Children growing up with HIV infection have concerning deficits in skeletal strength which become more apparent towards the end of pubertal growth, finds the largest study to date to investigate the link between HIV and skeletal health in children. The study, conducted in Zimbabwe and published in The Lancet Child and Adolescent Health, identifies a link between these skeletal deficits and the first-line antiretroviral-HIV drug, tenofovir disproxil fumarate (TDF), which is widely used across sub-Saharan Africa.
Led by researchers at the Universities of Zimbabwe, Bristol, the Biomedical Training and Research Institute in Zimbabwe and the London School of Hygiene & Tropical Medicine (LSHTM), the study raises concerns for the long-term impact of this drug on the skeletal health of adolescents across the region, as they transition into adulthood.
An estimated 2.5 million children currently live with HIV in sub-Saharan Africa. Over recent years the successful roll-out of antiretroviral therapy (ART) programs has enabled many more children to survive adolescence to reach adulthood.
Children growing up with HIV in sub-Saharan Africa often experience poor growth through puberty resulting in ‘stunting.” Puberty is a critical period of skeletal development as this is when we build bone mass to achieve, by early adulthood, our ‘peak bone mass’; this is the maximum amount of bone a person will have through the rest of their life. The amount of peak bone mass we each achieve, in part determines the likelihood we will go on to break a bone later in life, highlighting the importance of healthy pubertal skeletal growth for a healthy adulthood.
In this landmark study, researchers from Zimbabwe’s Biomedical Research and Training Institute, Bristol’s Global Musculoskeletal health team and LSHTM, recruited 303 children with HIV and 306 without HIV to compare bone deficits and density. The team found marked deficits in bone density were common in children with HIV, who have a substantially higher prevalence of low bone density (a deficit of two or more standard deviations) compared with their HIV-uninfected peers. However, the effect of HIV on bone density was most marked in the last stage of puberty, especially affecting the spine in females. Use of TDF was strongly linked with bone deficits, particularly affecting the total body (predominantly reflecting cortical bone, i.e. the outer surface of bone that provides a protective layer around the inner part of the bone).
Dr. Ruramayi Rukuni, a Wellcome Ph.D. Fellow who led the study in Harare, Zimbabwe, said: “This is the largest study to date to investigate the effect of HIV infection on skeletal health in children in sub-Saharan Africa. Our results provide us with novel insights into the long-term effects of HIV infection and its treatments on the health of the skeleton.”
Celia Gregson, professor of clinical epidemiology at Bristol, who provided musculoskeletal expertise on the study, added: “We found that taking TDF, which is the first-line anti-HIV drug for children age ten years and older or who weigh at least 25 kgs, for four years or more as part of your treatment for HIV was linked with much lower bone density, to a level that translates clinically to an approximately 50 percent increase in both childhood and adult fracture risk. That is unless one is able to intervene to reduce this risk.”
Rashida Ferrand, professor of international health at LSHTM, explained: “This study really underscores the importance of addressing the long-term adverse impacts of HIV infection on the bone health of children living in sub-Saharan Africa. If the bone deficits this study has identified persist into adulthood, this region in Africa risks seeing a growing number of fractures over the years to come, which will place pressures on already under resourced health systems.”
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