Anybody who has been listening to me over the last several months knows that a conversation does not go by where I do not strongly recommend that people wear masks.
Anthony Fauci, MD, October 1, 2020 Vanity Fair
Fauci to Trump: Everyone Should Wear Masks, I’m So Tired of Saying This
There’s this attitude that public health measures are getting in the way of opening up the country. It’s exactly the opposite. In a prudent way, the public health measures are the gateway, the vehicle, the pathway to opening the country. That’s the point that gets lost in this that’s so frustrating.
Anthony S. Fauci, MD, September 22, 2020
The Road Ahead: Charting the coronavirus pandemic over the next 12 months--and beyond
An outbreak of a novel, sometimes deadly, severe respiratory disease emerged in China in early 2020 and has grown rapidly in the ensuing months. The illness has spread around the world with sustained person-to-person transmission on six continents.
The virus was first seen in December of 2019 when a cluster of viral pneumonia cases was reported in Wuhan City, Hubei Province, China. Believed to have originated in a live animal market, a novel coronavirus was identified as the causative agent of the pneumonia. The virus, temporarily named 2019-nCoV (now called SARS-CoV-2), caused a widespread epidemic throughout China, with many exported cases that became the seeds for the global spread of the highly transmissible virus.
With tens of thousands of coronavirus cases reported throughout the country, Chinese health officials took the unprecedented measure of quarantining nearly 60 million people. Despite the massive quarantines, the virus spread beyond China’s borders to other parts of the world.
Epidemiologists feared the outbreak had the potential to become a global health risk that might require a greater international response than Ebola, Zika, and H1N1 combined.
The United States reported its first confirmed case of person-to-person spread on January 30, 2020.
On January 31, 2020, the U.S President signed a “Proclamation on Suspension of Entry as Immigrants and Nonimmigrants of Persons who Pose a Risk of Transmitting 2019 Novel Coronavirus.”
On the same day, the World Health Organization (WHO) declared a public health emergency of international concern. WHO Director-General, Tedros Adhanom Ghebreyesus, explained:
The main reason for this declaration is not because of what is happening in China but because of what is happening in other countries. Our greatest concern is the potential for the virus to spread to countries with weaker health systems, which are ill-prepared to deal with it.
Despite these measures, by February 26, 2020 there were more confirmed COVID-19 cases outside of China than inside China. On March 11, 2020 the World Health Organization (WHO) declared a global pandemic.
On March 13, 2020, a national health emergency was declared in the United States. “The goal of the measures we have taken is to slow the introduction and the impact of the disease in the United States,” said Nancy Messonnier, director of the National Center for Immunization and Respiratory Diseases.
By late March 2020, the United States had surpassed China to become the country with the most confirmed cases of COVID-19. By mid-summer 2020, the United States was one of the hardest-hit countries; there were nearly 25% of global infections and 22% of global deaths from COVID-19.
What Is a Coronavirus?
There are hundreds of coronaviruses, most of which circulate among animals, including pigs, camels, bats, and cats. Sometimes these viruses jump to humans (a spillover event) and can cause disease, as happened with Severe Acute Respiratory Syndrome (SARS), Middle East Respiratory Syndrome (MERS), and now COVID-19. Coronaviruses get their name from the characteristic crown-like spikes on the surface of the virus, which resembles a corona.
Left: Illustration of COVID-19 Coronavirus. Source: CDC, 2020. Right: Illustration of the SARS-CoV-2 structure. Source: Courtesy of Lisa Donohue, CoVPN, and COVID-19 Prevention Network. Used by permission.
There are four main sub-groupings of coronaviruses (alpha, beta, gamma, and delta). Only seven viruses in these sub-groups are known to cause human disease—four of which cause mild to moderate upper-respiratory illnesses such as the common cold.
However, three times in the twenty-first century, coronavirus outbreaks have emerged from animal reservoirs to cause severe disease and global transmission concerns: SARS (SARS-CoV-1), which emerged in late 2002 and disappeared by 2004; MERS, which was first identified in 2012 and consistently jumps from dromedary camels to people; and the novel coronavirus that emerged in December 2019.
While most coronaviruses only infect animals, MERS and SARS are notable for their ability to infect a variety of species, including humans. Recent research at the National Institute of Allergy and Infectious Diseases (NIAID) shows how the MERS virus can adapt to infect cells of a new species, which suggests that other coronaviruses may be able to do the same (NIAID, 2020, April 6). It appears that COVID-19 has done just that.
How Coronaviruses Adapt to Infect Other Species
To cause infection, a virus must first attach to a receptor molecule on a cell within the host species. This interaction is highly dependent on the shape of the receptors, which are determined by the host genes.
Visual artist Austin Athman shown making progress colorizing a SARS-CoV-2 image at NIAID’s Rocky Mountain Laboratories. Source: NIAID.
To evaluate how MERS evolved to infect host cells, scientists from NIAID tested 16 bat species and found that the virus was unable to enter cells with receptors from a common vampire bat, Desmodus rotundus. Scientists adapted the cells by growing virus on cells that had vampire bat receptors and observed the virus evolved to better infect the cells. After a few generations, the virus had completely adapted to the vampire bat’s receptors (NIAID, 2020 April 6).
By studying how the MERS virus changed over time in order to attach to the new host receptor, scientists found similarities with prior studies of the SARS virus. Thus, while these two viruses are different, they use essentially the same approach to enter the cells of new species (NIAID, 2020, April 6).
The new cluster of viral pneumonia cases originating in Wuhan, China, marks the third time in 20 years that a member of the large family of coronaviruses has jumped from animals to humans and sparked an outbreak.
Anthony S. Fauci, MD
National Institute of Allergy and Infectious Diseases (NIAID)
There are seven coronaviruses that can infect people and cause illness. The first four are fairly common and have circulated among humans since coronaviruses were first identified in the 1960s:
- 229E (alpha coronavirus)
- NL63 (alpha coronavirus)
- OC43 (beta coronavirus)
- HKU1 (beta coronavirus) (CDC, 2020 February 15)
These viruses have been circulating among humans for many years and usually cause the mild to moderate upper–respiratory tract illnesses like the common cold. Most people become infected with these viruses at some point in their lives and their illnesses are usually of short duration. Symptoms may include:
- Runny nose
- Sore throat
- General feeling of being unwell (CDC, 2020 February 15)
Newer, more virulent human coronaviruses that infect animals and evolve to also infect humans are less common but more concerning:
- MERS-CoV (the beta coronavirus that causes Middle East Respiratory Syndrome)
- SARS-CoV (the beta coronavirus that causes severe acute respiratory syndrome)
- SARS-CoV-2 (the novel, beta coronavirus that causes coronavirus disease 2019, or COVID-19)
These human coronaviruses can also cause lower–respiratory tract illnesses, such as pneumonia or bronchitis; complications are more commonly seen in infants, older adults, and people with cardiopulmonary disease and/or weakened immune systems (CDC, 2020, February 15).
For confirmed COVID-19 infections, reported illnesses have ranged from people with little to no symptoms to people being severely ill and dying. Symptoms may appear 2 to 14 day after exposure. People with these symptoms or combination of symptoms may have COVID-19:
- Shortness of breath or difficulty breathing
Or at least two of these symptoms:
- Repeated shaking with chills
- Muscle pain
- Sore throat
- New loss of taste or smell
Symptoms differ with severity of disease. For example, fever, cough, and shortness of breath are more commonly reported among people who are hospitalized with COVID-19 than among those with milder disease. Atypical presentations occur often, and older adults and persons with medical comorbidities may have delayed presentation of fever and respiratory symptoms (CDC, 2020, June 30).
Colorized scanning electron micrograph of an apoptotic cell (blue/green) heavily infected with SARS-COV-2 virus particles (yellow), isolated from a patient sample. Image captured at the NIAID Integrated Research Facility (IRF) in Fort Detrick, Maryland. Source: NIAID.
Although the most common symptoms reported from COVID-19 are fever, dry cough, and fatigue, additional symptoms have been widely reported. Gastrointestinal symptoms can include nausea, vomiting, and diarrhea. Painful, itchy lesions on the hands and feet have been seen in younger people with less severe infection (sometimes referred to as COVID toes). Eye problems such as sensitivity to light, swollen eyelids, and watery eyes have also been reported.
In one study of 1,099 hospitalized patients, fever was present in only 44% at hospital admission but eventually developed in 89% during hospitalization. Fatigue, headache, and muscle aches (myalgia) are among the most commonly reported symptoms in people who are not hospitalized, and sore throat and nasal congestion or runny nose also may be prominent symptoms (CDC, 2020, June 30).
Many people with COVID-19 experience gastrointestinal symptoms such as nausea, vomiting, or diarrhea, sometimes prior to developing fever and lower respiratory tract signs and symptoms. Loss of smell (anosmia) or taste (ageusia) preceding the onset of respiratory symptoms has been commonly reported in COVID-19, especially among women and young or middle-aged patients who do not require hospitalization. While many of the symptoms of COVID-19 are common to other respiratory or viral illnesses, anosmia appears to be more specific to COVID-19 (CDC, 2020, June 30).
Several studies have reported that the signs and symptoms of COVID-19 in children are similar to adults, vary by age of the child, and are usually milder compared to adults (CDC, 2020, June 30).
As we approach flu season in the Northern Hemisphere, it is helpful to understand the difference between influenza and COVID-19. Both are contagious respiratory illnesses, but they are caused by different viruses. COVID-19 is caused by infection with a coronavirus (called SARS-CoV-2) and flu is caused by infection with influenza viruses. Because some of the symptoms of flu and COVID-19 are similar, it may be hard to tell the difference between them based on symptoms alone, and testing may be needed to help confirm a diagnosis. Flu and COVID-19 share many characteristics, but there are some key differences between the two:
- Infection with COVID can cause a loss of taste or smell.
- COVID symptoms may take longer to develop than flu symptoms.
- People infected with COVID can be infectious for a longer period of time.
- COVID has produced more superspreading events than flu.
- COVID has caused blood clots in some individuals.
- Case of multi-inflammatory syndrome have occurred in children. (CDC, 2020, Jul 10)
Coronavirus Treatment and Management
There is no specific antiviral treatment recommended for COVID-19, and no vaccine is currently available. The treatment is symptomatic, and oxygen therapy represents the first step for addressing respiratory impairment. Non-invasive and invasive mechanical ventilation may be necessary in cases of respiratory failure refractory to oxygen therapy. Intensive care is needed to deal with complicated forms of the disease (Cascella et al., 2020).
The incubation period for COVID-19 is thought to extend to 14 days, with a median time of 4-5 days from exposure to symptoms onset. One study reported that 97.5% of persons with COVID-19 who develop symptoms will do so within 11.5 days of SARS-CoV-2 infection. A large cohort of >44,000 persons with COVID-19 from China showed that illness severity can range from mild to critical:
- Mild to moderate (mild symptoms up to mild pneumonia): 81%
- Severe (dyspnea, hypoxia, or >50% lung involvement on imaging): 14%
- Critical (respiratory failure, shock, or multiorgan system dysfunction): 5% (CDC, 2020 June 30)
In this study, all deaths occurred among patients with critical illness, and the overall case fatality rate was 2.3%. The case fatality rate among patients with critical disease was 49%. Among children in China, illness severity was lower with 94% having asymptomatic, mild, or moderate disease; 5% having severe disease; and <1% having critical disease. Among U.S. COVID-19 cases with known disposition, the proportion of persons who were hospitalized was 19%. The proportion of persons with COVID-19 admitted to the intensive care unit was 6% (CDC, 2020 June 30).
Patients with a mild clinical presentation (absence of viral pneumonia and hypoxia) may not initially require hospitalization, and many patients will be able to manage their illness at home. The decision to monitor a patient in the inpatient or outpatient setting should be made on a case-by-case basis. This depends on the clinical presentation, requirement for supportive care, potential risk factors for severe disease, and the ability of the patient to self-isolate at home. Patients with risk factors for severe illness should be monitored closely given the possible risk of progression to severe illness, especially in the second week after symptom onset (CDC, 2020 June 30).
Some patients with COVID-19 will have severe disease requiring hospitalization for management. Inpatient management revolves around the supportive management of the most common complications of severe COVID-19: pneumonia, hypoxemic respiratory failure/ARDS, sepsis and septic shock, cardiomyopathy and arrhythmia, acute kidney injury, and complications from prolonged hospitalization, including secondary bacterial infections, thromboembolism, gastrointestinal bleeding, and critical illness polyneuropathy/myopathy (CDC, 2020 June 30).
Some patients with COVID-19 may develop signs of a hypercoagulable state and be at increased risk for venous and arterial thrombosis of large and small vessels. Laboratory abnormalities commonly observed among hospitalized patients with COVID-19-associated coagulopathy include:
- Mild thrombocytopenia
- Increased D-dimer levels
- Increased fibrin degradation products
- Prolonged prothrombin time
Elevated D-dimer* levels have been strongly associated with greater risk of death (CDC, 2020 June 30).
*D-dimer: D-dimer is a protein fragment that is made when a blood clot has formed and is in the process of breaking down. A positive test indicates that there may be significant blood clot formation and breakdown in the body.
There are several reports of hospitalized patients with thrombotic complications, most frequently deep venous thrombosis and pulmonary embolism. Other reported manifestations include:
- Microvascular thrombosis of the toes
- Clotting of catheters
- Myocardial injury with ST-segment elevation
- Large vessel strokes (CDC, 2020, June 30)
The pathogenesis for COVID-19-associated hypercoagulability remains unknown. However, hypoxia and systemic inflammation secondary to COVID-19 may lead to high levels of inflammatory cytokines and activation of the coagulation pathway. There are limited data available to inform clinical management around prophylaxis or treatment of venous thromboembolism in COVID-19 patients (CDC, 2020, June 30).
Illness among pediatric patients with COVID-19 is typically milder than among adults. Most children present with symptoms of upper respiratory infection. However, severe outcomes have been reported in children, including deaths. Data suggest that infants (<12 months of age) may be at higher risk for severe illness from COVID-19 compared with older children. CDC and partners are also investigating reports of multisystem inflammatory syndrome in children (MIS-C) associated with COVID-19 (CDC, 2020, June 30).
Guidance for Determining COVID-19 Status of Asymptomatic Persons
Recommended precautions for the public
Individual who has had close contact (<6 feet)** for ≥15 minutes***)
Note: This is irrespective of whether the person with COVID-19 or the contact was wearing a cloth face covering or whether the contact was wearing respiratory personal protective equipment (PPE)
Follow CDC guidance if symptoms develop
All U.S. residents, other than those with a known risk exposure
Possible unrecognized COVID-19 exposures in U.S. communities
Follow CDC guidance if symptoms develop
General treatment considerations include:
- Management of comorbid conditions.
- Prevention of pulmonary coinfections and superinfections, such as hospital-acquired pneumonia (HAP) and ventilator-associated pneumonia (VAP).
- Assessing treatable causes of shock such as bacterial sepsis, hypovolemic shock, cardiac dysfunction, or comorbid atherosclerotic disease and stress-related adrenal insufficiency.
- Management of COVID-19–induced cardiac dysfunction, including myocarditis.
- Evaluation and management of thrombotic events.
- Evaluating and managing renal and hepatic dysfunction.
- Understanding special considerations in children such as multisystem inflammatory syndrome in children.
- Evaluating drug-drug interactions.
- Monitoring risk for nosocomial infections and other complications of critical illness care, such as VAP, HAP, catheter-related bloodstream infections, and venous thromboembolism. (CDC, 2020, July 30)