NUTRITION AND HIV/AIDS:
Evidence, Gaps, and Priority Actions
In  Africa, where more than 25 million people areliving with HIV/AIDS, malnutrition and food
African children < 5 years old are stunted due to
chronic nutritional deprivation.1 Underweight, an
indicator of chronic and acute malnutrition, was
the leading cause of mortality worldwide, respon-
sible for 3.7 million deaths in 2000.2  Nearly half of
these deaths (48.6%) occurred in sub-Saharan
Africa.
The effects of malnutrition on the immune system
are well known and include decreases in CD4 T-
cells, suppression of delayed hypersensitivity, and ab-
normal B-cell responses.3-4  The immune suppression
caused by protein-energy malnutrition is similar in
many ways to the effects of HIV infection.5  This
document summarizes the evidence, gaps, and
priority actions related to nutrition and HIV/AIDS.
Nutrition and HIV/AIDS:
The Evidence and Gaps
HIV infection increases energy requirements. HIV
infection affects nutrition through increases in rest-
ing energy expenditure, reductions in food intake,
nutrient malabsorption and loss, and complex meta-
bolic alterations that culminate in weight loss and
wasting common in AIDS.6-7  The effect of HIV on
nutrition begins early in the course of the disease,
even before an individual may be aware that he or
she is infected with the virus.8-10 Asymptomatic HIV-
positive individuals require 10% more energy, and
symptomatic HIV-positive individuals  require 20%-
30% more energy than HIV-negative individuals of
the same age, sex, and physical activity level.11
The impact of pre-existing malnutrition on HIV sus-
ceptibility and disease progression is difficult to study,
and knowledge in this area is still limited. A system-
atic review of the literature is now underway by the
World Health Organization (WHO).11 Early studies
demonstrated that weight loss and wasting were
associated with increased risk of opportunistic infec-
tions12 and shorter survival time in HIV-positive
adults, independent of their immune status.13-14 Other
studies showed that clinical outcome was poorer and
risk of death was higher in HIV-positive adults with
compromised micronutrient intake or status.15-20
Micronutrient deficiencies may contribute to
disease progression.  Deficiencies of vitamins and
minerals, such as vitamins A, B-complex, C, and E
and selenium and zinc, which are needed by the  im-
mune system to fight infection, are common in
people living with HIV.9, 21 Deficiencies of anti-oxi-
dant vitamins and minerals contribute to oxidative
stress, a condition that may accelerate immune cell
death22-23 and increase the rate of HIV replication.24-26
Daily micronutrient (antioxidant) supplementation
improved body weight and body cell mass27; reduced
HIV RNA levels28; improved CD4 cell counts28; and
reduced the incidence of opportunistic infections29 in
small studies of adults with AIDS, including those
on antiretroviral therapy.  Larger clinical trials dem-
onstrated that daily micronutrient supplementation
increased survival in adults with low CD4 cell counts30;
prevented adverse birth outcomes when given during
pregnancy31; and reduced mother-to-child HIV trans-
mission in nutritionally vulnerable women with more
advanced HIV disease.32  The optimal formulation of
a daily multiple micronutrient supplement for HIV-
positive individuals requires further study.11
circlecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecirclecircle
Food security is the state in which all people have
food to meet their dietary needs for a productive and
healthy life at all times.50  Achieving this state is
contingent on food being available, accessible, and
utilized by the body. The relationship between HIV/
AIDS, livelihoods, and food and nutrition security is
complex and multidimensional.
Food insecurity and poverty may lead to high-risk
sexual behaviors and migration, increasing the risk
of acquiring HIV infection.51-52 HIV/AIDS, in turn,
significantly undermines a household’s ability to
provide for basic needs.  Livelihoods are diminished
when HIV-infected adults cannot work and food
production and/or earnings decrease.  Healthy fam-
ily members, particularly women, are often forced to
stop work to care for sick family members, further
reducing income for food and other basic needs.
Household labor constraints can cause reductions in
cultivated area, shifts to less labor- or cash-intensive
crops, and depletion of livestock.53
Food-insecure households frequently struggle to meet
ordinary household needs without the added stress
of HIV.  Their capacity to absorb the costs associated
with HIV-related illnesses, to provide enhanced nu-
tritional support, and to participate in community
programs is severely restricted, and many find them-
selves in a rapid downward economic spiral.54 The
spiral is made worse when disabled parents are un-
able to pass on practical crop and livestock knowl-
edge,51, 55  and when children are withdrawn from
school because of difficulty paying fees or the need
for the young to care for ill family members, jeopar-
dizing their future income-earning potential.
HIV/AIDS is impacting entire communities, with rip-
pling effects, particularly in areas that are highly de-
pendent on labor.  For example, in rural Kenya, when
HIV affects a relatively wealthy household and spend-
ing on health care increases, money to hire laborers
declines.  Poorer households become increasingly more
vulnerable—food insecure, less able to send their chil-
dren to school, and less able to meet their own health
needs—when they can no longer find work because
the wealthier families can not afford to hire them.56
Entire communities are weakened by HIV, not just
individuals, and traditional community safety nets
are being stretched to their limit in highly affected
areas.
Antiretroviral therapy improves nutritional status,
but ARVs may also have side effects and metabolic
complications.  Highly active antiretroviral therapy
(HAART) improves nutritional status, independent
of its effects on viral suppression and immune
status,33 although wasting still develops in some pa-
tients.34  ARV side effects such as nausea and vomit-
ing may affect adherence to therapy, particularly in
the first months of treatment.35 Additional metabolic
complications such as derangements in glucose and
lipid metabolism, bone metabolism, and lactic
academia have been associated with the use of
certain ARV drugs.36 Research on the metabolic con-
sequences of ARV therapy and appropriate strategies
for their management is a growing field in industri-
alized countries. Further research is needed in
resource-limited settings, where management options
and follow-up monitoring may be more limited.
HIV exposure and infection exacerbates problems
of child malnutrition.  Children living with HIV or
born into families affected by HIV are a high-risk
group with special needs. HIV-positive women have
a higher incidence of preterm and low birth weight
deliveries, and, as a result, HIV-exposed infants may
start life with impaired nutrition.37-38  HIV-positive
infants experience slower growth and are at greater
risk of severe malnutrition.39-40  Studies show that
severe malnutrition in HIV-positive children can be
reversed with hospital and home-based therapeutic
feeding, though the time to recovery is longer than
with uninfected children.41  Studies also indicate that
periodic vitamin A supplementation reduces morbidity
and mortality in HIV-positive children and improves
their growth.42-44
Optimal infant and young child feeding practices
are crucial in the context of HIV/AIDS. Breastfeeding
practices may also affect the health of HIV-exposed
children. The risk of HIV transmission through
breastfeeding is directly related to the health, viral load,
and immune status of their mothers.  Infection occurs
at an average rate of about 8.9 HIV transmissions
per 100 child-years of breastfeeding.45 HIV-positive
mothers are recommended to avoid breastfeeding if
replacement feeding is feasible, affordable, and safe.46
In many resource-limited settings, this cannot be as-
sured, and many HIV-positive women initiate
breastfeeding.47-48 For these women, exclusive
breastfeeding and early breastfeeding cessation are
recommended.46 Infants who are not breastfed or who
stop breastfeeding early and do not have access to safe
and nutritious replacement foods are at increased risk
of malnutrition, diarrhea and other illnesses, and death.49
Livelihoods, Food Security, and
HIV/AIDS: Complex Interactions
Priority Actions
Nutrition counseling, care, and support are inte-
given to HIV-positive individuals and orphans and
vulnerable children (OVC).  There are several nutri-
tion and food-related interventions to consider.
Appropriate actions depend on the local conditions,
the HIV-positive individual’s lifecycle state (e.g., child,
pregnant or lactating, other adult), degree of disease
progression (e.g., asymptomatic, symptomatic, AIDS),
and whether they have initiated ARV therapy.  Inte-
grating nutritional care and support interventions
strengthens home-, clinic-, and community-based care,
ARV services, OVC activities, and national policies
and strategies addressing the pandemic. Nutrition in-
terventions may improve the quality and reach of care
and promote successful treatment.
The main nutrition interventions are counseling on
specific behaviors, prescribed/targeted nutrition
supplements, and linkages with food-based interven-
tions and programs. Three different types of nutrition
supplements are considered: food rations to manage
mild weight loss and nutrition-related side effects of
ARV therapy and to address nutritional needs in food-
insecure areas; micronutrient supplements for specific
HIV-positive risk groups; and therapeutic foods for
rehabilitation of moderate and severe malnutrition in
HIV-positive adults and children. Priority actions are:
Nutrition for positive living. This includes nutrition
counseling and support to improve food intake and
maintain weight during asymptomatic HIV infection
and to prevent food and waterborne infections. Food
rations may be provided in food-insecure areas and
for nutritionally vulnerable pregnant and lactating
women. Daily multiple micronutrient supplements may
be provided to HIV-positive pregnant women in areas
where malnutrition rates are high, although the optimal
formulation for such supplements is not yet known.
Nutritional management of HIV-related illnesses.
This includes counseling to manage nutrition-related
symptoms of common HIV-related illnesses/opportu-
nistic infections (e.g., loss of appetite, oral sores, fat
malabsorption). Home-based care programs, commu-
nity efforts, and clinical services can provide
counseling to help HIV-positive individuals and their
households optimally use available foods to manage
symptoms and maintain food intake. Guidance and
materials to support nutritional management of symp-
toms, developed with USAID assistance, are already
available in many countries.
Management of ARV interactions with food and
nutrition.  This includes providing information and
support to help ARV clients manage side effects such
as nausea and vomiting and prevent drug-food inter-
actions. Side effects and interactions can negatively
affect medication adherence and efficacy. Supporting
ARV clients in appropriate dietary responses to man-
age these conditions helps ensure successful treatment.
In addition to nutrition counseling, food  rations may
be provided in food-insecure areas, particularly in cases
where lack of food is interfering with treatment adher-
ence and among those experiencing weight loss that is
not reversed after treatment is initiated.
Therapeutic feeding for moderately and severely
malnourished HIV-positive children and adults. This
includes hospital-based stabilization and home- or
community-based care using therapeutic (nutrient-
dense) foods, per WHO or local nutrition rehabilita-
tion protocols.  The foods and protocols used to treat
severe malnutrition in the general population may be
used for HIV-positive patients, although some adapta-
tions may be required for adults and those experienc-
ing severe symptoms.
Infant and young child nutrition for HIV-exposed
children.  This includes counseling on feeding options
for HIV-exposed children, including orphans, and sup-
port for safer breastfeeding or replacement feeding,
per WHO or local protocols.  Food rations, therapeu-
tic foods, and micronutrient supplements may also be
provided, depending on local circumstances such as
food availability, diet quality, and malnutrition rates.
Vitamin A supplementation is recommended, per WHO
protocols.
Palliative care and community coping mechanisms.
This includes nutrition counseling and supplements for
HIV-positive and HIV-affected households delivered
through home-, clinic-, and community-based care
programs and strengthening links to social support
organizations, building community food stocks, shar-
ing labor, modifying costly customs (funerals,
marriages), and providing food assistance and train-
ing to widows, orphans, and vulnerable children. The
U.S. Government, through USAID, has Title II
programs providing this type of assistance in several
countries,  including Ethiopia, Haiti, Kenya,
Mozambique, Rwanda, Uganda, and Zambia. The
USAID-funded C-Safe Program is linking Title II food
to HIV home-based care programs in Malawi, Zam-
bia, and Zimbabwe.
HIV+
Symptomatic
Summary of Nutrition Interventions according to HIV Disease Progression
Counseling/care
Prescribed/targeted
nutrition
supplementation
Other food
interventions
Nutrition education
and counseling for
positive living
For high-risk groups
only (e.g., pregnant
and lactating HIV+
women, HIV-
exposed non-
breastfed children)
To prevent
nutritional
deterioration for
HIV-affected
families living in
highly food-
insecure
communities
Nutrition
management of
HIV-related
opportunistic
infections (OI),
symptoms, and
medications
For high-risk groups
For persons who
are losing weight or
do not respond to
medications
Therapeutic feeding
for moderately and
severely
malnourished HIV+
adults and children
To improve
adherence/
participation in OI
treatment programs
Nutrition
management of
ARV therapy
(where available)
Nutrition
management in
home-, clinic- and
community-based,
palliative care
Therapeutic feeding
for moderately and
severely
malnourished HIV+
adults and children
To improve
adherence/
participation in ARV
and OI treatment
programs
To use in home-,
clinic-, and
community-based
care programs
Counseling on
special food and
nutritional needs of
orphans, vulnerable
infants, and young
children
For high-risk groups
(e.g., HIV-exposed
non-breastfed
children < 2 years
or HIV-exposed
children with growth
faltering)
To protect the
health of orphans
and vulnerable
children and for
surviving family
members when
livelihoods are
compromised
because of HIV-
related sickness or
death
orightshadoworightshadoworightshadow
Intervention HIV+Asymptomatic AIDS Families affectedby an HIV-related
Death
1. de Onis, M, Frongillo EA, Blossner M. Is malnutrition declining? An analysis of
changes in levels of child malnutrition since 1980.Bull WHO 2000; 78 (10): 1222-33.
2. WHO.  The World Health Report. Geneva, 2002.
3. Gorbach SL, Tamsin AK, and Roubenoff R. Interactions between nutrition and
infection with human immunodeficiency virus. Nutr Rev 1993; 51: 226-234.
4. Scrimshaw NS and SanGiovanni JP. Synergism of nutrition, infection and immu-
nity: an overview. Am J Clin Nutr 1997; 66: 464S-477S.
5. Beisel WR.  Nutrition and immune function: Overview.  J Nutr 1996; 126: 2611S-
2615S.
6. Babamento G and Kotler DP. Malnutrition in HIV infection. Gastroenterology
Clinics of North America 1997; 26: 393-415.
7. Macallan DC.  Wasting in HIV infection and AIDS.  J Nutr 1999; 129: 238S-242S.
8. Beach  RS, Mantero-Atienza E, Shor-Posner G et al. Specific nutrient abnormalities in
asymptomatic HIV-1 infection.  AIDS 1992; 6: 701-708.
9. Semba RD and Tang AM.  Micronutrients and the pathogenesis of  human immuno-
deficiency virus infection. Br J Nutr 1999; 81: 181-189.
10. Bogden JD, Kemp FW, Han S et al. Status of selected nutrients and progression
of human immunodeficiency virus type 1 infection. Am  J Clin Nutr
815.
11. WHO. Nutrient requirements for people living with HIV/AIDS.
technical consultation. World Health Organization, Geneva, 2003.
12. Wheeler DA, Gilbert CL, Launer CA et al. Weight loss as a predictor of survival and
disease progression in HIV infection.  J Acquir Immune Defic Syn 1998; 18: 80-85.
13. Kotler D, Tierney AR, Wang J, Pierson RN.  Magnitude of body cell mass depletion
and the timing of death from wasting in AIDS.  Am J Clin Nutr 1989; 50: 444-447.
14. Suttmann U, Ockenga J, Selberg O et al. Incidence and prognostic value of  malnu-
trition and wasting in human immunodeficiency virus-infected outpatients. J Acquir
Immune Defic Syn 1995; 8: 239-246.
15. Baum MK, Shor-Posner G, Lu Y et al.  Micronutrients and HIV disease progres-
sion. AIDS 1995; 9: 1051-1056.
16. Tang AM, Graham NM, Kirby AJ et al. Dietary micronutrient intake and risk of
progression to acquired immunodeficiency syndrome (AIDS) in human immunodefi-
ciency virus type 1 (HIV-1)-infected homosexual men. Am J Epidemiol 1993; 138: 937-
951.
17. Tang AM, Graham NM and Saah AM. Effects of micronutrient intake on survival in
human immunodeficiency virus type 1 infection.  Am J Epidemiol  1996; 143: 1244-
1256.
18. Tang AM, Graham NM, Chandra RK.  Low serum vitamin B12 concentrations
are associated with faster HIV-1 disease progression.  J Nutr 1997; 127(2):  345-351.
19. Tang AM, Graham NM, Semba RD et al. Vitamin A and E in HIV disease
progression. AIDS 1997; 11: 613-620.
20. Baum MK and Shor-Posner G. Micronutrient status in relationship to mortality in
HIV-1 Disease. Nutr Reviews 1998; 51: S135-S139.
21. Kupka R, Fawzi WW.  Zinc nutrition and HIV infection.  Nutr Reviews 2002; 60
(3):69-79.
22. Banki K, Hutter E, Gonchoroff NJ et al Molecular ordering in HIV-induced
apoptosis. Oxidative stress, activation of caspases, and cell survival are regulated by
transaldolase.  J Biol Chem 1998; 273 (19): 11944-53.
23. Romero-Alvira D, Roche E. The keys of oxidative stress in acquired immune
deficiency syndrome apoptosis. Medical Hypotheses 1998; 51(2): 169-73.
24. Rosenberg ZF, Fauci AS.  Immunopathogenic mechanisms of HIV infection: cytokine
induction of HIV expression. Immunol Today 1990; 11: 176-180.
25. Schwarz KB. Oxidative stress during viral infection: a review.  Free Rad Biol. Med
1996; 21: 641-649.
26. Allard JP, Aghdassi E, Chau J et al. Effects of vitamin E and C supplementation on
oxidative stress and viral load in HIV-infected subjects.  AIDS 1998; 12:1653-1659.
27. Shabert JK, Winslow C Lacey JM et al. Glutamine-antioxidant supplementation
increases body cell mass in AIDS patients with weight loss: A randomized, double-blind
controlled trial.  Nutrition 1999; 15: 860-864.
28. Muller F, Svardal AM, Norday I et al. Virological and immunological effects of
antioxidant treatment in patients with HIV infection.  Euro J Clin Invest 2000; 30 (10):
905-914.
29. Mocchegiani E, Muzzioli M.  Therapeutic application of zinc in human immuno-
deficiency virus against opportunistic infections.  J Nutr 2000; 130 (5S): 1424S-1431S.
30. Jaimton S, Pepin J, Suttent R et al. A randomised trial of the impact of multiple
micronutrient supplementation on mortality among HIVinfected individuals living in
Bangkok. AIDS 2003; 17: 2461-2469.
31. Fawzi WW, Msamanga GI, Spiegelman D et al. Randomised trial of effects of
vitamin supplements on pregnancy outcomes and T cell counts in HIV-1-infected women
in Tanzania. Lancet 1998; 351: 1477-1482.
32. Fawzi WW, Msamanga GI, Hunter D et al. Randomized trial of vitamin supple-
ments in relation to transmission of HIV-1 through breastfeeding and early child mortal-
ity. AIDS 2002; 16(14): 1935-1944.
33. Rousseau MC, Molines C, Moreau J, Delmont J. Influence of highly active
antiretroviral therapy on micronutrient profiles of HIV-infected patients. Ann Nutr
Metab 2000; 44 (5-6): 212-216.
34. Wanke CA, Silva M, Knox TA et al. Weight loss and wasting remain common
complications in individuals infected with human immunodeficiency virus in the era of
highly active antiretroviral therapy.  CID 2000; 31: 803-805.
35. Chen RY, Westfall AO, Mugavero MJ et al. Duration of highly active antiretroviral
therapy. CID 2003; 37: 714-722.
36. Shevitz AH, Knox TA. Nutrition in the era of highly active antiretroviral therapy.
CID 2001; 32: 1769-1775.
37. Brocklehurst P, French R. The association between maternal HIV infection and
perinatal outcome: a systematic review of the literature and meta-analysis. BJOG 1998;
105: 836-848.
38. Coley JL, Msamanga G, Smith Fawzi MC et al. The association between maternal
HIV-1 infection and pregnancy outcomes in Dar es Salaam, Tanzania.  BJOG  2001;
108: 1125-1133.
39. Bakaki P, Kayita J, Moura Machado JE et al.  Epidemiologic and clinical features
of HIV-infected and HIV-uninfected Ugandan children younger than 18 months
Acquir Immune Defic Syndr 2001; 28 (1): 35-42.
40. Newell ML, Borja MC, Peckham C. Height, weight, and growth in children born
to mothers with HIV-1 infection in Europe.  Pediatrics 2003; 111(1): e52-60.
41. Sandige H, Ndekha MJ, Briend A et al.  Locally produced and imported ready-to-
use food in the home-based treatment of malnourished Malawian children. J Pediatric
Gastroenterology Nutr 2004; in press.
42. Coutsoudis A, Bobat RA, Coovadia HM et al. The effects of vitamin A supplemen-
tation on the morbidity of children born to HIV-infected mothers. Am J Public Health
1995; 85: 1076-1081.
43. Fawzi WW, Mbise RL, Hertzmark E et al. A randomized trial of vitamin A in re-
lation to mortality among human immunodeficiency virus-infected and uninfected chil-
dren in Tanzania. Pediatr Infect Dis J 1999; 18(2): 127-133.
44. Villamor E, Mbise R, Spiegelman D et al. Vitamin A supplements ameliorate the
adverse effect of HIV-1 malaria, and diarrheal infections on child growth. Pediatrics
2002; 109 (1): e6.
45. The Breastfeeding and HIV International Transmission Study (BHITS)  Group.
Late postnatal transmission of HIV-1 in breastfed children: an individual patient data
meta-analysis. J Infect Dis 2004; in press.
46. WHO. New Data on the Prevention of Mother-to-Child Transmission of HIV and
their Policy Implications: Conclusions and recommendations. Geneva, 11-13 October
2000, approved January 15, 2001 [Cited 2001 Jan 19].  Available at www.unaids.org/
publications/documents/mtct.
47. Omari A, Luo C, Kankasa C et al.  Infant-feeding practices of mothers of known
HIV status in Lusaka, Zambia.Health Policy Plan. 2003; 18: 156-162.
48.Kiarie JN, Richardson BA, Mbori-Ngacha D et al Infant feeding practices of women
in a perinatal HIV-1 prevention study in Nairobi, Kenya. J Acquir Immune Defic Syndr
2004; 35:75-81.
49. WHO Collaborative Team on the Role of Breastfeeding in the Prevention of Infant
Mortality.  Effect of breastfeeding on infant and child mortality due to infectious diseases
in less developed countries: a pooled analysis. Lancet 2000; 355: 451-55.
50. Bonnard P. HIV/AIDS mitigation: using what we already know. Technical Note
No. 5. Food and Nutrition Technical Assistance Project, Academy for Educational
Development, Washington, DC, 2002.
51. Loevinsohn M and Gillespie S. HIV/AIDS, food security, and rural livelihoods:
understanding and responding. FCND Discussion Paper No.157. IFPRI:  Washington,
DC, 2003.
52. Harvey P. HIV/AIDS: What are the implications for humanitarian action? A
literature review (Draft). Overseas Development Institute, 2003.
53. UNAIDS. A review of household and community responses to the HIV/AIDS
epidemic in the rural areas of sub-Saharan Africa
54. Shah MK, Osborne N, Mbilizi T et al Impact of HIV/AIDS on agricultural
productivity and rural livelihoods in the central region of Malawi
Malawi, 2002.
55. Arndt, C and P. Wobst. HIV/AIDS and labor markets in Tanzania. Trade and
Marketing Division Discussion Paper 102. IFPRI: Washington DC, 2002.
56. Boudreau T and Holleman C. Household food security and HIV/AIDS: exploring
the linkages. The Food Economy Group, Famine Early Warning Systems Network
(FEWS NET), 2002. Available at http://www.fews.net/hazards/hazard/report/
?g=1000087&i=1026.
References
This brief was prepared by Ellen Piwoz of the Support for Analysis and Research in Africa (SARA) project  with
inputs from Patricia Bonnard, Tony Castleman, Bruce Cogill, Leslie Elder, Sandra Remancus, and Caroline
Tanner of the Food and Nutrition Technical Assistance (FANTA) project. Both projects are operated by the
Academy for Educational Development (AED) and funded by the U.S. Agency for International Development
(USAID).  April 2004
1. HIV/AIDS and malnutrition are interrelated.
2. HIV affects nutrition through multiple mechanisms. Its impact begins early during
asymptomatic infection and continues throughout the lifecycle.
3. HIV exposure and infection exacerbate problems of child malnutrition.
4. Infants who are not breastfed due to maternal choice, illness, or mortality are
especially vulnerable to malnutrition.
5. Nutrition interventions have shown a wide range of benefits for HIV-related
outcomes.
6. Nutrition counseling may improve adherence to lifesaving ARV drugs and
medications for treating HIV-related infections.
7. Goals for nutrition care vary at different stages of HIV from asymptomatic to
symptomatic HIV and AIDS and after death for surviving family members.
8. Priority actions include nutrition for positive living, nutrition management of
HIV-related illnesses, management of ARV interactions with food and nutrition,
therapeutic feeding for moderately and severely malnourished HIV-positive
children and adults, nutrition for HIV-exposed infants and young children, and
home-, clinic-, and community-based palliative care.
9. Nutrition interventions for people living with HIV/AIDS include food and nutrition
assessment, counseling and support, targeted nutrition supplements, and
linkages with food security and livelihood programs.
10. Nutrition counseling, care, and support are important components of
comprehensive HIV care and should be considered at the outset when planning
programs.
10 Key Messages on Nutrition and HIV/AIDS