Story behind the research:
This was a secondary data analysis from the Childhood Acute Illness and Nutrition (CHAIN) cohort study. The CHAIN study was a multi-country study that aimed to build an evidence base for the care of acutely ill malnourished children. In this study, I had an opportunity to collect data and provide clinical care to the study participants. As we kept discussing different participants in our study calls, we realized that the trajectory of children born to HIV-positive mothers, even when they had no HIV infection, was seemingly different from that of children born to HIV negative mothers.
Fast-forward, when I was doing my master’s degree in Public Health, I needed a research topic for my master’s dissertation. I wanted to compare different clinical outcomes among HIV positive children vs. HEU children vs. HIV-unexposed children. On further discussion with my research supervisor, it became clear that the outcomes of HIV positive children were known, and the knowledge gap was among the HEU vs HUU children. After identifying the research topic, I engaged my mentor (senior author), who reviewed my concept and supported me in getting the data request approved by the CHAIN Network. I did the data analysis, wrote my dissertation, and it was approved.
After surmounting that hurdle, the next step was transforming all the work from dissertation to manuscript format. That took some time. The senior author did extensive reviews, which necessitated changing a few things. The next step was circulating the draft to the co-authors, who provided detailed comments. Some comments required significant changes in analysis strategies, others required a change in the flow of content. It took me about one and a half years to transform the dissertation document into the first draft manuscript submitted to a scientific journal!
Why is the research valuable?
Successful Prevention of Mother to Child Transmission(PMTCT) interventions have resulted in a significant decrease in children infected with HIV and a high number of children who are HIV-exposed but not infected (HEU). In 2022, there were an estimated 15.4 million HEU children, with close to 90% residing in sub-Saharan Africa. Several studies have demonstrated an increased risk of morbidity and mortality among HEU children compared to HIV unexposed, uninfected (HUU) children. However, the drivers of mortality and morbidity among the HEU children remain unclear, which impedes efforts to improve outcomes in this vulnerable group. There have been few studies examining risk factors for poor outcomes among HEU children. In this study, the examined associations between HIV-exposure and mortality, nutritional status, illness severity at admission, hospital length of stay, and utilization of hospital resources. This analysis provides insight into the drivers of poor outcomes among HEU children. This contributes to the evidence for formulating interventions and further research for this vulnerable group of children.
What did the authors do?
We did a secondary analysis of the CHAIN cohort study data. We analysed data from five CHAIN sites: Kampala (Uganda), Blantyre (Malawi), Migori (Kenya), Mbagathi (Nairobi, Kenya), and Kilifi (Kenya). A child was considered HEU if their mother was known to be living with HIV while pregnant, and the child’s confirmatory HIV test was negative, and/or a child < 18 months old had positive HIV rapid tests and the child’s confirmatory HIV DNA-PCR test was negative. We examined inpatient mortality and death within 30 days of admission among HEU children using logistic regression and survival analysis, respectively. We compared nutritional status (wasting and stunting), illness severity (high and low scores), and hospital length of stay (short or prolonged) using logistic regression. To assess the effect of HIV exposure on the occurrence of daily danger signs and resource utilization (oxygen use, nasogastric tube use, and antibiotic switch), days with any danger sign or the use of a specific resource were counted. A zero-inflated negative binomial regression model was applied because the days with a danger sign or use of any resource had leading zeros. In all the regression models, adjustment for appropriate child, caregiver, and household-level variables was done.
What did the researchers find?
HEU children had a higher risk of inpatient and 30-day mortality, were at an increased risk of wasting and stunting, and required a longer hospital stay, as compared to HUU children. There was no significant association between HIV exposure and illness severity, and no significant differences in the frequency and types of danger signs reported, as well as no differences in the requirement of hospital resources.
What are the implications of this study?
HEU children under 2 years of age are uniquely vulnerable to dying during hospitalization and the early post-discharge period, regardless of nutritional status. HEU children may be more vulnerable to undernutrition due to inadequate feeding practices, driven by a low prevalence of breastfeeding and a higher household food insecurity. The presence of sub-clinical infection(s) or acquisition of nosocomial infection(s) may have been more likely to complicate recovery among HEU children, resulting in prolonged hospital stay. Prolonged hospitalization not only places HEU children at increased risk for hospital-acquired infection and emergence of antimicrobial resistance but also increases the financial burden on the family, which further complicates the economic situation of these households.
Are there broader implications or applications of these findings? If so, what are they? What are the obvious limitations or caveats?
Our findings suggest that HEU children should be considered a high-risk population during hospitalization and in the early post-discharge period, regardless of perceived illness severity and nutritional status at admission
Additional biological factors that we were unable to quantify in our analysis, such as intestinal dysbiosis, metabolic derangements, and/ or subclinical infections such as cytomegalovirus, could have also contributed to wasting and the poor outcomes observed among HEU children.
What are the obvious next questions or steps to take this further? Are there aspects of the research that could be made stronger?
Longitudinal studies, preferably beginning in pregnancy, are likely to be required to understand how perinatal HIV exposure in the absence of infection compromises early childhood health. Identifying biological drivers of increased hospital mortality, wasting, and prolonged hospitalization among HEU children is essential to develop clinical care guidelines tailored to support this unique and vulnerable population.