History

History should include: recurrent infections, unexplained weight loss, fevers, night sweats, poly‐substance or intravenous drug abuse, unprotected sex, men having sex with men, previous opportunistic infections, viral load, CD4 count, adherence to ART, and reason for previous ICU admission.

Physical examination

• In addition to a thorough general physical exam that is required for every patient admitted to ICU, focus on organ‐specific examination findings:
  
• Respiratory: cough with or without purulent sputum, tachypnea, rhonchi, rales, bronchial breath sounds, and rarely hemoptysis.
  
• Neurologic: focal neurologic deficit, seizures, neck stiffness, Kernig’s and Brudzinski’s sign, lethargy, coma.
  
• Liver disease: scleral icterus, melena, hematemesis, hematochezia, ascites, palmar erythema, spider angioma, caput medusa, gynecomastia, testicular atrophy, splenomegaly.
  
• Hematologic/oncologic:
  
  
  
  • Thrombocytopenic patient: petechiae, purpura, jaundice, ecchymosis, splenomegaly.
    
  • Kaposi’s sarcoma: blue‐purple lesions on face, nose, legs, and gingival and buccal mucosa.
    
  • Non‐Hodgkin’s lymphoma: rubbery and enlarged cervical, supraclavicular, axillary, and inguinal lymph nodes and splenomegaly.
  
  
• Metabolic: lipodystrophy, central obesity.

List of diagnostic tests

• Complete blood count:
  
  
  
  • Leukocytosis from bacterial infection such as pneumonia or urinary tract infection. Lack of leukocytosis in the setting of acute infection is not uncommon in advanced or newly diagnosed HIV with low CD4 counts.
    
  • Thrombocytopenia from HIV or autoimmune thrombocytopenia.
    
  • Anemia from gastrointestinal hemorrhage.
  
  
• Metabolic panel: elevated creatinine from acute kidney injury in sepsis, or HIV‐associated nephropathy. Hyperkalemia and hyponatremia in patients with suspected adrenal insufficiency.
  
• AST, ALT, and bilirubin: may be elevated due to viral hepatitis, ART, or chronic liver disease.
  
• Lactate: elevated in severe sepsis or septic shock, hypoperfusion from cardiogenic shock, hepatic failure, and antiretroviral medications.
  
• LDH: elevated in hemolytic anemia, malignancy such as Hodgkin’s or non‐Hodgkin’s lymphoma, and PCP.
  
• Arterial blood gas analysis: hypoxemia with low PaO₂/FiO₂ ratio <300 consistent with acute respiratory distress syndrome (ARDS), metabolic acidosis, and hypercapnia (e.g. in COPD).
  
• Blood and urine cultures: as indicated for infectious evaluation.
  
• Sputum specimen: bacterial and acid‐fast bacilli cultures; PCR for influenza, parainfluenza, coronavirus, rhinovirus, and adenovirus are helpful in establishing etiology of respiratory infection.
  
• Bronchoscopy with bronchoalveolar lavage (BAL) for PCP has a high sensitivity of 97% (Figure 48.1). BAL can also diagnose bacterial pneumonia or tuberculosis (acid‐fast bacilli) when sputum samples are inadequate. Bronchoscopic biopsy may be required for diagnosis of CMV pneumonia and also may increase the diagnostic yield for fungal or mycobacterial infections.
  
• Urine Legionella and pneumococcal antigen testing have high sensitivity and specificity compared with sputum cultures and remains positive after initiation of antibiotics.
  
• Lumbar puncture with cerebrospinal fluid (CSF) analysis: cell count with differential, gram stain, and cultures for bacterial meningitis, India ink stain for Cryptococcus, cryptococcal antigen, rapid plasma reagin test for syphilis, and HSV PCR and CMV PCR for meningoencephalitis. Increased opening pressure in crypotococcal meningitis indicates increased intracranial pressure.
  
• Hematologic/oncologic testing: peripheral blood smear to confirm thrombocytopenia and look for schistocytes in DIC and thrombotic thrombocytopenic purpura; d‐dimer, fibrin split products, fibrinogen, PT, PTT, and INR in suspected DIC from severe sepsis/septic shock. Coombs test and haptoglobin for hemolytic anemia. Peripheral blood flow cytometry and bone marrow biopsy to investigate leukemia and lymphoma.
  
• Hepatitis viral serologies: hepatitis A, B, or C virus infection.
  
• Toxicology screen: based on clinical presentation.

List of imaging techniques

• CXR posteroanterior and lateral views: may be normal in as many as 20–25% of patients with PCP. Dense or focal air space opacity in bacterial pneumonia, diffuse bilateral interstitial or alveolar opacities in PCP (Figure 48.2), and pneumothorax from pneumocystis or mechanical ventilation.
  
• CT scan of chest: allows evaluation for pneumonia, pneumothorax, or lung mass in suspected lung cancer. PCP results in characteristic ‘ground glass’ reticulonodular infiltrates (Figure 48.3). CT also provides evaluation of mediastinal and hilar lymph nodes in suspected malignancy and fungal and mycobacterial infections.
  
• CT scan head/MRI head: cerebral edema, meningeal enhancement in meningitis/encephalitis, intracranial hemorrhage, or stroke. Primary CNS lymphoma with surrounding edema and toxoplasmosis lesions are better demonstrated on MRI.
  
• EEG: Evaluation of non‐convulsive status epilepticus in altered mental status or coma.
  
• Ultrasound of liver: can diagnose cirrhosis and portal hypertension.
  
• CT scan and whole body PET scan: diagnosis and staging of cancer.

Continuing ART

• For patients already receiving ART, we generally continue therapy, unless toxicity from the medications is a cause or contributing factor to ICU admission.
  
• Concerns regarding continuation of ART in ICU involve unpredictable drug absorption from the GI tract due to altered splanchnic blood flow, use of H₂‐blockers or proton pump inhibitors, nasogastric feeding, and gastric suctioning which can all lead to sub‐therapeutic levels.
  
• There is a significant potential for adverse drug interactions.
  
• Poor functional reserve in critically ill patients increases vulnerability to adverse effects of drug reaction and immune reconstitution inflammatory syndrome (IRIS).

Drug interactions

• Antiretroviral agents are metabolized through cytochrome P450 and UGT1A1 enzymes that are responsible for numerous drug interactions.
  
• Close monitoring for adverse reactions is warranted when ART is administered with the medications listed in Table 48.2.
  
• Protease inhibitors interact with many classes of drugs and drug interaction should be checked before initiation of any new medication.

Initiation of ART

• Treatment with ART may potentially outweigh risks by improving immune function, thus reducing risk of opportunistic infections and HIV‐associated malignancy.
  
• Certain HIV‐associated conditions such as progressive multifocal leukoencephalopathy and HIV‐associated thrombotic thrombocytopenic purpura lack disease‐specific therapy, and treatment with ART is associated with improved outcomes.

Discontinuing ART

• When treatment is withheld, development of viral resistance and impact on future antiretroviral treatment must be considered.
  
• HIV resistance genotyping should be performed before restarting ART.

  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  

  Medication class	Drugs with ART interaction
  Cardiac agents	Dronedarone, Amiodarone, Ranolazine
  Lipid lowering agents	Lovastatin, Simvastatin
  Anti‐TB antimicrobials	Rifampin, Rifapentine
  Antiepileptic agents	Carbamazepime, Phenobarbital, Phenytoin
  Antihepatitis C antiretroviral agents	Boceprevir, Dasabuvir, Ombitasvir, Paritaprevir, Simeprevir
  Other agents	Sildenafil, Salmeterol, Ergot derivatives, Cisapride, Alfuzosin.

  
  
• Long‐term effect of interrupting ART in the non‐critical care setting is associated with HIV‐ and non‐HIV‐specific disease progression and mortality.
  
• Overall, the decision to start, continue, or stop ART is complex and involves consideration of a multitude of factors. Consultation with an expert in HIV/AIDS is recommended.