Elsevier LogoCOVID-19

    SevereCOVID-19(criticalcare)Snapshot

    Terminology

    CLINICAL CLARIFICATION

    • COVID-19 (coronavirus disease 2019) is a respiratory tract infection due to a novel coronavirus, SARS-CoV-21

    • 5% of diagnosed cases require critical care to manage severe manifestations and complications, with reported mortality rates among ICU patients with COVID-19 ranging from 39% to 72%  2

    • Most patients with severe COVID-19 experience a bimodal illness, with initial improvement before severe worsening and critical illness. This may be related to the immunologic role in the sepsis seen with COVID-19 ("cytokine storm")

    Diagnosis

    CLINICAL PRESENTATION

    • History ○In symptomatic patients, median time from symptom onset to pneumonia is 5 days; time to severe hypoxemia is 7 to 12 days 3 ○In patients with progression to severe disease, deterioration is typically rapid and characterized by progressive hypoxemia which may or may not be associated with symptoms of dyspnea 4, 5 ○Cardiac, vascular, and neurologic manifestations may accompany pulmonary disease, resulting in localized symptoms (eg, pain, including headache) as well as alterations in cognition and level of consciousness

    • Physical examination

    ○ Tachypnea, labored respirations ○ Silent or "happy" hypoxemia: COVID-19-related phenomena of asymptomatic hypoxemia ○ Fever, often exceeding 39 °C6

    ○Tachyarrhythmias 7

    ○ Signs/symptoms of arterial or deep vein thrombosis, including large-vessel stroke, as the presenting clinical event 8 ○ Positive neurologic findings, including hyperactive deep tendon reflexes, ankle clonus, and positive Babinski sign9

    ○Agitation, confusion, decreased responsiveness 9

    ○Skin changes, including purpura, petechiae, vesicular rashes; nonspecific erythematous exanthems 10, 11, 12, 13, 14 ○ Findings of shock, including hypotension, tachycardia, cool/clammy extremities, altered mental status

    CAUSES AND RISK FACTORS

    • Risk factors and/or associations ○ Age – Risk of severe disease increases with age 15, 2 ○ Sex – Male sex may be a risk factor for severe disease 16 ○ Other risk factors/associations – Medical conditions associated with increased risk for severe disease include chronic kidney disease, chronic obstructive pulmonary disease, diabetes type 2, cardiovascular disease, severe obesity, immunosuppression, malignancy 17 – Residents of nursing homes and long-term care facilities are at high risk for acquiring infection and severe disease 18, 19

    DIAGNOSTIC PROCEDURES

    • Primary diagnostic tools ○ Polymerase chain reaction tests are the standard for diagnosis; antigen testing has also received emergency use authorization in the United States 20, 21, 22, 23, 3, 24, 25

    • Laboratory ○ Routine blood work is not diagnostic, but a pattern of typical abnormalities has emerged, particularly in patients with severe illness: 26, 27 – Leukopenia and anemia 6, 27, 26 – Coagulopathy 26 – Elevated levels of lactate dehydrogenase and liver enzymes (ALT and AST) are common6, 26 –Serum procalcitonin levels are usually within reference range; elevated levels have been seen in patients with –secondary infection6 – Serum levels of acute phase reactants (eg, C-reactive protein, ferritin) are elevated in most patients, as is the erythrocyte sedimentation rate 26 – Cardiac biomarkers (troponin, B-type natriuretic peptides) may be elevated28 – Serum lactate levels are elevated in the setting of shock 3

    • Imaging ○ Chest imaging (eg, plain radiography, CT, ultrasonography) is abnormal with bilateral involvement in most patients; varies from ground glass opacities to consolidation in more severely ill patients 27, 26, 29, 30, 6 ○ CT appears to be more sensitive than plain radiographs and can distinguish progression of infection from heart failure due to myocarditis or from pulmonary embolism (both commonly associated with COVID-19) 31, 32, 33 ○ Bedside ultrasonography is widely used to monitor progression of pulmonary infiltrates, assess cardiac function and volume status, and detect deep vein or vascular catheter thrombosis 3, 34

    Treatment

    GOALS

    • Ensure adequate oxygenation and hemodynamic support and prevent complications

    DISPOSITION

    • Admission criteria ○ Criteria for ICU admission – Evidence of critical respiratory tract disease: tachypnea, severe respiratory distress, and inadequate oxygenation35 – – Presence of severe complications (eg, septic shock, acute respiratory distress syndrome)

    • Recommendations for specialist referral ○ All patients should be managed in consultation with public health authorities ○ Consultation of specialists, including infectious disease, pulmonology, and critical care, is recommended

    TREATMENT OPTIONS

    • Standard, contact, and (at least) droplet precautions should be implemented as soon as the diagnosis is suspected; airborne precautions are recommended if resources allow, especially for aerosol-generating procedures 36

    • Drug therapy

      ○ Remdesivir, an antiviral agent, is the only FDA-approved antiviral drug recommended specifically for treatment of hospitalized COVID-19 patients who require supplemental oxygen37, 38, 39, 40, 41 ○ Corticosteroid therapy is recommended for patients with COVID-19 who have refractory shock or respiratory insufficiency necessitating oxygen administration42 –Dexamethasone has shown efficacy in patients with severe disease and hypoxemia 32, 26, 43 □ Typical duration up to 10 days in patients with severe or critical COVID-1937, 41 □

      □ In the absence of dexamethasone, another glucocorticoid (eg, prednisone, methylprednisolone, hydrocortisone) may be used ○ Studies on the therapeutic efficacy of convalescent plasma are underway in various countries – Early administration (eg, before mechanical ventilation is required) appears more likely to be beneficial

      – FDA has produced a fact sheet for providers with labeling criteria, suggested dosing/infusion practices, and potential adverse effects 44 – ○ Immunomodulators for the mitigation of cytokine release syndrome ("cytokine storm") in severe acute respiratory distress syndrome and shock in COVID-19 are being investigated (eg, tocilizumab and sarilumab, both monoclonal antibodies against interleukin-6 receptor; baricitinib and other Janus kinase inhibitors) 41, 45, 46 – Baricitinib may be added to remdesivir in severely ill patients, under emergency use authorization45 – The Surviving Sepsis Campaign guideline, Infectious Disease Society of America, and NIH COVID-19 treatment guideline do not recommend tocilizumab at this time for routine use, although it may be considered in patients with progressive severe or critical COVID-19 who have elevated levels of markers of systemic inflammation38, 42, 47, 40, 41 –

      ○ Appropriate antimicrobial therapy should be administered until a diagnosis of COVID-19 is confirmed, in accordance with the severity of clinical disease, site of acquisition (hospital or community), epidemiologic risk factors, and local antimicrobial susceptibility patterns 41, 42

      ○ The NIH and Infectious Diseases Society of America recommend against hydroxychloroquine or chloroquine and against the combination of either of these drugs with azithromycin in hospitalized patients for the treatment of COVID-19 due to risk of QT prolongation and cardiac arrhythmias 38, 41, 48, 49, 37 ○ Published guidelines do not recommend therapeutic anticoagulation for hospitalized patients with COVID-19 (unless there is  documented thrombosis or other accepted indication) but do recommend usual prophylactic regimens in any hospitalized patient with COVID-19, including pregnant patients 50, 40, 51, 52, 37 ○ Pharmacologic (vasopressor) support may be necessary in patients with COVID-19 and evidence of septic shock whose hemodynamic parameters do not respond to initial fluid support and oxygen supplementation3, 40, 41, 42

    • Nondrug and supportive care ○ Oxygenation and ventilation  – High-flow nasal oxygen or noninvasive positive pressure ventilation has been used to achieve adequate oxygenation in some COVID-19 patients who develop hypoxemic respiratory failure despite conventional oxygen therapy 53 – For patients with persistent hypoxemia but without other indications for intubation, "awake prone positioning" can be attempted as a means to improve oxygenation40 – Mechanical ventilation may become necessary for patients in whom oxygenation targets cannot be met with less invasive measures or who cannot maintain the work of breathing (eg, PaO₂/FIO₂ ratio of less than 300 mm Hg) 3. Most published recommendations are based on the ARDSNet protocol 54 □ For patients with moderate to severe acute respiratory distress syndrome, prone positioning for 12 to 16 hours/day is recommended □ Lateral decubitus position for pregnant women □ Mechanical ventilation may be required for a prolonged period, necessitating tracheostomy ○ Fluid management – In patients with shock, administration of crystalloids (eg, lactated Ringer solution) is recommended; solutions such as hydroxyethyl starches, gelatins, dextrans, and albumin are not recommended  – Volume overload should be avoided as it may precipitate or exacerbate acute respiratory distress syndrome 55 – ○ Procedures – Extracorporeal membrane oxygenation □ General explanation □ Heart-lung bypass technique that allows transmembrane exchange of oxygen and carbon dioxide by circulation of the blood through a bypass machine; also supports arterial blood pressure 41, 37 □ Indication □ Refractory hypoxemia with or without hemodynamic compromise despite standard supportive measures

    Complications and Prognosis

    COMPLICATIONS

    • The most common ICU complications are: acute respiratory distress syndrome (60-70%), shock (30%), myocardial injury (20-30%), arrhythmias (44%), and acute kidney injury (10-30%) 3

    • Secondary bacterial and fungal infections and multiorgan failure are also commonly cited3

    • Thrombotic events, both venous and arterial, have become increasingly recognized3

    PROGNOSIS

    • Patients who require hospital admission often require prolonged inpatient stay (longer than 20 days) which may result in profound deconditioning26, 6

    • Laboratory markers associated with increased mortality include high D-dimer levels, high C-reactive protein levels, and low lymphocyte counts 3

    • Reported mortality rates in critically ill patients are high (40% or more) 3, 2

    SYNOPSIS

    URGENT ACTION

    • Patients with respiratory distress require prompt administration of supplemental oxygen; patients with respiratory failure require intubation and mechanical ventilation

    • Patients in shock require urgent fluid resuscitation and administration of empiric antimicrobial therapy to cover possible bacterial pathogens and/or influenza

    PITFALLS

    Knowledge of this disease is incomplete and evolving; moreover, coronaviruses are known to mutate and recombine often, presenting an ongoing challenge to our understanding and to clinical management

    SELECTED REFERENCES

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    2. CDC: COVID-19: Interim Clinical Guidance for Management of Patients with Confirmed Coronavirus Disease (COVID-19). CDC website. Updated February 16, 2021. Accessed April 29, 2021. https://www.cdc.gov/coronavirus/2019-ncov/hcp/clinical-guidance-management-patients.html 2

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