Pediatric HIV Infection

Updated: Nov 11, 2020
  • Author: Delia M Rivera, MD; Chief Editor: Russell W Steele, MD  more...
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Overview

Practice Essentials

Since the first cases of human immunodeficiency virus (HIV) infection were identified, the number of children infected with HIV has risen dramatically in developing countries, the result of an increased number of HIV-infected women of childbearing age in these areas. HIV is a retrovirus and can be transmitted vertically, sexually, or via contaminated blood products or IV drug abuse. Vertical HIV infection occurs before birth, during delivery, or after birth.

The genome layouts of HIV-1 and HIV type 2 (HIV-2) are shown in the image below.

Genome layout of human immunodeficiency virus (HIV Genome layout of human immunodeficiency virus (HIV)–1 and HIV-2.

Essential update: Study suggests benefits to starting HAART earlier in HIV-infected children

In a study of HIV-1-infected, highly active antiretroviral therapy (HAART)-naive children, Yin et al found that beginning HAART at younger ages and healthier CD4 levels results in better immune recovery. [1, 2] In all, 72% of children who were immunosuppressed at baseline recovered to normal within 4 years after initiating HAART therapy. Compared with children with severe immunosuppression, more children with mild immunosuppression (+36%) or advanced immunosuppression (+20.8%) recovered a normal CD4 percentage.

For every 5-year increase in baseline age, the proportion of children who achieved a normal CD4 percentage fell by 19%. [2] Combining age effects and baseline CD4 percentage resulted in more than 90% recovery when HAART was initiated in children with mild immunosuppression at any age or advanced immunosuppression at an age younger than 3 years. Most of the immunologic benefits of HAART remained significant at 4 years.

Signs and symptoms

History

Signs and symptoms of pediatric HIV infection include the following:

  • Unusually frequent and severe occurrences of common childhood bacterial infections, such as otitis media, sinusitis, and pneumonia

  • Recurrent fungal infections, such as candidiasis (thrush), that do not respond to standard antifungal agents: Suggests lymphocytic dysfunction

  • Recurrent or unusually severe viral infections, such as recurrent or disseminated herpes simplex or zoster infection or cytomegalovirus (CMV) retinitis; seen with moderate to severe cellular immune deficiency

  • Growth failure

  • Failure to thrive

  • Wasting

  • Failure to attain typical milestones: Suggests a developmental delay; such delays, particularly impairment in the development of expressive language, may indicate HIV encephalopathy

  • Behavioral abnormalities (in older children), such as loss of concentration and memory, may also indicate HIV encephalopathy

Physical examination

Signs and symptoms of pediatric HIV infection found during physical examination include the following:

  • Candidiasis: Most common oral and mucocutaneous presentation of HIV infection

  • Thrush in the oral cavity and posterior pharynx: Observed in approximately 30% of HIV-infected children

  • Linear gingival erythema and median rhomboid glossitis

  • Oral hairy leukoplakia

  • Parotid enlargement and recurrent aphthous ulcers

  • Herpetic infection with herpes simplex virus (HSV): May manifest as herpes labialis, gingivostomatitis, esophagitis, or chronic erosive, vesicular, and vegetating skin lesions; the involved areas of the lips, mouth, tongue, and esophagus are ulcerated

  • HIV dermatitis: An erythematous, papular rash; observed in about 25% of children with HIV infection

  • Dermatophytosis: Manifesting as an aggressive tinea capitis, corporis, versicolor, or onychomycosis

  • Pneumocystis jiroveci (formerly P carinii) pneumonia (PCP): Most commonly manifests as cough, dyspnea, tachypnea, and fever

  • Lipodystrophy: Presentations include peripheral lipoatrophy, truncal lipohypertrophy, and combined versions of these presentations; a more severe presentation occurs at puberty

  • Digital clubbing: As a result of chronic lung disease

  • Pitting or nonpitting edema in the extremities

  • Generalized cervical, axillary, or inguinal lymphadenopathy

See Clinical Presentation for more detail.

Diagnosis

Detection of antibody to HIV is the usual first step in diagnosing HIV infection. The 2010 Panel on Antiretroviral Therapy and Medical Management of HIV-Infected Children [3] recommendations for diagnosing infants include the following:

  • Because of the persistence of the maternal HIV antibody, infants younger than 18 months require virologic assays that directly detect HIV in order to diagnose HIV infection

  • Preferred virologic assays include HIV bDNA polymerase chain reaction (PCR) and HIV RNA assays. The HIV PCR DNA qualitative test is usually less expensive.

  • Further virologic testing in infants with known perinatal HIV exposure is recommended at 2 weeks, 4 weeks, and 4 months

An antibody test to document seroreversion to HIV antibody–negative status in uninfected infants is no longer recommended.

In older children and adults, an enzyme-linked immunosorbent assay (ELISA) to detect HIV antibody, followed by a confirmatory Western blot (which has increased specificity), should be used to diagnose HIV infection.

Rapid HIV tests, which provide results in minutes, simplify and expand the availability of HIV testing. Their sensitivity is as high as 100%, but they must be followed with confirmatory Western blotting or immunofluorescence antibody testing, as with conventional HIV antibody tests.

See Workup for more detail.

Management

Appropriate ART and therapy for specific infections and malignancies are critical in treating patients who are HIV positive. Classes of antiretroviral agents include the following:

  • Nucleoside or nucleotide reverse transcriptase inhibitors (NRTIs)

  • Protease inhibitors (PIs)

  • Nonnucleoside reverse transcriptase inhibitors (NNRTIs)

  • Fusion inhibitors

  • CCR5 coreceptor antagonists (entry inhibitors)

  • HIV integrase strand transfer inhibitors

Combination ART with at least 3 drugs from at least 2 classes of drugs is recommended for initial treatment of infected infants, children, and adolescents because it provides the best opportunity to preserve immune function and delay disease progression. Drug combinations for initial therapy in ART-naive children include a backbone of 2 NRTIs plus 1 NNRTI or 1 PI.

Pediatric HIV experts agree that infected infants who have clinical symptoms of HIV disease or evidence of immune compromise should be treated. [3] Patients aged 1 year or older with acquired immunodeficiency syndrome (AIDS) or significant symptoms should be aggressively treated regardless of CD4+ percentage and count or plasma HIV RNA level.

In addition to antiretroviral drugs (ARDs), other types of medication are required as appropriate for specific infections or malignancies. For example, P jiroveci pneumonia prophylaxis is recommended in patients who are HIV positive and younger than 1 year and in older children based on CD4+ counts.

See Treatment and Medication for more detail.

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Background

Over the past 30 years, since the first cases of what is now recognized as human immunodeficiency virus (HIV) infection were identified in 1981, the number of children infected with HIV has increased dramatically in developing countries because the number of HIV-infected women of childbearing age has risen. However, great advances have been made in the United States and in other industrialized nations to control transmission of the virus from mother to infant.

In the United States, universal prenatal HIV testing has been recommended to obstetricians since 1995. However, this testing was not mandatory in all states. Before prenatal testing was common, diagnosing HIV infections in a woman after diagnosing it in her child was not unusual, and the diagnosis of acquired immunodeficiency syndrome (AIDS) in a previously healthy child was not rare.

Before 1985, one way in which children were infected was the transfusion of blood-products. Improved screening tests have essentially eliminated such transmission. A common way adolescents become infected is by engaging in high-risk behaviors such as unprotected sexual intercourse and injection drug abuse.

Surveillance data now show that the only group with increasing HIV incidence is men who have sex with men. The proportion of this population who are unaware of their infection is high, with unawareness among young men (18-29 y) reaching 63%. [4]

In the United States, youths aged 13-24 years accounted for 25.7% of new HIV infections in 2010. [5]

In pediatric patients, HIV infection progresses as it does in adults, although surveillance data from the Centers for Disease Control and Prevention (CDC) suggest that patients who are aged 13-24 years when diagnosed with AIDS survive longer than older individuals do. Vertically transmitted HIV can cause rapidly progressive, chronically progressive, or adultlike disease in which a significant clinical latency period occurs before symptoms appear.

The World Health Organization (WHO) [6] estimates that approximately 2.5 million children were living with HIV infection as of 2009. In 2009 alone, 370,000 children were newly infected. [7] This is a drop of 24% from 5 years earlier. [8]

Not only are the children themselves ravaged by disease, but their primary caregivers have also often succumbed to AIDS. This is most prevalent in sub-Saharan Africa, where an estimated 11.6 million children had been orphaned by AIDS as of 2007.

Although 2 strains of HIV have currently been identified, most patients who have AIDS are positive for HIV type 1 (HIV-1) or are positive for both HIV-1 and HIV type 2 (HIV-2). HIV-2 infection is most commonly observed in West Africa.

Vertical transmission of HIV from mother to child is the main route by which childhood HIV infection is acquired; the risk of perinatal acquisition is 25-40% without intervention. [9] Perinatal transmission of infection by the mother accounts for 80% of pediatric HIV disease cases in the United States. Perinatal transmission can occur in utero, during the peripartum period, and from breastfeeding.

Other routes of transmission, such as transfusion of blood and blood components, are rare in the United States but still exist in developing countries. Sexual abuse of children and high-risk behaviors in adolescents also contribute to youth HIV infection.

A variety of signs and symptoms should alert the clinician to the possibility of HIV infection in a child. The presentations include recurrent bacterial infections, unrelenting fever, unrelenting diarrhea, unrelenting thrush, recurrent pneumonia, chronic parotitis, generalized lymphadenopathy, delay in development with failure to thrive, and significant pruritic dermatoses. Mucocutaneous eruptions may be the first sign of HIV infection and may vary in presentation, depending on the child's immune status.

For information on HIV infection in adults and adolescents, see HIV Disease.

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Pathophysiology

HIV can be transmitted vertically, sexually, or via contaminated blood products or IV drug abuse. Vertical HIV infection occurs before birth, during delivery, or after birth. With infection before birth (period 1), the fetus can be hematologically infected by means of transmission across the placenta or across the amniotic membranes, especially if the membranes are inflamed or infected.

Most vertical infections occur during delivery (period 2), and many factors affect the risk of infection during this period (see Deterrence/Prevention). In general, the longer and the greater amount of contact the neonate has with infected maternal blood and cervicovaginal secretions, the greater the risk of vertical transmission. Premature and low-birthweight neonates appear to have an increased risk of infection during delivery because of their reduced skin barrier and immunologic defenses.

Postnatal vertical transmission (period 3) occurs with the ingestion of HIV in the breast milk.

HIV virology

HIV is a retrovirus. Structurally, a lipid bilayer envelope surrounds the cylindrical core of HIV, which contains the RNA genetic information and the machinery that promotes viral replication and integration during initial cellular infection. From the outside, the virion appears spherical, with a diameter of 110 nm.

HIV has a variety of structural and nonstructural proteins that determine the interaction of the virus with the host's immune system and cellular components. The genome layouts of HIV-1 and HIV type 2 (HIV-2) are shown in the image below.

Genome layout of human immunodeficiency virus (HIV Genome layout of human immunodeficiency virus (HIV)–1 and HIV-2.

The HIV virus attaches to the host cell by the association of a surface glycoprotein to the CD4 molecule; therefore, it primarily infects CD4+ lymphocytes and macrophages.

After HIV enters a host, trimeric gp120 glycoproteins that protrude from its lipoprotein bilayer envelope bind to CD4 cell-surface receptors and CCR5 or CXCR4 chemokine co-receptors. Juxtapositioned co-receptors are needed for viral infection. The V3 region of the gp120 glycoprotein determines cellular tropism, and tropism is involved in syncytial formation. M-tropic (nonsyncytial) strains prefer the CCR5 co-receptor and are the primary causes of infection.

Deficiency of CCR5 chemokine co-receptors is present in as many as 10% of Europeans and 20% of Ashkenazi Jews, and it appears to confer some protection against infection. After gp120 binds to the receptors, an associated gp41 transmembrane glycoprotein is inserted into the cell membrane and initiates cell-membrane fusion.

Upon entering the cell, the protease enzyme produces the reverse transcriptase and ribonuclease (RNAse) H enzymes responsible for synthesizing the single-stranded DNA (ssDNA) molecules and primers necessary to produce the complementary DNA strand. Because reverse transcriptase lacks proofreading capacity, considerable base-to-base variability results. The high mutation rate, combined with the high reproductive rate, results in substantial evolution and subsequent resistance to treatment.

Once the virus core enters the cell cytoplasm of the host, viral reverse transcriptase copies viral RNA to the DNA of the host. The viral DNA is then transported into the nucleus and incorporated into the DNA of that cell. If activated, viral expression can result in new viral RNA and proteins. New viral core proteins, enzymes, and viral RNA molecules can induce budding, with additional cell infection.

Immune response

Acute infection rapidly increases the viral load and causes a mild-to-moderate viremia. Although viral loads tend to diminish rapidly after acute infection in adults, they decrease slowly in vertically infected children and may not reach baseline levels until age 4-5 years. Although infants possess numerous antigen-presenting and effector cells compared with adults, their cytokine production, proliferation, and cytotoxicity are reduced.

Envelope-specific cytotoxic T-lymphocytes are less common in children who vertically acquire the disease than in children who acquire HIV by means of blood transfusion. Among those with vertically acquired disease, such lymphocytes are least common in those with rapidly progressing disease. Precursors of cytotoxic T-lymphocyte that are specific to HIV type 1 (HIV-1) do not develop in significant number until the child is aged 1 year.

In adults, antibodies to gp120 develop several months after the initial viremia occurs. The development of broadly neutralizing antibodies is associated with slowed disease progression in adults, children, and infants.

The reduction in cell-mediated immunity and secondary B-cell dysfunction result in the immunocompromised state and in the proliferation of opportunistic infections and malignancies. An elevated level of activation-induced cell death resulting from apoptosis of T cells occurs in patients who are HIV positive.

The CD95/Fas receptor/ligand system is necessary for the apoptosis of T cells, and abnormalities in this system are linked with increased T-cell death in patients who are HIV positive. As the immune status deteriorates, an increase in CD95+ T cells is found; conversely, a low CD95+ T-cell count is found in asymptomatic patients who are HIV positive.

Hematopoietic effects

Although HIV infects hematopoietic stem cells, the importance is minor. Hematopoietic disturbances are believed to occur as a consequence of changes in the microenvironment of the marrow and of deficiencies in local and systemic growth factors.

In typical conditions, the stroma of the marrow promotes stem cell proliferation and differentiation by producing granulocyte colony-stimulating factor (G-CSF) and interleukin (IL)-3. HIV-infected stroma produces less G-CSF and IL-3 than normal and produces excessive tumor necrosis factor (TNF)-alpha and IFN-gamma. This cytokine dysregulation halts the production of badly needed hematopoietic cell lines and causes apoptosis of committed progenitor cells.

HIV also appears to retard the production of thrombopoietin in the liver and erythropoietin in the kidney. In addition to a low serum erythropoietin level, HIV-induced anemia is also a result of a blunted response to erythropoietin.

Thrombocytopenia occurs in 40% of patients with HIV infection during the course of the disease. It is most common in people with advanced disease, those who use IV drugs, African Americans, and those with a history of anemia or lymphoma. The presence of thrombocytopenia suggests a shortened survival time.

Immune thrombocytopenia may occur in half of the cases and appears to be the result of molecular mimicry of the platelet glycoprotein (GP)-IIb/IIIa receptor by the HIV-GP 160/120 antigen. Decreased platelet production is common in HIV infection regardless of the platelet count, and it may be associated with the ultrastructural damage in HIV-infected megakaryocytes.

Anemia may be present in as many as 20% of patients at the time of diagnosis, and it occurs in as many as 80% of patients at some point. Patients with clinical AIDS are more likely than others to have anemia, as are patients with low CD4+ counts.

The etiology is probably multifactorial in most patients. Common contributing factors are bone marrow suppression, iatrogenic causes, vitamin deficiencies, suppressed erythropoietin production, and a blunted erythropoietin response. Bone marrow infiltration with lymphoma or Kaposi sarcoma may be noted. Bone marrow suppression may be due to pathogens such as MAC, parvovirus B19, or CMV. Disseminated fungemia can cause anemia.

Neutropenia is observed in 10% of patients with early asymptomatic HIV infections and in 50% of patients with AIDS. Neutropenia results from the aforementioned mechanisms, as well as from medication. Granulocyte-macrophage colony-stimulating factor (GM-CSF) and G-CSF deficiencies not only reduce neutrophil production but also reduce granulocytic and monocytic function. GM-CSF and G-CSF promote increased neutrophilic function, including superoxide production, phagocytosis, intracellular killing, and antibody-dependent cellular cytotoxicity.

Neurologic effects

HIV exhibits tropism for the CNS, especially the microglia. As many as 10% of children with AIDS have progressive encephalopathy. Progressive white matter degeneration and brain atrophy may develop. Neurologic symptoms develop along with developmental delay.

Viral resistance

In terms of the mechanisms of resistance development, the rapid turnover rate and high error rate of reverse transcriptase induces 3300 new single mutations per day. When a mutation improves the survival of the virus in an existing drug environment, that quasispecies is selected to reproduce. The higher the viral load and the higher the rate of replication, the greater the number of resistant quasispecies. Quasispecies can be transmitted to a fetus or neonate.

HIV resistance develops because of low antiretroviral drug (ARD) levels due to several factors including variations in drug absorption and metabolism and noncompliance because of adverse effects or a poor understanding of the importance of the medication. Viral sanctuary sites may be exposed to low levels of ARDs, and resistant quasispecies may develop.

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Etiology

Infection is due to HIV, a complex member of the Lentivirus genus of the Retroviridae family. HIV-1 is the most common cause of HIV infection in the Americas, in Europe, in Asia, and in Africa. HIV-2 has caused epidemics in West Africa, although this virus is also found in European countries. HIV-2 disease progresses more slowly than HIV-1 disease, and HIV-2 is less transmissible than HIV-1.

HIV-1 subtypes differ by geographic region. HIV-1 subtype B is predominant in the United States. Non-B subtypes are particularly prevalent in Africa and Asia. The high transmission rate from Africa to Europe has increased the diversity of subtypes in Europe. Non-B subtype HIV-1 infections are increasing in the United States.

Vertical transmission of HIV from mother to child is the main route by which childhood HIV infection is acquired; the risk of perinatal acquisition is 25%. African epidemiologic data of almost 2000 infants indicate that female infants may be more susceptible to HIV infection before birth and continuing after birth compared with male infants.

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Epidemiology

United States statistics

The HIV seroprevalence rate in pregnant women is as high as 0.3%. The seroprevalence of women infected with HIV is highest in the Northeast, followed by the South. Perinatal HIV transmission rates are 25% but as low as 2% in untreated women with viral loads of less than 100 copies/mL.

Although prophylactic interventions have reduced vertical transmissions, cases of perinatal HIV transmission continue to occur. [10] This is largely because of missed opportunities for prevention, particularly among women who lack prenatal care or who are not being offered voluntary HIV counseling and testing during pregnancy. In many as 40% of the mothers of infants with perinatally acquired HIV infection, the HIV infection was not known before delivery.

The CDC estimates that in 2009, in the 40 states with confidential name-based HIV infection reporting, an estimated 131 infants acquired HIV infection by means of vertical transmission. [11] Estimates place the peak of perinatally-transmitted HIV in the US at 1651 cases in 1991.

The CDC estimates that in 2009, in those 40 states, the number of pediatric HIV infections diagnosed was as follows [12] :

  • Under age 13 years: 166

  • Ages 13-14 years: 21

  • Ages 15-19 years: 2036

In 2009, 12 cases of perinatally transmitted late HIV disease (AIDS) were diagnosed. The estimated cumulative number of perinatally transmitted AIDS cases diagnosed through 2009 is 8640.

At the end of 2008, 3022 children younger than 13 years were living with HIV infection in the 40 states with confidential name-based HIV infection reporting.

In the entire United States in 2009, an estimated 13 cases of AIDS were diagnosed in children younger than 13 years. The cumulative estimated number of diagnoses of AIDS in children younger than 13 years through 2009 in the United States is 9448.

In the United States, the number of new cases of pediatric AIDS is decreasing, mostly because of public health initiatives regarding universal HIV testing for pregnant women and use of zidovudine and other antiretroviral therapies in infected pregnant women and their newborn infants.

In 2007, 19 US children younger than 15 years died of HIV disease. [12] These numbers are in stark contrast to what is occurring internationally.

Adolescents and young adults

CDC HIV surveillance statistics from 2010 report that 25.7% (approximately 12,200 individuals) of new cases of HIV infection in the United States are in adolescents and young adults aged 13-24 years. Males accounted for 82.8% of new cases of HIV infection among this age group. Of these, 7,000 (57.4%) were African Americans, 2,390 (19.6%) were Latino, and 2,380 (19.5%) were white. Male-to-male sexual contact accounted for 72.1% (8,800 individuals). The percentage of youths tested for HIV infection was 12.9% in high-school students and 34.5% in individuals aged 18-24 years. Testing rates were lower in males than in females. More than half (59.5%) of youths with HIV infection are unaware of their infection. [5]

International statistics

The WHO estimates that over 33 million individuals are infected with HIV worldwide, and 90% of them are in developing countries. HIV has infected 4.4 million children and has resulted in the deaths of 3.2 million. Each day, 1800 children—the vast majority newborns—are infected with HIV. Approximately 7% of the population in sub-Saharan Africa is infected with HIV; these individuals represent 64% of the world's HIV-infected population. Furthermore, 76% of all women infected with HIV live in this region.

HIV-1 is the most common cause of HIV infection in the Americas, in Europe, in Asia, and in Africa. HIV-1 subtypes differ by geographic region. HIV-1 subtype B is predominant in the United States, though non-B subtype HIV-1 infections are increasing.

The HIV seroprevalence rate among pregnant women in South America is 0.3-5%; in sub-Saharan Africa, the range is 13-45%. In Europe, the HIV seroprevalence is greatest in western countries; France, Spain, and Italy have the highest incidences. Pregnant women in urban areas of these countries have a seroprevalence rate as high as 1%.

Although the annual number of new HIV infections has been steadily declining since the late 1990s, the epidemics in Eastern Europe and in Central Asia continue to grow; the number of people living with HIV in these regions reached an estimated 1.6 million in 2005—an increase of almost 20-fold in less than 10 years. [8] The overwhelming majority of these people living with HIV are young; 75% of infections reported between 2000 and 2004 were in people younger than 30 years. In Western Europe, the corresponding percentage was 33%.

The magnitude of the AIDS epidemic in Asia is significant. Although national HIV infection prevalence rates are low in Asia compared with other continents (notably Africa), the populations of many Asian nations are so large that even low prevalence rates reflect large numbers of people are living with HIV. The seroprevalence rate in pregnant women is already 2%, and the vertical transmission rate is 24% without breastfeeding. Indian mothers infected with HIV routinely breastfeed and have transmission rates as high as 48%.

Perinatal transmission rates are relatively low in Europe and high in Africa, independent of treatment. Untreated women infect 13% and 40% of children in Europe and Africa, respectively. The rate of postnatal transmission in Africa and other developing countries is elevated because of the need for breastfeeding.

HIV-1 is the most common cause of HIV infection in the Americas, Europe, Asia, and Africa. HIV type 2 (HIV-2) has caused epidemics in West Africa, though this virus is also found in European countries. HIV-1 subtypes differ by geographic region. Non-B subtypes are particularly prevalent in Africa and in Asia. The high transmission rate from Africa to Europe has increased the diversity of subtypes in Europe.

Globally, children outside the United States are not faring as well. Every day, 1400 children become HIV positive and 1000 children die of HIV-related causes. An estimated 2.5 million children worldwide younger than 15 years are living with HIV/AIDS. In sub-Saharan Africa alone, 1.9 million children are living with HIV/AIDS and more than 60% of all new HIV infections occur in women, infants, or young children. As of 2007, 90% of the newly infected children are infants who acquire HIV from their infected mothers. Alarmingly, 90% of babies who acquire the disease from infected mothers are found in sub-Saharan Africa. The prevalence of HIV infection among undernourished children has been estimated to be as high as 25%.

The prevalence of HIV infection in Asia and Europe varies considerably because of varied cultural practices and lack of a national reporting system in many areas. The commercial sex worker industry in countries such as Thailand and in the Caribbean Islands is responsible for increased HIV transmission to young girls and, vertically, to infants.

In 2004, more than half a million children younger than 15 years died from HIV/AIDS. In 2006, this number decreased to 380,000. In 2002, HIV/AIDS was the seventh leading cause of mortality in children in developing countries. The disease progresses rapidly in approximately 10-20% of children who are infected, and they die of AIDS by age 4 years, whereas 80-90% survive to a mean age of 9-10 years.

In affected regions of sub-Saharan Africa, the infant mortality rate has increased by 75% due, in part, to the orphaned status of most children. In contrast to much of the developed world, the mortality rates for children younger than 5 years are higher today than in 1990 in many African countries, mostly because of the devastating effects of HIV/AIDS.

A 2006 South African study estimated that HIV/AIDS is the single largest cause of infant and childhood deaths in rural South Africa. [13] HIV/AIDS is now responsible for 332,000 child deaths in sub-Saharan Africa, almost 8% of all child deaths in the region.

The results of one study noted that pneumonia and malnutrition are highly prevalent and are significantly associated with high rates of mortality among hospitalized, HIV-infected or HIV-exposed children in sub-Saharan Africa. Other independent predictors of death were septicemia, Kaposi sarcoma, meningitis, and esophageal candidiasis for HIV-infected children; and meningitis and severe anemia for inpatients exposed to HIV. These results stress the importance of expediently establishing therapeutic strategies in African pediatric hospitals. [14]

Racial differences in incidence

Black and Hispanic children are disproportionately infected in the United States. As of 2002, HIV infection was the 7th and 10th leading cause of death in black children and in Hispanic teens, respectively. [15] Approximately 62% of children with AIDS are black.

In the United States, children from minority communities have been most affected by AIDS. More than 50% of infected children are black, and slightly less than 25% are Hispanic. Of the new childhood HIV cases in 2003, 68% occurred in African Americans. The number of pediatric AIDS cases reported in black non-Hispanic children is 3.4 times higher than in white non-Hispanic children and is 2.6 times higher than that of Hispanic children.

Sexual differences in incidence

Women of childbearing age are one of the fastest growing groups with AIDS; 20% of AIDS cases in adults in the United States occur in this group.

Young people (aged 15-44 y) account for one of the fastest growing infected groups and account for almost half of all infections. Among young people, young women are more likely to become infected. In sub-Saharan Africa, more than two thirds of all youth infected are young girls. Variations in frequencies in the sexes in other regions of the world depend on the predominance of commercial sex workers and the proportion of a transient and mobile workforce more likely to be separated from family.

Age-related differences in incidence

Because vertical transmission from mother to child is the main route by which pediatric HIV infection is acquired, most children who are HIV positive should be identified in infancy. Although current treatment strategies can prevent vertical transmission, the drugs are simply not available in many places, especially in Africa.

Nevertheless, the age of presentation can be highly variable in a high-risk child who was previously unidentified. Children can be asymptomatic for many years, and the appearance of an opportunistic infection in a 10-year-old child or in an adolescent in whom AIDS is subsequently diagnosed is not rare. Children who acquire HIV by means of nonvertical transmission may have an illness during the acute phase of the retroviral syndrome, or they may present many years later with opportunistic or recurrent infections.

The CDC estimates that 50% of all new HIV infections in the United States occur among individuals aged 13-24 years. This is an important statistic that influences the mortality rates in young adults. For example, HIV is the 5th leading cause of death among black women aged 20-24 years, and it is the principal cause of mortality in black women aged 25-34 years.

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Prognosis

Although HIV infection is usually deadly in children, especially in developing countries, the development of new antiretroviral drugs is promising. The lack of access to antiretroviral agents by children in developing countries is of particular concern.

The nutritional status of the child and the diligence with which viral replication is controlled are paramount in determining the outcome of most children with HIV disease.

Aggressive treatment of opportunistic infections prevents the more deleterious effects of secondary disease from progressing and further weakening the patient. The social setting and the stressors to which children are exposed have also been linked to the progression of the disease.

Hematologic disturbances, such as anemia, thrombocytopenia, and neutropenia, increase the risk of complications and death. Resolution of anemia improves the prognosis, and treatment of anemia with erythropoietin improves survival. Neutropenia significantly increases the risk of bacterial infection, and treatment of neutropenia with granulocyte colony-stimulating factor substantially decreases the risk of bacteremia and death.

Infection with Mycobacteriumavium complex (MAC) hastens death, especially in patients with coexisting anemia (defined as a hematocrit < 25%).

The following factors are associated with rapidly progressive disease in infants:

  • Advanced maternal disease

  • High maternal viral load

  • Low maternal CD4+ count

  • Prematurity

  • In utero transmission

  • High viral load in the first 2 months of life

  • Lack of neutralizing antibodies

  • Presence of p24 antigen

  • AIDS-defining illnesses

  • Early cytomegalovirus (CMV) infection

  • Early neurologic disease

  • Failure to thrive

  • Early-onset diarrhea

Each logarithmic decrease in the viral load after the start of therapy decreases the risk of progression by 54%.

Baseline CD4+ T-lymphocyte percentage and associated intermediate-term risk of death in HIV-infected children is as follows [16] :

  • < 5%: 97%

  • 5-9%: 76%

  • 10-14%: 43%

  • 15-19%: 44%

  • 20-24%: 25%

  • 25-29%: 31%

  • 30-34%: 10%

  • ≥35%: 33%

Baseline HIV RNA copy number (copies/mL) and associated intermediate-term risk for death in HIV-infected children is as follows [16] :

  • Undetectable (ie, ≤4,000): 24%

  • 4,001-50,000: 28%

  • 50,001- 100,000: 15%

  • 100,001- 500,000: 40%

  • 500,001-1,000,00: 40%

  • 1,000,000: 71%

The natural progression of vertically acquired HIV infection appears to have a trimodal distribution. Approximately 15% of children have rapidly progressive disease, and the remainder has either a chronic progressive course or an infection pattern typical of that observed in adults. Mean survival is about 10 years.

In resource-poor nations, the progression to death is accelerated. In some instances, close to 45-90% of HIV-infected children died by the age of 3 years. However, among children and adolescents, the start of combination therapy including protease inhibitors reduces the intermediate-term risk of death by an estimated 67%. Also, host genetics play an important role in HIV-1–related disease progression and neurologic impairment

The patient's overall progression and prognosis is followed up by using the CDC classification system for children infected with HIV (see Staging).

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Patient Education

Educating parents regarding the importance of compliance with prescribed medications and health care visits is a major challenge because of many factors. See Deterrence/Prevention for further discussion about this topic.

Patients should be educated regarding the transmission of HIV. Increasing their awareness of the mechanism and consequences of HIV transmission is important. Safe social interactions that do not expose people to an increased risk for HIV transmission should also be emphasized.

A single-blinded, randomized controlled trial reported that adolescent family-centered pediatric advance care planning on HIV-specific symptoms was worthwhile in increasing and maintaining agreement about goals and length of care which resulted in lowering physical symptoms and pain. [17]

For patient education information, see the Immune System Center and Sexually Transmitted Diseases Center, as well as HIV/AIDS and Rapid Oral HIV Test.

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