Impact of HIV and antiretroviral drug exposure on lung growth and function over 2 years in an African Birth Cohort

AIDS, Volume 34, No. 4, Year 2020

Interpretation

Objective:To assess the impact of HIV and antiretroviral exposure without infection on lung growth and function over the first 2 years of life.Design:Prospective observational study of an African birth cohort, Drakenstein Child Health Study.Method:Infants enrolled antenatally had lung function measured at 6 weeks, 1 and 2 years. HIV-infected women received antiretroviral therapy (ART) as per local guidelines. The association between HIV and antiretroviral exposure with lung function was assessed using mixed effects modelling.Results:Of 1143 infants born, two HIV-infected infants were excluded from analysis; 909 (80%) infants had lung function collected at 6 weeks [190 (21%) were HIV-exposed uninfected (HEU)]; 782 (69%) at 1 year and 741 (65%) at 2 years. At 6 weeks HEU infants had larger tidal volume compared with HIV-unexposed infants (1.13ml, confidence interval: 0.02-2.23, P=0.045). High maternal viral load was associated with a 17% lower expiratory flow over 2 years (0.17, confidence interval 0.00-0.34, P=0.046). First-line ART initiated during pregnancy was associated with lower infant tidal volume at 6 weeks compared with those who initiated ART before pregnancy (-2.7ml, -5.31 to -0.10, P=0.042), and low maternal CD4+ cell counts associated with lower infant tidal over 2 years (-11.1ml, -18.58-3.58, P=0.004).Conclusion:HIV exposure is associated with altered lung function in early life, with a vulnerable HEU subgroup based on maternal disease severity, immunological compromise and ART exposure. These data highlight the importance of ongoing surveillance of respiratory health in HEU children. This is a study of HIV-exposed uninfected and HIV-unexposed infants enrolled in the DCHS and who were followed from birth through to 2 years, with lung function measured at 6 weeks, 1 year and 2 years. The DCHS is a birth cohort study situated in a peri-urban, low socioeconomic area outside Cape Town in South Africa [18]. Mothers were enrolled antenatally between March 2012 and March 2015 and followed through pregnancy at one of two primary care clinics with mother–child pairs followed from birth. Infants attended scheduled study visits at 6, 10, 14 weeks and 6, 9 and 12 months of age and 6 monthly thereafter. In addition to these regular health assessments and monitoring, a strong surveillance system was established for the detection of lower respiratory tract illness (LRTI). Socioeconomic status was assessed as a composite variable, placing participants into relative quartiles. This score is derived from employment status and standardized scores of educational attainment, household income, assets and market access [19]. The study was approved by the Faculty of Health Sciences, Human Research Ethics Committee, University of Cape Town (401/2009; 423/2012) and by the Western Cape Provincial Health Research Committee. Parents gave informed, written consent in their first language for their infants to participate. Maternal HIV infection was assessed at enrolment through self-report and routine prevention of mother-to-child transmission (PMTCT) HIV testing. All HIV-infected mothers received antiretroviral according to the Western Cape Department of Health Guidelines for PMTCT at the time. In 2012, the guidelines advised zidovudine (ZDV) in all pregnant women and ART to be initiated as per maternal clinical/immunological status. From early-2013 onwards the current guidelines were introduced which are triple ART irrespective of clinical status, made up of one nonnucleoside reverse transcriptase inhibitor and two nucleoside reverse transcriptase inhibitors [typically efavirenz (EFV) and tenofovir (TDF) and emtricitabine (FTC)/lamivudine] [20]. HIV data were obtained from folder reviews of mothers and children and accessing electronic laboratory data from the National Health Laboratory Service as well as self-report interviews antenatally and postnatally. In the case of multiple measures, the lowest recorded CD4+ cell count (collected 1 year before to 3 months after birth to maximise numbers) and highest viral load during pregnancy were used. HIV-exposed children were tested for HIV at 6 weeks (by PCR), 9 months (by PCR, ELISA or rapid antibody testing) and 18 months (by rapid antibody testing), as per provincial PMTCT guidelines. Lung function testing was undertaken first at 6 (5–11) weeks of age corrected for prematurity (<37 weeks) and then at 1 year (11–13 months) and 2 years (23–25 months). All testing was done in unsedated, behaviourally assessed quiet sleep as previously described [21,22]. Lung function tests included measures of tidal breathing (tidal volume, respiratory rate, expiratory flow ratios) and sulphur-hexafluoride (SF6) multiple breath washout (MBW), which measures functional residual capacity (FRC) and the lung clearance index (LCI). The tidal lung volumes are a measure of lung growth. Low expiratory flow ratio [time to peak tidal expiratory flow over total expiratory time (tPTEF/tE)] reported here is associated with airway obstruction, though is also affected by lung size and breathing control [23]. The LCI is an early measure of small airways disease and impaired ventilation, it increases in disease states [24]. Measurements were collected using the Exhalyser D with ultrasonic flow meter (Ecomedics AG, Duernton, Switzerland) with 4% SF6 for the MBW [21]. Analyses were conducted with STATA version 14.0 (College Station, Texas, USA). Descriptive data were presented as means, SDs and frequencies (proportions), as appropriate. Mann–Whitney rank sum tests was used to test for significant differences between categorical and continuous variables. Pearson chi-square test or Fisher Exact tests were used to determine if significant differences existed between categorical variables. Lung function outcomes were modelled using linear regression to assess the impact of HIV exposure, maternal HIV disease severity and antiretroviral exposure on the lung function attained at each time point. Maternal HIV viral load was used as a categorical variable: undetectable (<40 copies/ml), detectable (≥40–1000 copies/ml) and virally unsuppressed (>1000 copies/ml). Maternal CD4+ cell count was categorized as more than 500, 350–500 and 350 cells/μl or less. BMI for age z-scores were calculated using the WHO Child Growth Standards ‘Igrowup’ STATA package. Base models were first constructed using Directed Acyclic Graphs (DAGs) for confounder selection. DAGs minimal adjustment set of variables [socioeconomic status (SES), race, sex, BMI for age, maternal smoking] were used to assess the impact of exposures on lung function outcomes at each time point (6 weeks, 12 months and 24 months). In addition, mixed effects models were used to assess the impact of HIV and antiretroviral exposure on lung growth over 2 years. In this model LRTI episodes during 2 years was included given the documented impact of LRTI on lung function outcomes in this cohort [25]. For antiretroviral exposure, analyses were performed comparing all those children exposed to maternal triple ART, compared with ZDV, only. However, for timing of ART initiation we limited to the first-line regimen that the majority of women were receiving in the study (TDF/FTC/EFV) which is currently WHO recommended first-line in our setting (dolutegravir is not yet widely available), and by limiting to one regimen we were able to better examine the effects of timing without the confounding effects of different antiretroviral drugs. Estimated coefficients, 95% confidence intervals (CIs) and P values were recorded for each early life exposure of interest. In addition, diagnostic checks were conducted. These included checking for normality in the residuals using histograms, standardized probability (P–P) plot, Quantile–Quantile (Q–Q) plots, as well the Shapiro–Wilk W test for normality. Further, homoscedasticity was checked using scatter plots and the presence of multicollinearity was explored using the variance inflation factor. Three of the lung function measures (FRC, ratio of time to peak tidal expiratory flow over total time of expiration and respiratory rate) were found to be nonnormal, and thus log-transformations were performed on these outcomes.

AI Digest

Study Justification:

This study aims to assess the impact of HIV and antiretroviral drug exposure on lung growth and function in African infants over the first 2 years of life. It is important to understand the effects of HIV and antiretroviral drugs on lung health in this population, as it can help inform healthcare interventions and improve respiratory health outcomes for HIV-exposed uninfected children.

Highlights:

– The study found that HIV exposure in early life is associated with altered lung function.
– Infants who were HIV-exposed uninfected had larger tidal volume compared to HIV-unexposed infants at 6 weeks of age.
– High maternal viral load was associated with lower expiratory flow over 2 years.
– First-line antiretroviral therapy initiated during pregnancy was associated with lower infant tidal volume at 6 weeks.
– Low maternal CD4+ cell counts were associated with lower infant tidal volume over 2 years.
– These findings highlight the importance of ongoing surveillance of respiratory health in HIV-exposed uninfected children.

Recommendations:

– Implement regular respiratory health assessments for HIV-exposed uninfected children.
– Provide targeted interventions for HIV-infected mothers with high viral load to improve respiratory health outcomes in their infants.
– Ensure timely initiation of antiretroviral therapy during pregnancy to minimize the impact on infant lung function.
– Improve access to healthcare services for HIV-exposed uninfected children, particularly those with low maternal CD4+ cell counts.

Key Role Players:

– Researchers and scientists involved in respiratory health and HIV/AIDS studies.
– Healthcare providers and clinicians specializing in pediatric care and HIV/AIDS management.
– Policy makers and government officials responsible for healthcare planning and resource allocation.
– Non-governmental organizations (NGOs) working in the field of HIV/AIDS and child health.

Cost Items for Planning Recommendations:

– Training and capacity building for healthcare providers on respiratory health assessments.
– Development and implementation of targeted interventions for HIV-infected mothers and their infants.
– Provision of antiretroviral therapy during pregnancy.
– Healthcare infrastructure and equipment for respiratory health assessments.
– Monitoring and evaluation of respiratory health outcomes in HIV-exposed uninfected children.
– Awareness campaigns and education materials for parents and caregivers.

Strength of Evidence

The strength of evidence for this abstract is 7 out of 10.
The evidence in the abstract is rated 7 because it provides specific findings from a prospective observational study with a large sample size. However, the abstract does not provide information on the statistical significance of the findings or the effect sizes. To improve the evidence, the abstract could include p-values and confidence intervals for the reported associations, as well as the magnitude of the effect sizes.

Abstract

This is a study of HIV-exposed uninfected and HIV-unexposed infants enrolled in the DCHS and who were followed from birth through to 2 years, with lung function measured at 6 weeks, 1 year and 2 years. The DCHS is a birth cohort study situated in a peri-urban, low socioeconomic area outside Cape Town in South Africa [18]. Mothers were enrolled antenatally between March 2012 and March 2015 and followed through pregnancy at one of two primary care clinics with mother–child pairs followed from birth. Infants attended scheduled study visits at 6, 10, 14 weeks and 6, 9 and 12 months of age and 6 monthly thereafter. In addition to these regular health assessments and monitoring, a strong surveillance system was established for the detection of lower respiratory tract illness (LRTI). Socioeconomic status was assessed as a composite variable, placing participants into relative quartiles. This score is derived from employment status and standardized scores of educational attainment, household income, assets and market access [19]. The study was approved by the Faculty of Health Sciences, Human Research Ethics Committee, University of Cape Town (401/2009; 423/2012) and by the Western Cape Provincial Health Research Committee. Parents gave informed, written consent in their first language for their infants to participate. Maternal HIV infection was assessed at enrolment through self-report and routine prevention of mother-to-child transmission (PMTCT) HIV testing. All HIV-infected mothers received antiretroviral according to the Western Cape Department of Health Guidelines for PMTCT at the time. In 2012, the guidelines advised zidovudine (ZDV) in all pregnant women and ART to be initiated as per maternal clinical/immunological status. From early-2013 onwards the current guidelines were introduced which are triple ART irrespective of clinical status, made up of one nonnucleoside reverse transcriptase inhibitor and two nucleoside reverse transcriptase inhibitors [typically efavirenz (EFV) and tenofovir (TDF) and emtricitabine (FTC)/lamivudine] [20]. HIV data were obtained from folder reviews of mothers and children and accessing electronic laboratory data from the National Health Laboratory Service as well as self-report interviews antenatally and postnatally. In the case of multiple measures, the lowest recorded CD4+ cell count (collected 1 year before to 3 months after birth to maximise numbers) and highest viral load during pregnancy were used. HIV-exposed children were tested for HIV at 6 weeks (by PCR), 9 months (by PCR, ELISA or rapid antibody testing) and 18 months (by rapid antibody testing), as per provincial PMTCT guidelines. Lung function testing was undertaken first at 6 (5–11) weeks of age corrected for prematurity (<37 weeks) and then at 1 year (11–13 months) and 2 years (23–25 months). All testing was done in unsedated, behaviourally assessed quiet sleep as previously described [21,22]. Lung function tests included measures of tidal breathing (tidal volume, respiratory rate, expiratory flow ratios) and sulphur-hexafluoride (SF6) multiple breath washout (MBW), which measures functional residual capacity (FRC) and the lung clearance index (LCI). The tidal lung volumes are a measure of lung growth. Low expiratory flow ratio [time to peak tidal expiratory flow over total expiratory time (tPTEF/tE)] reported here is associated with airway obstruction, though is also affected by lung size and breathing control [23]. The LCI is an early measure of small airways disease and impaired ventilation, it increases in disease states [24]. Measurements were collected using the Exhalyser D with ultrasonic flow meter (Ecomedics AG, Duernton, Switzerland) with 4% SF6 for the MBW [21]. Analyses were conducted with STATA version 14.0 (College Station, Texas, USA). Descriptive data were presented as means, SDs and frequencies (proportions), as appropriate. Mann–Whitney rank sum tests was used to test for significant differences between categorical and continuous variables. Pearson chi-square test or Fisher Exact tests were used to determine if significant differences existed between categorical variables. Lung function outcomes were modelled using linear regression to assess the impact of HIV exposure, maternal HIV disease severity and antiretroviral exposure on the lung function attained at each time point. Maternal HIV viral load was used as a categorical variable: undetectable (1000 copies/ml). Maternal CD4+ cell count was categorized as more than 500, 350–500 and 350 cells/μl or less. BMI for age z-scores were calculated using the WHO Child Growth Standards ‘Igrowup’ STATA package. Base models were first constructed using Directed Acyclic Graphs (DAGs) for confounder selection. DAGs minimal adjustment set of variables [socioeconomic status (SES), race, sex, BMI for age, maternal smoking] were used to assess the impact of exposures on lung function outcomes at each time point (6 weeks, 12 months and 24 months). In addition, mixed effects models were used to assess the impact of HIV and antiretroviral exposure on lung growth over 2 years. In this model LRTI episodes during 2 years was included given the documented impact of LRTI on lung function outcomes in this cohort [25]. For antiretroviral exposure, analyses were performed comparing all those children exposed to maternal triple ART, compared with ZDV, only. However, for timing of ART initiation we limited to the first-line regimen that the majority of women were receiving in the study (TDF/FTC/EFV) which is currently WHO recommended first-line in our setting (dolutegravir is not yet widely available), and by limiting to one regimen we were able to better examine the effects of timing without the confounding effects of different antiretroviral drugs. Estimated coefficients, 95% confidence intervals (CIs) and P values were recorded for each early life exposure of interest. In addition, diagnostic checks were conducted. These included checking for normality in the residuals using histograms, standardized probability (P–P) plot, Quantile–Quantile (Q–Q) plots, as well the Shapiro–Wilk W test for normality. Further, homoscedasticity was checked using scatter plots and the presence of multicollinearity was explored using the variance inflation factor. Three of the lung function measures (FRC, ratio of time to peak tidal expiratory flow over total time of expiration and respiratory rate) were found to be nonnormal, and thus log-transformations were performed on these outcomes.

Materials

https://efashare.b-cdn.net/materials/45315e603d6ea12ce738a0f72ec4aadb7ca4a230f089501e820e616400f2918d/aids-34-549-s001.doc

Innovations

Based on the provided information, it is not clear what specific innovations are being described or what recommendations are being sought. The information provided is a detailed description of a study on the impact of HIV and antiretroviral drug exposure on lung growth and function in infants. If you have any specific questions or need assistance with a particular aspect of the study, please provide more specific information or clarify your request.

AI Innovations Description

Based on the description provided, the study aims to assess the impact of HIV and antiretroviral exposure on lung growth and function in infants over the first 2 years of life. The study collected lung function data at 6 weeks, 1 year, and 2 years from a cohort of HIV-exposed uninfected and HIV-unexposed infants in South Africa. The findings suggest that HIV exposure is associated with altered lung function in early life, particularly in infants with higher maternal viral load, lower maternal CD4+ cell counts, and those who initiated antiretroviral therapy (ART) during pregnancy.

To develop this research into an innovation to improve access to maternal health, the following recommendation can be considered:

1. Strengthening Antenatal Care: Implement comprehensive antenatal care programs that include regular monitoring of maternal HIV status, viral load, and CD4+ cell counts. This will ensure early detection and appropriate management of HIV infection during pregnancy, leading to improved maternal health outcomes and reduced risk of HIV transmission to the infant.

2. Early Initiation of ART: Promote early initiation of ART for HIV-infected pregnant women, regardless of clinical status, following the current guidelines. This will help suppress viral load, improve maternal immune function, and reduce the risk of vertical transmission of HIV to the infant.

3. Integrated Maternal and Child Health Services: Establish integrated maternal and child health services that provide comprehensive care for both the mother and the child. This includes regular monitoring of infant lung function and respiratory health, as well as early detection and management of respiratory illnesses in HIV-exposed uninfected infants.

4. Health Education and Counseling: Provide health education and counseling to HIV-infected pregnant women and their families, emphasizing the importance of adherence to ART, regular follow-up visits, and early recognition of respiratory symptoms in infants. This will empower mothers to take an active role in their own health and the health of their infants.

5. Research and Innovation: Encourage further research and innovation in the field of maternal and child health, particularly in understanding the long-term effects of HIV and antiretroviral exposure on lung function and respiratory health. This will contribute to the development of evidence-based interventions and strategies to improve access to maternal health services and optimize outcomes for HIV-exposed uninfected infants.

By implementing these recommendations, it is possible to improve access to maternal health and enhance the respiratory health outcomes of HIV-exposed uninfected infants.

AI Innovations Methodology

Based on the provided information, it seems that the study is focused on assessing the impact of HIV and antiretroviral exposure on lung growth and function in infants over the first 2 years of life. The methodology used in the study includes the following steps:

1. Study Population: The study enrolled infants from an African birth cohort, specifically HIV-exposed uninfected and HIV-unexposed infants. The cohort was situated in a peri-urban, low socioeconomic area outside Cape Town in South Africa.

2. Data Collection: Lung function measurements were collected at 6 weeks, 1 year, and 2 years of age. These measurements included tidal breathing measures (tidal volume, respiratory rate, expiratory flow ratios) and sulphur-hexafluoride (SF6) multiple breath washout (MBW) to assess functional residual capacity (FRC) and lung clearance index (LCI).

3. HIV and Antiretroviral Exposure: Maternal HIV infection was assessed through self-report and routine prevention of mother-to-child transmission (PMTCT) HIV testing. HIV-infected mothers received antiretroviral therapy (ART) according to local guidelines. The study analyzed the impact of HIV exposure, maternal HIV disease severity, and antiretroviral exposure on lung function outcomes.

4. Statistical Analysis: Linear regression models were used to assess the impact of HIV exposure, maternal HIV disease severity, and antiretroviral exposure on lung function outcomes at each time point. Mixed effects models were used to assess the impact of HIV and antiretroviral exposure on lung growth over the 2-year period. The models were adjusted for confounding variables, such as socioeconomic status, race, sex, BMI for age, and maternal smoking.

5. Diagnostic Checks: Normality of residuals, homoscedasticity, and multicollinearity were checked using various statistical tests and plots. Non-normal lung function measures were log-transformed to meet the assumptions of the statistical models.

In summary, the study used a prospective observational design to assess the impact of HIV and antiretroviral exposure on lung growth and function in infants over the first 2 years of life. Lung function measurements were collected at multiple time points, and statistical models were used to analyze the associations between HIV exposure, antiretroviral exposure, and lung function outcomes while adjusting for potential confounders.

Author

Dima Health

Statistics:

Citations: 7

Identifiers:

DOI: 10.1097/QAD.0000000000002444

ISSN: 02699370

Research Areas:

Community Interventions, Health System and Policy, Infectious Diseases, Maternal Access, Maternal and Child Health, Quality of Care, Sexual and Reproductive Health, Social Determinants

Study Countries:

South Africa

Study Design:

Cohort Study, Cross Sectional Study

Study Approach:

Quantitative

Participants Gender:

Female