COVID-19-associated hypoxemia

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Diagnostic Study of Choice

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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Rija Gul, M.B.B.S.

Synonyms and keywords:

Overview

Historical Perspective

  • In December 2019, novel coronavirus outbreak occurred in Wuhan, China[1]
  • On 11th March 2020 it was declared as Pandemic by WHO.

Classification

There is no established system for classification of COVID-19-associated hypoxemia.

Pathophysiology

  • COVID-19 is caused by the novel Coronavirus. It binds to ACE-2 receptors in the lower respiratory tract which causes pulmonary manifestations.
  • The virus causes alveolar injury which stimulates an inflammation response in the host tissue
  • Mononuclear inflammatory cells are recruited at the site of injury which release cytokines e.g Interleukin-6 and activate procoagulants
  • As a result of this insult the alveolar epithelium and capillary endothelium are damaged
  • Alveoli collapse due to fluid accumulation and loss of surfactant
  • Simultaneously, the activation of Coagulation cascade by cytokines leads to widespread thrombosis in multiple organs of the body, including lungs.
  • It has also been suggested that there is down-regulation of the Hemostatic Oxygen Sensing system of the body (e.g Carotid bodies) through alteration of expression of mitochondrial proteins by the Coronavirus, occurring at a cellular level.[2]
  • The above mechanism supports the lack of dyspnea in proportion to the severity of hypoxemia, on clinical presentation, a phenomenon known as "happy hypoxemia".[3]

Mechanisms of Hypoxemia in COVID-19

  • Hypoxemia in COVID-19 is marked by an increased A-a gradient.

Ventilation Perfusion Mismatch

  • If hypoxemia is not addressed early, the patient increases inspiratory efforts which exerts more pressure on the tissues, causing a rise in the transpulmonary pressure.
  • These changes in lung dynamics promote capillary leakage which further increases alveolar exudates and the lungs become poorly compliant.
  • The ventilation perfusion mismatch therefore progresses from a high Va/Q ratio to low Va/Q ratio.
  • Pulmonary vascular thrombi also contribute to Va/Q mismatch.
  • Both acute pulmonary embolism and small vessel thrombosis were seen on autopsy.
  • This increases the alveolar dead space and the Va/Q ratio.

Intrapulmonary Shunt

  • Blood is shunted from the poorly ventilated alveoli to well aerated lung regions.
  • Intra cardiac shunts can be detected in 20% of patients being treated for ARDS. Patent foramen ovale opens due to positive pressure ventilation.[5]
  • It can be differentiated from Va/Q mismatch due to lack of response to supplemental oxygen.

Diffusion Impairment

  • Persistent hypoxemia has been seen in recovered patients, due to postviral fibrosis.[6]
  • A study was conducted in China to measure DLCO of discharged patients. The researchers concluded that the decrease in DLCO correlated with the severity of pneumonia on admission.[7]

Causes

  • Acute Respiratory Distress Syndrome
  • Microvascular Thrombi[8]
  • COVID-19 Pneumonia

Differentiating COVID-19-associated encephalopathy from other Diseases

[Disease name] must be differentiated from other diseases that cause [clinical feature 1], [clinical feature 2], and [clinical feature 3], such as [differential dx1], [differential dx2], and [differential dx3].

OR

[Disease name] must be differentiated from [[differential dx1], [differential dx2], and [differential dx3].

Epidemiology and Demographics

  • COVID-19 is seen more commonly in men.
  • 80% of patients with Coronavirus disease develop a respiratory infection.[9]
  • According to a study conducted in Hubei, China, 5%-25% of patients admitted in hospital for COVID-19 needed ICU admission. Of the patients admitted in ICU, 60%-70% developed ARDS.[10]
  • There is no geographical association of hypoxemia in COVID-19.

Risk Factors

  • According to a study conducted in Wuhan, China, the following risk factors were identified in patients presenting with hypoxemia (Spo2< 90%):[11]
    • Older age (median - 60 years)
    • Male sex
    • Hypertension
    • Dyspnea on clinical presentation

Natural History, Complications, and Prognosis

Diagnosis

Diagnostic Study of Choice

COVID -19 associated hypoxemia can be established by the following investigations

  • Reverse Transcriptase- Polymerase Chain Reaction from nasal or throat swab sample positive for COVID-19
  • Or, Chest Tomography images showing peripheral and bilateral ground glass opacities

along with,

  • Arterial Blood gas showing Pa02(Partial Pressure of oxygen) below 60mmHg
  • Oxygen Saturation below 90% on Pulse oximeter

History and Symptoms

Dry cough is the most common symptom of COVID-19 infection. In patients presenting with hypoxemia the respiratory rate is high.

Physical Examination

Patients with [disease name] usually appear [general appearance]. Physical examination of patients with [disease name] is usually remarkable for [finding 1], [finding 2], and [finding 3].

OR

Common physical examination findings of [disease name] include [finding 1], [finding 2], and [finding 3].

OR

The presence of [finding(s)] on physical examination is diagnostic of [disease name].

OR

The presence of [finding(s)] on physical examination is highly suggestive of [disease name].

Laboratory Findings

An elevated/reduced concentration of serum/blood/urinary/CSF/other [lab test] is diagnostic of [disease name].

OR

Laboratory findings consistent with the diagnosis of [disease name] include [abnormal test 1], [abnormal test 2], and [abnormal test 3].

OR

[Test] is usually normal among patients with [disease name].

OR

Some patients with [disease name] may have elevated/reduced concentration of [test], which is usually suggestive of [progression/complication].

OR

There are no diagnostic laboratory findings associated with [disease name].

Electrocardiogram

There are no ECG findings associated with [disease name].

OR

An ECG may be helpful in the diagnosis of [disease name]. Findings on an ECG suggestive of/diagnostic of [disease name] include [finding 1], [finding 2], and [finding 3].

X-ray

There are no x-ray findings associated with [disease name].

OR

An x-ray may be helpful in the diagnosis of [disease name]. Findings on an x-ray suggestive of/diagnostic of [disease name] include [finding 1], [finding 2], and [finding 3].

OR

There are no x-ray findings associated with [disease name]. However, an x-ray may be helpful in the diagnosis of complications of [disease name], which include [complication 1], [complication 2], and [complication 3].

Echocardiography or Ultrasound

There are no echocardiography/ultrasound findings associated with [disease name].

OR

Echocardiography/ultrasound may be helpful in the diagnosis of [disease name]. Findings on an echocardiography/ultrasound suggestive of/diagnostic of [disease name] include [finding 1], [finding 2], and [finding 3].

OR

There are no echocardiography/ultrasound findings associated with [disease name]. However, an echocardiography/ultrasound may be helpful in the diagnosis of complications of [disease name], which include [complication 1], [complication 2], and [complication 3].

CT scan

There are no CT scan findings associated with [disease name].

OR

[Location] CT scan may be helpful in the diagnosis of [disease name]. Findings on CT scan suggestive of/diagnostic of [disease name] include [finding 1], [finding 2], and [finding 3].

OR

There are no CT scan findings associated with [disease name]. However, a CT scan may be helpful in the diagnosis of complications of [disease name], which include [complication 1], [complication 2], and [complication 3].

MRI

There are no MRI findings associated with [disease name].

OR

[Location] MRI may be helpful in the diagnosis of [disease name]. Findings on MRI suggestive of/diagnostic of [disease name] include [finding 1], [finding 2], and [finding 3].

OR

There are no MRI findings associated with [disease name]. However, a MRI may be helpful in the diagnosis of complications of [disease name], which include [complication 1], [complication 2], and [complication 3].

Other Imaging Findings

There are no other imaging findings associated with [disease name].

OR

[Imaging modality] may be helpful in the diagnosis of [disease name]. Findings on an [imaging modality] suggestive of/diagnostic of [disease name] include [finding 1], [finding 2], and [finding 3].

Other Diagnostic Studies

There are no other diagnostic studies associated with [disease name].

OR

[Diagnostic study] may be helpful in the diagnosis of [disease name]. Findings suggestive of/diagnostic of [disease name] include [finding 1], [finding 2], and [finding 3].

OR

Other diagnostic studies for [disease name] include [diagnostic study 1], which demonstrates [finding 1], [finding 2], and [finding 3], and [diagnostic study 2], which demonstrates [finding 1], [finding 2], and [finding 3].

Treatment

Medical Therapy

There is no treatment for [disease name]; the mainstay of therapy is supportive care.

OR

Supportive therapy for [disease name] includes [therapy 1], [therapy 2], and [therapy 3].

OR

The majority of cases of [disease name] are self-limited and require only supportive care.

OR

[Disease name] is a medical emergency and requires prompt treatment.

OR

The mainstay of treatment for [disease name] is [therapy].

OR

The optimal therapy for [malignancy name] depends on the stage at diagnosis.

OR

[Therapy] is recommended among all patients who develop [disease name].

OR

Pharmacologic medical therapy is recommended among patients with [disease subclass 1], [disease subclass 2], and [disease subclass 3].

OR

Pharmacologic medical therapies for [disease name] include (either) [therapy 1], [therapy 2], and/or [therapy 3].

OR

Empiric therapy for [disease name] depends on [disease factor 1] and [disease factor 2].

OR

Patients with [disease subclass 1] are treated with [therapy 1], whereas patients with [disease subclass 2] are treated with [therapy 2].

Surgery

Surgical intervention is not recommended for the management of [disease name].

OR

Surgery is not the first-line treatment option for patients with [disease name]. Surgery is usually reserved for patients with either [indication 1], [indication 2], and [indication 3]

OR

The mainstay of treatment for [disease name] is medical therapy. Surgery is usually reserved for patients with either [indication 1], [indication 2], and/or [indication 3].

OR

The feasibility of surgery depends on the stage of [malignancy] at diagnosis.

OR

Surgery is the mainstay of treatment for [disease or malignancy].

Primary Prevention

There are no established measures for the primary prevention of [disease name].

OR

There are no available vaccines against [disease name].

OR

Effective measures for the primary prevention of [disease name] include [measure1], [measure2], and [measure3].

OR

[Vaccine name] vaccine is recommended for [patient population] to prevent [disease name]. Other primary prevention strategies include [strategy 1], [strategy 2], and [strategy 3].

Secondary Prevention

There are no established measures for the secondary prevention of [disease name].

OR

Effective measures for the secondary prevention of [disease name] include [strategy 1], [strategy 2], and [strategy 3].

References

  1. Wu YC, Chen CS, Chan YJ (March 2020). "The outbreak of COVID-19: An overview". J Chin Med Assoc. 83 (3): 217–220. doi:10.1097/JCMA.0000000000000270. PMC 7153464 Check |pmc= value (help). PMID 32134861 Check |pmid= value (help).
  2. . doi:10.1161/CIRCULATIONAHA.120.047915Circulation. Missing or empty |title= (help)
  3. . doi:10.1161/CIRCULATIONAHA.120.047915Circulation. Missing or empty |title= (help)
  4. . doi:10.1161/CIRCULATIONAHA.120.047915Circulation. Missing or empty |title= (help)
  5. Mekontso Dessap, Armand; Boissier, Florence; Leon, Rusel; Carreira, Serge; Roche Campo, Ferran; Lemaire, François; Brochard, Laurent (2010). "Prevalence and prognosis of shunting across patent foramen ovale during acute respiratory distress syndrome*". Critical Care Medicine. 38 (9): 1786–1792. doi:10.1097/CCM.0b013e3181eaa9c8. ISSN 0090-3493.
  6. George, Peter M; Wells, Athol U; Jenkins, R Gisli (2020). "Pulmonary fibrosis and COVID-19: the potential role for antifibrotic therapy". The Lancet Respiratory Medicine. doi:10.1016/S2213-2600(20)30225-3. ISSN 2213-2600.
  7. Mo, Xiaoneng; Jian, Wenhua; Su, Zhuquan; Chen, Mu; Peng, Hui; Peng, Ping; Lei, Chunliang; Chen, Ruchong; Zhong, Nanshan; Li, Shiyue (2020). "Abnormal pulmonary function in COVID-19 patients at time of hospital discharge". European Respiratory Journal. 55 (6): 2001217. doi:10.1183/13993003.01217-2020. ISSN 0903-1936.
  8. . doi:10.1016/ S1473-3099(20)30367-4 Check |doi= value (help). Missing or empty |title= (help)
  9. . doi:10.1161/CIRCULATIONAHA.120.047915Circulation. Missing or empty |title= (help)
  10. Greenland, John R.; Michelow, Marilyn D.; Wang, Linlin; London, Martin J. (2020). "COVID-19 Infection". Anesthesiology. 132 (6): 1346–1361. doi:10.1097/ALN.0000000000003303. ISSN 0003-3022.
  11. Xie, Jiang; Covassin, Naima; Fan, Zhengyang; Singh, Prachi; Gao, Wei; Li, Guangxi; Kara, Tomas; Somers, Virend K. (2020). "Association Between Hypoxemia and Mortality in Patients With COVID-19". Mayo Clinic Proceedings. 95 (6): 1138–1147. doi:10.1016/j.mayocp.2020.04.006. ISSN 0025-6196.
  12. Greenland JR, Michelow MD, Wang L, London MJ (June 2020). "COVID-19 Infection: Implications for Perioperative and Critical Care Physicians". Anesthesiology. 132 (6): 1346–1361. doi:10.1097/ALN.0000000000003303. PMC 7155909 Check |pmc= value (help). PMID 32195698 Check |pmid= value (help).
  13. Yang X, Yu Y, Xu J, Shu H, Xia J, Liu H, Wu Y, Zhang L, Yu Z, Fang M, Yu T, Wang Y, Pan S, Zou X, Yuan S, Shang Y (May 2020). "Clinical course and outcomes of critically ill patients with SARS-CoV-2 pneumonia in Wuhan, China: a single-centered, retrospective, observational study". Lancet Respir Med. 8 (5): 475–481. doi:10.1016/S2213-2600(20)30079-5. PMC 7102538 Check |pmc= value (help). PMID 32105632 Check |pmid= value (help).
  14. Pan F, Yang L, Li Y, Liang B, Li L, Ye T, Li L, Liu D, Gui S, Hu Y, Zheng C (2020). "Factors associated with death outcome in patients with severe coronavirus disease-19 (COVID-19): a case-control study". Int J Med Sci. 17 (9): 1281–1292. doi:10.7150/ijms.46614. PMC 7294915 Check |pmc= value (help). PMID 32547323 Check |pmid= value (help).
  15. Zhou F, Yu T, Du R, Fan G, Liu Y, Liu Z, Xiang J, Wang Y, Song B, Gu X, Guan L, Wei Y, Li H, Wu X, Xu J, Tu S, Zhang Y, Chen H, Cao B (March 2020). "Clinical course and risk factors for mortality of adult inpatients with COVID-19 in Wuhan, China: a retrospective cohort study". Lancet. 395 (10229): 1054–1062. doi:10.1016/S0140-6736(20)30566-3. PMC 7270627 Check |pmc= value (help). PMID 32171076 Check |pmid= value (help).


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