COVID-19: Difference between revisions

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''See also [[prevention of COVID-19 transmission in the healthcare setting]]; [[COVID-19 (peds)]]; and [[COVID-19 in pregnancy]].''
''See also [[prevention of COVID-19 transmission in the healthcare setting]]; [[COVID-19 (peds)]]; and [[COVID-19 in pregnancy]].''
==Background==
==Background==
*Caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2)
*See [[COVID-19: Epidemiology and pathophysiology]]
*See [[COVID-19: Epidemiology and pathophysiology]]
COVID-19 is caused by a novel coronavirus that started in Wuhan, China in late 2019 and declared Pandemic in early 2020. Coronavirus disease 2019 also known as COVID-19 is a highly contagious disease caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2).
The current situation of the COVID-19 epidemic has also created a demand for vaccines to flatten the curve of infectious disease. Community transmission of the virus has led biopharmaceutical and biotechnological companies to invest in the development of [https://www.emergenresearch.com/industry-report/vaccine-market Vaccines] for coronavirus.


{{Specific Coronavirus Sub-Types of Clinical Importance}}
{{Specific Coronavirus Sub-Types of Clinical Importance}}
{{COVID virology}}
{{COVID epidemiology}}


==Clinical Features==
==Clinical Features==
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===Common Complications===
===Common Complications===
COVID 19 has a bimodal distribution of disease burden. This initial classic presentation can be followed by delayed and devastating complications. These complications are thought to be the end result of the "cytokine storm" and can occur in an unpredictable fashion.
''The initial presentation can be followed by delayed and serious complications''
* Pulmonary
* Pulmonary
**Most common complications: [[pneumonia]], [[ARDS]] (average 8 days from onset, 20% of patients in China)
**Most common complications: [[pneumonia]], [[ARDS]] (average 8 days from onset, 20% of patients in China)
**"Happy Hypoxemia": many of these patients will be hypoxic without dyspnea
** Decompensation risk occurs during 2nd week of illness leading to [[respiratory failure]]
** Decompensation risk occurs during 2nd week of illness leading to [[respiratory failure]]
*Cardiac Complications<ref>Long B, Brady WJ, Koyfman A, Gottlieb M. Cardiovascular complications in COVID-19. Am J Emerg Med. 2020;38(7):1504-1507. doi:10.1016/j.ajem.2020.04.048</ref>
*Cardiac Complications<ref>Long B, Brady WJ, Koyfman A, Gottlieb M. Cardiovascular complications in COVID-19. Am J Emerg Med. 2020;38(7):1504-1507. doi:10.1016/j.ajem.2020.04.048</ref>
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====Labs====
====Labs====
Tests to consider
''Consider:''
*Chemistry  
*Chemistry
**BMP
**Mg
**Phos
*CBC w/diff
*CBC w/diff
**Lymphopenia - common (80%)<ref>Yang X, Yu Y, Xu J et al. Clinical course and outcomes of critically ill patients with SARS-CoV-2 pneumonia in Wuhan, China: a single-centered, retrospective, observational study. The Lancet Respiratory Medicine. 2020. doi:10.1016/s2213-2600(20)30079-5</ref>
**Lymphopenia - common (80%)<ref>Yang X, Yu Y, Xu J et al. Clinical course and outcomes of critically ill patients with SARS-CoV-2 pneumonia in Wuhan, China: a single-centered, retrospective, observational study. The Lancet Respiratory Medicine. 2020. doi:10.1016/s2213-2600(20)30079-5</ref>
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====Imaging====
====Imaging====
[[File:COVID one pager with links.jpg|thumb|]]
[[File:COVID one pager with links.jpg|thumb|CXR of COVID]]
[[File:COVID one pager with links 2.jpg|thumb|]]
[[File:COVID one pager with links 2.jpg|thumb|CT of COVID]]
[[File:covidcxr.jpg|thumb]]
[[File:covidcxr.jpg|thumb|CT of COVID]]
=====X-ray=====
=====X-ray=====
** Portable [[CXR]] preferred in PUI to prevent spread of infection
** Portable [[CXR]] preferred in PUI to prevent spread of infection
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=====CT=====
=====CT=====
* Many have normal imaging early on (so CDC DOES not recommend CT for diagnostic purposes at this time)
* Many have normal imaging early on (CDC does '''not''' recommend CT for diagnostic purposes)
** CT (86%) more sensitive than CXR (59%) for detecting GGOs
** CT (86%) more sensitive than CXR (59%) for detecting GGOs
** From the American College of Radiology (3/11/20): “Generally, the findings on chest imaging in COVID-19 are not specific, and overlap with other infections, including influenza, H1N1, SARS and MERS. Being in the midst of the current flu season with a much higher prevalence of influenza in the U.S. than COVID-19, further limits the specificity of CT.”
**Generally, the findings on chest imaging are not specific and overlap with other infections, including influenza, H1N1, SARS and MERS.<ref>From the American College of Radiology (3/11/20):</ref>


=====US=====
=====US=====
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====Disease Severity====
====Disease Severity====
* Some define moderate and severe acuity as follows:
''Some define moderate and severe acuity as follows''
** Moderate: SaO2 = 91-93% on RA, RR 20-24, HR 110-124 with wheezing, rales or an otherwise abnormal lung exam.
* Low: SaO2 > 93% on RA, RR < 20, and HR < 110
** High: SaO2 < 91%, RR > 24, HR > 124.
* Moderate: SaO2 = 91-93% on RA, RR 20-24, HR 110-124 with wheezing, rales, or an otherwise abnormal lung exam.
** If febrile, treat with [[acetaminophen]] and reassess acuity.
* High: SaO2 < 91%, RR > 24, HR > 124.
^ If febrile, treat with [[acetaminophen]] and reassess acuity.
 
===Prediction of Need for Intubation===
*ROX Index for intubation after high-flow nasal cannula (HFNC}
**Predicts HFNC failure/need for intubation
**https://www.mdcalc.com/rox-index-intubation-hfnc


==Management==
==Management==
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{{COVID PPE summary table}}
{{COVID PPE summary table}}


===Mild===
===Outpatients Not Requiring Admission===
*Isolate all patients suspected of having COVID-19
*Supportive care (no specific therapies indicated)
**[[Hospital preparedness: COVID-19]]
*[[Dexamethasone]] has '''not''' demonstrated benefit in patients not requiring oxygen and may be potentially harm
*Supportive care is mainstay of therapy for patients with mild viral symptoms
*Isolation precautions
*80% of patients do not require hospital admission
 
*Some define low acuity as SaO2 > 93% on RA, RR < 20, and HR < 110 (if febrile, re-check acuity determined after acetaminophen)
===Outpatients Requiring Home Oxygen Supplementation (if Available)===
*[[Dexamethasone]] has not demonstrated benefit in patients not requiring oxygen and may be potentially harm
*Consider [[dexamethasone]]
**Data is limited as to the benefits and risks (e.g. increases in unmonitored blood pressure and blood glucose)
*Isolation precautions
 
===Hospitalized Not Requiring Oxygen===
*No specific therapy is recommended at this time.
*[[Dexamethasone]] has '''not''' demonstrated benefit in patients not requiring oxygen and may be potentially harm
 
===Hospitalized Requiring Oxygen===
{{COVID Dex}}
{{COVID Remdesivir}}
 
====Pulmonary <ref>Alhazzani W, Møller M, Arabi Y et al. Surviving Sepsis Campaign: guidelines on the management of critically ill adults with Coronavirus Disease 2019 (COVID-19). Intensive Care Med. 2020. doi:10.1007/s00134-020-06022-5</ref>====
*Supplemental [[oxygen therapy]] if Sat<90%
**Target SPO2 92%-96%
*High-flow Nasal Cannula
**Some guidelines recommend HFNC over BIPAP/CPAP, in those that fail low-flow O2. <ref>Alhazzani W, Møller M, Arabi Y et al. Surviving Sepsis Campaign: guidelines on the management of critically ill adults with Coronavirus Disease 2019 (COVID-19). Intensive Care Med. 2020. doi:10.1007/s00134-020-06022-5</ref>
**Requires patient to be on airborne isolation.
*[[Non-Invasive Ventilation]] if no HFNC
*Consider awake proning to improve oxygenation
*Bronchodilators if bronchospasm present
**Use metered-dose inhaler (avoid nebulizers due to aerosolization)


===Moderate/Severe===
====Other====
*[[Dexamethasone]] 6mg Qday PO or IV
**Improves 28d mortality compared to placebo in patients requiring IMV (NNT = 8.5) and those patients requiring oxygen therapy (NNT = 29). 
*Pulmonary <ref>Alhazzani W, Møller M, Arabi Y et al. Surviving Sepsis Campaign: guidelines on the management of critically ill adults with Coronavirus Disease 2019 (COVID-19). Intensive Care Med. 2020. doi:10.1007/s00134-020-06022-5</ref>
**Supplemental O2 if Sat<90%
***Target SPO2 92%-96%
***[[Oxygen therapy]]
**"Happy Hypoxemia" Many of these patients will be hypoxic without dyspnea
**High-flow Nasal Cannula
***Some guidelines recommending HFNC over BIPAP/CPAP in those that fail low-flow O2. <ref>Alhazzani W, Møller M, Arabi Y et al. Surviving Sepsis Campaign: guidelines on the management of critically ill adults with Coronavirus Disease 2019 (COVID-19). Intensive Care Med. 2020. doi:10.1007/s00134-020-06022-5</ref>
***Requires patient to be on airborne isolation.
**[[Non-Invasive Ventilation]] if no HFNC
**Consider Awake proning to improve oxygenation
**Bronchodilators if bronchospasm present
***avoid nebulizers
***Use Metered-dose inhaler
*Infectious disease  
*Infectious disease  
**[[Acetaminophen]] for fever
**[[Acetaminophen]] for fever
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***1st line - [[Norepinepherine]] (alternative: [[epinephrine]])  
***1st line - [[Norepinepherine]] (alternative: [[epinephrine]])  
***2nd line - [[Vasopressin]]
***2nd line - [[Vasopressin]]
*Vascular
**Consider [[COVID-19:_Medication_therapy#Anticoagulation|anticoagulation]]


==[[Respiratory failure]]==
==[[Respiratory failure]]==
*[[NIPPV]] may increase the spread of viral particles via droplets, making early [[intubation]] the preferred airway management strategy in patients with respiratory distress/failure
**Using 2 viral filters attached to a "2-tube NIPPV circuit" in a negative pressure room may sufficiently prevent viral spread
{{COVID-19 intubation}}
{{COVID-19 intubation}}
{{Lung Protective Ventilator Settings}}
{{Lung Protective Ventilator Settings}}
*See also [[deterioration after intubation]]
*See also [[deterioration after intubation]]
{{COVID-19 Lung Phenotypes}}
{{COVID-19 Lung Phenotypes}}
==Aerosol-Generating Procedures==
''Due to higher risk of aerosolizing droplets; infection itself doesn’t seem to be spread via airborne route''
===Recommended Provider PPE===
''Contact (including eye protection) and airborne precautions''
*N95 mask or higher-level respirator (e.g. PAPR), plus eye protection, gloves, and gown<ref>https://www.cdc.gov/coronavirus/2019-ncov/infection-control/control-recommendations.html?CDC_AA_refVal=https%3A%2F%2Fwww.cdc.gov%2Fcoronavirus%2F2019-ncov%2Fhcp%2Finfection-control.html#take_precautions</ref>
**Consider head coverage: sterile disposable cap with gown or bunny suit
**Consider two pairs gloves, one under sleeves of gown and one over
**Consider shoe covers
**Consider buddy system for donning/doffing
***If using PAPR, then need pre-assigned RN outside the room to help decontaminate it by wiping it down with purple wipes before you take it off
*Negative pressure room required, if at all possible
*Limit personnel in room to only those essential for patient care
====Mask Use Technique====
* Mask donning (often incorrectly done):
** Wash hands BEFORE touching mask
** Grip mask by loops/bands/ties only
** Coloured portion typically faces outward
** Mold / pinch the stiff edge to the shape of your nose
** Pull the bottom of the mask over your mouth AND chin
** Make sure you are up to date with fit testing
* Mask removal:
** Wash hands BEFORE touching mask
** Only make contact with the loops/bands/ties. DON’T TOUCH THE MASK ITSELF!
===Aerosol-generating procedures list===
''Avoid these procedures when possible''
* [[Bag-valve-mask]] (BVM)
* CPAP/[[BiPAP]]
* [[Intubation]]
* Nebulizer administration (if possible, use MDI instead)
* Bronchoscopy
* Chest PT
*[[Oxygen therapy|High-Flow Nasal Cannula]]
{{COVID-19 intubation}}
{{COVID contraindicated therapies}}
{{COVID contraindicated therapies}}


==Disposition==
==Disposition==
*80% of patients do not require hospital admission
*Mild cases for persons under investigation for Covid-19 awaiting a positive test result can self quarantine at home in conjunction with the local Public Health Dept
*Mild cases for persons under investigation for Covid-19 awaiting a positive test result can self quarantine at home in conjunction with the local Public Health Dept
*"Silent hypoxemia" is now reported in patients with oxygen saturations ranging in the 80s-90s without respiratory distress. Hypoxia is not recommended as an absolute indication for emergent intubation.
*"Silent hypoxemia" is now reported in patients with oxygen saturations ranging in the 80s-90s without respiratory distress. Hypoxia is not recommended as an absolute indication for emergent intubation.
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*For pediatric patients see: [[COVID-19 in pediatrics]]
*For pediatric patients see: [[COVID-19 in pediatrics]]


===Covid-19 and [[STEMI]]===
===COVID-19 and [[STEMI]]===
*According to ACC consensus statement "During the [[COVID-19]] pandemic, PCI remains the standard of care for STEMI patients"
*According to ACC consensus statement "During the [[COVID-19]] pandemic, PCI remains the standard of care for STEMI patients"
*If [[thrombolytics]] are indicated options include:
*If [[thrombolytics]] are indicated options include:
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**Follow [[thrombolytics]] by 40u/kg [[heparin]] (max dose 4,000 units) IV and 600mg [[clopidogrel]] PO and [[ASA]] 325 mg PO
**Follow [[thrombolytics]] by 40u/kg [[heparin]] (max dose 4,000 units) IV and 600mg [[clopidogrel]] PO and [[ASA]] 325 mg PO


===Covid-19 and CPR===
===COVID-19 and CPR===
*Interim AHA Guidance
*Interim AHA Guidance
**Don all PPE prior to initiating CPR. CPR is aerosol generating.  
**Don all PPE prior to initiating CPR. CPR is aerosol generating.  
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**If using BVM then attach high efficiency particulate air (HEPA) filter
**If using BVM then attach high efficiency particulate air (HEPA) filter
**Use of mechanical compression device (e.g. LUCAS) is encouraged
**Use of mechanical compression device (e.g. LUCAS) is encouraged
* Use auto CPR device if available


==Prognosis==
==Prognosis==
{{COVID Risk Factors}}
{{COVID Risk Factors}}
===All-Comers===
* Case fatality rate (CFR) = 2-4% (from Hubei data)
** SARS ~ 10%
** MERS ~ 35%
** Seasonal flu ~ 0.1-0.2%
** 1918 Pandemic Influenza ~ 2-3%
===Relation to Age===
{| class="wikitable"
|+ style="font-size:11pt;" |Case fatality rates by country, age, and percent (%)
!Age
!80+
!70–79
!60–69
!50–59
!40–49
!30–39
!20–29
!10–19
!0–9
|-
!China as of 11 February<ref>The Novel Coronavirus Pneumonia Emergency Response Epidemiology Team (17 February 2020). "The Epidemiological Characteristics of an Outbreak of 2019 Novel Coronavirus Diseases (COVID-19) — China, 2020". China CDC Weekly. 2 (8): 113–122. Retrieved 18 March 2020.</ref>
|14.8
|8.0
|3.6
|1.3
|0.4
|0.2
|0.2
|0.2
|0.0
|-
!Italy as of 16 March<ref>Epidemia COVID-19. Aggiornamento nazionale 16 marzo 2020" (PDF) (in Italian). Rome: Istituto Superiore di Sanità. 16 March 2020. Retrieved 18 March 2020.</ref>
|19.2
|11.8
|3.2
|1.0
|0.3
|0.2
|0.0
|0.0
|0.0
|-
!South Korea as of 21 March<ref>"코로나바이러스감염증-19 국내 발생 현황 (3월 21일, 정례브리핑)". Korea Centers for Disease Control and Prevention. 21 March 2020. Retrieved 21 March 2020.</ref>
|10.24
|6.28
|1.52
|0.42
|0.08
|0.11
|0.0
|0.0
|0.0
|}


==See Also==
==See Also==
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*Literature review https://reacting.inserm.fr/literature-review/
*Literature review https://reacting.inserm.fr/literature-review/
*COVID related trials: https://covid.inato.com/analysis
*COVID related trials: https://covid.inato.com/analysis
==Video==
{{#widget:YouTube|id=exV5hEG62CY}}


==References==
==References==

Revision as of 14:14, 16 January 2021

See also prevention of COVID-19 transmission in the healthcare setting; COVID-19 (peds); and COVID-19 in pregnancy.

Background

Specific Coronavirus Sub-Types of Clinical Importance

Clinical Features

Initial Presentation

  • Many patients are asymptomatic
  • At onset of symptoms: fever, dry cough, myalgias, fatigue, shortness of breath
    • Fever and cough start early, shortness of breath noted about 9 days into illness
    • Fever not present in all adults
      • Only 1/2 of patients may have fever at time of admission[1]
      • less common in vulnerable populations
    • Less common: cough with sputum, sore throat, headache, congestion, GI symptoms, anosmia, altered mental status
Symptom[2] %
Fever 87.9
Dry cough 67.7
Fatigue 38.1
Sputum production 33.4
Shortness of breath 18.6
Myalgia or arthralgia 14.8
Sore throat 13.9
Headache 13.6
Chills 11.4
Nausea or vomiting 5.0
Nasal congestion 4.8
Diarrhea 3.7
Hemoptysis 0.9
Conjunctivitis 0.8

Common Complications

The initial presentation can be followed by delayed and serious complications

  • Pulmonary
    • Most common complications: pneumonia, ARDS (average 8 days from onset, 20% of patients in China)
    • "Happy Hypoxemia": many of these patients will be hypoxic without dyspnea
    • Decompensation risk occurs during 2nd week of illness leading to respiratory failure
  • Cardiac Complications[3]
    • Myocarditis,Acute Myocardial infarction, Dysrhythmias, cardiomyopathy, venous thromboembolism.
      • Vasodilatory shock reported in 67% of ICU admissions
      • Cardiomyopathy reported in 33% of ICU admissions
      • Mortality reported 67% of ICU admissions
  • Neurological Complications- thought to be related to the increased levels of interleukin (IL)-6, IL-12, IL-15, and tumor necrosis factor alpha (TNF-α)[4]
    • acute CVA, encephalitis, Guillain-Barré syndrome, acute necrotizing hemorrhagic encephalopathy, and hemophagocytic lymphohistiocytosis

Differential Diagnosis

Influenza-Like Illness

Causes of Pneumonia

Bacteria

Viral

Fungal

Parasitic

Evaluation

Consider minimal workup in well-appearing patients with mild disease

Workup

Viral Testing

Testing+Surveillance: COVID

  • RT-PCR (reverse transcriptase polymerase chain reaction) is most commonly used test for confirming cases
    • Sensitivity may be only 75%, but highly specific
    • Turnaround time may be several hours to days
  • Real time RT-PCR e.g. Cepheid
    • Rapid test with results in <1hr
  • Serologic testing for IgM/IgG is not widely available, but likely more sensitive
    • The presence of IgG with a negative RT-PCR likely confirms past exposure and some immunity
  • Test kit availability varies widely by region and institution

Labs

Consider:

  • Chemistry
  • CBC w/diff
    • Lymphopenia - common (80%)[5]
    • Thrombocytopenia - common but mild
      • <100 poor prognostic sign [6]
  • Coagulation studies
    • PT/PTT/INR - DIC possible
    • D-dimer, fibrinogen - markers of severity
  • LFTs - mild elevation of ALT/AST
  • Inflammatory Markers
    • CRP - Indicates disease severity [7], [8]
      • Negative points to non-infectious cause (CHF/ESRD)
    • Procalcitonin - normal/mild increased on admission. Normal procalcitonin makes bacterial superinfection less likely.
    • Ferritin
    • LDH
  • Troponin [9] - myocarditis
  • Sepsis labs
    • Lactate
    • Blood culture x2
  • Swabs - Co-infection has been reported as high as 7-20%
    • Flu swab
    • Respiratory viral panel
      • Note that BIOFIRE Respiratory Panel Corona Virus assay does NOT detect this COVID-19 subtype
  • Urine pregnancy test in reproductive-age women
  • Other labs to consider in patients that will be admitted:
    • HBV serologies, HCV antibody
    • Consider (as clinically indicated): PCP DFA, beta-d-glucan, urine legionella Ag, IL-6

Imaging

CXR of COVID
CT of COVID
CT of COVID
X-ray
    • Portable CXR preferred in PUI to prevent spread of infection
    • May be normal in early disease
    • Typical pattern is peripheral patchy ground glass opacities (GGO)
    • More opacities correlates with worse disease
    • GGOs may coalesce and appear as infiltrates
    • Not every PUI needs a chest X-ray. Patients who are more likely to need one include any moderate or high acuity patient, elderly, concerning chronic conditions, BMI > 40, high risk socioeconomic situations.
CT
  • Many have normal imaging early on (CDC does not recommend CT for diagnostic purposes)
    • CT (86%) more sensitive than CXR (59%) for detecting GGOs
    • Generally, the findings on chest imaging are not specific and overlap with other infections, including influenza, H1N1, SARS and MERS.[10]
US

Diagnosis

  • Typically confirmed by viral testing (see above)

Disease Severity

Some define moderate and severe acuity as follows

  • Low: SaO2 > 93% on RA, RR < 20, and HR < 110
  • Moderate: SaO2 = 91-93% on RA, RR 20-24, HR 110-124 with wheezing, rales, or an otherwise abnormal lung exam.
  • High: SaO2 < 91%, RR > 24, HR > 124.

^ If febrile, treat with acetaminophen and reassess acuity.

Prediction of Need for Intubation

Management

See prevention of COVID-19 transmission in the healthcare setting for PPE recommendations
See COVID-19: Medication therapy for investigational agents

COVID-19 PPE Summary Table

Example summary flow chart for determining PPE use














Contact Category Precations Room Type
General (all persons) Social distancing; meticulous hygiene; basic mask NA
Undifferentiated patients at risk (e.g. prior to evaluation or testing) Contact and droplet precautions, including eye protection Negative-pressure NOT required
Persons Under Investigation Contact and droplet precautions, including eye protection Negative-pressure NOT required
Aerosol-Generating Procedures Contact and airborne precautions, including eye protection Negative-pressure required

See prevention of COVID-19 transmission in the healthcare setting for full PPE recommendations

Outpatients Not Requiring Admission

  • Supportive care (no specific therapies indicated)
  • Dexamethasone has not demonstrated benefit in patients not requiring oxygen and may be potentially harm
  • Isolation precautions

Outpatients Requiring Home Oxygen Supplementation (if Available)

  • Consider dexamethasone
    • Data is limited as to the benefits and risks (e.g. increases in unmonitored blood pressure and blood glucose)
  • Isolation precautions

Hospitalized Not Requiring Oxygen

  • No specific therapy is recommended at this time.
  • Dexamethasone has not demonstrated benefit in patients not requiring oxygen and may be potentially harm

Hospitalized Requiring Oxygen

Dexamethasone

  • Dosage: 6mg Qday for 10 days
    • Dexamethasone improves 28d mortality compared to placebo in patients requiring IMV (NNT = 8.5) and those patients requiring oxygen therapy (NNT = 29).
    • There was no benefit to patients not requiring oxygenation support and potentially harm

Remdesivir

  • For 5 days or until the time of hospital discharge, whichever comes first.
  • Indication[11]
    • SpO2≤94% on ambient air (at sea level) or requiring supplemental oxygen via low flow device
    • There is insufficient data to recommend for or against use in patients using high flow oxygen, mechanical ventilation or ECMO (NIH COVID-19 Guidelines).
  • Contraindications[12]
    • Alanine transaminase or aspartate transaminase >5 times the upper limit of normal
    • Creatinine clearance of <30 mL/minute
      • Can be considered in patients with calculated creatinine clearance of <30 mL/minute and in patients receiving hemodialysis if the benefits outweigh the risk (limited data).
      • At this time, there are no recommended dose adjustments for this patient population.
    • Pediatric patients 3.5kg to 12 years of age; should not be given if ALT is >10 times normal.[13]

Pulmonary [14]

  • Supplemental oxygen therapy if Sat<90%
    • Target SPO2 92%-96%
  • High-flow Nasal Cannula
    • Some guidelines recommend HFNC over BIPAP/CPAP, in those that fail low-flow O2. [15]
    • Requires patient to be on airborne isolation.
  • Non-Invasive Ventilation if no HFNC
  • Consider awake proning to improve oxygenation
  • Bronchodilators if bronchospasm present
    • Use metered-dose inhaler (avoid nebulizers due to aerosolization)

Other

Respiratory failure

Intubation of Potential COVID-19 Patients

Aerosol-generating procedure: see this link for PPE recommendations and related precautions

  • Use checklist if available (see example: File:Harbor COVID Airway Management v3-16-20.pdf)
  • Use BVM with viral filter or avoid BVM altogether, if possible
  • Use RSI to prevent coughing gagging; consider higher dosing of paralytics.
  • Use video laryngoscopy to keep provider face further away from patient (afterwards, clean with grey wipes, observe 3 min wet time)

Lung Protective Mechanical Ventilation

Lung Protective Ventilator Settings[17] should be the default for all intubated patients, unless contraindicated. It has demonstrated mortality benefit for ARDS-like pulmonary conditions; limits barotrauma and decreases complications of high FiO2[18][19]

  1. Mode
    • Volume-assist control
  2. Tidal Volume
    • Start 6-8cc/kg predicted body weight[20]
      • Predicted/"ideal" body weight is used because a person's lung parenchyma does not increase in size as the person gains more weight.
    • Titrate down if plateau pressure >30 mmHg
  3. Inspiratory Flow Rate (comfort)
    • More comfortable if higher rather than lower
    • Start at 60-80 LPM
  4. Respiratory Rate (titrate for ventilation)
    • Average patient on ventilator requires 120mL/kg/min for eucapnia
    • Start 16-18 breaths/min
    • Maintain pH = 7.30-7.45
  5. FiO2/PEEP (titrate for oxygenation)
    • Move in tandem to achieve:
    • SpO2 BETWEEN 88-95%
    • PaO2 BETWEEN 55-80mmHg

COVID Lung Phenotypes and Their Management

Hypoxemic patients can be divided into two general phenotypes[21]

COVID L Lung Phenotype

  • Characterized by Low elastance (i.e., high compliance), Low ventilation to perfusion ratio, Low lung weight and Low recruitability
  • Often referred to as the “happy hypoxemic”
  • Normal lung volumes and low lung recruitability.
  • Hypoxemia may be due to loss of regulation of perfusion and loss of hypoxic vasoconstriction.
  • These patients can be damaged iatrogenically if you respond to their pulse ox with standard vent modes
  • Do poorly with low tidal volume (TV) and high PEEPs
  • Best managed with high FiO2 which allows you to limit the PEEP
  • Recommended initial vent settings:
    • 8 ml/kg TV, 100% FiO2
    • Increase the PEEP only if the patient is desaturating on a high FiO2.
    • Can turn into COVID H patients on the vent.

COVID H Lung Phenotype

  • Characterized by High elastance, High right-to-left shunt, High lung weight and High recruitability.
  • Increased permeability of the lung leads to edema, atelectasis, decreased gas volume, and decreased TV for a given inspiratory pressure.
  • High degree of lung recruitability.
  • 20 – 30% of patients fit ARDS criteria:
    • Hypoxemia
    • Bilateral infiltrates
    • Decreased the respiratory system compliance
    • Increased lung weight and potential for recruitment
  • The ARDS ladder applies only to this subset of COVID patients.

Contraindicated Therapies

  • NSAIDS
    • There is anecdotal evidence to suggest that NSAIDs could potentially harm patients infected with COVID-19.[22]
    • Some experts suggest avoiding NSAIDs altogether while recommending the use of paracetamol/acetaminophen instead. [23]
    • It is important to note that there is no strong evidence to suggest NSAIDs should be avoided in general in COVID-19 patients[24]
  • ACEi/ARBs
    • There is an increase in mortality in patients with both hypertension and COVID-19 infection. [25]
    • ACEi and ARBs, used in the treatment of hypertension, has been postulated to contribute to the increased mortality by upregulating membrane-bound angiotensin-converting enzyme 2 (ACE2) which allows COVID-19 entry into human cells. [26]
    • Currently, however, there is insufficient evidence to recommend against using ACEi and ARBs in patients with COVID-19. [27]
  • Nebulizers
    • Avoid nebulizers as they are generally ineffective and may aerosolize virus
    • Albuterol with spacer is safer, though probably ineffective unless co-occuring reactive airway disease
      • MDI equivalents: Albuterol or ipratropium
        • <20 kg or 5yrs old: 4-5 puffs with a spacer every 20 minutes. 4 breaths between puffs.
        • >20 kg or 5yrs old: 8-10 puffs with a spacer every 20 minutes. 4 breaths between puffs.

Disposition

  • 80% of patients do not require hospital admission
  • Mild cases for persons under investigation for Covid-19 awaiting a positive test result can self quarantine at home in conjunction with the local Public Health Dept
  • "Silent hypoxemia" is now reported in patients with oxygen saturations ranging in the 80s-90s without respiratory distress. Hypoxia is not recommended as an absolute indication for emergent intubation.
    • Note: symptoms may worsen over 2nd week of illness

Admission

  • Hospitalize: Respiratory distress/failure, multi-organ failure, rapid disease progression requiring escalating supportive care. Meets criteria for high acuity above. Moderate acuity with extra risk factors (pneumonia, immunosuppressed, elderly, comorbidities), complicated social situation, worsening symptoms > 10 days out.
    • PSI/PORT, MuLBSTA, and CURB65 scores have all been proposed criteria for admission and predicting outcomes.
  • May consider discontinuation of hospital isolation when:
    • Resolution of fever without anti-pyretic, resolution of symptoms, and negative COVID19 testing

Special Situations

COVID-19 and STEMI

  • According to ACC consensus statement "During the COVID-19 pandemic, PCI remains the standard of care for STEMI patients"
  • If thrombolytics are indicated options include:
    • Administer 10u Retavase (reteplase) IV bolus followed by a second bolus at 30 minute rather than PCI. OR
    • Tenecteplase (TNKase) 30 mg IV bolus
    • If Tenecteplase is not available, it is acceptable to administer a lower dose of alteplase (tPA) at 50 mg (8 mg bolus, followed by 42 mg infusion over 90 minutes).
    • Follow thrombolytics by 40u/kg heparin (max dose 4,000 units) IV and 600mg clopidogrel PO and ASA 325 mg PO

COVID-19 and CPR

  • Interim AHA Guidance
    • Don all PPE prior to initiating CPR. CPR is aerosol generating.
    • Intubate early, video laryngoscopy preferred
    • Pause chest compressions during intubation
    • If patient is on ventilator at time of arrest consider leaving patient on ventilator
      • Adjust ventilator to allow for asynchronous ventilation
    • If using BVM then attach high efficiency particulate air (HEPA) filter
    • Use of mechanical compression device (e.g. LUCAS) is encouraged
  • Use auto CPR device if available

Prognosis

COVID-19 Risk Factors for Severe Disease [28]

See VACO calculator

See Also

External Links

References

  1. 1. Zhou F, Yu T, Du R et al. Clinical course and risk factors for mortality of adult inpatients with COVID-19 in Wuhan, China: a retrospective cohort study. The Lancet. 2020;395(10229):1054-1062. doi:10.1016/s0140-6736(20)30566-3
  2. World Health Organization. "Report of the WHO-China Joint Mission on Coronavirus Disease 2019 (COVID-19)" (PDF): 11–12. Retrieved 5 March 2020.
  3. Long B, Brady WJ, Koyfman A, Gottlieb M. Cardiovascular complications in COVID-19. Am J Emerg Med. 2020;38(7):1504-1507. doi:10.1016/j.ajem.2020.04.048
  4. Bridwell R, Long B, Gottlieb M. Neurologic complications of COVID-19. Am J Emerg Med. 2020;38(7):1549.e3-1549.e7. doi:10.1016/j.ajem.2020.05.024
  5. Yang X, Yu Y, Xu J et al. Clinical course and outcomes of critically ill patients with SARS-CoV-2 pneumonia in Wuhan, China: a single-centered, retrospective, observational study. The Lancet Respiratory Medicine. 2020. doi:10.1016/s2213-2600(20)30079-5
  6. Ruan Q, Yang K, Wang W, Jiang L, Song J. Clinical predictors of mortality due to COVID-19 based on an analysis of data of 150 patients from Wuhan, China. Intensive Care Med. 2020. doi:10.1007/s00134-020-05991-x
  7. Ruan Q, Yang K, Wang W, Jiang L, Song J. Clinical predictors of mortality due to COVID-19 based on an analysis of data of 150 patients from Wuhan, China. Intensive Care Med. 2020. doi:10.1007/s00134-020-05991-x
  8. Young B, Ong S, Kalimuddin S et al. Epidemiologic Features and Clinical Course of Patients Infected With SARS-CoV-2 in Singapore. JAMA. 2020. doi:10.1001/jama.2020.3204
  9. https://www.covidprotocols.org
  10. From the American College of Radiology (3/11/20):
  11. https://www.covid19treatmentguidelines.nih.gov/antiviral-therapy/remdesivir/
  12. https://www.covid19treatmentguidelines.nih.gov/antiviral-therapy/remdesivir/
  13. https://www.fda.gov/media/137566/download
  14. Alhazzani W, Møller M, Arabi Y et al. Surviving Sepsis Campaign: guidelines on the management of critically ill adults with Coronavirus Disease 2019 (COVID-19). Intensive Care Med. 2020. doi:10.1007/s00134-020-06022-5
  15. Alhazzani W, Møller M, Arabi Y et al. Surviving Sepsis Campaign: guidelines on the management of critically ill adults with Coronavirus Disease 2019 (COVID-19). Intensive Care Med. 2020. doi:10.1007/s00134-020-06022-5
  16. Alhazzani W, Møller M, Arabi Y et al. Surviving Sepsis Campaign: guidelines on the management of critically ill adults with Coronavirus Disease 2019 (COVID-19). Intensive Care Med. 2020. doi:10.1007/s00134-020-06022-5
  17. The Acute Respiratory Distress Syndrome Network. Ventilation with lower tidal volumes as compared with traditional tidal volumes for acute lung injury and the acute respiratory distress syndrome. The Acute Respiratory Distress Syndrome Network. N Engl J Med. 2000;342(18):1301-1308.
  18. ARDSnet
  19. O'Brien J. Absorption Atelectasis: Incidence and Clinical Implications. AANA Journal. June 2013. Vol. 81, No. 3.
  20. Brower RG, et al. "Ventilation With Lower Tidal Volumes As Compared With Traditional Tidal Volumes For Acute Lung Injury And The Acute Respiratory Distress Syndrome". The New England Journal of Medicine. 2000. 342(18):1301-1308.
  21. Gattinoni L et al. Covid-19 pneumonia: different respiratory treatment for different phenotypes. Intensive Care Medicine. 2020. https://www.esicm.org/wp-content/uploads/2020/04/684_author-proof.pdf
  22. Willsher, Kim. “Anti-Inflammatories May Aggravate Covid-19, France Advises.” The Guardian, Guardian News and Media, 14 Mar. 2020, www.theguardian.com/world/2020/mar/14/anti-inflammatory-drugs-may-aggravate-coronavirus-infection.
  23. Day, Michael. “Covid-19: Ibuprofen Should Not Be Used for Managing Symptoms, Say Doctors and Scientists.” Bmj, 2020, p. m1086., doi:10.1136/bmj.m1086.
  24. Pergolizzi JV Jr, Varrassi G, Magnusson P, et al. COVID-19 and NSAIDS: A Narrative Review of Knowns and Unknowns. Pain Ther. 2020;9(2):353-358. doi:10.1007/s40122-020-00173-5
  25. Wu C, Chen X, Cai Y, et al. Risk factors associated with acute respiratory distress syndrome and death in patients with coronavirus disease 2019 pneumonia in Wuhan, China. JAMA Intern Med. Published online March 13, 2020. doi:10.1001/jamainternmed.2020.0994
  26. Fang, Lei, et al. “Are Patients with Hypertension and Diabetes Mellitus at Increased Risk for COVID-19 Infection?” The Lancet Respiratory Medicine, vol. 8, no. 4, 2020, doi:10.1016/s2213-2600(20)30116-8.
  27. Patel AB, Verma A. COVID-19 and Angiotensin-Converting Enzyme Inhibitors and Angiotensin Receptor Blockers: What Is the Evidence? JAMA. Published online March 24, 2020. doi:10.1001/jama.2020.4812
  28. Massachusetts General Hospital COVID-19 Treatment Guide Version 1.36 04/05/2020. https://www.massgeneral.org/assets/MGH/pdf/news/coronavirus/mass-general-COVID-19-treatment-guidance.pdf. Published 2020. Accessed April 8, 2020.