Antiretrovirals and HIV


Original Editor - Vidya Acharya

Top Contributors - Vidya Acharya, Melissa Coetsee, Kim Jackson and Carina Therese Magtibay  

Introduction[edit | edit source]

HIV is a major global public health issue, claiming 36.3 million [27.2–47.8 million] lives so far. Improved access to effective HIV prevention, diagnosis, treatment, and care has resulted in HIV becoming a manageable chronic health condition, enabling people living with HIV (PLWH) to lead long and health lives.[1] According to UNAIDS, 38.4 million [33.9 million–43.8 million] people globally were living with HIV in 2021. At the same time, only 28.7 million people were accessing antiretroviral therapy (ART) in 2021 (that is less than 75%). There has however been a large improvement in ART access since 2010, when only 7.8 million (about 20% of people living with HIV) were accessing treatment. [2]

ART is the treatment recommended by the Department of Health and Human Services (DHHS) and the World Health Organization (WHO) for treating all patients with HIV.[3] The treatment does not offer a cure for the disease but provides longer lives and reduces transmission. The drop in the spread of the disease has resulted in wide acceptance of the therapy by HIV-positive individuals. FDA approved the first medicine nucleoside reverse transcriptase inhibitor zidovudine in 1987. Research in the subsequent decade showed that combining HIV medicines is effective in treating patients[3].

An HIV ART regime involves daily treatment with multiple HIV medications, including three ART medications from a minimum of two drug classes. A combination regimen should consist of preferably 3 (but at least 2) active agents based on genotype resistance test results.[4] Studies show that 3-drug therapy reduces the rate of AIDS, hospitalization, and death by 60% to 80%. The success of ART therapy has reduced HIV to a chronic condition in many parts of the world. Once diagnosed, people wit HIV should be started on ART as soon as possible, followed by frequent monitoring of viral load and CD4 cell count[5].

In 2020, UNAIDS set a new target referred to as 95-95-95, to be achieved by 2030[2]. This calls on all United Nations Member state to work towards the following:

  • 95% of all PLWH should know their status
  • 95% of all people diagnosed with HIV should receive sustained ART
  • 95% of all people on ART should achieve viral suppression

Goals of Antiretroviral Therapy[edit | edit source]

HIV produces new copies of itself inside an infected cell, which can then infect other healthy cells within the body. The more cells HIV infects, the greater its impact on the immune system (immunodeficiency). Antiretroviral medicines slow down replication by interfering with its replication process in different ways and, thus, the spread of the virus within the body.[2]

The key goals of antiretroviral therapy are to[4]:

  • Prevent HIV from multiplying
  • Achieve and maintain suppression of plasma viremia to below the current assays’ level of detection;
  • Improve overall immune function as demonstrated by increases in CD4+ T cell count;
  • Prolong survival;
  • Reduce HIV associated morbidity;
  • Improve overall quality of life; and
  • Reduce risk of transmission of HIV to others

Adherence & Drug Resistance[edit | edit source]

It is important to remember that current antiretroviral regimens do not eradicate HIV; viral rebound occurs rapidly after treatment discontinuation, followed by CD4 decline, with potential for disease progression. It is essential to strictly follow the prescribed regimen to avoid viral rebound and the potential for drug resistance mutation.

Adherence can be improved through the following strategies[6]:

  • Pre-ART education and counselling
  • Ongoing adherence support programme after ART initiation
  • Provision of pill boxes
  • Use of a once-daily ART regimen
  • Use drugs with more favourable side-effect profiles
  • Assign family and friends to be treatment supporters

Factors that Influence Adherence[edit | edit source]

As mentioned, continuous use of ART (>95% adherence) is essential to maintain viral suppression[6]. Although access to ART is importance, adherence is influenced by many other factors[6]. The following factors have been associated with poorer ART adherence:

  • Being male[7]
  • Substance abuse[7]
  • Lower socio-economic status[7]
  • Poor mental health and social stigma[8]
  • Medication side-effects

Drug Resistance[edit | edit source]

Repeated non-adherence and treatment interruptions can result in an increase in drug-resistance, necessitating the use of second/third line regimens which are more costly, less tolerable and not widely available[6]. Resistant HIV strains can also be transmitted to others which can increase the amount of people who do not respond to first-line ART medication[6].

What Drives Drug Resistance?[edit | edit source]
  • Virus subtype - Replication capacity and genetic mutations[9]
  • ART Drugs- Low potency, poor tolerability[9]
  • Patient - Poor adherence, barriers to treatment access (transport, cost etc), stigma and discrimination[9]
  • Clinic - Interrupted drug supply, suboptimal support to treatment adherence, poor treatment retention, limited use of viral load testing, delays in witching regimens in cases of ART failure[9]
  • Programme - lack of planning

Overall, HIV drug resistance can compromise the effectiveness of ART in reducing HIV incidence and HIV-associated mortality and morbidity[10]. The prevalence of drug resistance has been on the rise, with particular concern for infants born to mothers infected with HIV - almost 50% of these infants have HIV drug resistance[10].

Regular viral load testing is very important to allow for prompt detection of drug resistance in order to switch treatment regimes, and to ensure viral suppression is maintained which will reduce the risk of the virus developing resistance[10].

Antiretroviral Drugs[edit | edit source]

Antiretroviral drugs

There are classes of drugs used in antiretroviral therapy[3]:

  1. Nucleoside reverse transcriptase inhibitors (NRTI): HIV needs an enzyme called reverse transcriptase to generate new copies of itself. This group of medicines inhibits reverse transcriptase by preventing the process that replicates the virus’s genetic material. Names of FDA approved drugs: Abacavir, emtricitabine, lamivudine; Tenofovir disoproxil fumarate, zidovudine
  2. Non-nucleoside reverse transcriptase inhibitors (NNRTI): this group of medicines also interferes with the replication of HIV by binding to the reverse transcriptase enzyme itself. Though NNRTIs do not get incorporated into the viral DNA, they inhibit the movement of protein domains of reverse transcriptase that are essential to carry out the DNA synthesis and stops the production of new virus particles in the infected cells. Names of FDA approved drugs-Efavirenz, etravirine, nevirapine, rilpivirine
  3. Protease inhibitors (PI): protease is a digestive enzyme that is needed in the replication of HIV to generate new virus particles. It breaks down proteins and enzymes in the infected cells, which can then go on to infect other cells. The protease inhibitors prevent this breakdown of proteins and therefore slows down the production of new virus particles. Name of FDA approved drugs: Atazanavir, darunavir, fosamprenavir, ritonavir, saquinavir, tipranavir
  4. Integrase inhibitor (II): Block the action of integrase, preventing the viral genome from inserting itself into the DNA of a host cell. Name of FDA approved drugs
  5. Chemokine Receptor Antagonist (CCR5 antagonists): block CCR5 coreceptors on the surface of certain immune cells that HIV needs to enter the cells.[11]Name: Maraviroc.[12]
  6. Fusion Inhibitor: Fusion inhibitors block HIV from entering the CD4 T lymphocyte (CD4 cells) of the immune system. Enfuvirtide.[11]
  7. Integrase Inhibitors: Block the action of integrase, preventing the viral genome from inserting itself into the DNA of a host cell.[3]These drugs are often referred to as Dolutegravir-based ART and has been shown to achieve high levels of viral suppression and reduced associated drug-resistance
  8. Post-Attachment Inhibitors: This class is a monoclonal antibody that binds CD4 inhibiting viral entry into the cell.[3]
  9. Pharmacokinetic Enhancers: Inhibition of human CYP3A protein, increasing plasma concentration of other anti-HIV drugs.[3]

Indication[edit | edit source]

Antiretroviral therapy should be started as soon as possible for:[3]

  • People who are at a risk of transmission after being exposed to HIV-positive infectious bodily fluids through skin puncture, damaged skin, or direct mucous membrane contact. The United States Public Health Service guidelines recommend starting prophylactics up to 72 hours post-exposure. The recommended regimen is emtricitabine plus tenofovir plus raltegravir for four weeks. A follow-up HIV testing at 6, 12, and 24 weeks should be done and if the test results are negative at 24 weeks, then they are considered not infectious.
  • A recent HIV infection is one that occurs up to 6 months after infection.
  • Pregnant women should begin treatment immediately to prevent mother-to-child transmission of HIV and protect the woman's health.

Adverse Effects[edit | edit source]

Adverse Events associated with Antiretroviral therapy are[13]:

  • Bone mineral density
  • Bone Marrow Suppression
  • Dyslipidaemia
  • Nausea and diarrhoea
  • Jaundice
  • Swelling, erythema, hematoma
  • Myopathy/Elevated Creatine Phosphokinase
  • Some long-term adverse effects of HIV medicines are hepatotoxicity, kidney failure, heart disease, diabetes/insulin resistance, hyperlipidaemia, osteoporosis, suicidal ideation/depression, and nervous system deficits.[3]
  • Neurotoxicity caused by certain anti-retroviral drugs (causes mitochondrial dysfunction). Nucleoside analogue-transcriptase inhibitors (NRTIs) (Zidovudine, didanosine, stavudine, lamivudine and abacavir) have be closely linked with severe peripheral neuropathy - Stavudine-based anti-retroviral drugs should be phased out for this reason[14]


These adverse effects may require supportive treatment, monitoring, and adjustment of the HIV regimen.

Also see Pain in People Living with HIV for more on ART and pain

Immune Reconstitution Inflammatory Syndrome[edit | edit source]

Immune reconstitution inflammatory syndrome (IRIS) is a state of hyperinflammatory response that can occur in the first 6 months of initiating ART in PLWH[15]. The exact mechanism of IRIS is not fully understood, but it is a dysregulated response to opportunistic infections. It usually occurs in the presence of latent infections which get attacked once the immune response and CD4 cell count is 'activated' by ART[15]. It is therefore crucial to ensure patients are free of infections (especially TB) when initiating ART. Read more about IRIS.

Implications for Physiotherapy[edit | edit source]

Mortality and morbidity have significantly declined with the availability of ART. It has reduced health service utilization and improved the quality of life among persons living with HIV. [16]However, the impact of living with HIV infection over many years, coupled with antiretroviral toxicities, has created a complex pattern of healthcare needs and recorded a high incidence of comorbidities in PLWH.

Various metabolic and neurological abnormalities can occur as side effects of ART - these include:

  • Effects on bone mineral density (BMD) and sarcopenia[17]. With associated weakness there is often an increased risk of falls and consequent increased risk of fractures - According to the study done in sub-Saharan Africa countries, physiotherapists should be more aware of the potential risk of falls and bone demineralization among PLWH and routine assessments should be carried out to detect fall risk in the older and younger PLWH.[18]
  • Cardiovascular diseases, and instability of fat metabolism, which can be addressed by physical rehabilitation.[19]
  • Neuropathic pain and musculoskeletal pain are common side effects of ART and can have negative effects on quality of life and function[20]. Rehabilitation can play an important role in managing pain and improving physical function

Research studies show that physical exercise (aerobic and resistance exercises) improves lean body mass, cardiovascular fitness[21], strength, changes mood state, increases BMD, reduces fracture risk, and invariably enhances the quality of life (QoL) in PLWHA supporting the role of physical exercise as a complementary alternative therapy in the management of chronic illnesses in PLWHA. [19]. Exercise has also been shown to improve mental health, which can improve ART adherence.

Physiotherapists often have the opportunity to develop a good therapeutic relationship with PLWH. This creates an ideal opportunity to promote ART adherence and address concerns/barriers to adherence.

See the the following pages for more physiotherapy management in PLWH:

Resources[edit | edit source]

WHO Updated reports HIV drug resistance

References[edit | edit source]

  1. World Health Organisation.HIV/AIDS Factsheet Accessed on 12/2/22
  2. 2.0 2.1 2.2 UNAIDS. Global HIV & AIDS statistics — Fact sheet. Accessed on 20/05/23
  3. 3.0 3.1 3.2 3.3 3.4 3.5 3.6 3.7 Kemnic TR, Gulick PG. HIV antiretroviral therapy. StatPearls [Internet]. 2020 Jun 23.
  4. 4.0 4.1 Pau AK, George JM. Antiretroviral therapy: current drugs. Infectious Disease Clinics. 2014 Sep 1;28(3):371-402.
  5. World Health Organization. HIV. Accessed on 20/05/23
  6. 6.0 6.1 6.2 6.3 6.4 Moosa A, Gengiah TN, Lewis L, Naidoo K. Long-term adherence to antiretroviral therapy in a South African adult patient cohort: a retrospective study. BMC infectious diseases. 2019 Dec;19(1):1-2.
  7. 7.0 7.1 7.2 Kim J, Lee E, Park BJ, Bang JH, Lee JY. Adherence to antiretroviral therapy and factors affecting low medication adherence among incident HIV-infected individuals during 2009–2016: a nationwide study. Scientific reports. 2018 Feb 16;8(1):3133.
  8. Marinda E, Zungu N, Chikovore J, Mthembu J, Magampa M, Mathentamo Q, Nwosu CO, Maoba P, Ramlagan S, Zuma K, Moyo S. Association between ART adherence and mental health: results from a national HIV sero-behavioural survey in South Africa. AIDS and Behavior. 2021 Oct 23:1-3.
  9. 9.0 9.1 9.2 9.3 WHO. Global HIV Programme. (Accessed 23 May 2023)
  10. 10.0 10.1 10.2 WHO. 2022 November 17. HIV Drug Resistance. (Accessed 24/05/2023)
  11. 11.0 11.1 HIVinfo.NIH. HIV Overview. FDA-Approved HIV Medicineshttps://hivinfo.nih.gov/understanding-hiv/fact-sheets/fda-approved-hiv-medicines Accessed on 12/2/22
  12. Eggleton JS, Nagalli S. Highly Active Antiretroviral Therapy (HAART). 2021 Apr 7. StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing. 2021.
  13. Clinical Info HIV.org. Guidelines for the Use of Antiretroviral Agents in Adults and Adolescents Living with HIV Accessed on 14/02/22
  14. Slawek DE. People living with HIV and the emerging field of chronic pain—what is known about epidemiology, etiology, and management. Current HIV/AIDS Reports. 2021 Oct;18(5):436-42.
  15. 15.0 15.1 Thapa S, Shrestha U. Immune Reconstitution Inflammatory Syndrome. StatPearls [Internet]. 2022 Jan 4.
  16. Banda GT. Common impairments and functional limitations of HIV sequelae that require physiotherapy rehabilitation in the medical wards at Queen Elizabeth Central Hospital, Malawi: A cross sectional study. Malawi Medical Journal. 2019 Sep 3;31(3):171-6.
  17. Bonato M, Turrini F, Galli L, Banfi G, Cinque P. The role of physical activity for the management of sarcopenia in people living with HIV. International Journal of Environmental Research and Public Health. 2020 Jan;17(4):1283.
  18. Charumbira MY, Berner K, Louw Q. Physiotherapists’ awareness of risk of bone demineralisation and falls in people living with HIV: a qualitative study. BMC health services research. 2021 Dec;21(1):1-9.
  19. 19.0 19.1 Ibeneme SC, Irem FO, Iloanusi NI, Ezuma AD, Ezenwankwo FE, Okere PC, Nnamani AO, Ezeofor SN, Dim NR, Fortwengel G. Impact of physical exercises on immune function, bone mineral density, and quality of life in people living with HIV/AIDS: a systematic review with meta-analysis. BMC infectious diseases. 2019 Dec;19(1):1-8.
  20. Zhu Z, Zhao R, Hu Y. Symptom clusters in people living with HIV: a systematic review. Journal of Pain and Symptom Management. 2019 Jul 1;58(1):115-33.
  21. O'Brien K, Nixon S, Tynan AM, Glazier R. Aerobic exercise interventions for adults living with HIV/AIDS. Cochrane Database of Systematic Reviews. 2010(8).