- Research article
- Open Access
- Open Peer Review
High Rates of All-cause and Gastroenteritis-related Hospitalization Morbidity and Mortality among HIV-exposed Indian Infants
© Singh et al; licensee BioMed Central Ltd. 2011
- Received: 2 February 2011
- Accepted: 15 July 2011
- Published: 15 July 2011
HIV-infected and HIV-exposed, uninfected infants experience a high burden of infectious morbidity and mortality. Hospitalization is an important metric for morbidity and is associated with high mortality, yet, little is known about rates and causes of hospitalization among these infants in the first 12 months of life.
Using data from a prevention of mother-to-child transmission (PMTCT) trial (India SWEN), where HIV-exposed breastfed infants were given extended nevirapine, we measured 12-month infant all-cause and cause-specific hospitalization rates and hospitalization risk factors.
Among 737 HIV-exposed Indian infants, 93 (13%) were HIV-infected, 15 (16%) were on HAART, and 260 (35%) were hospitalized 381 times by 12 months of life. Fifty-six percent of the hospitalizations were attributed to infections; gastroenteritis was most common accounting for 31% of infectious hospitalizations. Gastrointestinal-related hospitalizations steadily increased over time, peaking around 9 months. The 12-month all-cause hospitalization, gastroenteritis-related hospitalization, and in-hospital mortality rates were 906/1000 PY, 229/1000 PY, and 35/1000 PY respectively among HIV-infected infants and 497/1000 PY, 107/1000 PY, and 3/1000 PY respectively among HIV-exposed, uninfected infants. Advanced maternal age, infant HIV infection, gestational age, and male sex were associated with higher all-cause hospitalization risk while shorter duration of breastfeeding and abrupt weaning were associated with gastroenteritis-related hospitalization.
HIV-exposed Indian infants experience high rates of all-cause and infectious hospitalization (particularly gastroenteritis) and in-hospital mortality. HIV-infected infants are nearly 2-fold more likely to experience hospitalization and 10-fold more likely to die compared to HIV-exposed, uninfected infants. The combination of scaling up HIV PMTCT programs and implementing proven health measures against infections could significantly reduce hospitalization morbidity and mortality among HIV-exposed Indian infants.
- In-hospital Mortality
Pneumonia and gastroenteritis account for nearly 50% of early childhood morbidity and mortality, particularly in low-income country settings . HIV-infection increases the risks of these infections several fold and of mortality approximately 9-fold in sub-Saharan Africa [2–5]. Some studies have shown that HIV exposure, even in the absence of infant HIV infection, also increases these risks [6, 7]. Most of these studies have defined morbidity as infections, severe events, or grade 3 or 4 adverse events using US NIH Division of AIDS toxicity scale; few have used hospitalization as an outcome. Hospitalization is an important measure of morbidity because it provides discrete information about illness severity, may be more comparable across studies than morbidity events, and is associated with high mortality, particularly among hospitalized HIV-infected infants not on HAART .
India has the third highest number of HIV infections in the world, with an estimated 21,000 newly HIV-infected infants  and 180,000 HIV-exposed, uninfected infants born each year [9, 10]. Examining hospitalization morbidity among HIV-infected and HIV-exposed, uninfected Indian infants is necessary to determine country-specific feasible and sustainable targets to further reduce morbidity and mortality. Therefore, we used data from Six Week Extended-Dose Nevirapine (SWEN), a recently completed NIH randomized clinical trial of prevention of mother-to-child HIV transmission (PMTCT) among breastfed infants in Pune, India  to investigate all-cause hospitalization rates among HIV-infected and HIV-exposed, uninfected infants. We also examined cause-specific hospitalization rates, as well as hospitalization reasons, and risk factors for hospitalization among HIV-infected and HIV-exposed, uninfected infants. We specifically sought to compare the impact of SWEN on infant hospitalization rates as the PMTCT trial had earlier shown reduced mortality rates among infants who received SWEN compared to single-dose nevirapine (sdNVP) and because SWEN has been incorporated into the new WHO PMTCT guidelines . We hypothesized that respiratory-related hospitalizations would predominate throughout the first 12 months of life and the proportion of gastrointestinal-related hospitalizations would increase over the first 12 months of life.
This is a secondary analysis of the infant outcomes collected as part of the SWEN trial, which was conducted from August 2002 to September 2007. Full details of the parent study have been previously described . In brief, all infants received standard of care (sdNVP) at birth and then were randomized to receive either the daily study intervention of nevirapine plus multivitamins from day 8 to 42 of life or multivitamins alone from day 8 to 42. Women with the intention to exclusively breastfeed were enrolled and encouraged to rapidly wean after the first four months of infant life, which was the local standard of care during this study for women who did not have access to safe, affordable, sustainable formula feeding options . Written consent was obtained where possible; for eligible women who could not read, consent was obtained orally and documented in writing by a witness. Institutional Review Boards in Pune, India and Baltimore, United States approved the study.
Pregnant women, >18 years, were recruited from the antenatal clinic, labor ward, or postpartum ward within 72-hours of delivery at Byramjee Jeejeebhoy Medical College (BJMC)/Sassoon Hospital in Pune, India. All randomized singleton and twin infants born to HIV-infected women were included.
Infant study visits were scheduled at 1, 2, 3, 4, 5, 6, 10, and 14 weeks, and 6, 9, and 12 months of life. Heel-stick and venipuncture blood specimens were collected for HIV testing within 48 hours of birth and at each follow-up visit except weeks 3 and 5, until diagnosis was confirmed. At each scheduled and illness visit, medical history, physical exam, and laboratory studies were performed. Infants were offered cotrimoxazole prophylaxis at 4-6 weeks of life for primary prevention of Pneumocystis jirovecii pneumonia (PCP). All infants were followed for 12 months. No vaccines were given as part of this study. Infants and their mothers received routine pediatric health care from their own providers, including any recommended vaccinations, which at the time of the study did not include Hib, pneumococcal or rotavirus vaccines. HAART was not available through the government program during this study so only infants who were HAART eligible and whose families could afford to pay for HAART out-of-pocket received HAART.
Study Definitions and Analysis
The primary outcome of this study was all-cause 12-month hospitalization rate among HIV-exposed infants. Secondary outcomes included cause-specific 12-month hospitalization and in-hospital mortality rates according to HIV status, as well as reasons, and risk factors for hospitalization.
Hospitalization and Mortality
Hospitalization was defined as any overnight admission for any reason during the first 12 months of life. Three cause-specific reasons for hospitalization were evaluated: gastroenteritis, sepsis/meningitis, and pneumonia. WHO guidelines for presumed or probable clinical diagnosis were used by staff physicians . All hospitalizations were verified by the study team, including those at hospitals other than the study site hospital. Hospitalization event data were extracted from electronic medical records of adverse events reported as part of the clinical trial. Death was documented by a physician if it occurred at the hospital or verbal autopsy if the death occurred at home. In-hospital mortality was defined as any death that occurred during hospitalization.
HIV status was categorized as infected if a positive DNA PCR test was confirmed by an HIV-1 RNA PCR test (>5,000 copies/ml) at a subsequent visit. All test results underwent external quality assurance as described elsewhere .
Cotrimoxazole use was categorized based on adherence to WHO guidelines . Duration of any breastfeeding was determined by the last visit date of ongoing breastfeeding and was divided into 3 categories based on WHO guidelines .
The maternal CD4 cell count, viral load, and hemoglobin collected closest to delivery were used. Hemoglobin categories were based on WHO guidelines. Delivery type was categorized as vaginal (spontaneous, breech, or forceps assisted) or surgical (vacuum extraction, elective, or emergent caesarian section). Maternal HAART use included HAART prescribed during any point of the study.
Baseline characteristics of the infants and their mothers, as well as, reasons for hospitalizations were summarized using descriptive statistics. Means with standard deviations were used for normally distributed data; medians with interquartile range (IQR) were used for non-normal distributions. For normally distributed data, the means were compared using a Student's t-test and for non-normal data, medians were compared with non-parametric tests like Mann-Whitney. Proportions were compared using chi-squared or Fisher's exact test, whichever was appropriate. Ninety-five percent confidence intervals were used and two-sided p < 0.05 was considered significant.
If infants were hospitalized multiple times, each hospitalization was counted separately in the rate calculations. If an infant received multiple diagnoses during one hospitalization, a single reason for hospitalization was recorded according to the following order: meningitis/sepsis > pneumonia > gastroenteritis > tuberculosis > syphilis. Hospitalization recorded as sepsis included those due to pneumonia, gastroenteritis, or other causes. Risk rates were compared using Poisson regression.
Univariate Poisson regression analyses were performed with infant and maternal predictors with all-cause hospitalization. Selection of risk factors for multivariate analysis, using Poisson regression, was based on biological significance and statistical significance in the univariate analysis. Data were analyzed using STATA version 10 . This study is registered with ClinicalTrials.gov, number NCT00061321.
Infant and maternal baseline characteristics among 737 HIV-exposed infants by infant HIV status at 12 months of life in Pune, India
N = 93
N = 644
Female gender, n (%)
Gestational age (weeks), median (IQR)
APGAR at 5 minutes, median (IQR)
Birth weight (grams), median (IQR)
WHO-guided Cotrimoxazole use
Any breastfeeding (days), median (IQR)
<4 months, n (%)
4 - 6 months, n (%)
>6 months, n (%)
Extended dose nevirapine, n (%)
Infant HAART, n (%)†
Age (years), median (IQR)
Gravidity, median (IQR)
Married, n (%)
Primary (<6 years), n (%)
Secondary (6-10 years), n (%)
Tertiary (>10 years), n (%)
Hindu religion, n (%)
Vaginal delivery, n (%)
Normal (>11 g/dl), n (%)
Mild Anemia (10-11 g/dl), n (%)
Moderate Anemia (7-10 g/dl), n (%)
Severe Anemia (<7 g/dl), n (%)
CD4 cell count (cells/mm3),median (IQR)*
Viral load (Log 10) (copies/ml), mean (SD)*
Maternal HAART, n (%)†
Maternal AZT, n (%)≠
Maternal NVP, single-dose, n (%)≠
Hospitalization and mortality rates among 737 HIV-exposed infants at 12 months of life in Pune, India
N = 737
N = 93
N = 644
Rate/1000 PY (95% CI)
Rate/1000 PY (95% CI)
Rate/1000 PY (95% CI)
Overall, 27 (4%) infants died during the 12-month follow-up; 13/93 were HIV-infected infants and 14/644 were HIV-exposed, uninfected infants (14% vs. 2%, p < 0.05). Five (1.9%) of 260 hospitalized infants died in the hospital during the 12-month follow-up; 3/44 hospitalized infants were HIV-infected and 2/216 were HIV-exposed, uninfected (6.8% vs. 0.9%, p = 0.01). The median length of total hospitalization among infants who died in the hospital was greater than those who did not die in the hospital but this did not reach statistical significance (8.5 days vs. 5.5 days, p = 0.46). The causes of death among these 5 infants were gastroenteritis, sepsis, jaundice, and pneumonia. The overall and in-hospital mortality rates were 6.36-fold (152/1000 PY vs. 24/1000 PY, 95% CI: 2.75-14.60) and 10.3-fold (35/1000 PY vs. 3/1000 PY, 95% CI: 1.18-123.07) higher among HIV-infected infants compared to HIV-exposed, uninfected infants, respectively (Table 2).
Reasons for Hospitalization
List of reasons for 381 hospitalizations among 737 HIV-exposed infants at 12 months of life in Pune, India
Meningitis or sepsis
Abnormal chemistry values†
Rash without fever
Prematurity, low birth weight, small for gestational age
Respiratory distress syndrome
Upper respiratory infection
Failure to thrive
Other skin conditions
Urinary tract infection
Irritability or colic
Risk Factors for Hospitalization
Risk factors for all-cause hospitalization using Poisson regression among 737 HIV-exposed infants at 12 months of life in Pune, India
APGAR at 5 minutes
4 - 6 months
Primary (<6 years)
Secondary (6-10 years)
Tertiary (>10 years)
Severe (<7 g/dl)
Moderate (7-<10 g/dl)
Mild (10-11 g/dl)
Normal (>11 g/dl)
CD4 cell count¥
Viral load (Log 10)¥
≥5 log (copies/ml)
<5 log (copies/ml)
0.69 - 1.07
In this study, nearly 50% of HIV-infected Indian infants were hospitalized by 12 months of life at almost twice the hospitalization rate of HIV-exposed, uninfected Indian infants. Infections were the predominant reason for hospitalization, and gastroenteritis was the leading infectious cause of infant hospitalization in our cohort, which was counseled to exclusively breastfeed and abruptly wean at four months of life (revised to six months towards the end of the study). Sepsis/meningitis and pneumonia-related hospitalizations accounted for lower than expected proportion of hospitalizations, and gastrointestinal-related hospitalizations appeared to peak around 9 months of life. As expected, infant HIV status was a significant predictor of hospitalization risk along with prematurity and advanced maternal age. In-hospital mortality was 10-fold higher among HIV-infected infants compared to HIV-exposed, uninfected infants.
There are limited comparable hospitalization data among HIV-infected infants in other resource-limited settings. A South African study of HIV-infected children <5 years (67% <1 year) not on ART reported a hospitalization frequency of 47.9% , nearly identical to our finding of 47%. Another similar South African study of HIV-infected infants (birth-3 months) reported a lower hospitalization frequency of 18% and a rate of 2.33/1000 PY . These comparisons are limited by age at outcome, breastfeeding details, and cotrimoxazole prophylaxis. Among HIV-exposed, uninfected infants not on ART, the following hospitalization frequencies have been reported: 5% by 3 months of life in South Africa , 6% at 12 months of life in Zambia , 17% at 6 months of life in Latin America , and 20.4% at 12 months among children <5 years (67% <1 year) in South Africa . Overall, our hospitalization findings among HIV-infected infants appear similar to those of South Africa, which bears the highest worldwide burden of HIV infection. Some key differences in our cohort was that approximately half of them were on a short course antiretroviral prophylaxis regimen, majority were breastfed and all were participants in a clinical trial; however similar to the above-mentioned studies very few of the HIV-infected infants received HAART. Therefore some of these differences may make it difficult to make a complete comparison across studies.
As with all-cause hospitalization, there are few data available on cause-specific hospitalization. Furthermore, the available data, particularly hospitalizations due to infections, are limited by lack of pathogen specificity and comparisons across studies are hampered by different methods of ascertainment and duration of follow-up. Among categories of infection, we found a higher frequency of gastroenteritis-related hospitalization in our cohort compared to that reported in sub-Saharan African studies. A South African study of HIV-infected infants (birth-3 months) reported 7.7% of gastroenteritis-related hospitalization , compared to our 17% at 12 months. A Malawian study reported a 3.1% of gastroenteritis-related hospitalization  among HIV-exposed, uninfected infants (3-9 months of life), compared to our 7.6% at 12 months. One potential explanation for higher rates of gastroenteritis-related hospitalization in our cohort may be the common Indian practice of mixed feeding and animal milk substitutes for infant feeding, which we have previously observed [22, 23]. A limitation of our study however is that the precise details of breastfeeding was not known at the time of this publication, but mixed feeding and milk substitutes also likely contributed to our high rates. Abrupt weaning is also likely to be an important contributor. Abrupt weaning in a large Zambian study was associated with significantly increased risk of HIV infection and gastrointestinal illness . Furthermore, breastfeeding for shorter duration (<4 and <4-6 months) was associated with an over 2.0-fold increased risk of gastroenteritis-related hospitalization compared to >6 months. Similar results were found in Zambia where breastfeeding for <5 months among HIV-infected infants were associated with increased mortality compared to longer breastfeeding . Because of such data [21, 24] abrupt breastfeeding cessation is no longer recommended by the WHO and exclusive breastfeeding for at least 6 months is recommended to protect infants against excessive morbidity and mortality when infant formula is not affordable, feasible, acceptable, sustainable or safe . The low rates of pneumonia-related hospitalization could be related to relatively high rates of cotrimoxazole use, even if not strictly according to WHO guidelines.
Our observed in-hospital mortality rates (with 16% of infants on ART) were lower than what has been observed in studies from sub-Saharan Africa (among infants not on ART). In South Africa, 13.2%  and 16.5% (children <5 years with 67% <1 year)  HIV-infected infants died in-hospital compared to our observed 6.8%. Similarly, higher proportions of in-hospital mortality have been reported among South African HIV-exposed, uninfected infants- 5.2%  and 4.6% (children <5 years with 67% <1 year)  compared to 0.9% seen in our study. The remaining 22 of 27 deaths occurred outside the hospital. Most of these occurred in the home, presumably with infants succumbing to illnesses before being able to be brought to the hospital for care.
The lower overall and in-hospital mortality seen in our study may be explained by the increased availability of health care services provided in a clinical trial setting, as none of the comparative studies were part of a clinical trial. In addition, many of our hospitalizations in the non-infection category occurred in response to abnormal laboratory values, some of which were likely triggered because of the increased monitoring that occurred within a clinical trial. Nonetheless, the frequency of in-hospital death among both HIV-infected and HIV-exposed, uninfected infant groups highlights the need for aggressive management of hospitalized infants and the importance of preventive measures.
Consistent with known predictors of infant morbidity, older maternal age, infant HIV infection, and prematurity predicted all-cause hospitalization. Interestingly, female gender was protective of all-cause hospitalization, which is consistent with reports of greater female infant immunity against infection and lower mortality from infections than among male infants in all income settings . In contrast to other studies, we did not identify maternal CD4, viral load, or HAART use to be risk factors for infant hospitalization. This is possibly explained by differential health parameters, such as the low percentage of mothers with AIDS in India (7% in this study) compared to African studies (20-30%). Although extended nevirapine has previously been shown to reduce mortality in HIV-exposed breastfed infants , we found little data to suggest that it was mediated through a reduction in hospitalization or in-hospital mortality rates.
This study had several limitations. Since it analyzed a secondary endpoint of the parent study, the ability to detect statistical differences among secondary endpoints according to HIV status was limited. Little microbiological data were available to support most infectious diagnoses in this study, but WHO-guided probable and presumed diagnoses were used to standardize morbidity definitions . Our data were generated in the context of a clinical trial setting and therefore may have underestimated the rate of infant hospitalization in the community as follow-up was frequent and many tertiary care services were readily available. Lastly, infant vaccination records (other than BCG given at birth) were not routinely collected in this study, and may have had an impact on frequency and distribution of hospitalization morbidity. However, despite these limitations, the data were carefully collected at several time points within the context of a clinical trial and provide among the best longitudinal data on hospitalization rates from HIV-exposed Indian infants.
In conclusion, HIV-exposed Indian infants, especially HIV-infected Indian infants, experienced a high burden of hospitalization morbidity and mortality. Infections accounted for over half the hospitalizations with gastroenteritis being the most common cause among this HIV-exposed infant population. It is therefore critical to scale-up HIV PMTCT programs and enhance implementation of effective vaccinations, cotrimoxazole prophylaxis, prenatal care, and safe infant feeding practices which have all been shown to reduce infectious morbidity and all-cause mortality among HIV-exposed, infants.
I would like to thank all the patients who participated in SWEN and the health care providers who cared for them, as well as Dr. Nikhil Uppal for his editorial support. I would also like to thank the mentors and staff of the Graduate Training Program in Clinical Investigation for their dedication and support.
This study was supported by the US National Institutes of Health (NIH), US National Institute of Allergy and Infectious Diseases (NIAID) Grant R01A145462, and the Fogarty International Center NIH Program of International Training Grants in Epidemiology Related to AIDS (D43-TW000010-22). AG, NG, RCB are also supported by the NIH BJMC HIV Clinical Trials Unit (U01A1069497).
- National AIDS Control Organization (NACO), Ministry of Women and Child Health, Government of India, UNICEF: Policy framework for children and AIDS: India. 2007Google Scholar
- Regional Office for South-East Asia, World Health Organization: Improving Maternal Newborn and Child Health-India. Last accessed March 3, 2010, [http://www.searo.who.int/LinkFiles/Improving_maternal_newborn_and_child_health_india.pdf]
- National AIDS Control Organization (NACO): Note on HIV Sentinel Surveillance and HIV Estimation. 2008, Last accessed June 14, 2010, [http://www.nacoonline.org/upload/NACO%20PDF/Note%20on%20HIV%20Sentinel%20Surveillance%20and%20HIV%20Estimation_01%20Feb%2008.pdf]Google Scholar
- Mbori-Ngacha D, Nduati R, John G, Reilly M, Richardson B, Mwatha A, Ndinya-Achola J, Bwayo J, Kreiss J: Morbidity and Mortality in Breastfed and Formula-fed Infants of HIV-1-infected Women: A Randomized Clinical Trial. JAMA. 2001, 286 (19): 2413-2420. 10.1001/jama.286.19.2413.View ArticlePubMedPubMed CentralGoogle Scholar
- Becquet R, Bequet L, Ekouevi DK, Viho I, Sakarovitch C, Fassinou P, Bedikou G, Timite-Konan M, Dabis F, Leroy V, ANRS 1201/1202 Ditrame Plus Study Group: Two-Year Morbidity-Mortality and Alternatives to Prolonged Breast-Feeding among Children Born to HIV-Infected Mothers in Cote D'Ivoire. PLoS Med. 2007, 4 (1): e17-10.1371/journal.pmed.0040017.View ArticlePubMedPubMed CentralGoogle Scholar
- Madhi SA, Petersen K, Madhi A, Khoosal M, Klugman KP: Increased Disease Burden And Antibiotic Resistance of Bacteria Causing Severe Community-Acquired Lower Respiratory Tract Infections in Human Immunodeficiency Virus Type 1-Infected Children. Clin Infect Dis. 2000, 31 (1): 170-176. 10.1086/313925.View ArticlePubMedGoogle Scholar
- Marinda E, Humphrey JH, Iliff PJ, Mutasa K, Nathoo KJ, Piwoz EG, Moulton LH, Salama P, Ward BJ, ZVITAMBO Study Group: Child Mortality According to Maternal and Infant HIV Status in Zimbabwe. Pediatr Infect Dis J. 2007, 26 (6): 519-26. 10.1097/01.inf.0000264527.69954.4c.View ArticlePubMedGoogle Scholar
- Kuhn L, Kasonde P, Sinkala M, Kankasa C, Semrau K, Scott N, Tsai WY, Vermund SH, Aldrovandi GM, Thea DM: Does Severity of HIV Disease in HIV-Infected Mothers Affect Mortality and Morbidity among Their Uninfected Infants?. Clin Infect Dis. 2005, 41 (11): 1654-1661. 10.1086/498029.View ArticlePubMedPubMed CentralGoogle Scholar
- Mussi-Pinhata MM, Freimanis L, Yamamoto AY, Korelitz J, Pinto JA, Cruz ML, Losso MH, Read JS, National Institute of Child Health and Human Development International Site Development Initiative Perinatal Study Group: Infectious Disease Morbidity Among Young HIV-1-Exposed But Uninfected Infants in Latin American And Caribbean Countries: The National Institute of Child Health And Human Development International Site Development Initiative Perinatal Study. Pediatrics. 2005, 119 (3): e694-704.View ArticleGoogle Scholar
- Bryce J, Boschi-Pinto C, Shibuya K, Black RE, WHO Child Health Epidemiology Reference Group: WHO estimates of the Causes of Death in Children. Lancet. 2005, 365 (9465): 1147-1152. 10.1016/S0140-6736(05)71877-8.View ArticlePubMedGoogle Scholar
- Singh HK, Gupta A, Siberry GK, Gupte N, Sastry J, Kinikar A, Shah I, Gangakhedkar RR, Bollinger RC, Kulkarni V: The Indian Pediatric HIV Epidemic: A Systematic Review. Curr HIV Res. 2008, 6 (5): 419-32. 10.2174/157016208785861203.View ArticlePubMedGoogle Scholar
- Six Week Extended-Dose Nevirapine (SWEN) Study Team, Bedri A, Gudetta B, Isehak A, Kumbi S, Lulseged S, Mengistu Y, Bhore AV, Bhosale R, Varadhrajan V, Gupte N, Sastry J, Suryavanshi N, Tripathy S, Mmiro F, Mubiru M, Onyango C, Taylor A, Musoke P, Nakabiito C, Abashawl A, Adamu R, Antelman G, Bollinger RC, Bright P, Chaudhary MA, Coberly J, Guay L, Fowler MG, Gupta A, Hassen E, Jackson JB, Moulton LH, Nayak U, Omer SB, Propper L, Ram M, Rexroad V, Ruff AJ, Shankar A, Zwerski S: Extended-Dose Nevirapine to 6 Weeks of Age for Infants to Prevent HIV Transmission Via Breastfeeding in Ethiopia, India, and Uganda: an Analysis of Three Randomised Controlled Trials. Lancet. 2008, 372 (9635): 300-313.View ArticleGoogle Scholar
- Rapid advice. Use of Antiviral Drugs for Treating Pregnant Women and Preventing HIV Infection in Infants. 2009, Last accessed May 10, 2010, [http://www.searo.who.int/LinkFiles/HIV-AIDS_Rapid_Advice_MTCT(web).pdf]
- World Health Organization: Interim WHO clinical staging of HIV/AIDS and HIV/AIDS case definitions for surveillance. 2005, Last accessed August 1, 2010, [http://www.who.int/hiv/pub/guidelines/clinicalstaging.pdf]Google Scholar
- World Health Organization: Guidelines on Co-trimoxazole Prophylaxis for HIV-related Infections among Children, Adolescents, and Adults Recommendations for a Public Health Approach. Last accessed September 20, 2009, [http://www.who.int/hiv/pub/guidelines/ctx/en/index.html]
- World Health Organization, UNICEF, UNAIDS, UNFPA: Last accessed September 1, 2010, [http://whqlibdoc.who.int/publications/2007/9789241595964_eng.pdf], HIV and Infant Feeding: Update, Based on the Technical Consultation Held on Behalf of the Inter-Agency Task Team (IATT) On Prevention of HIV Infection in Pregnant Women, Mothers and their Infants, Geneva, Switzerland, 25-27 October 2006.
- World Health Organization: Global burden of disease (GBD) study 2000-2002: GBD Sequelae and Case Definitions. Iron Deficiency Anemia. Last accessed on August 1, 2010Google Scholar
- STATA: StataCorp. 2001. Statistical software: Release 10.0. College Station, TX: Stata CorporationGoogle Scholar
- Meyers TM, Pettifor JM, Gray GE, Crewe-Brown H, Galpin JS: Pediatric Admissions with Human Immunodeficiency Virus Infection at a Regional Hospital in Soweto, South Africa. J Trop Pediatr. 2000, 46 (4): 224-230. 10.1093/tropej/46.4.224.View ArticlePubMedGoogle Scholar
- Venkatesh KK, de Bruyn G, Marinda E, Otwombe K, van Niekerk R, Urban M, Triche EW, McGarvey ST, Lurie MN, Gray GE: Morbidity and Mortality among Infants Born to HIV-infected Women in South Africa: Implications for Child Health in Resource-limited Settings. J Trop Pediatr. 2010Google Scholar
- Kafulafula G, Thigpen M, Hoover D, et al: 14th Conference on Retroviruses and Opportunistic Infections.2007. Poster 773. Post-weaning Gastroenteritis and Mortality in HIV-uninfected African Infants Receiving Antiretroviral Prophylaxis to Prevent MTCT of HIV-1.Google Scholar
- Suryavanshi N, Jonnalagadda S, Erande AS, Sastry J, Pisal H, Bharucha KE, Shrotri A, Bulakh PM, Phadke MA, Bollinger RC, Shankar AV: Infant Feeding Practices of HIV-positive Mothers in India. J Nutr. 2005, 133 (5): 1326-1331.Google Scholar
- Shankar AV, Sastry J, Erande A, Joshi A, Suryawanshi N, Phadke MA, Bollinger RC: Making the Choice: The Translation of Global HIV and Infant Feeding Policy to Local Practice Among Mothers in Pune, India. J Nutr. 2005, 135 (4): 960-965.PubMedGoogle Scholar
- Kuhn L, Aldrovandi GM, Sinkala M, Kankasa C, Semrau K, Mwiya M, Kasonde P, Scott N, Vwalika C, Walter J, Bulterys M, Tsai WY, Thea DM, Zambia Exclusive Breastfeeding Study: Effects of Early, Abrupt Weaning on HIV-free Survival of Children in Zambia. N Engl J Med. 2005, 359 (2): 130-141.View ArticleGoogle Scholar
- World Health Organization: Key messages: New WHO Recommendations: Infant feeding in the context of HIV. Last accessed June 5, 2010, [http://www.who.int/hiv/pub/paediatric/infant_key_mess.pdf]
- Zwi K, Pettifor J, Soderlund N, Meyers T: HIV Infection and In-Hospital Mortality at an Academic Hospital in South Africa. Arch Dis Child. 2000, 83 (3): 227-230. 10.1136/adc.83.3.227.View ArticlePubMedPubMed CentralGoogle Scholar
- Drevenstedt GL, Crimmins EM, Vasunilashorn S, Finch CE: The Rise and Fall of Excess Male Infant Mortality. Proc Natl Acad Sci. 2008, USA, 105 (13): 5016-21. 10.1073/pnas.0800221105.Google Scholar
- The pre-publication history for this paper can be accessed here:http://www.biomedcentral.com/1471-2334/11/193/prepub
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