assessment simplifi es IPT implementation, the downside is that the intervention no longer targets the minority of patients who stand to gain benefi t. Thus, large numbers of patients are treated needlessly, undermining cost-effectiveness. Moreover, a small proportion of those unlikely to benefi t might actually be harmed. In neighbouring Botswana, just 24.4% of 1891 HIV-infected patients assessed for IPT were TSTpositive,6 and untargeted therapy would therefore potentially benefi t just one in every four patients treated. The South African guidelines recommend that IPT should be given for 6 months, either continuously or over a 9 month period.3 However, increasing data from carefully conducted trials show that the duration of benefi t is largely limited to the actual period of treatment.6–8 Once treatment has stopped, the TB risk rapidly increases again. The likely explanation for this is that the prevailing force of Mycobacterium tuberculosis infection in South Africa and neighbouring countries is extremely high. Even when administered as mass treatment to whole working communities associated with the South African mines, short-course IPT had no impact on community TB incidence or prevalence.9 As Nardell and Churchyard rightly stated, unless the force of transmission can be reduced, durable benefi ts from prevention strategies are likely to be elusive.10 The life expectancy of people living with HIV infection may now be extended for many decades by ART, and a 6-month course of IPT is likely to have minimal impact on lifetime TB risk. Growing evidence therefore suggests that if IPT is used, to do so on a long-term basis would be a more rational approach.6 This option is included in the WHO guidelines.2 A shift in policy towards long-term or even lifelong therapy, however, would provide an even stronger rationale for targeting IPT according to TST status. Indeed, targeted provision of IPT for 36 months to TST-positive individuals in Botswana has been found to be more cost-effective than providing IPT without TST assessment or providing IPT for 6 months only.11 In conclusion, the current rapid scale-up of IPT in South Africa under national guidelines reported by Bristow and colleagues is not being targeted in patients who will benefi t, and is being given for too short a duration that will not provide durable prevention. This policy is ineffi cient use of scarce health care resources. Current scientifi c evidence suggests that if the intervention is to be appropriately tailored to the local epidemiological situation, it should be given to patients who are confi rmed to be TST-positive, and on a long-term basis.
[1]
J. Klausner,et al.
Scale-up of isoniazid preventive therapy in PEPFAR-assisted clinical sites in South Africa.
,
2012,
The international journal of tuberculosis and lung disease : the official journal of the International Union against Tuberculosis and Lung Disease.
[2]
R. Chaisson,et al.
New regimens to prevent tuberculosis in adults with HIV infection.
,
2011,
The New England journal of medicine.
[3]
E. Nardell,et al.
What is thwarting tuberculosis prevention in high-burden settings?
,
2011,
The New England journal of medicine.
[4]
K. Castro,et al.
6-month versus 36-month isoniazid preventive treatment for tuberculosis in adults with HIV infection in Botswana: a randomised, double-blind, placebo-controlled trial
,
2011,
The Lancet.
[5]
Tyler R. Smith,et al.
Cost-Effectiveness Of Alternative Policies To Reduce TB Disease And Death In HIV-Infected Persons In Botswana
,
2011,
ATS 2011.
[6]
S. Lawn,et al.
HIV infection and tuberculosis in South Africa: an urgent need to escalate the public health response
,
2009,
The Lancet.
[7]
J. Volmink,et al.
Treatment of latent tuberculosis infection in HIV infected persons.
,
2004,
The Cochrane database of systematic reviews.