Introducing a multi-site program for early diagnosis of HIV infection among HIV-exposed infants in Tanzania

BackgroundIn Tanzania, less than a third of HIV infected children estimated to be in need of antiretroviral therapy (ART) are receiving it. In this setting where other infections and malnutrition mimic signs and symptoms of AIDS, early diagnosis of HIV among HIV-exposed infants without specialized virologic testing can be a complex process. We aimed to introduce an Early Infant Diagnosis (EID) pilot program using HIV DNA Polymerase Chain Reaction (PCR) testing with the intent of making EID nationally available based on lessons learned in the first 6 months of implementation.MethodsIn September 2006, a molecular biology laboratory at Bugando Medical Center was established in order to perform HIV DNA PCR testing using Dried Blood Spots (DBS). Ninety- six health workers from 4 health facilities were trained in the identification and care of HIV-exposed infants, HIV testing algorithms and collection of DBS samples. Paper-based tracking systems for monitoring the program that fed into a simple electronic database were introduced at the sites and in the laboratory. Time from birth to first HIV DNA PCR testing and to receipt of test results were assessed using Kaplan-Meier curves.ResultsFrom October 2006 to March 2007, 510 HIV-exposed infants were identified from the 4 health facilities. Of these, 441(87%) infants had an HIV DNA PCR test at a median age of 4 months (IQR 1 to 8 months) and 75(17%) were PCR positive. Parents/guardians for a total of 242(55%) HIV-exposed infants returned to receive PCR test results, including 51/75 (68%) of those PCR positive, 187/361 (52%) of the PCR negative, and 4/5 (80%) of those with indeterminate PCR results. The median time between blood draw for PCR testing and receipt of test results by the parent or guardian was 5 weeks (range <1 week to 14 weeks) among children who tested PCR positive and 10 weeks (range <1 week to 21 weeks) for those that tested PCR negative.ConclusionsThe EID pilot program successfully introduced systems for identification of HIV-exposed infants. There was a high response as hundreds of HIV-exposed infants were registered and tested in a 6 month period. Challenges included the large proportion of parents not returning for PCR test results. Experience from the pilot phase has informed the national roll-out of the EID program currently underway in Tanzania.

[1]  Stephanie A. Jones,et al.  Polymerase Chain Reaction for Diagnosis of Human Immunodeficiency Virus Infection in Infancy in Low Resource Settings , 2005, The Pediatric infectious disease journal.

[2]  Nigel Rollins,et al.  Mortality of infected and uninfected infants born to HIV-infected mothers in Africa: a pooled analysis , 2004, The Lancet.

[3]  J. Nkengasong,et al.  Role of the Laboratory in Ensuring Global Access to ARV Treatment for HIV-Infected Children: Consensus Statement on the Performance of Laboratory Assays for Early Infant Diagnosis , 2008, The open AIDS journal.

[4]  G. John-Stewart,et al.  Performance of Clinical Algorithms for HIV-1 Diagnosis and Antiretroviral Initiation Among HIV-1-Exposed Children Aged Less Than 18 Months in Kenya , 2009, Journal of acquired immune deficiency syndromes.

[5]  E. Abrams,et al.  Diagnosis of HIV infection in infants: a comprehensive implementation and clinical manual. , 2007 .

[6]  Stephanie A. Jones,et al.  Can clinical algorithms deliver an accurate diagnosis of HIV infection in infancy? , 2005, Bulletin of the World Health Organization.

[7]  Victor Segalen Bordeaux,et al.  Low Risk of Death, but Substantial Program Attrition, in Pediatric HIV Treatment Cohorts in Sub-Saharan Africa , 2008, Journal of acquired immune deficiency syndromes.

[8]  U. Unicef,et al.  Global HIV/AIDS response: epidemic update and health sector progress towards universal access: progress report 2011. , 2011 .

[9]  Matilu Mwau,et al.  Rapid identification of infants for antiretroviral therapy in a resource poor setting: the Kenya experience. , 2008, Journal of tropical pediatrics.

[10]  C. Kankasa,et al.  Routine Offering of HIV Testing to Hospitalized Pediatric Patients at University Teaching Hospital, Lusaka, Zambia: Acceptability and Feasibility , 2009, Journal of acquired immune deficiency syndromes.

[11]  P. Mcdermott,et al.  Disease progression in children with vertically-acquired HIV infection in sub-Saharan Africa: reviewing the need for HIV treatment. , 2007, Current HIV research.

[12]  James A McIntyre,et al.  Early antiretroviral therapy and mortality among HIV-infected infants. , 2008, The New England journal of medicine.

[13]  Nick Fowler,et al.  Towards Universal Access , 2010 .

[14]  N. Rollins,et al.  Surveillance of mother-to-child transmission prevention programmes at immunization clinics: the case for universal screening , 2007, AIDS.

[15]  M. Fowler,et al.  Infant human immunodeficiency virus diagnosis in resource-limited settings: issues, technologies, and country experiences. , 2007, American journal of obstetrics and gynecology.

[16]  Sa Azin,et al.  An overview on the 2008 UNAIDS Report on the 2008 UNAIDS Report on the Global AIDS Epidemic. , 2010 .

[17]  B. Walker,et al.  High frequency of rapid immunological progression in African infants infected in the era of perinatal HIV prophylaxis , 2007, AIDS.

[18]  A. Tanuri,et al.  Early Diagnosis of Human Immunodeficiency Virus in Infants Using Polymerase Chain Reaction on Dried Blood Spots in Botswana's National Program for Prevention of Mother-to-Child Transmission , 2008, The Pediatric infectious disease journal.

[19]  Organización Mundial de la Salud,et al.  Towards universal access: scaling up priority HIV/AIDS interventions in the health sector. Progress report 2009 , 2009 .

[20]  G. Sherman,et al.  Exploring socio-economic conditions and poor follow-up rates of HIV-exposed infants in Johannesburg, South Africa , 2005, AIDS care.

[21]  Leroy,et al.  Low risk of death, but substantial program attrition, in pediatric HIV treatment cohorts in Sub-Saharan Africa , 2008 .