Definition

AIDS was first described in 1981 in the United States. HIV and, despite major therapeutic advances in recent years, the AIDS pandemic still pose a major threat to global health. It is estimated that more than 40 million people worldwide are infected with HIV, which is thought to have caused more than 20 million deaths to date. The infection continues to spread apace, with the most rapid increases observed in southern and central Africa and in South Asia. The predominant mode of HIV transmission is heterosexual sex, and women represent a high proportion of new infections, including in developed countries.

Increasing numbers of patients presenting for surgery are HIV-seropositive or have AIDS. Anesthesiologists should be familiar with this disease and be aware of the impact of HIV on anesthesia. An understanding of the pathogenesis of HIV and an awareness of the possible drug interactions occurring with HIV therapy may help guide the choice of anesthetic technique. The possibility of nosocomial transmission of HIV highlights the need for anesthesiologists to enforce rigorous infection control policies to protect themselves, other health care workers, and their patients. Antiretroviral therapy decreases the rate of disease progression, but there is no cure available, nor is a vaccine likely in the foreseeable future. With marked advances in treatment, the emphasis has shifted to early initiation of multidrug therapy regardless of immune status, and ongoing treatment to achieve HIV viral suppression throughout life.

Recognition

HIV belongs to the family Retroviridae and the genus Lentivirus. Members of this genus are cytopathic (cell damaging), have long latent periods, and run a chronic course. When cases of AIDS first appeared, its pathogenesis was frustratingly elusive because the disease does not appear immediately on infection with HIV. There is a variable period during which the patient remains healthy but is viremic.

Acute seroconversion illness occurs with a high viral load soon after infection. After several months, there is a gradual decrease in the viremia as the immune response occurs. The viral load is often at a steady state as the rate of viral production equals the rate of destruction. Up to 98% of T-helper lymphocytes (CD4 T cells) are located in lymph nodes, which are the major site of viral replication and T-cell destruction. There is a gradual involution of the lymph nodes, with a concomitant decrease in CD4 T cells and an increase in viral load as the inexorable onset of AIDS occurs ( Fig. 9.1 ).

Progression to acquired immunodeficiency syndrome (AIDS) of those infected with human immunodeficiency virus (HIV).

Note that highly active antiretroviral therapy (HAART) greatly delays development of clinical AIDS.

Before 1995, prospects for the treatment of HIV were gloomy. Subsequently, the situation changed dramatically as a result of four factors:

• 1.
  

  Improved understanding of the pathogenesis of HIV infection

  
  
• 2.
  

  Availability of surrogate markers of immune function and plasma viral burden

  
  
• 3.
  

  Development of new and more powerful drugs, such as the protease inhibitors and nonnucleoside reverse transcriptase inhibitors

  
  
• 4.
  

  Completion of several large clinical end-point trials that conclusively demonstrated that antiretroviral combinations significantly delayed the progression of HIV disease to AIDS and improved survival

In more recent years, advances have further transformed the treatment of HIV with more drugs, fewer side effects, less toxicity, and less pill burden. It has also been established that early initiation of therapy, regardless of the host’s CD4 T-cell count, renders the virus virtually undetectable, restores immune function, improves quality of life, prevents transmission, reduces HIV-associated morbidity, and lengthens survival. HIV has thus been rendered a less debilitating and ominous infection. Indeed there are real prospects for arresting the pandemic and potentially even eradicating HIV as a major infectious disease threat.

Risk Assessment

HIV is a virus found mainly in CD4 T cells, macrophages, and monocytes, and it requires a large infecting dose for transmission. HIV has been isolated from blood, cerebrospinal fluid, tears, saliva, semen, synovial fluid, pleural fluid, peritoneal fluid, pericardial fluid, amniotic fluid, vaginal secretions, and breast milk. Modes of transmission are through oral, rectal, and vaginal sexual intercourse, blood product transfusion, shared intravenous needles, occupational acquisition, and vertical transmission from mother to child. The screening of blood products for HIV antibodies has reduced the risk of transfusion-associated infection (less than 1 per 750,000 donor units); the exact risk is difficult to quantify, however. Antibody screening fails to detect the virus in the so-called window period before antibody formation, which lasts about 3 months. Nuclear amplification is an alternative technique that has been adopted and allows for early virus detection.

Implications

Antiretroviral Drug Therapy

Six major classes of antiretroviral agents are currently in use ( Table 9.1 ):

• 1.
  

  Nucleoside analog reverse transcriptase inhibitors (NRTIs, approved in 1987) bind to the evolving viral DNA and prevent the completion of reverse transcription.

  
  
• 2.
  

  Protease inhibitors (PIs, 1996) inhibit the HIV protease, which cleaves the polyprotein precursors that ultimately make up the core proteins of the mature virions. PIs bind specifically to the active cleavage site.

  
  
• 3.
  

  Nonnucleoside reverse transcriptase inhibitors (NNRTIs, 1998) interfere with the transcriptional activity of reverse transcriptase by binding to it directly, downstream of the active catalytic site.

  
  
• 4.
  

  The fusion inhibitor (2003) enfuvirtide interferes binds to the first heptad-repeat (HR1) in the viral envelope glycoprotein gp41 and prevents conformational changes necessary for the fusion of the viral and human CD4 T lymphocyte cellular membrane.

  
  
• 5.
  

  The CCR5 antagonist (2007) maraviroc binds to human CCR5 receptor on the cell membrane of the CD4 T lymphocyte, thus blocking the interaction of the HIV gp120 and the CCR5 receptor, but only for CCR5-tropic HIV. It does not block viral entry of CXCR4 tropic HIV, and therefore it is necessary to determine that the infecting HIV strain is CCR5-topic before using this agent.

  
  
• 6.
  

  Integrase (strand transfer) inhibitors (INSTIs, 2007) block the integrase enzyme from catalyzing the formation of covalent bonds between the host and viral DNA, which prevents the incorporation of viral DNA into the host chromosome.

TABLE 9.1

Major Classes of Antiretroviral Agents Currently in Use

Drug Name	Dosing	Common Side Effects
Nucleoside Analog Reverse Transcriptase Inhibitors
Zidovudine (AZT/ZDV)	Oral/IV (twice daily)	Marked toxicity, bone marrow suppression (neutropenia), GI upset, headache
Didanosine (DDI)	Oral	Peripheral neuropathy, pancreatitis, diarrhea
Zalcitabine (DDC)	Oral	Peripheral neuropathy, pancreatitis, oral ulcers
Stavudine (D4T)	Oral	Peripheral neuropathy
Lamivudine (3TC)	Oral	Anemia, GI upset
Abacavir	Oral	GI upset, potentially fatal acute hypersensitivity (associated with the presence of the HLA-B∗5701)
Tenofovir	Oral (once daily)	Renal dysfunction, osteomalacia
Emtricitabine	Oral	Headache, GI symptoms
Nonnucleoside Analog Reverse Transcriptase Inhibitors
Nevirapine	Oral	Rash, hepatitis, increased liver enzymes
Delavirdine	Oral	Rash, increased liver enzymes
Efavirenz	Oral (once daily on empty stomach)	Dizziness, rash, dysphoria, increased liver enzymes, psychotic disturbances
Rilpivirine	Oral (once daily with food)	Rash, hepatitis
Protease Inhibitors
Saquinavir	Oral	Diarrhea, raised transaminases, hyperlipidemia, cytochrome P-450 inhibition, arrhythmias
Indinavir	Oral + ≥1.5 L H 2 O/24 hr	Nephrolithiasis, hyperbilirubinemia, hyperlipidemia, lipodystrophy, cytochrome P-450 inhibition
Ritonavir	Oral	GI upset, circumoral paresthesia, hyperlipidemia, lipodystrophy, cytochrome P-450 inhibition
Nelfinavir	Oral	Diarrhea, hyperlipidemia, lipodystrophy, cytochrome P-450 inhibition
Atazanavir	Oral (requires acidic pH for absorption)	Dyslipidemia, insulin resistance, hyperglycemia, lipodystrophy, cytochrome P-450 inhibition, P-R interval prolongation
Darunavir	Oral (with food and boosted by ritonavir)	Dyslipidemia, insulin resistance, hyperglycemia, lipodystrophy, cytochrome P-450 inhibition, GI symptoms, hepatotoxicity
Fosamprenavir	Oral (boosted by ritonavir)	Dyslipidemia, insulin resistance, hyperglycemia, lipodystrophy, cytochrome P-450 inhibition, rash, GI symptoms
Lopinavir	Oral (once daily coformulated with ritonavir)	Dyslipidemia, insulin resistance, hyperglycemia, lipodystrophy, cytochrome P-450 inhibition, GI symptoms, arrhythmias, hepatotoxicity
Tipranavir	Oral (high pill burden and requires ritonavir boost)	Dyslipidemia, insulin resistance, hyperglycemia, lipodystrophy, cytochrome P-450 inhibition, p-glycoprotein induction, hepatotoxicity, rash, GI symptoms
CCR5 Antagonist
Maraviroc	Oral (twice daily)	Hepatotoxicity, upper respiratory tract infections, fever, orthostatic hypotension
Fusion Inhibitor
Enfuvirtide	Injectable (subcutaneous twice daily)	Pain, erythema, induration, nodules, ecchymoses, hypersensitivity
Integrase Inhibitors
Raltegravir	Oral (twice daily)	Headache, nausea, fatigue, rhabdomyolysis, myopathy
Elvitegravir	Oral (improved with food)	Only INSTI metabolized by CYP3A4 system, many drug interactions
Dolutegravir	Oral (once daily)	Headache, insomnia

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