Post on 13-Apr-2021
Respiratory Care in the North Amidst the Pandemic
Curtis Addison MD, FRCPC (Internal Medicine, Respirology)
NOSM COVID-19 Weekly Clinical Rounds
April 17, 2020
Conflicts of Interest
None.
Overview
1. The COVID-19 differential
2. Clinical Presentation
3. Imaging Findings
4. Respiratory Supportive Care
5. Specific Treatments
6. Non-coronavirus lung disease during a pandemic
Northern / Rural Considerations
Purist Pragmatist
Respiratory Symptoms
Dyspnea
Cough
SputumHemoptysis
Wheezing
Chest pain
Airway disease
Pneumonia
Pulmonary embolism
Lung cancer
Sarcoidosis
Tuberculosis
Interstitial Lung Disease
Pulmonary hypertension
Pleural disease
Neuromuscular weakness
Chest wall deformities
Atelectasis
Pulmonary edema
The COVID-19 Differential
Presenting SymptomsFever 99
CoughNonproductiveProductive
905927
Fatigue 70
Anorexia 40
Myalgias 35
Dyspnea 31
Sore throat 17
Diarrhea 10
Nausea 10
Dizziness 9
Headache 7
Vomiting 4
Abdominal Pain 2
Wang, D. JAMA. 2020;323(11): 1061-1069.
Presenting SymptomsSARS-CoV2(Jan 2020)1 H1N1(2009)2 Seasonal influenza A
(2003-2008)2
n 138 75 52
Fever 99 96 75
CoughNonproductiveProductive
905927
91 89
Fatigue 70
Anorexia 40
Myalgias 35
Dyspnea 31 65 71
Sore throat 17 31 39
“GI symptoms” 24 16
Diarrhea 10
Nausea 10
Dizziness 9
Headache 7
Vomiting 4
Abdominal Pain 2
1Wang, D. JAMA. 2020;323(11): 1061-1069.2Riquelme, R. ERJ. 2011 38: 106-111.
Labs
Parameter Value
WBC 6.2 (45% are normal)
Lymphocytes 0.8 (Low in 63%)
Albumin 31.4
TnI 0.0034 ng/mL
LDH 286 (high in 73%)
Procalcitonin 0.1 (high in 69%)
Wang, D. JAMA. 2020;323(11): 1061-1069.
Diagnostic Imaging
Finding Frequency
No ground glass or consolidation 22 %
Ground glass only 34 %
Consolidation and ground glass 41 %
Bilateral opacities 60 % (77% of patients with opacities)
Rounded opacities 54 %
Peripheral distribution 52 %
Bernheim, A. Radiology. 2020; 295(1): 1061-1069.
Infrequent or Absent Imaging Features
Finding Frequency
Consolidation without ground glass 2
Cavitation 0
Peribronchovascular distribution 0
Emphysema 2
Pulmonary Fibrosis 0
Nodules 0
Pleural Effusion 1
Lymphadenopathy 0
Bernheim, A. Radiology. 2020; 295(1): 1061-1069.
Case courtesy of Dr. Jack Ren, Radiopaediahttps://radiopaedia.org/cases/pulmonary-consolidation-with-airbronchograms
Case courtesy of Dr. Tom Foster, Radiopaediahttps://radiopaedia.org/articles/lobar-consolidation?lang=us
Case courtesy of Robin Smithuis, Otto van Delden and Cornelia Schaefer-Prokop, Radiology Assistanthttps://radiologyassistant.nl/chest/lung-hrct-basic-interpretation#high-attenuation-pattern-consolidation
Image from: Bernheim, A. Radiology. 2020; 295(1): 1061-1069.
Respiratory Supportive Care
HypoxemiaNasal cannulaFacemaskAir-entrainment mask (Venturi)Non-rebreather maskHigh flow nasal cannula (AIRVO)CPAPNon-invasive VentilationInvasive mechanical ventilation
Conditions for which there is strong evidence for Non-invasive Ventilation
1. Acute exacerbations of COPD
2. Cardiogenic Pulmonary Edema
3. Neuromuscular weakness
4. Prevention of post-extubation respiratory failure
5. Neuromuscular weakness
Contraindications to NIV
1. Need for emergent intubationa. Cardiac / respiratory arrestb. Inability to protect the airwayc. Severely impaired consciousnessd. Respiratory failure AND
Inability to cooperateInability to clear secretionsLife-threatening nonrespiratory organ failureFacial surgery, trauma, deformityHigh aspiration riskProlonged duration anticipatedRecent esophageal anastamosis
Respiratory Supportive Care
Bronchospasm
Bronchodilators: salbutamol, ipratropiumUse MDIs
May be given in-line during non-invasive ventilation
Treat underlying cause
Acute exacerbation of asthma – steroids
Acute exacerbation of COPD – steroids (+ antibiotics if purulent)
Aspiration – lifestyle modification, assess/treat esophageal disease
ARDS
- Lung protective ventilation
- Match PEEP to FiO2 (ARDSnet protocol)
- Neuromuscular blockade
- Proning
- Conservative fluid management / prevention of hypervolemia
- Treat complications
Respiratory Supportive Care
Specific Treatments
To date, no medications have demonstrated benefit in patient-oriented outcomes in COVID-19.
Investigational treatments:
• Hydroxychloroquine
• Azithromycin
• Remdesivir
• Lopinavir-ritonavir
• Tocilizumab
• Convalescent plasma
Purist
Treatment Mechanism Evidence
Hydroxychloroquine Reduced in-vitro activity1
Small RCT in mild COVID-19: slightly faster time to improvement in cough, fever and CXR.2
+ azithromycin Nonrandomized trial, reduced virus carriage at day 6.2
Remdesivir Nucleotide analogue (prevents viral replication)
in-vitro activity3
Animal studies in SARS and MERS-CoV4
Case series
Lopinavir-ritonavir Protease inhibitors (prevents viral replication)
RCT severe COVID-19, no change in time to clinical improvement, improved mortality trend5
Tocilizumab Anti-IL6Reduced “cytokine storm”
Case reports
Convalescent plasma Antibodies Case series
References for Investigational Treatments
1. Yao et al. In Vitro Antiviral Activity and Projection of Optimized Dosing Design of Hydroxychloroquine for the Treatment of Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2). Clin Infect Dis. 2020. doi: 10.1093/cid/ciaa237
2. Gautret et al. Hydroxychloroquine and azithromycin as a treatment of COVID-19: results of an open-label non-randomized clinical trial. Int J Antimicrob Agents. 2020. doi.org/10.1016/j.ijantimicag.2020.105949
3. Wang et al. Remdesivir and chloroquine effectively inhibit the recently emerged novel coronavirus (2019-nCoV) in vitro. Cell Res. 2020; 30(3) 269-271. doi: 10.1038/s41422-020-0282-0
4. Sheahan et al. Broad-spectrum antiviral GS-5734 inhibits both epidemic and zoonotic coronaviruses. Sci Transl Med. 2017; 9(396). doi: 10.1126/scitranslmed.aal3653
5. Cao et al. A Trial of Lopinavir–Ritonavir in Adults Hospitalized with Severe Covid-19. N Engl J Med. 2020. doi: 10.1056/NEJMoa2001282
Clinical Practice Guidelines
Infectious Diseases Society of America
- Recommends investigational treatments only in the context of a clinical trial1
Public Health Agency of Canada / Canadian Critical Care Society / Association of Medical Microbiology and Infectious Disease Canada
- “Use of investigational anti-COVID-19 therapeutics should be done under ethically approved, randomized, controlled trials.”2
Surviving Sepsis Campaign
- suggests against convalescent plasma, suggests against lopinavir/ritonavir, insufficient evidence to issue a recommendation on other antivirals, hydroxychloroquine/chloroquine, rIFNs, tocilizumab3
1Adarsh et al. Infectious Diseases Society of America Guidelines on the Treatment and Management of Patients with COVID-19. [Online]. https://www.idsociety.org/practice-guideline/covid-19-guideline-treatment-and-management/
2Fowler et al. Clinical Management of Patients with Moderate to Severe COVID-19 - Interim Guidance April 2, 2020. [Online]. https://canadiancriticalcare.org/resources/Documents/Clinical%20Care%20COVID-19%20Guidance%20FINAL%20April2%20ENGLISH(1).pdf
3Alhazzani et al. Surviving Sepsis Campaign: Guidelines on the management of critically ill adults with coronavirus disease 2019 (COVID-19). [Online]. https://www.esicm.org/wp-content/uploads/2020/03/SSC-COVID19-GUIDELINES.pdf.
Clinical Trials Authorized by Health Canada
https://www.canada.ca/en/health-canada/services/drugs-health-products/covid19-clinical-trials/list-authorized-trials.html
Strategies to reduce healthcare-related exposures
Patient well-being Infection control
Airway Disease
Pleural Disease
Asthma• Controlled?
• Trigger avoidance
• Medication use
Lougheed, M.D. Can Resp J. 2010, 17(1): 15-24.
COPD
• Dyspnea? (Standardized score)
• Exacerbations?
• Purulent sputum?
• Smoking cessation?
• Goals of Care and Resuscitation Status?
Bourbeau, J. Canadian Journal of Respiratory, Critical Care, and Sleep Medicine.
COPD
• Physical examination adds little value to chronic airway disease management over history
• Some specific findings clearly direct management
Finding Action
Low SpO2 Home oxygen
Clubbing CT-Chest
Lymphadenopathy CT-neck/chest
Volume overload Diuresis / cardiac evaluation
Exam Findings by History?
Personal Oximeter
Nail changes?
New lumps or bumps?
Volume overload
- swelling (describe pitting)
- weight gain
- orthopnea
Site of Care During a Pandemic
Home
Clinic
Emergency Department
Inpatient Ward
Natural History of Malignant Pleural Effusions
Progressive dyspnea
Presentation to Clinic
Presentation to ER
Thoracentesis
Relief
Indwelling Pleural Catheter
(IPC)
AdmissionChest tube
Talc pleurodesis
Images from: Locklin, Jasmine N MD; Taylor, Susan D DO; Thomson, Norman B MD; Keshavamurthy, Jayanth H. Trapped Lung. https://www.eurorad.org/case/13940.
RocketTM IPC
PleurXTM Drainage System
ASEPT® Pleural Drainage System
Aspira® Drainage System
Comparison of Pleural Disease Management StrategiesRecurrent Thoracentesis “Tube and Talc” Indwelling Pleural
Catheter
Dyspnea Managed Prevented Prevented
Location ER / Clinic Inpatient ward Clinic
Number of procedures Variable (e.g. 6 – 26 / year)
1 1
Complications1 Pneumothorax (2%)Hemothorax (1:1000-1:10 000)
PainHemothoraxAcute pneumonitisSIRS
InfectionHemothorax
Cost Effectiveness2
12-week survivalVariable $4303
$2693$4591
$4563
Quality of Life Significantly improved
Lung entrapment Transient benefit Ineffective Benefit
1Wilcox, M.E. JAMA 2014, 311(23):2422-2431.2Olfert, J. A. P. Respirology. 2016, 22(4).
Take-home messages
• The clinical presentation of COVID-19 is nonspecific• Maintain a high index of suspicion and use of PPE in acute respiratory
illness, but careful search for alternative or coexisting diagnoses is critical• There are no contraindications to non-invasive ventilation, rather
indications for emergent intubation• No specific COVID-19 treatments have demonstrated benefit in patient-
centred outcomes; such treatments should be used in the context of clinical trials
• Phone/videoconference for follow-up and optimization of chronic respiratory disease is likely to provide high-value care
• Outpatient interventions can reduce ER visits and hospitalizations, in turn reducing potential exposure to SARS-CoV2.