key: cord-0786081-qy7dsyz0
authors: Zhao, Yu; Cui, Chong; Zhang, Kun; Liu, Jialin; Xu, Jinfu; Nisenbaum, Eric; Huang, Yixiang; Qin, Guoyou; Chen, Bing; Hoffer, Michael; Blanton, Susan H.; Telischi, Fred; Hare, Joshua M.; Daunert, Sylvia; Shukla, Bhavarth; Pahwa, Savita G.; Jayaweera, Dushyantha T.; Farmer, Paul E.; del Rio, Carlos; Liu, Xuezhong; Shu, Yilai
title: COVID19: A Systematic Approach to Early Identification and Healthcare Worker Protection
date: 2020-05-19
journal: Front Public Health
DOI: 10.3389/fpubh.2020.00205
sha: 94aa35efd9e15290a14eb72a5d72108c9301eec7
doc_id: 786081
cord_uid: qy7dsyz0

The COVID-19 outbreak spread rapidly throughout the globe, with worldwide infections and deaths continuing to increase dramatically. To control disease spread and protect healthcare workers, accurate information is necessary. We searched PubMed and Google Scholar for studies published from December 2019 to March 31, 2020 with the terms “COVID-19,” “2019-nCoV,” “SARS-CoV-2,” or “Novel Coronavirus Pneumonia.” The main symptoms of COVID-19 are fever (83–98.6%), cough (59.4–82%), and fatigue (38.1–69.6%). However, only 43.8% of patients have fever early in the disease course, despite still being infectious. These patients may present to clinics lacking proper precautions, leading to nosocomial transmission, and infection of workers. Potential COVID-19 cases must be identified early to initiate proper triage and distinguish them quickly from similar infections. Early identification, accurate triage, and standardized personal protection protocols can reduce the risk of cross infection. Containing disease spread will require protecting healthcare workers.

A new coronavirus, SARS-CoV-2, causes coronavirus disease 2019 (COVID- 19) , with worldwide cases of transmission occurring shortly after the initial infections were reported (1, 2) . On January 30, 2020, the International Health Regulations Emergency Committee of the World Health Organization (WHO) declared the outbreak a "public health emergency of international concern (PHEIC), " and on March 11th the WHO officially designated the outbreak as a pandemic. By , all continents had reported confirmed cases of COVID- 19 . The global spread of the virus is ongoing and fast-moving ( Figure 1A) , with over 750,890 confirmed infections and 36,405 deaths worldwide. The global cases-fatality rate is 4.85% with differences in different countries and areas, suggesting that reasonable and effective medical interventions can have a great impact (Figures 1B, 2) . Worryingly, COVID-19 cases have now been identified in a number of countries with lower access to health care resources, including 39 African countries, and others (3) . Another concern is potential spread among healthcare workers, who by nature of their professions are at an especially high risk of exposure. In China, more than 3,000 health care workers in Hubei Province have been infected, with most being doctors from non-infectious disease departments (4) . A total of 34 confirmed deaths among infected healthcare workers in China have been identified as of March 2, 2020 (5) . Per the Italian National Health Agency, 9, 512 healthcare works have been infected as of March 31th, 2020.

Identifying cases of COVID-19 and controlling its spread can be difficult, as SARS-CoV-2 is infectious during the incubation period (6, 7) . Latency from infection to disease manifestation varies from 1 to 14 days, and no or atypical symptoms may appear in its early stages (8, 9) . It can be easily confused with other common diseases in its early stage, leading to misdiagnosis or missed diagnosis and subsequent nosocomial spread of disease. This is a major reason for the large number of infections among healthcare workers in both Italy and the city of Wuhan. Therefore, the early identification of COVID-19 patients is critical. At the same time, controlling COVID-19 requires the joint efforts of multiple clinical departments. Accordingly, it is very important to protect healthcare workers, with different levels of standardized protective measures utilized commensurate to exposure risk.

We descriptively reviewed the English and Chinese literature from December 2019 through to March 31st, 2020. The PubMed and Google Scholar databases were searched with the terms "COVID-19, " "2019-nCoV, " "SARS-CoV-2, " and "Novel Coronavirus Pneumonia" in order to identify studies for inclusion. The purpose of this review is to provide current information on the characteristics of SARS-CoV-2 infection and standardized screening, triage, and protection protocols, in order to ensure the early identification of COVID-19 and protection of healthcare workers.

The exact origin of the SARS-CoV-2 has not yet been established. Possibilities include a bat coronavirus termed BatCoV RaTG13, which shares 96.2% of its genome sequence with SARS-CoV-2, though two other similar bat-derived coronaviruses have also been identified (10) . However, no evidence of direct bat to human transmission has been reported, leading to the suggestion that minks, pangolins, snakes, and other wild animals may serve as candidate intermediate hosts to transmit the virus to humans (11) (12) (13) .

SARS-CoV-2 is a single positive strand RNA, ∼60-140 nm in diameter. SARS-CoV-2 has 94.6% key region (ORF1ab) homology with SARS-CoV, indicating the two derive from the same species (10) . However, the S protein of SARS-CoV-2 binds with human ACE2 with a much higher affinity than the S protein of SARS-CoV, the main reason for the strong infectivity of the new coronavirus (14, 15) . In addition, research findings suggest that SARS-CoV-2 invaded host cells via a novel route of CD147-spike protein (SP) (16) . This possible mechanism for the entry of SARS-CoV-2 into the cells may provide important information for vaccine development and targeted drug research (15) .

Based on analysis of data from a large number of clinical cases, the median incubation period of COVID-19 is 4-6.4 days, with a basic reproductive number (R 0 ) of 2.2-2.68 (17, 18) . In addition to patients demonstrating the full COVID-19 disease phenotype, mildly symptomatic and asymptomatic patients are also a source of infection (6) . SARS-CoV-2 is spread through respiratory transmission via exhaled droplets (10) . Touching the mouth, nose, or eyes after contact with viruscontaminated materials may lead to COVID-19 transmission (19) . There is a possibility of airborne transmission when exposed to high concentrations of the aerosolized virus in a relatively closed environment for an extended time (Figure 3 ) (20) . SARS-CoV-2 transmission through the digestive tract may also be possible, but needs further confirmation (21) . Compared to SARS, which only affects the respiratory tract, SARS-CoV-2 can multiply effectively in the nose and throat (7, 22) . Recent data provides no evidence for intrauterine vertical transmission in pregnant women who are infected with COVID-19 (23) .

Typical clinical symptoms of COVID-19 are fever (83-98.6%) (8, 17, 24, 25) , cough (59.4-82%) (8, 17, 24, 25) , and fatigue (38.1-69.6%) (8, 17, 24) . However, clinical data suggests that only 43.8% of patients have fever at the early stages of the SARS-CoV-2 infection (17) , and some patients presented with uncommon symptoms such as increased sputum (15.4-33.7%) (8, 17, 24, 25) , shortness of breath (18.7-31%) (17, 25) , sore throat (5-17.4%) (8, 17, 25) , nasal congestion (4.8%) (17), dizziness (9.4%) (8) , and diarrhea (2-10.1%) (8, 17, 24, 25) .

Patients with a mild form of the disease presented with only a low fever, mild fatigue, and no pneumonia, with some patients demonstrating no obvious fever throughout the course of the disease. This makes clinical diagnosis difficult in this patient population. However, 7.3-32% of patients progress to a severe (dyspnea, respiratory frequency ≥30/min, blood oxygen saturation ≤93%, partial pressure of arterial oxygen to fraction of inspired oxygen ratio ≤300 mmHg or lung infiltrates >50% within 24-48 h) or critical (respiratory failure, septic shock, and/or multiple organ dysfunction or failure) condition (8, 9, 17, 24, 26) . The median time from onset of symptoms to ICU admission was 9.5-10.5 days (8, 24, 26) .

According to our experience treating cases in Wuhan, severe and critically ill patients demonstrate the following patterns: (1) Clinical deterioration happens suddenly and is difficult to predict. Acute respiratory failure, especially acute respiratory distress syndrome (ARDS), is very common in COVID-19 severe and critically ill patients. However, compared to previous severe infectious diseases such as SARS or MERS-where ARDS often appeared within 1 week of symptom onset-patients with COVID-19 showed greater variance in timing. Many patients were stable for more than a week and even up to a month before acute respiratory failure or ARDS suddenly occurred within a 2-3 days period. This makes it difficult for clinicians to predict critical changes in a patient's condition. Once such patients have respiratory failure, they require a prompt upgrade in respiratory support and close observation in order to continue to escalate treatment as necessary. The mortality rate of all COVID-19 patients with ARDS is close to 50%, and if ARDS reaches the moderate to severe stages, the mortality rate is as high as 70%; (27) (2) Multisystem organ failure. From the current epidemiological data, the majority of middle-aged and elderly patients with COVID-19 are critically ill (8, 17, 26) and dysfunction of multiple organ systems including respiratory failure, heart failure, and renal failure can occur either individually at different time points or simultaneously (8, 9, 25, 26) . Therefore, it is necessary to frequently and comprehensively evaluate these critically ill patients, with attention paid to each individual organ system; and (3) Multiple comorbidities often exist in severe patients. Multiple chronic diseases such as diabetes, hypertension, CKD, and Parkinson's are frequently found in severe or critically ill patients (8, 9, 17, 26) . These diseases often contribute to the course of COVID-19. For example, diabetic patients are at high risk for ketoacidosis during COVID-19 infection, CKD patients often have further deterioration of renal function requiring RRT treatment, and neurological diseases such as Parkinson's compromise airway protection and the ability for patients to cooperate with treatment. Therefore, clinicians need to closely evaluate patients' comorbidities and provide additional diseasespecific care while diagnosing and treating COVID-19.

On laboratory testing, peripheral blood leukocyte counts are low or normal and lymphocyte counts are low. Severe and critically ill patients often have elevated inflammatory factors. In early CT chest imaging, there were multiple small patchy and interstitial changes, which then develop into multiple ground glass opacities and infiltrates in the lungs consistent with viral pneumonia. In severe cases, pulmonary consolidation can occur, but pleural effusions are rare.

The clinical manifestations and illness onset of COVID-19 overlap with or resemble the clinical manifestations of many other diseases, including the common cold, influenza, and other upper respiratory infections (URIs) ( Table 1) . Some patients who have atypical symptoms or no fever may present to non-infectious disease departments, which may lead to missed or delayed diagnosis, healthcare worker infection, and even nosocomial infections in other patients. The CDC has published primers, probes, and testing protocols, but there were initially issues with the test kit's performance and distribution that prevented a scaling up of testing beyond a few public health laboratories (28) . After corrections, the CDC re-released testing protocols that are now being utilized by state and local health departments. The differential diagnosis at the onset of symptoms mainly depends on epidemiological history, complaints, symptoms, and corresponding examinations. Therefore, maintaining a high level of suspicion for early clinical manifestations of COVID-19 and using existing testing to rule out other respiratory viruses is necessary to ensure that patients receive appropriate early molecular testing.

Some patients with atypical symptoms or no fever may initially present to non-infectious disease departments such as otolaryngology, stomatology, and gastroenterology which are not standardly equipped to safely handle these patients. In addition, many countries do not have a hierarchical medical system; in such countries patients decide on their own as to which hospitals and departments to present. This poses considerable risks to healthcare workers and other patients in these hospitals. Successful disease control requires a systematic, comprehensive approach to diagnosis, triage, and treatment. Outpatient and emergency pre-check is the first step to prevent and control the potential spread of COVID-19 in healthcare settings. By initially screening patients by obtaining a temperature, inquiring about the epidemiological history, and triaging according to predetermined symptoms, suspected cases can be identified. Suspected cases should be isolated and reported immediately. In addition, medical staff, in consultation with local public health authorities, should collect the necessary specimens (for example nasopharyngeal swab) for COVID-19 nucleic acid detection in a timely fashion. If the patient's condition requires supportive care in an intensive care unit, he or she should be placed in an isolation negative pressure room. If such an area is not available, then the patient should be transferred to a facility that can provide this care after the patient's condition is stabilized (Figure 4 ) (29) .

Designated institutions, such as fever clinics in China and infectious disease departments in other countries, have been established in order to ensure routine and appropriate infection control operations for COVID-19 cases. However, in healthcare settings where patients with emerging or unknown infectious diseases are diagnosed and treated, especially in those countries where there is no designated institution for COVID-19 cases, infection control methods against severe infectious diseases are often imperfect. With the outbreak of COVID-19, healthcare workers are at particular risk for infection due to their potential exposure to droplets or aerosols from the respiratory tracts of patients. For providing clinical care to patients with COVID-19, all healthcare workers are recommended to receive standardized infection prevention and control (IPC) training and wear correct personal protective equipment (PPE) (e.g., medical masks such as surgical masks or N-95 respirators depending on exposure risk, disposable isolation gowns, disposable patient examination gloves, working hat, goggles or face shield, and shoe covers) (30) .

In the epidemic area, considering it is not always possible to identify patients with SARS-CoV-2 infection because early symptoms are non-specific, it is important that healthcare workers use standard precautions consistently when providing care to patients. Refresher training on IPC should be provided to every healthcare worker (31) , healthcare workers should practice donning and doffing procedures, and must demonstrate competency through testing and assessment before caring for patients (32) . This is particularly true of frontline providers such as those in the infectious disease and emergency departments, as well as providers in departments who may have higher occupational exposure risks when conducting special examinations on patients, such as the departments of Otorhinolaryngology, Stomatology, Gastroenterology, and Pulmonology, among others. Healthcare workers in these departments should pay extra attention to proper protection, and specialty or exam specific protective protocols should be developed (10) . For example, nasopharyngeal swab specimen collection is a common and simple disease detection method, but it has certain exposure risks such as causing patients to sneeze. It must be performed in accordance with protection as described above. Face-to-face sampling with the patient should be avoided as much as possible. Recommended precautions include having the patient take a seated position with the health worker standing to the patient's side, staggered head distance, standing upwind of the patient, and securing the patient's head with one hand while using the other hand for sampling (33) . It is also critical for providers in generally uninvolved departments to pay attention to patients with fever, respiratory symptoms, and appropriate epidemiological history, as these may represent unscreened cases.

As seen in previous epidemics, healthcare workers may have a higher risk of developing psychological issues; they may experience fear of contagion and spreading the virus to their families, friends, or colleagues (34) . Those with previous firstline care experience, such as during the SARS epidemics, may also be at higher risk of post-traumatic stress symptoms. This could trigger common mental disorders, including anxiety and depressive disorders, and posttraumatic stress disorder that requires psychological intervention. However, further research is necessary to better assess the short-and long-term psychological consequences of this epidemic on healthcare workers.

It is important that hospital administrators be cognizant of the additional stressors faced by healthcare workers, provide appropriate training and protective equipment, manage work hours carefully, and implement quality of life measures to minimize burnout and risk of psychological consequences. In addition, safe communication channels between healthcare workers and their families should be set up, and psychological treatment plans, progress reports, and health status updates should be given to them and their families (35) .

There are currently no specific antiviral drugs to treat SARS-CoV-2 infection. The treatment mainly includes supportive care including supplemental oxygen, symptom directed therapy, and the reduction of complications. Disease directed treatments that have been tried includes antivirals such a remdesivir and lopinavir/ritonavir, drugs such as chloroquine phosphate and abidol, and Chinese traditional medicines (24) . On the Chinese Clinical Trial Registry 1 , a total of 473 clinical trials are registered, evaluating a variety of different drugs and other treatment modalities. In the United States, the National Institutes of Health (NIH) has started a clinical trial utilizing the experimental broad-spectrum antiviral drug remdesivir, launched on February 21 (36) . The use of corticosteroid treatment is currently controversial (37, 38) . Vaccines are under development in several countries around the world, which should help to contain the spread of COVID-19 in the future.

In our review, we analyze current information on the characteristics of SARS-CoV-2 infection, and provide implementable approaches to standardized screening, triage, personal protection protocols, and psychological support for healthcare workers that are relevant to a variety of healthcare settings. As is the case with any review of a rapidly evolving topic such as COVID-19, it is impossible to be fully current, as new studies and guidelines are published on a daily basis. Likewise, this is a descriptive review rather than a systematic review, which limits the strength of the overall conclusions that can be drawn from the included studies. However, we believe this review provides a coherent, widely applicable framework for addressing these issues; one that can be modified as new information and new discoveries continue to come to light. This is particularly necessary for the issues of psychological support and treatment, as at the current time there is not enough outcome data available to make true evidence-based recommendations. Finally, while we review best practice PPE use, specific PPE choices may require modification depending on shortages, overall access to health care resources, and specific application.

COVID-19 has spread rapidly and progressed quickly to a pandemic associated with substantial morbidity and mortality. However, through early patient identification and accurate triage, risk of widespread transmission can be greatly decreased. Special attention must be paid to minimizing the additional risks faced by healthcare workers in order to ensure that appropriate care can continue to be provided.

Potential COVID-19 cases must be identified early to initiate proper triage and distinguish them from similar infections. Early identification, accurate triage, and standardized personal protection protocols can reduce the risk of cross infection. Containing disease spread will require protecting healthcare workers.

YS, XL, YZ, and CC contributions to conception and design, and analysis and interpretation of data, drafting the article, final approval of the version to be published. KZ, JL, and JX contributions to acquisition of data, analysis and interpretation of data, conception and design. EN contributions to revising it critically for important intellectual content. YH, GQ, and BC interpretation of data, revising it critically for important intellectual content. MH, SB, FT, JH, SD, BS, SP, DJ, PF, and CR contributions to conception, revising it critically for important intellectual content and final approval. All of them are in agreement to be accountable for all aspects of the work in ensuring that questions related to the accuracy or integrity of any part of the work are appropriately investigated and resolved. 

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