SARS-CoV-2: Difference between revisions
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*First cases detected Dec 2019 related to likely exposure in wet market in Wuhan, Hubei, China, and declared a pandemic in 2020 |
*First cases detected Dec 2019 related to likely exposure in wet market in Wuhan, Hubei, China, and declared a pandemic in 2020 |
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*Secondary household attack rate of 12-17% |
*Secondary household attack rate of 12-17% |
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*Possibility of animal reservoirs, including cats (possibly), dogs (unlikely), deer (probably) |
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**Difficult to prove transmission to humans |
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**Unlikely to contribute to household transmission, since human-to-human transmission is far more likely |
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===Risk Factors for Mortality=== |
===Risk Factors for Mortality=== |
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==Clinical Manifestations== |
==Clinical Manifestations== |
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*Incubation period [[Usual incubation period::4 to 5 days]] (range [[Incubation period::2 to 11 days]]), possibly as long as 14 days in some cases |
*Incubation period [[Usual incubation period::4 to 5 days]] (range [[Incubation period range::2 to 11 days]]), possibly as long as 14 days in some cases |
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*Main presenting symptoms were [[fever]] and [[cough]], followed by [[myalgia]], [[fatigue]], [[headache]], [[dyspnea]] |
*Main presenting symptoms were [[fever]] and [[cough]], followed by [[myalgia]], [[fatigue]], [[headache]], [[dyspnea]] |
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*Other symptoms include [[dyspnea]], [[rhinorrhea]], [[vomiting]], [[diarrhea]], [[anosmia]]/[[hyposmia]] |
*Other symptoms include [[dyspnea]], [[rhinorrhea]], [[vomiting]], [[diarrhea]], [[anosmia]]/[[hyposmia]] |
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*Mild: no oxygen |
*Mild: no oxygen |
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*Moderate: supplemental oxygen |
*Moderate: low-flow supplemental oxygen |
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*Severe: non-invasive mechanical ventilation |
*Severe: high-flow supplemental oxygen or non-invasive mechanical ventilation |
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*Critical: invasive mechanical ventilation |
*Critical: invasive mechanical ventilation |
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===Bacterial Coinfection=== |
===Bacterial Coinfection=== |
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*True coinfection is rare, detected in about 5% of patients[[CiteRef::lansbury2020co]] |
*True coinfection with bacterial pneumonia is rare, detected in about 5% of patients at presentation, and complicates about 8% of cases as a secondary infection[[CiteRef::lansbury2020co]] |
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**See https://www.tarrn.org/covid for a living systematic review |
**See https://www.tarrn.org/covid for a living systematic review |
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*Most commonly [[Mycoplasma pneumonia]], [[Pseudomonas aeruginosa]], and [[Haemophilus influenzae]] |
*Most commonly [[Mycoplasma pneumonia]], [[Pseudomonas aeruginosa]], and [[Haemophilus influenzae]] |
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*Also possibly need to consider [[COVID-19-associated pulmonary aspergillosis|Aspergillus fumigatus]] and even [[Pneumocystis jirovecii]] |
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*May be at risk of post-infectious or secondary bacterial infections |
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*Also possibly need to consider [[Aspergillus fumigatus]] and even [[Pneumocystis jirovecii]] |
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===Complications=== |
===Complications=== |
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**[[AKI]] (40%) |
**[[AKI]] (40%) |
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**[[Thrombosis]] (10%) |
**[[Thrombosis]] (10%) |
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== Investigations == |
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* Chest x-ray typically showed diffuse, bilateral mixed interstitial and airspace disease |
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* CT chest imaging may show:[[CiteRef::simpson2020ra]] |
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** Typical appearance:, classic for COVID-19 |
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*** Peripheral, bilateral ground-glass opacity with out without consolidation or visible intralobular lines (crazy paving) |
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*** Multifocal rounded GGO with or without consolidation or crazy paving |
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*** Reverse halo sign or other findings of organizing pneumonia (later finding) |
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** Indeterminate appearance: |
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*** Multifocal, diffuse, perihilar, or unilateral GGO with or without consolidation lacking a specific distribution and are non-rounded or non-peripheral |
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*** Few very small GGO with a non-rounded and non-peripheral distribution |
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** Atypical appearance, which suggests unlikely to be COVID-19: |
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*** Isolated lobar or segmental consolidation without GGO |
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*** Discrete small nodules (centrilobular, tree-in-bud) |
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*** Lung cavitation |
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*** Smooth interlobular septal thickening with pleural effusion |
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==Diagnosis== |
==Diagnosis== |
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*Rapid antigen testing from NP swab |
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**Sensitivity depends on circulating variant |
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*PCR from NP swab |
*PCR from NP swab |
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**Highest sensitivity within 5 days of symptom onset, with decreasing sensitivity as the disease enters the immune-mediated phase |
**Highest sensitivity within 5 days of symptom onset, with decreasing sensitivity as the disease enters the immune-mediated phase |
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==Management== |
==Management== |
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=== Mild Disease (No Supplemental Oxygen) === |
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*For patients no requiring supplemental oxygen, the focus is on supportive care |
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*For patients not requiring supplemental oxygen, the focus is on supportive care |
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*Patients who are high risk for progression to severe disease may benefit from prophylaxis with either 3 days of [[remdesivir]] or 5 days of [[Paxlovid]] |
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*Risk factors include age, vaccination status, and the following: |
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**[[Obesity]], with BMI ≥30 |
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**[[Diabetes]] |
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**Heart disease, [[hypertension]], or [[heart failure]] |
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**Chronic respiratory disease, including [[cystic fibrosis]] |
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**[[Cerebral palsy]] |
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**Intellectual disability |
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**[[Sickle cell disease]] |
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**[[Chronic kidney disease]] with eGFR ≤60 mL/min |
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**Liver disease with [[Child-Pugh classification|Child-Pugh]] class B or C |
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{| class="wikitable" |
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|+Risk for progression to severe disease |
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! rowspan="2" |Age (years) |
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! colspan="3" |Vaccinations |
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|- |
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!0 doses |
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!1 or 2 doses |
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!3+ doses |
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|- |
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|<20 |
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|higher risk if ≥3 risk factors |
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|standard risk |
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|standard risk |
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|- |
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|20 to 39 |
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|higher risk if ≥3 risk factors |
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|higher risk if ≥3 risk factors |
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|standard risk |
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|- |
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|40 to 69 |
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|higher risk if ≥1 risk factors |
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|higher risk if ≥3 risk factors |
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|standard risk |
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|- |
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|≥70 |
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|higher risk |
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|higher risk if ≥1 risk factors |
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|higher risk if ≥3 risk factors |
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|- |
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|Immunocompromised (regardless of age) |
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| colspan="3" |higher risk |
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|- |
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|pregnancy (regardless of age) |
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|higher risk |
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|standard risk |
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|standard risk |
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|} |
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* [[Remdesivir]] 200 mg IV once followed by 100 mg IV daily for 2 more days may be used within 7 days of symptom onset who have at least one risk factor for disease progression (age ≥60 years, obesity, or other medical conditions)[[CiteRef::gottlieb2021ea]] |
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*[[Paxlovid]] for 5 days may be considered for patients at high risk of progressing to severe disease, within 5 days of symptom onset |
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**[[Nirmatrelvir-ritonavir]] 300 mg / 100 mg (3 tablets total) twice daily for 5 days |
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**Needs dose adjustment in renal dysfunction |
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**Management of drug-drug interactions is available at [https://www.med.umich.edu/asp/pdf/outpatient_guidelines/Paxlovid-DDI.pdf University of Michigan] or [https://www.covid19-druginteractions.org/ University of Liverpool] |
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**[https://doi.org/10.47326/ocsat.2022.03.58.3.0 Ontario guidelines are available] |
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*Consider of monoclonal antibodies, depending on the variant |
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*Can consider [[fluvoxamine]] or inhaled [[budesonide]] |
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**Evidence for significant benefit is weak |
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**[[Fluvoxamine]] 100 mg p.o. twice daily for 15 days, started within 7 days of symptom onset |
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**[[Budesonide]] 800 mcg inhaled twice daily for 14 days |
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=== Moderate Disease (Low-Flow Supplemental Oxygen) === |
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*For patients requiring supplemental oxygen or with oxygen saturation less than 94%: |
*For patients requiring supplemental oxygen or with oxygen saturation less than 94%: |
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*[[Dexamethasone]] 6 mg PO/IV daily for 10 days, which has a mortality benefit |
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*[[Remdesivir]] 200 mg IV once on day one followed by 100 mg PO daily for 5-10 days, which has not been shown to have a mortality benefit |
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*[[Tocilizumab]] indicated if progressing despite [[dexamethasone]], still requiring oxygen and CRP ≥75 mg/L, per RECOVERY trial |
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*Avoid [[hydroxychloroquine]]/[[chloroquine]], [[lopinavir-ritonavir]] |
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**ARR for 28-day mortality of about 4% in unvaccinated patients |
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*[[Tocilizumab]] may be indicated if progressing despite usual care, still requiring oxygen and CRP ≥75 mg/L, per RECOVERY trial |
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**If tocilizumab is unavailable, then [[baricitinib]] 4 mg p.o. daily for 14 days or until hospital discharge |
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*Consider monoclonal antibodies, depending on the variant |
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*Consider therapeutic anticoagulation with [[LMWH]] for 14 days (stopped at discharge or on transfer to ICU) |
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**May decrease progression to invasive mechanical ventilation |
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=== Severe or Critical Disease (High-Flow or Mechanical Ventilation) === |
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===Anticoagulation=== |
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* Patients requiring ventilatory support, including high-flow nasal oxygen, non-invasive ventilation, invasive mechanical ventilation, or ECMO |
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*A multiplatform RCT combined ATTACC, REMAP-CAP, and ACTIV-4a looked at therapeutic anticoagulation (compared to prophylactic) |
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* [[Dexamethasone]] 6 mg p.o./IV daily for 10 days |
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**Therapeutic anticoagulation with heparin derivatives provided for up to 14 days |
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** |
** Can consider 12 mg dosing in patients unable to receive IL-6 inhibitors |
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* [[Tocilizumab]] for patients on [[dexamethasone]] |
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**Potentially harmful in severely or critically ill patients |
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* Do ''not'' treat with therapeutic anticoagulation, [[remdesivir]], monoclonal antibodies, or [[Paxlovid]] |
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=== Strongyloidiasis === |
=== Strongyloidiasis === |
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* Patients should be screened per CATMAT guidelines and treated if appropriate |
* Patients should be screened per CATMAT guidelines and treated if appropriate |
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* For steroid exposure, 10 days of dexamethasone +/- tocilizumab is considered substantial risk |
* For steroid exposure, 10 days of dexamethasone +/- tocilizumab is considered substantial risk |
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* See also [https://www.canada.ca/en/public-health/services/reports-publications/canada-communicable-disease-report-ccdr/monthly-issue/2021-47/issue-7-8-july-august-2021/covid-19-treating-strongyloides-ivermectin-patients.html Ivermectin treatment for ''Strongyloides'' infection in patients with COVID-19] from the CCDR |
* See also [https://www.canada.ca/en/public-health/services/reports-publications/canada-communicable-disease-report-ccdr/monthly-issue/2021-47/issue-7-8-july-august-2021/covid-19-treating-strongyloides-ivermectin-patients.html Ivermectin treatment for ''Strongyloides'' infection in patients with COVID-19] from the CCDR |
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=== Anti-SARS-CoV-2 Monoclonal Antibodies === |
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* Effectiveness varies by strain/lineage |
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* Refer to https://www.covid19treatmentguidelines.nih.gov/tables/variants-and-susceptibility-to-mabs/ for up-to-date table of effectiveness |
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=== Immunocompromised Patients With Persistent Infection === |
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* A few case studies |
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** [https://doi.org/10.1093/cid/ciac847 10.1093/cid/ciac847]: 60M CLL, got [[Paxlovid]] x5 days; recurred, got [[remdesivir]] x10 days; recurred, got betelovimab; was on concurrent high-dose steroids essentially throughout for organizing pneumonia; finally [[remdesivir]] and [[Paxlovid]] combination to 20 days, with negative NP swab and clinical resolution |
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** [https://doi.org/10.1093/ofid/ofac382 10.1093/ofid/ofac382]: 44 yo with [[GPA]] and [[hypogammaglobulinemia]] with 5 months of symptomatic infection treated with IVIG, convalescent plasma, and finally [[remdesivir]] to negative NP swab PCR, which took 30 days |
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** [https://doi.org/10.1093%2Finfdis%2Fjiaa446 10.1093/infdi/jiaa446]: 50M with CLL post-treatment had relapse twice after 10-day courses of [[remdesivir]], finally resolved after infusion of convalescent plasma |
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** [https://doi.org/10.1136/bcr-2021-244768 10.1136/bcr-2021-244768]: child with [[Primary immunodeficiency|PID]] eventually resolved with multiple courses of [[IVIG]] |
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** [https://doi.org/10.1093/infdis/jiaa666 10.1093/infdis/jiaa666]: lymphoma with 3 admissions over 4 months, treated with two courses of [[remdesivir]] and convlescent plasma |
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** [https://doi.org/10.1016/j.ijid.2020.12.050 10.1016/j.ijid.2020.12.050]: follicular lymphoma post treatment with 2 months of COVID, got [[remdesivir]] twice (second time 10 days) as part of trials, as well as IVIG |
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==Prevention== |
==Prevention== |
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==Further Reading== |
==Further Reading== |
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=== Review Articles === |
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*Pathophysiology, Transmission, Diagnosis, and Treatment of Coronavirus Disease 2019 (COVID-19): A Review. ''JAMA''. doi: [https://doi.org/10.1001/jama.2020.12839 10.1001/jama.2020.12839] |
*Pathophysiology, Transmission, Diagnosis, and Treatment of Coronavirus Disease 2019 (COVID-19): A Review. ''JAMA''. doi: [https://doi.org/10.1001/jama.2020.12839 10.1001/jama.2020.12839] |
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*[https://www.antimicrobialstewardship.com/covid-19 UHN-MSH Ontario Clinical Practice Guidelines] |
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=== Canadian Guidelines === |
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*[https://www.canada.ca/en/public-health/services/diseases/2019-novel-coronavirus-infection/clinical-management-covid-19.html PHAC Interim guidelines for the clinical management of patients with moderate to severe COVID-19] |
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*AMMI Canada Practice Point: Treatments for adults with COVID-19 in 2021–2022. ''JAMMI''. 2022;7(3):163-169. doi: [https://doi.org/10.3138/jammi-2022-08-08 10.3138/jammi-2022-08-08] |
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*[https://doi.org/10.47326/ocsat.cpg.2022.11.0 Ontario Science Table Clinical Practice Guideline Summary: Recommended Drugs and Biologics in Adult Patients with COVID-19] |
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*[http://www.bccdc.ca/health-professionals/clinical-resources/covid-19-care/clinical-care/treatments BC COVID-19 Therapeutics Committee (CTC) and COVID-19 Therapeutics Review and Advisory Working Group (CTRAWG) Clinical Practice Guidance] |
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[[Category:Coronaviridae]] |
[[Category:Coronaviridae]] |
Latest revision as of 19:22, 17 November 2022
Background
Microbiology
- Coronavirus related to SARS-CoV
- Virion consists of:
- Spike glycoprotein (S), which appears to be an important virulence factor
- Vaccines may target either the full protein or only its distal receptor binding domain
- Membrane protein (M)
- Nucleocapsid protein (N)
- Hemagglutinin esterase (He)
- Envelope protein (E)
- Spike glycoprotein (S), which appears to be an important virulence factor
Epidemiology
- Transmitted mostly by respiratory droplets, with some amount transmission via aerosols and little to no transmission via contact
- First cases detected Dec 2019 related to likely exposure in wet market in Wuhan, Hubei, China, and declared a pandemic in 2020
- Secondary household attack rate of 12-17%
- Possibility of animal reservoirs, including cats (possibly), dogs (unlikely), deer (probably)
- Difficult to prove transmission to humans
- Unlikely to contribute to household transmission, since human-to-human transmission is far more likely
Risk Factors for Mortality
- Greater age
- Male sex
- COPD
- Dyslipidemia
- Diabetes
Clinical Manifestations
- Incubation period 4 to 5 days (range 2 to 11 days), possibly as long as 14 days in some cases
- Main presenting symptoms were fever and cough, followed by myalgia, fatigue, headache, dyspnea
- Other symptoms include dyspnea, rhinorrhea, vomiting, diarrhea, anosmia/hyposmia
- Lymphopenia is common, as is hypoalbuminemia, elevated D-dimer, CRP, LDH, AST/ALT
- Viral load detectable before symptom onset and peaks around the time of symptom onset
Pregnancy
- Please refer to a living systematic review on the topic
- Slightly less reported fever and myalgias
- Slightly more ICU admissions and mechanical ventilation
- Risk factors included age, obesity, hypertension, and diabetes
- With regards to the fetus, there were more preterm deliveries (6%) and more needed NICU admission (25%)
Severity
- Mild: no oxygen
- Moderate: low-flow supplemental oxygen
- Severe: high-flow supplemental oxygen or non-invasive mechanical ventilation
- Critical: invasive mechanical ventilation
Bacterial Coinfection
- True coinfection with bacterial pneumonia is rare, detected in about 5% of patients at presentation, and complicates about 8% of cases as a secondary infection1
- See https://www.tarrn.org/covid for a living systematic review
- Most commonly Mycoplasma pneumonia, Pseudomonas aeruginosa, and Haemophilus influenzae
- Also possibly need to consider Aspergillus fumigatus and even Pneumocystis jirovecii
Complications
- In critically ill patients:
- ARDS (75%)
- AKI (40%)
- Thrombosis (10%)
Investigations
- Chest x-ray typically showed diffuse, bilateral mixed interstitial and airspace disease
- CT chest imaging may show:2
- Typical appearance:, classic for COVID-19
- Peripheral, bilateral ground-glass opacity with out without consolidation or visible intralobular lines (crazy paving)
- Multifocal rounded GGO with or without consolidation or crazy paving
- Reverse halo sign or other findings of organizing pneumonia (later finding)
- Indeterminate appearance:
- Multifocal, diffuse, perihilar, or unilateral GGO with or without consolidation lacking a specific distribution and are non-rounded or non-peripheral
- Few very small GGO with a non-rounded and non-peripheral distribution
- Atypical appearance, which suggests unlikely to be COVID-19:
- Isolated lobar or segmental consolidation without GGO
- Discrete small nodules (centrilobular, tree-in-bud)
- Lung cavitation
- Smooth interlobular septal thickening with pleural effusion
- Typical appearance:, classic for COVID-19
Diagnosis
- Rapid antigen testing from NP swab
- Sensitivity depends on circulating variant
- PCR from NP swab
- Highest sensitivity within 5 days of symptom onset, with decreasing sensitivity as the disease enters the immune-mediated phase
- May be positive long after no longer infectious
- Diagnostic accuracy of PCR by sample site (below) has a lot of heterogeneity among the studies
Sensitivity | Specificity | |
---|---|---|
Upper Respiratory Samples | ||
Oral | 56 | 99 |
Nasal | 76 | 100 |
NP | 97 | 100 |
Nasal | 95 | 100 |
Saliva | 85 | 100 |
Mid-turbinate | 100 | 100 |
Upper Versus Lower Tract | ||
Upper respiratory tract | 57 | 100 |
Lower respiratory tract | 81 | 100 |
Single Versus Repeat Testing | ||
Single test | 71 | 100 |
Repeat testing | 100 | 100 |
- Serology (IgM and IgG)
- Total antibodies have poor sensitivity (51%) in first week, and increases to about 90% by week 3
Management
Mild Disease (No Supplemental Oxygen)
- For patients not requiring supplemental oxygen, the focus is on supportive care
- Patients who are high risk for progression to severe disease may benefit from prophylaxis with either 3 days of remdesivir or 5 days of Paxlovid
- Risk factors include age, vaccination status, and the following:
- Obesity, with BMI ≥30
- Diabetes
- Heart disease, hypertension, or heart failure
- Chronic respiratory disease, including cystic fibrosis
- Cerebral palsy
- Intellectual disability
- Sickle cell disease
- Chronic kidney disease with eGFR ≤60 mL/min
- Liver disease with Child-Pugh class B or C
Age (years) | Vaccinations | ||
---|---|---|---|
0 doses | 1 or 2 doses | 3+ doses | |
<20 | higher risk if ≥3 risk factors | standard risk | standard risk |
20 to 39 | higher risk if ≥3 risk factors | higher risk if ≥3 risk factors | standard risk |
40 to 69 | higher risk if ≥1 risk factors | higher risk if ≥3 risk factors | standard risk |
≥70 | higher risk | higher risk if ≥1 risk factors | higher risk if ≥3 risk factors |
Immunocompromised (regardless of age) | higher risk | ||
pregnancy (regardless of age) | higher risk | standard risk | standard risk |
- Remdesivir 200 mg IV once followed by 100 mg IV daily for 2 more days may be used within 7 days of symptom onset who have at least one risk factor for disease progression (age ≥60 years, obesity, or other medical conditions)3
- Paxlovid for 5 days may be considered for patients at high risk of progressing to severe disease, within 5 days of symptom onset
- Nirmatrelvir-ritonavir 300 mg / 100 mg (3 tablets total) twice daily for 5 days
- Needs dose adjustment in renal dysfunction
- Management of drug-drug interactions is available at University of Michigan or University of Liverpool
- Ontario guidelines are available
- Consider of monoclonal antibodies, depending on the variant
- Can consider fluvoxamine or inhaled budesonide
- Evidence for significant benefit is weak
- Fluvoxamine 100 mg p.o. twice daily for 15 days, started within 7 days of symptom onset
- Budesonide 800 mcg inhaled twice daily for 14 days
Moderate Disease (Low-Flow Supplemental Oxygen)
- For patients requiring supplemental oxygen or with oxygen saturation less than 94%:
- Dexamethasone 6 mg PO/IV daily for 10 days, which has a mortality benefit
- Remdesivir 200 mg IV once on day one followed by 100 mg PO daily for 5-10 days, which has not been shown to have a mortality benefit
- Tocilizumab indicated if progressing despite dexamethasone, still requiring oxygen and CRP ≥75 mg/L, per RECOVERY trial
- ARR for 28-day mortality of about 4% in unvaccinated patients
- If tocilizumab is unavailable, then baricitinib 4 mg p.o. daily for 14 days or until hospital discharge
- Consider monoclonal antibodies, depending on the variant
- Consider therapeutic anticoagulation with LMWH for 14 days (stopped at discharge or on transfer to ICU)
- May decrease progression to invasive mechanical ventilation
Severe or Critical Disease (High-Flow or Mechanical Ventilation)
- Patients requiring ventilatory support, including high-flow nasal oxygen, non-invasive ventilation, invasive mechanical ventilation, or ECMO
- Dexamethasone 6 mg p.o./IV daily for 10 days
- Can consider 12 mg dosing in patients unable to receive IL-6 inhibitors
- Tocilizumab for patients on dexamethasone
- Do not treat with therapeutic anticoagulation, remdesivir, monoclonal antibodies, or Paxlovid
Strongyloidiasis
- Patients should be screened per CATMAT guidelines and treated if appropriate
- For steroid exposure, 10 days of dexamethasone +/- tocilizumab is considered substantial risk
- See also Ivermectin treatment for Strongyloides infection in patients with COVID-19 from the CCDR
Anti-SARS-CoV-2 Monoclonal Antibodies
- Effectiveness varies by strain/lineage
- Refer to https://www.covid19treatmentguidelines.nih.gov/tables/variants-and-susceptibility-to-mabs/ for up-to-date table of effectiveness
Immunocompromised Patients With Persistent Infection
- A few case studies
- 10.1093/cid/ciac847: 60M CLL, got Paxlovid x5 days; recurred, got remdesivir x10 days; recurred, got betelovimab; was on concurrent high-dose steroids essentially throughout for organizing pneumonia; finally remdesivir and Paxlovid combination to 20 days, with negative NP swab and clinical resolution
- 10.1093/ofid/ofac382: 44 yo with GPA and hypogammaglobulinemia with 5 months of symptomatic infection treated with IVIG, convalescent plasma, and finally remdesivir to negative NP swab PCR, which took 30 days
- 10.1093/infdi/jiaa446: 50M with CLL post-treatment had relapse twice after 10-day courses of remdesivir, finally resolved after infusion of convalescent plasma
- 10.1136/bcr-2021-244768: child with PID eventually resolved with multiple courses of IVIG
- 10.1093/infdis/jiaa666: lymphoma with 3 admissions over 4 months, treated with two courses of remdesivir and convlescent plasma
- 10.1016/j.ijid.2020.12.050: follicular lymphoma post treatment with 2 months of COVID, got remdesivir twice (second time 10 days) as part of trials, as well as IVIG
Prevention
Infection Prevention and Control
Healthcare Workers
- Awaiting results
- If symptomatic, HCWs should be off work
- If asymptomatic, HCWs may return to work while awaiting results, depending on the reason for testing and the staffing needs
- Positive but asymptomatic: in exceptional circumstances, may return to work early
Clearance
- Non-test based (preferred)
- Asymptomatic: isolate for 10 days from swab
- Mild to moderate symptoms in immunocompetent person: 10 days from onset of symptoms, as long as afebrile (without antipyretics) and clinically improving
- Severe (i.e. ICU-level care) or immunocompromised: 20 days from onset of symptoms, as long as afebrile (without antipyretics) and clinically improving
- Immunocompromise includes chemotherapy, untreated HIV with CD4 <200, primary immunodeficiency, prednisone 20 mg/day for 14 days, and other immunosuppressing medication
- Test based (alternative): 2 negative swabs at least 24 hours apart (if still positive, repeat in 3 to 4 days), as long as afebrile and clinically improving
Further Reading
Review Articles
- Pathophysiology, Transmission, Diagnosis, and Treatment of Coronavirus Disease 2019 (COVID-19): A Review. JAMA. doi: 10.1001/jama.2020.12839
Canadian Guidelines
- AMMI Canada Practice Point: Treatments for adults with COVID-19 in 2021–2022. JAMMI. 2022;7(3):163-169. doi: 10.3138/jammi-2022-08-08
- Ontario Science Table Clinical Practice Guideline Summary: Recommended Drugs and Biologics in Adult Patients with COVID-19
- BC COVID-19 Therapeutics Committee (CTC) and COVID-19 Therapeutics Review and Advisory Working Group (CTRAWG) Clinical Practice Guidance
References
- ^ Louise Lansbury, Benjamin Lim, Vadsala Baskaran, Wei Shen Lim. Co-infections in people with COVID-19: a systematic review and meta-analysis. Journal of Infection. 2020;81(2):266-275. doi:10.1016/j.jinf.2020.05.046.