key: cord-0737141-lswup1cd
authors: Rahman, Heshu Sulaiman; Abdulateef, Darya Saeed; Hussen, Narmin Hamaamin; Salih, Aso Faiq; Othman, Hemn Hassan; Mahmood Abdulla, Trifa; Omer, Shirwan Hama Salih; Mohammed, Talar Hamaali; Mohammed, Mohammed Omar; Aziz, Masrur Sleman; Abdullah, Rasedee
title: Recent Advancements on COVID-19: A Comprehensive Review
date: 2021-12-24
journal: Int J Gen Med
DOI: 10.2147/ijgm.s339475
sha: 51e840e8f3d9a456060e50095186184ecb0cb7b9
doc_id: 737141
cord_uid: lswup1cd

Over the last few decades, there have been several global outbreaks of severe respiratory infections. The causes of these outbreaks were coronaviruses that had infected birds, mammals and humans. The outbreaks predominantly caused respiratory tract and gastrointestinal tract symptoms and other mild to very severe clinical signs. The current coronavirus disease-2019 (COVID-19) outbreak, caused by the novel severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), is a rapidly spreading illness affecting millions of people worldwide. Among the countries most affected by the disease are the United States of America (USA), India, Brazil, and Russia, with France recording the highest infection, morbidity, and mortality rates. Since early January 2021, thousands of articles have been published on COVID-19. Most of these articles were consistent with the reports on the mode of transmission, spread, duration, and severity of the sickness. Thus, this review comprehensively discusses the most critical aspects of COVID-19, including etiology, epidemiology, pathogenesis, clinical signs, transmission, pathological changes, diagnosis, treatment, prevention and control, and vaccination.

The COVID-19 pandemic, first identified in December 2019 in Wuhan city, Hubei province, China and has spread to most world regions, is caused by the SARS-CoV-2. 1 The infection is efficiently transmitted from animal to human and from human to human through droplets or direct contact. Infected humans are either asymptomatic or may show mild, moderate, or severe symptoms. 2 However, approximately 80% of patients' present mild clinical signs and the overall case fatality rate from the infection at about 2.3%. The severity of the disease increased with age and the presence of comorbidities, including cardiovascular diseases, diabetes, chronic respiratory disease, hypertension, and cancer. The fatality rate of COVID-19 patients aged over 80 years was reported at 14.8%. There is no accurate estimate of the rate of asymptomatic carriers of the COVID-19. 3, 4 COVID-19 is similar to severe acute respiratory syndrome coronavirus 1 (SARS-CoV-1) and Middle East respiratory syndrome coronavirus (MERS-CoV) infections with bats as the probable species from which the virus originates. The SARS-CoV shares 96% whole-genome identity with the bat, Rhinolophus affinis, CoV RaTG13. 5, 6 Similar to SARS-CoV and MERS-CoV, the SARS-CoV-2 first infects intermediate hosts, such as masked palm civets (Paguma larvata), before infecting humans. 7 In April 2020, Chinese researchers discovered that the pangolin species are also the intermediate hosts of SARS-CoV-2. However, there is only 92% similarity in whole-genome genetic material between the pangolin coronavirus and SARS-CoV-2, which is insufficient to suggest that the pangolins are the intermediate host for the human infection. 8, 9 Currently, the zoonotic repertoire of COVID-19 is not clearly established because of the variability in the behaviour of the infection in various animal species. Cats are susceptible, while dogs and ferrets only showed intermediate vulnerability to the disease. The virus does not replicate well in dogs, pigs, chickens or ducks. It appears that the body temperatures of the host species determine the predilection of SARS-CoV-2 infection. The mean body temperatures of the human and cat hosts are lower than those of the more resistant hosts. 10 It is now clear that like SARS-CoV-1, the SARS-CoV-2 infects humans through the cell membrane receptor, angiotensin-converting enzyme 2 (ACE2). ACE2 is usually highly expressed in the organs of humans, including the respiratory and gastrointestinal tracts, blood vessels, bone marrow, spleen, thymus, lymph node, liver, kidney, and brain. The receptor regulates cross-species and human-to-human transmissions through its interactions with the viral S-glycoprotein S1 and S2 subunits. 11, 12 The median incubation period of SARS-CoV-2 is also similar to SARS-CoV-1, and 97.5% of patients develop symptoms within 14 days of infection. In infected patients, it is difficult to determine when SARS-CoV-2 conditions begin because the incubation periods vary with cases. 13 

Coronaviruses are a large group comprising alpha, beta, delta, and gamma coronaviruses. The SARS-CoV-2 is a beta coronavirus, an enveloped, positive-sense, singlestranded RNA virus belonging to Coronaviridae family. 14 Although the alpha and beta coronavirus are mainly found in bats, they can also infect other species, including humans, camels, and rabbits. 15 The beta-coronaviruses, SARS-CoV-1, SARS-CoV-2, and MERS-CoV, are endemic in humans, inducing fever and severe and potentially fatal respiratory tract infections. Among the beta coronaviruses, SARS-CoV-2 showed the most significant infectivity but with a lower rate of case fatality. 16, 17 Structurally, the SARS-CoV-2 is approximately 79% and 50% in identity with SARS-CoV-1 and MERS-CoV, respectively. The SARS-CoV-2 is more similar to 2 batderived SARS-like coronaviruses, SL-CoVZC45 and SL-CoVZXC21, with 87.9% and 87.2% sequence identity, respectively. 18, 19 The SARS-CoV-2 encodes two large structural polyproteins, the papain-like protease, PL pro , and 3-chymotrypsin-like protease, 3CL pro or protease-M pro . These polyproteins are spike surface glycoproteins, matrix, small envelope, and nucleocapsid proteins that are essentially involved in the maturation, infectivity, and lifecycle of the virus. 20 Spike proteins target host ACE2 receptor-binding domains; 21 thus, they are potential targets for antiviral drugs. The protease-M pro is a potential target for the screening of COVID-19 drug candidates. 22 

In infected humans, the SAR-CoV-2 has been isolated from the alveolar epithelial cells, macrophages, capillaries, renal glomerular endothelial cells, brain blood vessels, colonic mucosa, and the skin. 23 In the lung, the SAR-CoV-2 infect ciliated, mucus-secreting, and club cells of the bronchial epithelium and type 1 pneumocytes. 24

Knowledge of the incubation period of coronaviruses is essential for epidemiological case definition, assessment of entry, screening, and contact tracing, and finally, to determine the appropriate duration of the quarantine. 13, [25] [26] [27] There are variable reports on the incubation period of coronaviruses (Table 1) .

The period from the onset of COVID-19 symptoms to death ranged from 6 to 41 days with a median of 14 days. This period is dependent on the age of the patient and the status of the patient's immune system, which is shorter among patients >70-years old than those <70-years old. 28 The clinical signs among 80% of COVID-19 patients ranged from mild to non-specific influenza-like symptoms. 29 Generally, the clinical features of confirmed COVID-19 patients include fever and respiratory symptoms, such as cough, dyspnea, shortness of breath, sore throat, sputum formation, myalgia, headache, nausea, abdominal pain, vomiting, diarrhoea, and hemoptysis. 30, 31 These clinical signs are often not distinguishing features for COVID-19 because they largely overlap with those of other respiratory infections. However, symptoms like fever, cough, and shortness of breath are considered typical of COVID-19. 32 These symptoms may progress to acute respiratory distress syndrome (ARDS) that requires intensive care. 33 Cutaneous manifestations including urticarial rash, morbilliform-maculopapular, papulovesicular, chilblainlike, livedo reticularis/livedo racemosa like and purpuricvasculitic lesions are now reported to be among the clinical signs of COVID-19. These manifestations may be explained by the discovery of the SAR-CoV-2 spike protein in blood vessels and sweat gland epithelium of patients with acral purpuric lesions. 34

At the beginning of this pandemic, thoracic radiology was often used to evaluate patients with COVID-19. However, it may not be sensitive to early or mild disease 35, 36 and regions of peak COVID-19 pandemic, CT was the better option. 37, 38 Some hospitalized patients may show bilateral lung ground-glass opacity (GGO) on CT. The GGO and consolidation, pleural effusion, calcifications, mediastinal lymphadenopathy and enlargement of pulmonary vessels in areas of new lung infiltrates are suggested to be good radiological predictors of lung impairment in patients severely infected with COVID-19. However, precautions should be taken when using CT for COVID-19 screening because this diagnostic technique is often fraught with false-negative and false-positive results. 39, 40 Disease Susceptibility Susceptibility to COVID-19 seems to be associated with age, sex, and the presence of comorbidities. The disease is usually mild in young patients less than 19 years of age, with flu-like symptoms and rapidly resolving fever. 41, 42 This is particularly true for those without underlying conditions like impaired lung function or immunosuppression.

Initially, most COVID-19 cases were among adults, with very few reported pediatric patients. However, a month into the epidemic, a novel multisystem inflammatory syndrome in children (MIS-C) emerged, and some studies suggested that MIS-C is a secondary consequence of SARS-CoV-2 infection in which over 70% of MIS-C patients test positive for serum antibodies against SARS-CoV-2 and test negative for the presence of viral RNA. 43 In this regard, a recent prospective cohort study showed that COVID-19 is not uncommon in paediatrics (especially among children aged 1-4 years). It presents as either primary, MIS-C or Kawasaki Disease (KD). Most deaths and ICU outcomes were related to MIS-C due to cardiac involvement (pericardial effusion and left ventricular dysfunction). 44 Among the age groups, the elderly are most susceptible to COVID-19. 45 Infected children usually present, at most, with mild symptoms and diagnosis of the diseases in this population often requires epidemiological clues about exposure. 46 The reasons for the condition being mild COVID-19 in children are largely unknown.

Most studies supported that symptomatic COVID-19 is more prevalent in men than women. Among the factors that have been attributed to the sex differences in the susceptibility to COVID-19 include higher expression of ACE2 receptors, poorer immune response, and lack of maintaining responsible COVID-19 prevention lifestyle among men than women. The more rampant smoking and drinking habits among men than women are significant susceptibility factors for COVID-19. 46 On the other hand, it was found that elevated estrogen levels in female COVID-19 patients may reduce the severity and mortality of deaths through an elevation in the innate and humoral response. Furthermore, pre-clinical studies suggest that ACE-2 expression may increase the susceptibility of COVID-19 in pregnant patients. 47 However, a study reported that males and females have the exact prevalence of COVID-19, but male patients have a higher mortality rate than females due to the severity of the disease, independent of age. 48 Comorbidity A high number of individuals with COVID-19 have comorbidities, including poor immunity due to chronic illnesses such as hypertension, diabetes, hypercholesteraemia, malignancy, obstructive sleep apnea, Parkinson's disease, dementia, and delirium, on long-term use of immune-suppressive agents, or had surgeries or organ failure/transplant. These groups of people are not only vulnerable to COVID-19 but also develop a severe disease that is not adequately responsive to treatment and is often fatal. 49 DovePress complications like ARDS, septic shock, coagulation accidents, acute respiratory failure, and multiple systems organ failure (MSOF). In this respect, several drugs to control the comorbidity provide benefits such as dipeptidyl peptidase 4 (DPP4) inhibitor, 55 glucagon-like peptide-1 receptor agonist (GLP-1RA), 56 and ACE inhibitor/ARB. 57 

It has been suggested that there is a link between the blood type of patients and COVID-19 susceptibility and severity. Among patients of various blood groups, those with group O have low risk, while those with group A blood have the highest chance of acquiring COVID-19 58 Individuals with Rh+ blood type are also at increased risk for COVID-19. 59 Hence, the results of a meta-analysis of twenty-one studies showed that there is no evidence to indicate the effect of the O type on disease severity in CoV-2 infection. 60 On the contrary, a study in Iran showed no association between blood type and Rh type with COVID-19. However, there is an association between age and gender, 61 and these study outcomes agree with the results of Levi et al., 2020. 62 Sickle Cell Anaemia and Thalassemia Anaemia, in general, 63 and those resulting from sickle cell 64 and thalassemia, 65 leads to the high development of pulmonary embolism (PE). Thus, if with COVID-19, these patients are prone to develop fatal pulmonary infection. Sickle cell anaemia and thalassemia are more common among blacks and South Asian ethnic groups than Caucasians, suggesting that blacks and South Asians are more vulnerable to the acquisition of COVID-19 than Caucasians. 66

On December 30, 2019, a cluster of 27 pneumonia cases, including 7 severe cases of unknown origin in Wuhan city, Hubei province, China, were reported to the National Health Commission of China. In the early stages of this pneumonia, patients developed a severe acute respiratory infection, and some patients rapidly developed acute respiratory distress syndrome. Real-time polymerase chain reaction (RT-PCR) and deep sequencing analysis of lower respiratory tract samples identified SARS-CoV-2. 67, 68 By the end of January 2020, nearly 50,000 confirmed cases were reported in China, and among countries that showed the first confirmed cases were Thailand, Nepal, Republic of Korea, USA, Singapore, France, Vietnam, Canada, Australia, Malaysia, Germany, United Arab Emirates (UAE), Finland, Italy, Cambodia, Sri Lanka, the Russian Federation, Spain, Sweden, India, and the Philippines. 69 By the end of February 2020, most countries had begun reporting cases of COVID-19. The patients were aged between 30 and 80 years and usually showed mild infections (80%). The fatality rate among these patients was approximately 2%. On March 11, 2020, the World Health Organization declared the disease pandemic. 70 Among European countries, Italy was the first to document many COVID-19 cases, with the region of Lombardy severely affected, a total of 17,713 people tested positive for SARS-CoV-2, and 1593 admitted to intensive care unit (ICU) between the end of February and the end of March 2020. 71 By September 25, 2020, there were more than 31,572,774 cases, 989,981 deaths, and 24,048,380 recovered cases from COVID-19 worldwide. Approximately 535,000 cases and more than 20,600 deaths were reported from the USA alone. The COVID-19 cases kept increasing from primary, secondary, tertiary and infections and reinfection. 6, 72 Up-to-date, approximately 2.5 × 10 8 infected COVID-19 cases are found with > 5 × 10 6 deaths and > 2.23 × 10 6 recovered cases worldwide. The largest number of fatalities from the disease is found in the USA, India, Brazil, UK, Russia, Turkey, and France. Among them, Alpha 

The COVID-19 virus enters target cells through the cleavage and activation of viral spike protein by the host cell protease, type II transmembrane serine protease (TMPRSS2). 74 The virus spike subunits engage ACE2 as the cell-entry receptor ( Figure 1 ). 75 The successful entry of the virus into the cell requires the co-expression on the cell surface of ACE2 and TMPRSS2. 75 SARS-CoV-2 infections causing COVID-19 is facilitated by the following mechanisms; (1) direct virusmediated cell damage, (2) dysregulation of the Renin-Angiotensin-Aldosterone System (RAAS) as a consequence of down-regulation of ACE2 that leads to decreased cleavage of angiotensin I and angiotensin II, ACE2 is heavily expressed on ciliated airway epithelial cells and alveolar type 2 pneumocytes of the lungs. It is believed that SARS-CoV-2 undergoes hematogenous dissemination via infected pulmonary epithelium. The injured endothelium, while activating the coagulation cascade, also shows increased microvascular permeability. In an attempt to inhibit viral replication and dissemination, the host immune response mediates inflammation and cellular antiviral activity. However, if the immune response is excessive, the patient, especially the young, will show severe symptoms. COVID-19 patients, especially those requiring intensive care, were reported to have high levels of plasma cytokines, 76 including IL-1β, IL-1RA, IL-2, IL-7, IL-8, IL-9, IL-10, basic FGF2, GCSF, GMCSF, IFNγ, IP10, MCP1, MIP1α, MIP1β, PDGFB, TNFα, and VEGFA. 77

Although the infection is zoonotic, the mode of transmission of COVID-19 in humans is not clear. 78 The bats are suggested to be the reservoir for the human SARS-CoV-2. 79 Based on codon similarities between the human SARS-CoV-2 and the Bungarus multicinctus snake coronavirus, it appears the snakes are also potential reservoirs for the infection. 80 The Malayan pangolin (Manis javanica) is a natural reservoir of the SARS-CoV-2, and they are suggested to play a significant role in the transmission of COVID-19 to humans. [81] [82] [83] Human-to-Human Transmission COVID-19 is known to exhibit human-to-human transmission, 84 the primary mode of transmission in the current pandemic. 85 COVID-19 patients spread the disease to those in close contact. 86, 87 However, since many COVID-19 patients are asymptomatic and can serve as carriers, they may have unknowingly transmitted the virus to others. [88] [89] [90] This mode of transmission includes:

There are 3 main modes of horizontal transmission of COVID-19 in humans: 67, 91 Direct Contact This mode of transmission may occur through direct contact with virus-contaminated objects or surfaces and infecting people through the mouth, nose, or eyes. 92, 93 In addition, a direct correlation between air pollution and COVID-19 was observed. Thus, exposure to indoor DovePress polluted air is likely to be directly associated with the disease, especially among refugees and migrant workers who live in feeble conditions. However, home isolation for an infected population may be a potential factor to other health problems if the place where they are socially isolated is not adequately ventilated. Therefore, an understanding of the consequences of the relationship between indoor air quality and the COVID-19 pandemic should be considered. 94 Aerosol COVID-19 virus is primarily not airborne. 95 Instead, the virus is present in the aerosols of expired air, coughs, and sneezes, which are the main media for virus spread 42, 96, 97 from COVID-19-positive people. 89, 98 The virus remains viable for at least 3 hours in aerosols and as long as 48 to 72 hours on stainless-steel and plastic surfaces. 99 Droplet Respiratory air typically contains an abundance of droplets of sizes <5 μm in diameter. Coughing and sneezing cause increased expulsion of these droplets from the oral cavity and respiratory tract. In COVID-19 patients, these droplets contain a virus that, if inhaled or ingested, will cause disease. 1, 99, 100 Feces and Body Fluids COVID-19 transmission may also occur via feces, urine, tears, sweats, and conjunctival secretions. 46, [101] [102] [103] The role of feces in the transmission of COVID-19 is unclear. 104 There are suggestions that the gastrointestinal system is an essential route for the spread of SARS-CoV-2. 105 Incidentally, there are high expressions of ACE2 in the gastric glandular, colon, ileal, duodenal, and rectal cells, suggesting the virus may spread via the fecal-oral route. 58, 98 Unlike in the respiratory tract, where the clearance of the occurs within 2 weeks, the feces can remain positive for coronavirus RNA for longer than 4 weeks, even after the patient no longer show symptoms of the disease. 106 

It is believed that COVID-19 can potentially be transmitted vertically due to the high expression of ACE2 receptors in the human maternal-fetal interphase. This indicates that the COVID-19 pandemic puts pregnant women and fetuses at risk of being infected. 107, 108 At the beginning of the disease, cases of vertical COVID-19 transmission were very few and mostly incidental.

However, the potential for vertical transmission of COVID-19 has not been ruled out.

The SARS-CoV-2 primarily targets the respiratory system. 109 The pathological features of the affected tissues of patients who died with COVID-19 could provide additional information on the pathogenesis and the cause of clinical outcomes of the disease. Carsana et al systematically analyzed lung tissue samples from 38 patients in Northern Italy, who died of COVID-19 between February 29 and March 24, 2020. They discovered that all cases showed exudative and proliferative diffuse alveolar damage with massive capillary congestion, pneumocytic necrosis, hyaline membranes, interstitial and intra-alveolar oedema, type 2 pneumocyte hyperplasia, and squamous metaplasia with atypia. They also discovered that platelet-fibrin thrombi in the small arterial vessels consistent with coagulopathy were common features in COVID-19 patients. Inflammatory infiltrates in the alveolar lumina are composed mainly of macrophages and lymphocytes. Electron microscopy revealed that viral particles were predominantly located in the pneumocytes. The study also showed that 11% of the patients had bacterial abscesses, and 3% had a single fungal abscess, which was presumed to have formed after hospital admission. 71 Postmortem showed that COVID-19 is associated with diffused alveolar damage. This observation was consistent with the histological changes in tissues obtained by transthoracic needle biopsies from dead COVID-19 patients with GGO and respiratory failure. 110 Lung tissues collected by cryobiopsy from COVID-19 patients within 30 minutes of death showed marked fibrotic lung parenchymal remodelling, characterized by fibroblast proliferation, airspace obliteration, and micro-honeycombing. 111 During lung lobectomies, edema, prominent proteinaceous exudates, vascular congestion, and inflammatory clusters with fibrinoid material and multinucleated giant cells were discovered in two COVID-19 patients. 112 It is suggested that alveolar macrophage infiltration in COVID-19 is the driver of the cytokine storm, causing damage to the pulmonary tissues, heart and lung, and leading to multiple organ failures. 113 

The livers of patients that died of COVID-19 showed pathological lesions including myocardial hypertrophy, atherosclerosis, general interstitial fibrosis, mild myocardial edema, and atypical, minimal, focal, and perivascular interstitial fibrosis. Some patients showed low-grade interstitial mononuclear cell infiltrations, lymphocytic myocarditis, and endotheliosis. COVID-19 also causes liver disorder with changes including hepatic congestion, steatosis, cirrhosis, patchy hepatic necrosis, Kupffer cell hyperplasia, mild sinusoidal dilatation, hepatic endotheliosis. 114, 115 Brain There are only a few studies on neuropathological changes in COVID-19 patients. One study showed that among the neuropathological manifestations in COVID-19 were microthrombi and acute infarcts, hypoxic changes with no specific pathology or perivascular lymphocytic infiltration in the brainstem. 116 During the postmortem, the brain of COVID-19 patients revealed mild brain swelling and disseminated hemorrhagic lesions throughout cerebral hemispheric white matter, ranging from 1.0 mm to 1.0 cm in diameter, macrophage infiltration, and foci of intraparenchymal blood that disrupted the white matter. 117 Other histopathological changes in the brain include subarachnoid hemorrhages, hydrocephalus internus with acute hypoxicischemic encephalopathy of the hippocampus, and cerebral oedema. 118 Viral RNA was detected in the olfactory bulb of the brain stem. 119 COVID-19 patients also developed acute ischaemic stroke (4.6%) and intracerebral hemorrhage (0.5%), with the elderly at higher risk than young patients of developing cerebrovascular disease (CVD). 120

The kidneys of COVID-19 patients showed diffused proximal tubule injury with the loss of brush border, nonisometric vacuolar degeneration, and frank necrosis. Hemosiderin granules and pigmented casts were present in their kidneys and erythrocyte aggregates, without platelet or fibrinoid material, obstructing the capillaries in some old patients. Using electron microscopy, clusters of coronavirus-like particles with distinctive spikes were demonstrated in the proximal tubular epithelium and podocytes. 109 

Patients with severe COVID-19 are prone to develop thrombotic and/or thromboembolic events, such as PE, deep vein thrombosis (DVT), 114 arterial thrombosis, hypercoagulable coagulopathy, 121 and intracatheter thrombosis, 122 as well as disseminated intravascular coagulopathy (DIC). 123 These conditions showed that COVID-19 patients are predisposed to thrombotic diseases. However, the thrombotic risk is influenced by race and ethnicity, as evident by the fact that Chinese are at significantly lower risk for these manifestations of COVID-19 than Caucasians. Thrombosis occurs primarily in the pulmonary circulation due to in situ thrombi formation but without apparent embolism. Whether or not the formation of thrombi indicates COVID-19-related DIC is not clear. 124

Microbiological tests are mandatory in the diagnosis of COVID-19. 125 Among people who should undergo testing include those who developed fever and/or respiratory symptoms or showed lower respiratory tract (LRT) infection. The likelihood of a person contracting COVID-19 is higher in individuals with travel history or those in contact with suspected or confirmed cases of COVID-19. 125 However, due to limitations in testing capacity, CDC 126 and the Infectious Diseases Society of America (IDSA) 127 had listed the patient priorities for COVID-19 testing, including symptomatic severely ill individuals, front-liners, and individuals with risk factors.

The current tests used to diagnose COVID-19 cases are based on molecular viral and antiviral antibody assays. 128,129 On January 7, 2020, Chinese researchers shared the entire genetic sequence of SARS-CoV-2 through the National Institutes of Health GenBank 130 and the Global Initiative on Sharing All Influenza Data (GISAID) 131 databases. A combination of viral RNA sequences was developed for the RT-PCR and used under the Food and Drug Administration (FDA). 132 The most common sample used for detecting SARS-CoV-2 RNA is the upper respiratory tract (URT) or LRT specimens. 133 CDC recommended swab samples of URT, especially the nasopharyngeal specimen, as the best option for the initial diagnosis of COVID-19. Sample collection must be done with adequate precautions to avoid accidental transmission of the disease. 80, 134 Types and Sites of Sample for RT-PCR There are various types of samples and sites that are used for COVID-19 testing as follows: 80

The NP swab is the most common sample recommended by the CDC. 135 Other samples such as oropharyngeal (OP), nasal, and mid-turbinate swabs are used only when the NP swabs are not possible. 133 The swabs to be used in sampling should be of synthetic fibre with a plastic shaft. Other types of swabs should be avoided because they may produce erroneous test results. 133 For example, woodshafted swabs may affect the viral activity and the accuracy of RNA detection using PCR. The NP swab should be inserted deep into the nostrils and left in position for some time to allow thorough absorption of the secretion before extraction. 133

The OP swab is commonly used as an alternative to the NP swab in COVID-19 testing. 133 In cases when both the OP and NP swabs are taken, these swabs should be placed together in the same viral transport medium (VTM) transport tube to increase test sensitivity. The OP swab should be from the posterior pharynx and not the tongue. 133 Currently, there were insufficient data to determine whether the OP or NP swab is more sensitive for detecting the SAR-CoV-2. 136,137

The NMT is collected by health care professionals using a flocked-tapered and round foam swab and transported in a VTM container. 133 

A sterile container or a screw cap sputum collection cup is used to collect a few milliliters of aspirate. 133 Lower Respiratory Tract Aspirate (LRTA)

These sampling methods are among the most commonly used, especially in intubated patients under invasive ventilator treatment. 133 LRTA, particularly BAL, by its high viral load, is more sensitive to the determination of COVID-19 than URT. 80, 134 In fact, COVID-19 tests on BAL and NP swab samples are more sensitive than those performed on the sputum or OP swab. 80 NP would yield higher viral RNA yield than OP swabs.

A sputum sample is only used in COVID-19 patients with productive coughs. The expectorated sample should be the deep cough sputum. The induction sputum production is not recommended in patients without a cough. 133 Sputum was shown to be 72% positive for COVID-19, which second only to BAL in terms of PCR-positive results. 80 Blood Blood samples can be used in the diagnosis of COVID-19. 138 However, in a study on 205 COVID-19 patients, SARS-CoV-2-positive serum samples were detected in 1% of all cases, suggesting that blood tests are only helpful to determine when the disease has become systemic. 80 PCRpositive results from serum samples of COVID-19 patients may only become evident by day 7 of infection. 139 To examine that COVID-19 has become systemic, blood samples may be analyzed twice during acute and recovery stages. 138 Fecal and Anal Swabs COVID-19 can sometimes be detected in fecal 140, 141 and anal swabs. 140 Currently, the frequency and duration of SARS-CoV-2 shedding in stool is unclear. 138 For example, in blood, a stool sample may become positive for SARS-CoV-2 only after 7 days of infection. 139 It is shown that 29% of the fecal samples from COVID-19 patients were positive. 80 Anal swabs may sometimes be positive for SARS-CoV-2, even when the oral swabs are negative. 140 Urine It is not clear as to the rate and duration of viral shedding in urine. 138 In 72 confirmed COVID-19 cases, none of their urine samples were positive for SARS-CoV-2. 80 Urine samples may be negative for the virus even when fecal samples show positive results. 139

CRISPR is a rapid technique adapted for the detection of SARS-CoV-2. The method was first approved by USA-FDA, in early 2020, as an alternative test for COVID-19 detection. 142 The samples for the assay are similar to those used for RT-PCR. The assay, SARS-CoV-2 DETECTR, performs simultaneous recombinase polymerase amplification (RPA) and isothermal amplification using loopmediated amplification (LMA) from the extracted RNA, followed by Cas12 detection. 143 The benefit of the SARS-CoV-2 DETECTR assay over RT-PCR for the detection of COVID-19 is that it has a higher limit of detection, shorter assay reaction time and lesser amount of assay sample and does not require bulky instruments. 144

Both chest X-ray and CT scan were among the imaging techniques used to diagnose COVID-19 in the early stage of the disease when reliable test kits for microbial and molecular detection of the virus were not developed. 145, 146 However, the American College of Radiology did not recommend CT in the diagnosis of COVID-19 cases, claiming that the chest CT findings do not confirm COVID-19 or otherwise. 147 However, several studies have shown that there is an association between CT findings and COVID-19. [148] [149] [150] The sensitivity of chest CT chest was shown to be very high at 97%. The chest CT characteristics in COVID-19 cases are identical to pneumonia, with ground glass appearance, mainly bilaterally, with or without consolidation. 151, 152 The abnormalities were mainly in the lower lobes, peripheral tissues, and posterior section of the lungs. 150 Other less common CT findings in COVID-19 include pleural effusion and thickening, air bronchogram, and lymphadenopathy. 146, [148] [149] [150] The timing of the development of abnormal chest CT changes varies with the patient. In some patients, the CT changes precede symptoms and positive COVID-19 RT-PCR test, 40, 151 while in others, the changes develop after approximately 10 days of the symptoms. 150 Chest CT may be abnormal in asymptomatic patients. 153 In COVID-19, RT-PCR analysis may remain negative until late into the infection. In suspected COVID-19 cases, the CT findings show features characteristic of viral pneumonia, 40, 146 while RT-PCR tests remain negative. 154 Computed tomography pulmonary angiogram (CTPA) has limited usefulness but is still used in patients with severe COVID-19. 155 The scan is indicated in individuals with SARS-CoV-2 pneumonia, markedly elevated blood D-dimer values, and showing refractory or rapidly deteriorating hypoxemic respiratory failure. 156 

Lung ultrasound has been used as an alternative to chest X-Ray and CT to detect cases of COVID-19 pneumonia. 157 The lung ultrasound is easier, more economical, and safer than X-ray or CT for patients and health professionals. The technique can be used in suspected COVID-19 cases with negative RT-PCR tests or confirmed COVID-19 cases during management and follow-up. 158, 159 The ultrasonograph in COVID-19 cases may show bilateral abnormalities, including an irregular pleural line with small pleural consolidations, areas of the white lung, and thick, confluent and irregular B-lines. 157 Table 2 lists some of the reported changes in hematological and serum biochemical parameters in COVID-19 patients. The most common findings or abnormalities in the blood of COVID-19 patients are neutrophilia with lymphopenia. 160 These parameters may be used to determine the disease's severity and review the consequences of the treatment regimen. 161

The RT-PCR tests for the diagnosis of COVID-19 have several limitations, including the high occurrence of falsenegative results. Serological tests are more rapid than the RT-PCR tests, allowing for earlier detection of the COVID-19 cases. 162 The serological tests, based on the detection of serum antibody to SARS-CoV-2, are mainly performed on suspected COVID-19 patients showing symptoms consistent with COVID-19 but with negative RT-PCR test results. 133, 135 In this regard, in a small-scale survey in China, serological tests have shown that suspected COVID-19 cases with negative RT-PCR tests and without symptoms showed positive serum anti-SAR-CoV-2 IgG and/or IgM levels, which highlights the importance of serological testing to achieve more accurate estimates of the extent of the COVID-19 pandemic. 163 However, serological tests are plagued with cross-reactivity among coronaviruses. 164 A point-of-care lateral flow immunoassay had shown promise with the capacity to simultaneously detect anti-SARS-CoV-2 IgG and IgM antibodies within 15 minutes.- 162 The tests showed high sensitivity and specificity and can determine the rate and extent of an outbreak retrospectively.

In June 2020, the US FDA issued an emergency use authorization for next-generation sequencing in diagnosing COVID-19. The technique also allows for determining mutations in the SARS-CoV-2, which is crucial in the fight against the infection. 165

Viral cultures are beneficial for the isolation and characterization of the virus. However, for biosafety reasons, viral cultures are not recommended for the diagnosing of COVID-19. 166

Other respiratory pathogens besides SARS-CoV-2 may present similar symptoms as COVID-19. Co-infections can also complicate the diagnosis of COVID-19. 167, 168 Among the most common co-infecting pathogens, especially in the frail elderly COVID-19 patients include Staphylococcus aureus, Klebsiella pneumoniae, and human herpes virus. 169

COVID-19 has many clinical and radiological characteristics of pneumonia. Thus, it is imperative that during diagnosis, first rule out other respiratory viral infections that mimic COVID-19. 97 A rapid molecular assay to differentially diagnose COVID-19 has been developed. 170 The assay, QIAStat-Dx respiratory panel (QIAGEN, Milan, Italy) 171 can detect several pathogens such as adenovirus, bocavirus, 4 other types of coronaviruses, influenza, para-influenza viruses, human metapneumovirus, Bordetella pertussis, and other pneumonia-causing pathogens. 170 

The CDC suggested that when patients present with acute respiratory symptoms, clinicians should consider a differential diagnosis of COVID-19, influenza, and coinfections. 172 Co-infections are uncommon at diagnosis in COVID-19 patients. 173 Leukocytosis [185] Neutrophilia [195] Lymphopaenia [195] Thrombocyte Thrombocytopenia [189] Serum biochemistry Elevated C-reactive protein (CRP) [1, 203] Decreased ferritin [248] Elevated Lactate dehydrogenase (LDH) [181] Elevated alanine transaminase (ALT) [161] Elevated aspartate transaminase (AST) [161] Elevate alkaline phosphatase (ALP) [161] Elevated amylase [89] Elevated creatine kinase [161] Elevated blood urea nitrogen (BUN) [1] Elevated creatinine [1] Mostly normal procalcitonin [203] Hyperfibrinogenemia [161] Elevated D-dimer [156] Decreased D-dimer [249] https://doi.org/10.2147/IJGM.S339475

International Journal of General Medicine 2021:14

Superinfection in COVID-19 is associated with severe illness that may lead to poor outcomes due to circulatory and multiple organ failures. 97 Among the most common causes of superinfections in COVID-19 are Acinetobacter baumannii, Staphylococcus aureus and Aspergillus fumigatus. 175, 176 

Some patients suspected of COVID-19 may not present signs and symptoms typical of the disease. In one report, a COVID-19 patient twice tested negative for SARS-CoV-2 showed dyspnoea, coughs, and diffuse lung infiltrates first diagnosed to suffer from decompensated heart failure. This is an example of a "COVID-19 mimic". Some severe cases of COVID-19 may be asymptomatic or presented with non-specific signs of weakness and fatigue, and this is an example of "COVID-19 chameleon". These phenomena are common occurrences in COVID-19. 177

Although there are several compounds under development, there is no drug that is proven effective for treating COVID-19. 1, 178, 179 Currently, the treatment for COVID-19 is mainly supportive. There are, however, some encouraging results from the use of certain broad-spectrum antiviral drugs like nucleoside analogues and HIV-protease inhibitors that could attenuate viral infections. 180 Lopinavir/Ritonavir (LPV/r) In a hospital in Wuhan, China, treatment with LPV/r produced minimal clinical improvement or decreased the frequency of respiratory distress in COVID-19 patients. 181, 182 However, LPV/r treatment might help shorten the duration of viral shedding. 183 Patients treated with LPV/r showed unwanted side effects such as gastrointestinal symptoms. 182 Thus, further clinical trials are needed to evaluate LPV/r's efficacy in treatment. 184 Interferon Alpha (IFN-α) IFN-α nebulizations and sprays are used in COVID-19 treatment. 185 IFN-α 2b, when used in combination with other antiviral drugs, has been shown to contribute to complete recovery for COVID-19. 186, 187 Subcutaneous injection of IFN-α 2b combined with LPV/r shortened the length of hospitalization and accelerated viral clearance in COVID-19 patients. 187 However, the IFN-α 2b treatment must be applied with precautions because overdoses can cause myelosuppression and affect the liver and renal functions.

Remdesivir is a nucleotide analogue broad-spectrum antiviral agent. An early study showed that remdesivir was effective in shortening the recovery time in adults hospitalized with COVID-19. 188, 189 However, human clinical trials have shown that the drug is ineffective, fails to prevent death in severe COVID-19 patients, and has side effects. 190 Subsequently, the WHO issued a recommendation against the use of remdesivir in hospitalized COVID-19 patients, citing that there is no clear evidence on the effectiveness of the drug in improving the outcome of these patients. 191 However, a very recent study showed that remdesivir is more effective and safer than standard care of treatment for the COVID-19 because it is associated with faster time to clinical improvement, reduction in mortality rate, and fewer incidence of serious adverse events. 192 

Ribavirin is a guanosine analogue antiviral compound that has been used to treat infections caused by respiratory syncytial and hepatitis C viruses and viral hemorrhagic fever. However, there is no clear evidence that Ribavirin is beneficial in the treatment of COVID-19. Ribavirin reduces hemoglobin concentrations, an undesirable side effect in patients with respiratory disorders, compromising its potential as an antiviral against COVID- 19. 193 

There are conflicting reports regarding the efficacy of chloroquine and hydroxychloroquine in the treatment of COVID-19. In vitro studies have shown that chloroquine is effective in inhibiting COVID-19 viral replication. Chloroquine or hydroxychloroquine block viral infections by interfering with the glycosylation of cellular receptors for the virus. 194 The mechanism of action of chloroquine and hydroxychloroquine on SARS-CoV-19 are the same; however, hydroxyl-chloroquine may be more effective than chloroquine in reducing viral load. 195 The antiviral effect of hydroxychloroquine is reinforced by the use of azithromycin. 196 

Arbidol is a potent broad-spectrum antiviral agent with activity against enveloped and non-enveloped viruses. Arbidol exerts its antiviral effect by blocking viral fusion with cells and inhibiting viral entry. 197 DovePress the treatment of COVID-19 with variable results. In fact, Arbidol is shown to be superior to LPV/r in the treatment of Favipiravir Favipiravir is an RNA-dependent RNA polymerase (RdRp) inhibitor. The favipiravir derivative, ribofuranosyl triphosphate, targets the influenza RdRP. 199 In moderately severe, nonventilated COVID-19 patients, Favipiravir improved time to clinical recovery and decreased mortality rate. 200

Early use of low-dose corticosteroids, especially dexamethasone, prednisone, and methylprednisolone, for a short duration was found to be useful in improving symptoms of COVID-19. 201, 202 However, there is no published evidence that corticosteroid treatment is effective against this disease. Corticosteroids have immunosuppressive properties and are thus not recommended for use to treat COVID-19 unless indicated. 203

Serum antibodies are effective against MERS and SARS coronavirus infections. Immunoglobulins have the advantage of providing protection against common infections, large donor pool, and commercial availability, while hyper-immune serums provide targeted immunity. 204

Teicoplanin, a glycopeptide antibiotic routinely used to treat bacterial infections, was found to produce in vitro anti-SARS-CoV-1 effect. The compound is among a list of alternative or complementary molecules used as therapeutic agents for COVID-19. 205 Teicoplanin inhibits cleavage of viral spike protein by cathepsin L at the late stage of viral life cycles, thus, preventing the release of viral genomic RNA and curbing viral replication. 206 The drug appears to have similar effects on SAR-CoV-2, making it a potential compound in the treatment of COVID- 19. 207 Heparin COVID-19 patients at high risk of thromboembolic disease. 208 The hypercoagulability state associated with the disease requires additional therapeutic interventions like the use of heparin. 209 However, the use of prophylactic heparin in COVID-19 is still contentious. 210 There are other anticoagulants and antiplatelet agents that can be used as alternatives to address the hypercoagulability state in COVID- 19. 211 Aspirin Aspirin, an anti-inflammatory and antiplatelet agent, can prevent the development of a hypercoagulability state and reduce the risk of thromboembolic incidence in COVID-19 patients. 212 The drug also reduces the risk of death in patients with severe COVID-19. 213, 214 Ivermectin Ivermectin is an oral anthelmintic that is used to paralyze and kill gastrointestinal parasites. Recently, ivermectin was shown to inhibit SARS-CoV-2 replication in vitro. 215 The drug inhibits viral replication by inhibiting viral protein movement within the cell. Based on the in vitro data, the equivalent dose required to produce antiviral effects in the human body exceeds the recommended therapeutic dose, thus, not practical for human use. 216 However, very recently, a meta-analysis of randomized clinical trial studies suggests that ivermectin may offer beneficial effects towards COVID-19 outcomes. 217

Inflammatory cytokine storm is a common manifestation in COVID-19. In severely ill patients, the concentration of pro-inflammatory cytokines, such as IL-6, tended to be high. High cytokine levels indicate a poor prognosis in COVID-19. 218 Thus, among the complementary therapeutic approaches in COVID-19 is the management of the inflammatory responses. Among the anti-inflammatory drugs shown to reduce the risk of hospitalization in COVID-19 patients are colchicine, 219 prostaglandins nonsteroidal and anti-inflammatory drugs, 220 except ibuprofen. 221 Carprofen, a human and celecoxib, a veterinary anti-inflammatory drug, also inhibited a crucial enzyme in the replication and transcription of SARS-CoV-2.

The most critical support for patients with respiratory distress and/or hypoxemia is oxygenation. Convention oxygen therapy may not be sufficient in adults COVID- 19 patients with acute hypoxemic respiratory failure. In these patients, depending on severity, oxygenation may be supplied either by high-flow nasal cannula, endotracheal intubation, or invasive mechanical ventilation. The target for optimal oxygen saturation in adults with COVID-19 is 92% to 96%. In cases of severe lung failure, extracorporeal membrane oxygenation (ECMO) is used to re-establish pulmonary gas exchange. 222 The estimated mortality in patients with severe COVID-19 who received ECMO is <40%. 223

Severe COVID-19 is associated with circulatory and cardiac involvement, which can be fatal. 224, 225 Venovenous extracorporeal membrane oxygenation (VV-ECMO) support is often instituted in patients with COVID-19-related acute hypoxaemic respiratory failure. This treatment is only appropriate in patients with cardiac disease. In COVID-19 patients with heart failure and decreased cardiac output, it is necessary to institute extracorporeal life support (ECLS). 222

Blood purification treatment comprising plasma exchange, perfusion, absorption, and blood/plasma filtration 226 can be applied during the cytokine storm at the early and middle stages of COVID-19. The treatment removes inflammatory factors that could potentially cause damage and death to severely ill COVID-19 patients. 227

Tocilizumab is a humanized monoclonal antibody against the IL-6 receptor. IL-6, a pro-inflammatory cytokine implicated in the pathogenesis of many diseases. Although recommended for use in COVID-19 patients to reduce lung tissue inflammation, 228 tocilizumab did not appear to be effective in preventing death in moderately ill hospitalization patients. 229 However, a very recent meta-analysis study showed that tocilizumab treatment is associated with a reduction of mortality rate from COVID-19 but did not alter the severity of the disease and length of hospital stay; thus, it does not support the routine use of tocilizumab for COVID-19 patients. 230

The COVID-19 convalescent plasma (CP) is a source of anti-SARS-CoV-2 antibodies. It can potentially induce passive immunization in the COVID-19 patients 231 to improve viral clearance and destroy virus-infected cells through cell-mediated cytotoxicity. 232 CP treatment may be used in hospitalized patients with rapid disease progression. 233 The treatment was shown to increase lymphocyte counts, inflammation markers, and enzymes of inflammation like C-reactive protein (CRP), alanine aminotransferase (ALT) and aspartate aminotransferase (AST). However, CP treatment did not reduce the progression of COVID-19 while showing potential for adverse transfusion events, circulatory overload, and anaphylaxis. 234

Six efficacious vaccines for COVID-19, by Pfizer Inc. and BioNTech SE, Moderna, Oxford-AstraZeneca, Gamaleya Research Institute, Sinopharm, and Sinovac are now available.

The Pfizer-BioNTech BNT162b2 (generic name tozinameran, brand name Comirnaty) mRNA vaccine encapsulated in lipid nanoparticles with an efficacy rate of 95% requires refrigeration at −70°C for transportation.

The Moderna vaccine, mRNA-1273, is also an mRNA vaccine encapsulated in lipid nanoparticles. The mRNA-1273 has an efficacy rate of 94.1% and is stable for 6 months while requiring less stringent transportation conditions at −20°C than BNT162b2. 235

The Oxford-AstraZeneca AZD1222 vaccine, also known as ChAdOx1 nCoV-19 vaccine, uses a vector, the modified chimpanzee adenovirus ChAdOx1. The AZD1222 is stable below the average refrigerator temperature. 190 

The Gamaleya Research Institute of Epidemiology and Microbiology, Russia, developed the Gam-COVID-Vac, trade-name Sputnik V, primarily approved for use in Russia. 236 Sputnik V is a viral two-vector vaccine based on two human common cold adenoviruses formulated as frozen (storage temperature −18°C) and freeze-dried (storage temperature 2-8°C) dosage forms. 237 

Vitamin D Several dietary supplements and drugs have been recommended to enhance immunity and reduce the risk of acquiring COVID-19. 239 Vitamin D is recommended for COVID-19 patients because the level of this vitamin is markedly low in severe COVID-19 patients, while vitamin D-deficient patients show high inflammatory responses. 240 Vitamin D as an anti-inflammatory supplement offers beneficial effects 241 that suppresses viral replication, reduces the development of pneumonia, 242 and reduces mortality in COVID-19. 243 Vitamin C Vitamin C (ascorbic acid) is a water-soluble vitamin that is believed to have beneficial effects in patients with severe and critical illnesses. 244 Vitamin C plays a role in the prevention and treatment of viral infections by scavenging free oxygen radicals, reducing the accumulation of pro-inflammatory cytokines, and enhancing antimicrobial ability. 245, 246 There is insufficient data to consider vitamin C as a complementary treatment for COVID-19. 244 However, vitamin C is suggested to be administered to severe cases of COVID-19 because of its safety profile, low cost, and potential for rapid upscaling of production. 247, 248 In this regard, Hiedra et al in the USA found a significant decrease in inflammatory markers (ferritin and D-dimer) and a trend to decrease FiO2 requirements after intravenous vitamin C administration in seventeen COVID-19 patients. 249 

The trace mineral zinc is hypothesized to prevent viral attachment to the nasopharyngeal mucosa and inhibit viral replication. One study showed that zinc inhibits RNA polymerase and plays a central role against coronavirus infections. 250 Zinc is essential in preserving tissue barriers, such as the respiratory epithelium that prevents entry of pathogens into cells, the immune and redox system and prevents progression of Famotidine Famotidine is a histamine-2 receptor antagonist (H2RA) that is used to prevent gastrointestinal ulceration. H2RA was found to inhibit HIV replication. 251 Thus, the drug was suggested as an optional prophylactic medication in COVID-19. In a recent retrospective study, among hospitalized COVID-19 patients, the use of famotidine was linked to the reduction in disease deterioration. 252 This may suggest that the effect of H2RA is beyond anti-acid activity but also has a potential complementary drug in COVID-19 since it improves clinical outcomes in nonhospitalized patients. 253

Although some drugs are being investigated, there is currently no effective treatment for COVID-19. Fortunately, several newly developed vaccines have proven to be highly efficacious for the disease. However, until sufficient herd immunity is achieved in the population, precautions, such as wearing masks, avoiding crowds, social distancing, and regular washing of hands, are still imperative to prevent the further spread of the disease.

There are many risk factors associated with COVID-19 infection and its severity, including age, sex, sociodemographic behavior, comorbidities, and the psychological condition of the patient. Older adults and healthcare workers are particularly susceptible to the COVID-19. For that reason, these people were among the first groups scheduled to receive the vaccine. Although COVID-19 is primarily a pulmonary disease, it is also associated with cardiac, dermatologic, haematological, hepatic, neurological, and renal complications. The critically COVID-19 patients are particularly at high risk for thromboembolic events. Although the immediate clinical manifestations of the COVID-19 are generally clear, the long-term effect of the disease is still unknown. The role of vertical transmission in neonates and the incidence of COVID-19 in children is not clear. However, immunocompromised children and those with underlying cardiovascular disorders are at risk of acquiring the severe disease.

The emergence of a new strain of SARS-CoV-2 is causing concern. The new strain appears to spread quickly but does not seem to cause anymore severe COVID-19. The current vaccines appeared to be efficacious in the https://doi.org/10.2147/IJGM.S339475

International Journal of General Medicine 2021:14 prevention of infection by the new SARS-CoV-2 strain. However, the data are still preliminary, and the long-term effect of disease by the new SARS-CoV-2 strain is still unknown.

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Chloroquine to fight COVID-19: a consideration of mechanisms and adverse effects?

Arbidol: a broadspectrum antiviral compound that blocks viral fusion

Arbidol monotherapy is superior to lopinavir/ritonavir in treating COVID-19

Favipiravir (T-705), a broad spectrum inhibitor of viral RNA polymerase

Favipiravir: a new and emerging antiviral option in COVID-19

low-dose and short-term application of corticosteroid treatment in patients with severe COVID-19 pneumonia: single-center experience from Wuhan, China

Clinical evidence does not support corticosteroid treatment for 2019-nCoV lung injury

Immunoglobulins in the treatment of COVID-19 infection: proceed with caution!

Teicoplanin potently blocks the cell entry of 2019-nCoV

Glycopeptide antibiotics potently inhibit cathepsin l in the late endosome/lysosome and block the entry of Ebola virus, middle east respiratory syndrome coronavirus (MERS-CoV), and severe acute respiratory syndrome coronavirus (SARS-CoV)

Teicoplanin: an alternative drug for the treatment of coronavirus COVID-19

Thromboembolic disease in COVID-19 patients: a brief narrative review

Heparin as a therapy for COVID-19: current evidence and future possibilities

Anticoagulation in COVID-19

Anticoagulant therapy for patients with coronavirus disease 2019: urgent need for enhanced awareness

Aspirin could protect against severe COVID-19

Aspirin use significantly reduces risk of death in hospitalized COVID-19 patients

Is acetylsalicylic acid a safe and potentially useful choice for adult patients with COVID-19? Drugs

The FDA-approved drug ivermectin inhibits the replication of SARS-CoV-2 in vitro

Ivermectin is still not a miracle cure for COVID-19, despite what you may have read

Ivermectin and outcomes from Covid-19 pneumonia: a systematic review and metaanalysis of randomized clinical trial studies

Cytokine storm in COVID-19: the current evidence and treatment strategies

Anti-inflammatory therapy for COVID-19 infection: the case for colchicine

Non-steroidal anti-inflammatory drugs, prostaglandins, and COVID-19

Covid-19: Ibuprofen Should Not Be Used for Managing Symptoms, Say Doctors and Scientists

The Role of Mechanical Circulatory Support in COVID 19 Patients

Extracorporeal membrane oxygenation support in COVID-19: an international cohort study of the Extracorporeal Life Support Organization registry

Potential effects of coronaviruses on the cardiovascular system: a review

Approach to acute cardiovascular complications in COVID-19 infection

Blood purification treatments in COVID-19

Expert recommendations on blood purification treatment protocol for patients with severe COVID-19

Tocilizumab for treatment patients with COVID-19: recommended medication for novel disease

Efficacy of tocilizumab in patients hospitalized with Covid-19

Efficacy and safety of tocilizumab for coronavirus disease 2019 (Covid-19) patients: a systematic review and meta-analysis

Convalescent plasma: new evidence for an old therapeutic tool?

Convalescent plasma in Covid-19: possible mechanisms of action

Convalescent plasma as a potential therapy for COVID-19

Convalescent plasma therapy: an effective therapeutic option to treat COVID-19? A narrative review

Remdesivir fails to prevent covid-19 deaths in huge trial

Russia's fast-track coronavirus vaccine draws outrage over safety

Safety and immunogenicity of an rAd26 and rAd5 vector-based heterologous prime-boost COVID-19 vaccine in two formulations: two open, non-randomised Phase 1/2 studies from Russia

Exclusive: Russia focuses on freeze-dried vaccine doses as transport fix

Role and effects of micronutrients supplementation in immune system and SARS-Cov-2 (COVID-19)

Analysis of vitamin D level among asymptomatic and critically ill COVID-19 patients and its correlation with inflammatory markers

Vitamin D supplementation and Covid-19 outcomes: a systematic review, meta-analysis and meta-regression

Evidence that vitamin D supplementation could reduce risk of influenza and COVID-19 infections and deaths

The role of vitamin D in the prevention of coronavirus disease 2019 infection and mortality

COVID-19 treatment guidelines. Vitamin C

Vitamin C as a possible therapy for COVID-19

The Antiviral Properties of Vitamin C

Vitamin C may reduce the duration of mechanical ventilation in critically ill patients: a meta-regression analysis

The emerging role of vitamin C in the prevention and treatment of COVID-19

The use of IV vitamin C for patients with COVID-19: a case series

Zinc salts block hepatitis E virus replication by inhibiting the activity of viral RNAdependent RNA polymerase

The effect of histamine type 2 receptor antagonists on human immunodeficiency virus (HIV) replication: identification of a new class of antiviral agents

Famotidine use is associated with improved clinical outcomes in hospitalized COVID-19 patients: a propensity score matched retrospective cohort study

Famotidine use and quantitative symptom tracking for COVID-19 in non-hospitalised patients: a case series

The authors declare no conflicts of interest related to this work/review article.

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