RESEARCH PAPER
Long-term outcome in fully treated HIV-infected children in West Java-Indonesia: gender differences
Submission date: 2017-01-19
Final revision date: 2018-03-15
Acceptance date: 2018-03-16
Publication date: 2018-11-20
HIV & AIDS Review 2018;17(4):267-271
KEYWORDS
TOPICS
ABSTRACT
Introduction:
Since the discovery of highly active anti-retroviral therapy (HAART), there is an improvement in virology findings, thus human immunodeficiency virus type 1 (HIV-1)-infected children can grow and thrive properly. Studies have showed successful treatments of HIV-1-infected children in limited resources are differed by gender.
Material and methods:
We enrolled children 2 – < 15 years old, vertically transmitted, with good treatment adherence and condition, and minimal therapy duration of 6 months. The study has been approved by the Research and Ethics Committee.
Results:
One hundred and sixty-eight children were enrolled, 99 were excluded because of lack of adherence and loss to follow-up. As many as 70 children have met the inclusion criteria, 40 (57.1%) children were females, who started anti-retroviral therapy (ART) therapy at the median age of 8 (range, 2.0-14.0 years). When the therapy started, 45 (64.3%) children were moderately to severely symptomatic (WHO stage 3 or 4), and most of them were males. Meanwhile, boys had higher improvement outcome of CD4 with median 10.5% (r = 3-45.7; p = 0.030) and lower viral loads than girls, although all HIV viruses were detected below 20 copy/ml. There was no significant relevance between caregiver and the treatment success.
Conclusions:
Children in limited resources, especially boys, can achieve successful therapeutic outcome with good treatment adherence and taking medication regardless of the caregiver.
Since the discovery of highly active anti-retroviral therapy (HAART), there is an improvement in virology findings, thus human immunodeficiency virus type 1 (HIV-1)-infected children can grow and thrive properly. Studies have showed successful treatments of HIV-1-infected children in limited resources are differed by gender.
Material and methods:
We enrolled children 2 – < 15 years old, vertically transmitted, with good treatment adherence and condition, and minimal therapy duration of 6 months. The study has been approved by the Research and Ethics Committee.
Results:
One hundred and sixty-eight children were enrolled, 99 were excluded because of lack of adherence and loss to follow-up. As many as 70 children have met the inclusion criteria, 40 (57.1%) children were females, who started anti-retroviral therapy (ART) therapy at the median age of 8 (range, 2.0-14.0 years). When the therapy started, 45 (64.3%) children were moderately to severely symptomatic (WHO stage 3 or 4), and most of them were males. Meanwhile, boys had higher improvement outcome of CD4 with median 10.5% (r = 3-45.7; p = 0.030) and lower viral loads than girls, although all HIV viruses were detected below 20 copy/ml. There was no significant relevance between caregiver and the treatment success.
Conclusions:
Children in limited resources, especially boys, can achieve successful therapeutic outcome with good treatment adherence and taking medication regardless of the caregiver.
REFERENCES (30)
1.
UNAIDS. Global report: UNAIDS report on the global AIDS epidemic 2012. WHO Press, Genewa 2012.
4.
UNICEF-Indonesia. Issue Brief Responding to HIV and AIDS. UNICEF-Indonesia, Jakarta 2012.
5.
Ditjen PPKR. Statistik kasus HIV/AIDS di Indonesia dilaporkan s/d September 2014. Sistem Informasi HIV-AIDS & IMS (SIHA). Kemenkes RI, Jakarta 2014.
6.
WHO. Consolidated guidelines on the use of antiretroviral drugs for treating and preventing HIV infection. Recommendations for a public health approach. WHO, Geneva 2013.
7.
Song R, Jelagat J, Dzombo D, et al. Efficacy of highly active antiretroviral therapy in HIV-1 infected children in Kenya. Pediatrics 2007; 120: e856-861.
8.
Phongsamart W, Hansudwechakul R, Bunupuradah T, et al. Long-term outcomes of HIV-infected children in Thailand: the Thailand Pediatric HIV Observational Database. Int J Infect Dis 2014; 22: 19-24.
9.
Mukherjee A, Shah N, Singh R, et al. Outcome of highly active antiretroviral therapy in HIV-infected Indian children. BMC Infect Dis 2014; 14: 701-708.
10.
Dollfus C, Le Chenadec J, Faye A, et al. Long-term outcomes in adolescents perinatally infected with HIV-1 and followed up since birth in the French perinatal cohort (EPF/ANRS CO10). Clin Infect Dis 2010; 51: 214-224.
11.
Chantry CJ, Byrd RS, Englund JA, et al. Growth, survival and viral load in symptomatic childhood human immunodeficiency virus infection. Pediatr Infect Dis J 2003; 22: 1033-1039.
12.
McGrath CJ, Diener L, Richardson BA, et al. Growth reconstitution following antiretroviral therapy and nutrition supplementation: systematic review and meta-analysis. AIDS 2015; 29: 2009-2023.
13.
Cruz MLS, dan Cardoso CA. Perinatally infected adolescents living with human immunodeficiency virus (perinatally human immunodeficiency virus). World J Virol 2015; 4: 277-284.
14.
Jesson J, Koumakpaï S, Diagne NR, et al. Effect of age at antiretroviral therapy initiation on catch-up growth within the first 24 months among HIV-infected children in the IeDEA West African pediatric cohort. Pediatr Infect Dis J 2015; 34: e159-168.
15.
Feinstein L, Yotebieng M, Moultrie H, et al. Effect of baseline immune suppression on growth recovery in HIV positive South African children receiving antiretroviral treatment. J Acquir Immune Defic Syndr 2012; 61: 235-242.
16.
Yuh B, Tate J, Butt AA, et al. Weight change after antiretroviral therapy and mortality. Clin Infect Dis 2015; 60: 1852-1859.
17.
The European Collaborative Study. Height, weight, and growth in children born to mothers with HIV-1 infection in Europe. Pediatrics 2003; 111: e52-e60.
18.
Barry O, Powell J, Renner L, et al. Effectiveness of first-line antiretroviral therapy and correlates of longitudinal changes in CD4 and viral load among HIV-infected children in Ghana. BMC Infect Dis 2013; 12: 476-486.
19.
McMahon JH, Elliott JH, Bertagnolio S, et al. Viral suppression after 12 months of antiretroviral therapy in low- and middle-income countries: a systematic review. Bull World Health Organ 2013; 91: 377-385.
20.
Thorne C, dan Newell ML. Are girls more at risk of intrauterine-acquired HIV infection than boys? European Collaborative Study. AIDS 2004; 18: 329-347.
21.
Khobondo JO, Gicheru MM, Khamadi SA. Pediatric HIV-AIDS in Nairobi: prevalence, gender and implication for prevention of mother to child transmission. Eur J Res Med Sci 2015; 3: 52-59.
22.
Mori M, Adland E, Paioni P, et al. Sex Differences in Antiretroviral Therapy Initiation in Pediatric HIV Infection. PLoS One 2015; 10: e0131591.
23.
Muenchhoff M, Goulder PJR. Sex differences in pediatric infectious diseases. J Infect Dis 2014; 209 Suppl 3: S120-126.
24.
Schechter M, Tuboi SH. Discordant immunological and virological responses to antiretroviral therapy. J Antimicrob Chem 2006; 58: 506-510.
25.
Meier A, Chang JJ, Chan ES, et al. Sex differences in the toll-like receptor-mediated response of plasmacytoid dendritic cells to HIV-1. Nat Med 2009; 15: 955-959.
26.
Taha TE, Nour S, Kumwenda NI. Gender differences in perinatal HIV acquisition among African infants. Pediatrics 2005; 115: 167-172.
27.
UNICEF/WHO/The World Bank/UN Pop Div. Levels and Trends in Child Mortality. Report 2014.
28.
UN Inter-agency Group for Child Mortality Estimation (UNICEF, WHO, World Bank, UN DESA Population Division). Available at: www.childmortality.org. 2016.
29.
Ruel TD, Zanoni BC, Ssewanyana I, et al. Sex Differences in HIV RNA Level and CD4 Cell Percentage During Childhood. Clin Infect Dis 2011; 53: 592-599.
30.
Castilho JL, Melekhin VV, Sterling TR. Sex differences in HIV outcomes in the highly active antiretroviral therapy era: A systematic review. AIDS Res Hum Retroviruses 2014; 30: 446-456.
Share
RELATED ARTICLE
| eISSN: | 1732-2707 |
| ISSN: | 1730-1270 |
We process personal data collected when visiting the website. The function of obtaining information about users and their behavior is carried out by voluntarily entered information in forms and saving cookies in end devices. Data, including cookies, are used to provide services, improve the user experience and to analyze the traffic in accordance with the Privacy policy. Data are also collected and processed by Google Analytics tool (more).
You can change cookies settings in your browser. Restricted use of cookies in the browser configuration may affect some functionalities of the website.
You can change cookies settings in your browser. Restricted use of cookies in the browser configuration may affect some functionalities of the website.
