Expectations about future health and longevity in Kenyan and Ugandan communities receiving a universal test-and-treat intervention in the SEARCH trial

Harsha Thirumurthy, Aleksandra Jakubowski, Carol Camlin, Jane Kabami, Emmanuel Ssemmondo, Assurah Elly, Daniel Mwai, Tamara Clark, Craig Cohen, Elizabeth Bukusi, Moses Kamya, Maya Petersen, Diane Havlir, Edwin D Charlebois, Harsha Thirumurthy, Aleksandra Jakubowski, Carol Camlin, Jane Kabami, Emmanuel Ssemmondo, Assurah Elly, Daniel Mwai, Tamara Clark, Craig Cohen, Elizabeth Bukusi, Moses Kamya, Maya Petersen, Diane Havlir, Edwin D Charlebois

Abstract

Expectations about future health and longevity are important determinants of individuals' decisions to invest in physical and human capital. Few population-level studies have measured subjective expectations and examined how they are affected by scale-up of antiretroviral therapy (ART). We assessed these expectations in communities receiving annual HIV testing and universal ART. Longitudinal data on expectations were collected at baseline and one year later in 16 intervention communities participating in the Sustainable East Africa Research in Community Health (SEARCH) trial of the test and treat strategy in Kenya and Uganda (NCT01864603). A random sample of households with and without an HIV-positive adult was selected after baseline HIV testing. Individuals' expectations about survival to 50, 60, 70, and 80 years of age, as well as future health status and economic well-being, were measured using a Likert scale. Primary outcomes were binary variables indicating participants who reported being very likely or almost certain to survive to advanced ages. Logistic regression analyses were used to examine trends in expectations as well as associations with HIV status and viral load for HIV-positive individuals. Data were obtained from 3126 adults at baseline and 3977 adults in year 1, with 2926 adults participating in both waves. HIV-negative adults were more likely to have favorable expectations about survival to 60 years than HIV-positive adults with detectable viral load (adjusted odds ratio [AOR] 1.87, 95% CI 1.53-2.30), as were HIV-positive adults with undetectable viral load (AOR 1.41, 95% CI 1.13-1.77). Favorable expectations about survival to 60 years were more likely for all groups in year 1 compared to baseline (AOR 1.53, 95% CI 1.31-1.77). These findings are consistent with the hypothesis that universal ART leads to improved population-level expectations about future health and well-being. Future research from the SEARCH trial will help determine whether these changes are causally driven by the provision of universal ART.

Keywords: Antiretroviral therapy; health expectations; subjective life expectancy; test and treat.

Conflict of interest statement

Disclosure statement

No potential conflict of interest was reported by the authors.

Figures

Figure 1
Figure 1
Trends in survival at baseline and follow-up year 1. Notes: Each bar represents participants’ subjective expectations to survive to age 50, 60, 70, and 80 using a 5-point Likert scale. Responses are presented separately for baseline and follow-up year 1. Expectations about survival to each of the target ages of 50, 60, 70, and 80 years were elicited from participants aged below the corresponding target age.

References

    1. Balzer LB, Petersen ML, van der Laan MJ, SEARCH Consortium Adaptive pair-matching in randomized trials with unbiased and efficient effect estimation. Statistics in Medicine. 2015;34(6):999–1011. doi: 10.1002/sim.6380.
    1. Becker G. Human capital. Chicago, IL: University of Chicago Press; 1964.
    1. Ben-Porath Y. The production of human capital and the life cycle of earnings. Journal of Political Economy. 1967;75:352–365.
    1. Bendavid E, Holmes CB, Bhattacharya J, Miller G. HIV development assistance and adult mortality in Africa. The Journal of the American Medical Association. 2012;307(19):2060–2067. doi: 10.1001/jama.2012.2001.
    1. Bor J, Herbst AJ, Newell ML, Barnighausen T. Increases in adult life expectancy in rural South Africa: Valuing the scale-up of HIV treatment. Science. 2013;339(6122):961–965. doi: 10.1126/science.1230413.
    1. Bor J, Tanser F, Newell ML, Barnighausen T. In a study of a population cohort in South Africa, HIV patients on antiretrovirals had nearly full recovery of employment. Health Affairs. 2012;31(7):1459–1469. doi: 10.1377/hlthaff.2012.0407.
    1. Chamie G, Clark TD, Kabami J, Kadede K, Ssemmondo E, Steinfeld R, Charlebois ED. A hybrid mobile approach for population-wide HIV testing in rural east Africa: An observational study. The Lancet HIV. 2016 doi: 10.1016/S2352-3018(15)00251-9.
    1. Cohen MS, Chen YQ, McCauley M, Gamble T, Hosseinipour MC, Kumarasamy N, Fleming TR. Prevention of HIV-1 infection with early antiretroviral therapy. New England Journal of Medicine. 2011;365(6):493–505. doi: 10.1056/NEJMoa1105243.
    1. Delavande A, Gine X, McKenzie D. Measuring subjective expectations in developing countries: A critical review and new evidence. Journal of development economics. 2011;94:151–163.
    1. Delavande A, Kohler HP. Subjective expectations in the context of HIV/AIDS in Malawi. Demographic Research. 2009;20:817–875.
    1. Delavande A, Rohwedder S. Differential survival in Europe and the United States: Estimates based on subjective probabilities of survival. Demography. 2011;48:1377–1400.
    1. Fortson J. Mortality risk and human capital investment: The impact of HIV/AIDS in sub-Saharan Africa. Review of Economics and Statistics. 2011;93(1):1–15.
    1. Grosh M, Glewwe P. Designing household survey questionnaires for developing countries: Lessons from 15 years of the living standards measurement study. Washington, DC: The World Bank; 2000. Vols 1, 2, and 3.
    1. Hurd M, McGarry K. Evaluation of the subjective probabilities of survival in the health and retirement study. Journal of Human Resources. 1995;30:s268–s292.
    1. Hurd M, McGarry K. The predictive validity of subjective probabilities of survival. The Economic Journal. 2002;112:966–985.
    1. Jayachandran S, Lleras-Muney A. Life expectancy and human capital investments: Evidence from maternal mortality declines. Quarterly Journal of Economics. 2009;124(1):349–397.
    1. Kalemli-Ozcan S. Does the mortality decline promote economic growth? Journal of Economic Growth. 2002;7:411–439.
    1. Manski CF. Measuring expectations. Econometrica. 2004;72:1329–1376.
    1. Oster E, Shoulson I, Dorsey ER. Limited life expectancy, human capital and health investments. American Economic Review. 2013;103(5):1977–2002. doi: 10.1257/aer.103.5.1977.
    1. Soares R. Mortality reductions, educational attainment and fertility choice. American Economic Review. 2005;95:580–601.
    1. Thirumurthy H, Zivin JG, Goldstein M. The economic impact of AIDS treatment: Labor supply in western Kenya. The Journal of Human Resources. 2008;43(3):511–552.
    1. UNAIDS. HIV treatment in Africa: A looming crisis. Geneva: UNAIDS; 2015.
    1. Wagner Z, Barofsky J, Sood N. PEPFAR funding associated with an increase in employment among males in ten sub-Saharan African countries. Health Affairs. 2015;34(6):946–953.

Source: PubMed

赞助者和合作者

医疗条件

药物干预

3
订阅