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The level of risk, effects response to potential health emergencies, prevention and control method of COVID-19: A systematic review

Article type: Research Article

Authors: Gebru, Addis Aderaj; l; m; * | Birhanu, Tadesseb | Wendimu, Eshetuc | Ayalew, Agumas Fentahunn | Mulat, Selamawitd | Abasimel, Hussen Zakire | Kazemi, Alif | Tadesse, Bosenu Aberag | Gebru, Beniam Aderah | Deriba, Berhanu Senbetaa | Zeleke, Nigus Shimelisi | Girma, Abebe Guleb | Munkhbat, Bulgantsetsegb | Yusuf, Qamar Kassimk | Luke, Amana Ogetol | Hailu, Dejeneo

Affiliations: [a] Department of Public Health, College of Health Sciences, Salale University, Fitche, Ethiopia | [b] Department of Animal Sciences (Specialist on Infectious Diseases), College of Agriculture and Natural Resources, Salale University, Fitche, Ethiopia | [c] Research and Community Services Vice President, Salale University, Fitche, Ethiopia | [d] Injibara Woreda Health Office, Regulatory Officer, Injibara, Ethiopia | [e] Department of Midwifery, College of Health Sciences, Salale University, Fitche, Ethiopia | [f] Department of Health Economics, School of Public Health, Research Center for Environmental Determinants of Health, Kermanshah University of Medical Sciences, Kermanshah, Iran | [g] Department of Animal Sciences, College of Agriculture and Natural Resources, Salale University, Fitche, Ethiopia | [h] Addis Ababa City Adminstration Public Procurement and Materials, Addis Ababa, Ethiopia | [i] Department of Sociology, College of Social Sciences and Humanities, Salale University, Fitche, Ethiopia | [j] International Relation Directorate Director, Salale University, Fitche, Ethiopia | [k] Northern Counties Community Empowerment, Garissa, Kenya | [l] Department of Public Health, Reft Valley University, College of Health Sciences, Abichu Campus, Addis Ababa, Ethiopia | [m] Department of Public Health, College of Health Sciences, Kotebe Metropolitan University, Addis Ababa, Ethiopia | [n] Department of Public Health, College of Health Sciences, Woldia University, Woldia, Ethiopia | [o] Department of Nursing, College of Health Sciences,

Correspondence: [*] Corresponding author: Addis Adera Gebru, Directorate of Director for International Relation and partnership, Department of Public Health, College of Health Sciences, Salale University, Fitche, Salale, Ethiopia. Tel.: +251984811393; E-mail: addisaderagebru@gmail.com;addis_adera@slu.edu.et;international_relation@slu.edu.et.

DOI: 10.3233/HAB-200421

Journal: Human Antibodies, vol. 29, no. 2, pp. 149-169, 2021

Published: 19 May 2021
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Abstract

BACKGROUND:

COVID-19 is currently the major public health burden in the world, with disease and death in the global community from COVID-19 increasing rapidly from time to time worldwide. However, there has been a lack of well-organized information about the level of risk, effects, prevention and control methods of the disease. Therefore the aim of this study is to identify and review a published level of risk, effects response to potential health emergencies, prevention, and control methods of COVID-19 at a global level.

METHOD:

A systematic review was performed after literatures were identified by searching the following online databases: medRxiv, Google scholar, PubMed, MEDLINE, EMBASE, and the Cochrane Library with supplementary hand searching of conferences. The online databases contain archives of most English biomedical journals. Scientific papers published online by the Center for Disease Control and the World Health Organization were also included for this analysis. The scientific publications from 01 December, 2019 to 13 April 2020 were included. The ‘COVID-19’, ‘2019 novel coronavirus’, ‘2019-nCoV’, ‘novel coronavirus’, and ‘Pneumonia’ key search terms were used for this review.

Twenty articles published in reputable journals met the inclusion criteria, representing 20 articles analyses. Of these, 11 (55%) were from China and 3 (15%) from the USA. All 20 were statistical analyses of individual patient data, while 33 used decision-analytic modeling. The overall structures were most commonly described as being Markov (n= 27) but, the methods were heterogeneous. The World Health Organization (WHO) reported that most frequently world communities including healthcare providers were ‘alive’ or ‘dead’, with COVID-19 related outcomes such as hospitalization and other enclosed action of class distribution most commonly considered as a partition of the ‘alive’ state. Different approaches to modeling the effects of COVID-91 prevention and control interventions on mortality were used; treatment effects were applied to cardiovascular mortality and all-cause mortality in nine and 20 studies (among the 33 decision-analytic models), respectively. Across included studies, the time horizon ranged from within-trial to lifetime. Outcomes were frequently sensitive to baseline risks of mortality and hospitalization, the relative efficacy of interventions, and unit costs of interventions.

The findings from the identified literature showed that the morbidity and mortality rate, including urgent hospitalization, was increasing from day to day. Therefore, all countries should implement COVID-19 prevention and control programes. Moreover; urgent global collaboration is needed to design effective prevention and control strategies as soon as possible.

Keywords: Coronavirus disease 2019, Level of risk, Potential health Emergencies, Prevention and Control

1.Background

Coronavirus had been observed to cause epidemic diseases since 2003, and it has also caused many community health problems that resulted in globally serious issues. Moreover, these cases consecutively occurred as a severe acute respiratory syndrome (SARS), middle east respiratory syndrome (MERS), and Coronavirus disease 2019 (COVID-19) [1]. There is a new community health problem threatening the globe with the emergence and spread of COVID-19 or the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). The virus started in bats and was transmitted to humans through as yet unknown intermediary animals in Wuhan, Hubei province, China in December 2019 [2].

COVID-19 is basically transmitted by respiratory droplets and close contact. Pulmonary function testing procedures have been associated with an increased risk of COVID-19 transmission from clients and health professionals [3]. The changing transmission situations, specifically, nosocomial transmission and spread through mildly symptomatic cases, is a range of concern. There is a range of signs and symptoms from mild to serious disease with major complications such as severe pneumonia, ARDS, acute cardiac injury and septic shock. Bilateral ground-glass opacity and consolidation on imaging with possible clinical features should raise a suspicion about COVID-19. Destitute prognostic regions such as multilobular infiltration on chest imaging, lymphopenia, bacterial co-infection, smoking history, chronic medical conditions like hypertension, and age > 60 years (MuLBSTA score) [4]. The COVID-19 outbreak that started in Wuhan, Hubei province, China on 31 December, 2019 is now a pandemic with > 100,000 cases and 3,000 deaths reported in 93 countries as of 07 March 2020. One COVID-19 infection report describes a 64-year-old man who developed rapidly worsening respiratory failure and acute respiratory distress syndrome (ARDS) that required intubation. As the clinical spectrum of COVID-19 ranges widely from mild illness to ARDS with a high risk of mortality, there is a need for more research to identify early markers of disease severity [5].

The Chinese authorities restricted some travel in an attempt to stop the illness from 23 January 2019 and China’s financial markets remained closed until Monday 03 February 2019 after authorities extended the Lunar New Year holiday break by three days. The disease then rapidly spread all over the world. The WHO then declared this disease a pandemic on 11 March 2020.

A cluster of patients with pneumonia of unknown cause was linked to a seafood wholesale market in Wuhan, China. A previously unknown betacoronavirus was discovered through the use of unbiased sequencing in samples from patients with pneumonia. Human airway epithelial cells were used to isolate a novel coronavirus, named COVID-19 which formed a clade within the subgenus sarbecovirus, orthocoronavirinae subfamily. Different from both MERS-CoV and COVID-19; SARS-CoV-2 is the seventh member of the family of coronaviruses that infect humans. Enhanced surveillance and further investigation are ongoing (Funded by the National Key Research and Development Program of China and the National Major Project for Control and Prevention of Infectious Disease in China) [6].

Data are lacking on the impact of Middle East Respiratory Syndrome (MERS) on health-related quality of life (HRQoL) among survivors. Functional scores were similar for MERS and non-MERS SARI survivors. However, MERS survivors of critical illness reported lower quality of life than survivors of less severe illness. Efforts are needed to address the long-term medical and psychological needs of MERS survivors [7]. The first Chinese data published seem to show that the symptoms in pregnant women are the same as those of the general population. There are no cases of intrauterine maternal-fetal transmission, but cases of newborns infected early suggest that there could be vertical prepartum or neonatal transmission. Induced prematurity and cases of respiratory distress in newborns of infected mothers have been described. Pregnancy is known as a period at higher risk for the consequences of respiratory infections, as for influenza, so it seems important to screen for Covid-19 in the presence of symptoms and to monitor closely pregnant women. In this context of the SARS-Covid-2 epidemic, the societies of gynecology-obstetrics, infectious diseases, and neonatology have proposed a French protocol for the management of possible and proven cases of SARS-Covid-2 in pregnant women [8].

Predicting the number of new suspected or confirmed cases of COVID-19 is crucial in the prevention and control of the COVID-19 outbreak. Social media search indexes (SMSI) for dry cough, fever, chest distress, coronavirus, and pneumonia were collected from 31 December 2019 to 9 February 2020. The new suspected cases of COVID-19 data were collected from 20 January 2020 to 09 February 2020 [9].

The COVID-19 pandemic is first and foremost a humanitarian crisis. Efforts to contain the virus and support those directly impacted are of utmost importance. The COVID-19 pandemic is an unprecedented global shock that magnifies the impact of inequality, hitting the poor the hardest. In developed countries, frontline workers in the service economy are among the most exposed to the virus and the least able to absorb its financial impact. The hardest hit will be the poor in developing countries, where already-struggling workers will not have the benefit of social safety nets and stimulus packages. The G7 and G20 must immediately help these countries to finance the flattening of the pandemic curve. Longer-term, we must redouble efforts to foster sustainable economic systems, including fair trade and investment [10].

Awareness and attentiveness have implications for the acceptance and adoption of disease prevention and control measures. Social media posts provide a record of the public’s attention to an outbreak [11]. The effect of corona discharge-generated air ions on the filtration of aerosolized bacteriophage MS2 was studied. A carbon-fiber ionizer was installed upstream of a medium-efficiency air filter to generate air ions, which were used to charge the virus aerosols and increase their filtration efficiency. After the virus aerosols were captured by the filter for a certain time interval, they were exposed to a new incoming air ion flow [12].

The emergency that the world faces today demands that we develop urgent and effective measures to protect people at high risk of transmission. WHO has accelerated research in diagnostics, vaccines, and therapeutics for this novel Coronavirus [13]. The aim of this review study is to identify and review a published level of risk, effects response to potential health emergencies, prevention, and control method of the COVID-2019 outbreak. This review will serve to provide well-organized information for the global community in this regard.

2.Method

The method was used to asses level of risk, effects response to potential health emergencies, prevention, and control method of Coronavirus disease 19 from published and unpublished works worldwide. The following procedures are used in this review; choosing appropriate research objective and search strategies; collecting important articles; choosing research articles; extracting and recording of data; finally, summarization, discussion, analyzing, and reporting the results were conducted.

3.Literature search strategies

A systematic review was performed after literatures were identified by searching the following online databases: medRxiv, Google scholar, PubMed, MEDLINE, EMBASE, and the Cochrane Library with supplementary hand searching for conferences. The online databases contain archives of most English biomedical journals. Additionally, Scientific papers published online by the Center for Disease Control and the WHO and reputable organizational recognized websites from health sectors and other related sectors and /organizations were included.

This strategy was utilized to decide the precision of the results by comparing them within the related articles from different reputable and key important sources. The review is based on peer-reviewed journal articles on “level of risk, to potential health emergencies, “effects response to potential health emergencies, and prevention and control methods” that were published from 31 December 2019 to 20 April 2020. This time span was chosen because the current diseases outbreak and its up-to-date information is important to justify and address the objective of the review articles. The ‘COVID-19’, ‘2019 novel coronavirus’, ‘2019-nCoV’, ‘novel coronavirus, and ‘Pneumonia’ key search terms were used in this review.

Firstly, all searched articles using inclusive criteria were assessed, then after assessing all titles and content of the articles, the value of the articles to address the aim of this study was assumed, and examined. The terms used for searching related articles were “potential health” “emergencies”, “prevention”, “control”, “Coronavirus-2019” pandemic diseases”, “viral infections”. Also “risk and effect response” and “emergency preparedness” were used together to search the articles from different key relevant databases and official governmental and nongovernmental websites including reports.

The investigators have used the Effective Public Health Practice Project Quality Assessment Tool (EPHPP) (EPHPP, 2020) to assess the quality of quantitative research in this review. This instrument had ordinal scoring for the following components: selection bias, study design, confounders, blinding, data collection methods, withdrawals and dropouts. It helps to assess review study quality and develop recommendations for study results. Each component was rated strong, moderate, or weak, and these ratings were also combined into a global quality rating (strong, moderate, or weak). Two reviewers assessed the quality, and discrepancies were resolved by discussion.

3.1Inclusion and exclusion criteria

The research team read the titles and decided to include articles in the review regarding the following criteria: the study included relevant key instruments to collect raw data including media and other information on the level of risk and effects response to potential health emergencies, prevention, and control method of COVID- 2019 outbreak inclusion of only Novel COVID-19; SARS-CoV-2 outbreak which is currently critically and life-threatening cause of the pandemic disease globally. All articles that were published between 01 December 2019 and 13 April 2020, and those published in English were eligible for the analysis.

From those searched studies that didn’t meet these criteria were excluded. This review is focused on the level and/or extent of emergency response for slow COVID-19 transmission, the effects of response to potential health emergencies towards COVID-19 and how to prevent, and control COVID-19. Furthermore, the review identified the main characteristics of COVID-19, effects of emergency preparedness and prevention, and control by hand washing using soap and sanitizer, isolation, quarantine, far from infected and suspected persons, and emergency contact with healthcare provider if there are any symptoms of COVID-19. All abstracts were excluded from this review article. For instance, articles about the impact of a severe acute respiratory syndrome (SARS) care on the general health status of healthcare workers, Middle East Respiratory Syndrome (MERS), and other than directly related to the COVID-19 outbreak were excluded from this review.

3.2Data collection and analysis

After the literature search, articles were screened independently by two reviewers for eligibility. A third reviewer was consulted to resolve disagreements. We included studies published in English. Two reviewers had independently reviewed the titles, authors, published year, and abstracts against eligibility criteria.

3.3Prisma flow diagram

The research team has searched a total of 132 articles. The titles, summary or abstract, and the whole body of each article were then checked for their relevance and suitability to be included in the analyses. Finally, a total of 20 articles were found to be eligible [Fig. 1].

Figure 1.

PRISMA Diagram (Source: Moher, D., Liberati, A., Tetzlaff, J., Altman, DG. The Prisma group (2009). Preferred/Reporting/ Items for systematic Reviews and Meta-analysis: The Prisma Statement.PLOs Med, 6(7): e1000097. dpi: 10.137/journal.pmed10000097).

PRISMA Diagram (Source: Moher, D., Liberati, A., Tetzlaff, J., Altman, DG. The Prisma group (2009). Preferred/Reporting/ Items for systematic Reviews and Meta-analysis: The Prisma Statement.PLOs Med, 6(7): e1000097. dpi: 10.137/journal.pmed10000097).

4.Results

From the total of 20 reviewed studies, 11 (55%) were conducted potential health emergency, prevention, and control methods of COVID-19 outbreak COVID-19 in China in 2020. This indicated that almost all (100%) of the studies were employed from 31 December 2019 and 13 April 2020. Among those, 11 (55%) researches were conducted in China [16, 18, 20, 21, 22, 23, 28, 29, 30, 32, 33]. About 3 (15%) researches were studied in the USA [17, 26, 27]. The remaining studies (30%) were conducted in Brazil (5%), Switzerland (5%), California (5%), Korea (5%), Hong Kong (5%), and India (5%) respectively [14, 16, 19, 24, 25, 31]. The ocurance of pandemic COVID-19; SARS-CoV-2 outbreak situation starts from Wuhan, Hubei city, China and transmitted to world countries with diseases manifest itself for all communities without age, gender, ethnicity, religious, position, authority, education, occupation, country, regions, richness, poorness, and color differences among the world population. Eleven of twenty reviewed studies were conducted, suspected cases and deaths reported as well.

Among 20 studies, 6 (30%) studies analyzed the vulnerability of patients and health professionals with COVID-19 and investigate the clinical outcome of patients with moderate type of COVID-19 after discharged by retesting viral nucleic acid, the epidemiological charactesrtics and dynamics of confirmed COVID-19 cases related with the transmission in Incubation periods of first cases, transmision and its association with population emigration [14, 25, 28, 29, 32, 33] and, followed by 4 (20%) studies analyzed the development of institutional algorism to protect operating-room team members during the COVID-19 pandemic and rationally conserve personal protective equipment, the incidence of COVID-19 infection among people under home quarantine and its effectiveness and great attention of a pre-established nationally representative Cohort of Weibo user was searched for COVID-19 related key words in their posts [19, 20, 23, 25].

About 3 (15%) studies analyzed the effectiveness of the school closure effects on the COVID-19; SARS-COV-2 outbreak, the public health investigation of a mildly ill, non hospitalized COVID-19 case who traveled to China and how the healthcare provider can support all communities to relieve existing health security capacities against public health risks and events [15, 24, 26], 2 (10%) studies analyzed the available evidence about COVID-19 and the International community with a deeper understanding of this new infectious diseases [16, 31], 2 two studies (10%) analyzed the investigating the content of You-tube videos related to COVID-19 gaps in the current knowledge and the incidence of 2019-nCoV infection among people under home quarantine [23, 27].

The remaining 3 (15%) studies analyzed the response from various health sectors as such district to generalized hospitals, private and public hospitals, health centers, clinics, and temporary emergency response centers including all other sectors waiting area, the regional blood center, and the hospital-based transfusion services to the events that took place in the community phases of COVID-19 pandemic [17].

The role of the newly established and technological product of internet hospitals during the prevention and control of Novel 2019 infectious pandemic diseases outbreak (COVID-19; SARS-CoV-2) [21], and importance and the main role of community pharmacists’ including the content of pharmaceutical care to slow transmission of COVID-19 [22]. Moreover, the review study was focused on the importance of emergency response such as quarantine, isolation, the distance between persons and other prevention and control methods for COVID-19 in various countries as well as key information about the meaning of COVID-19, way of transmission, causes and epidemiologic characteristics, management and ways to prevent and control it.

The majority of the reviewed articles (65%) selected a sample size between 1 and 400 [14, 15, 16, 19, 22, 25, 26, 27, 28, 29, 31, 33], and followed by 5 (25%) studies were selected a sample size 1200 [21, 23, 25, 30, 32]. Meanwhile, 1 (5%) study selected samples between 801 and 1200 peoples [17], and the other 1 (5%) study selected samples between 401 and 800 [18] [Fig. 2].

Figure 2.

Total number of sample size of the reviewed articles.

Total number of sample size of the reviewed articles.

In this review, 6 (30%) findings utilized a brief history and laboratory examination official cases to identified confirmed diagnosis on COVID-19; SARS-CoV-2 outbreaks and to answer the research questions [17, 26, 29, 32, 31, 33].

Three (15%) of the studies used a situational analysis in order to address the reviewed questions [14, 15, 25], and 3 (15%) studies used an interventional platform PPE taskforce, developed model and simulation study to address review questions [19, 20, 24]. Only 2 (10%) of the research articles used clinical examination and epidemiological study to answer review questions [16, 28] and 2 (10%) studies used descriptive cross-sectional study [23, 27]. The remaining 4 (20%) studies used an online survey (5%) [18], a summary of experiences 3 (5%) [22], online epidemic related consultants (5%) [21] and longitudinal Cohort 3 (5%) [25] to address review questions.

This review had to generalize results from the mentioned articles by identifying a wide variety of the level of risk, effects response to potential health emergencies, prevention, and control methods COVID-19 that might prevent and control the transmission of the infectious pandemic outbreak disease in world nations. These results show the different instruments used to measure the level of risk, effects response, and overall characteristics of COVID-19. Operation room, guideline, well mixed SEIR model, laboratory results, endoscopes, interventional suites and other devices like ‘multicenter internet hospitals’, which accounted for 55% of articles on response to potential health emergencies, prevention and control method of COVID-19 was the highly ranked used strategy [19, 21, 20, 23, 24, 26, 27, 28, 30, 31, 33].

It was followed by 5 (25%) studies list of the hospitalized patient with COVID-19 and the daily number of new confirmed cases [14, 16, 25, 29, 32]. The remaining 4 (20%) studies State Party Annual Reporting (SPAR) tools (5%) [15], blood supply and transfusion units (5%) [17], patient pharmaceutical care and drugs and other supplies (5%) [22], and the depression, anxiety, and stress scale and the impact of event scale revise (5%) [18]. About 4 (20%) of studies were analyzed using situational analysis and response-based analysis to identify the result of the reviewed study [14, 17, 22, 28], and followed by 3 (15%) studies descriptive and logistic regression [21, 23, 29], and 3 studies (15%) follow up and busing channels [25, 27, 33] whereas 2 (10%) studies were using clinical features and treatment of COVID-19 [16, 26], 2 (10%) studies indicated the epidemic curve of the period over the period growth rate of the new confirmed cases [30, 31]. The remaining 6 (30%) studies used various analysis methods to identify the problem and its alternative solution, transmission parameters (5%) [24], Baidu Qlaux and Correlation ArcGIS and Win Bugs software (5%) [32], Six Geographic WHO regions (5%) [15] (Kandel et al., 2020), psychological impact and mental status (5%) [23], Considering infected individuals as contagious during the latency period (5%) [20] and develop guideline, health policies and other legislation (5%) [19].

In this review, 6 (30%) studies used a systematic way of assessing the community and healthcare providers’ awareness and beliefs on COVID-19 transmission, prevention, epidemiologic charactesrtics, management and how to implement WHO prevention and control protocol and its purpose to slow COVID-19 transmission [16, 17, 22, 25, 27] followed by 4 (20%) studies which assessed and identified the vulnerability of a community contact with suspected and confirmed COVID-19 cases and evaluate its epidemic outbreaks [14, 21, 26, 31] and 4 (20%) studies assessed the main target-related prevention and control, detection, enabling, emergency responses, operational readiness, and public health emergency including efficient and effective hand washing practices [15, 24, 28, 29].

In addition, 3 (15%) studies detected how we can develop the common algorism for the majority part of COVID-19 transmission methods by using various personal protection equipment and well mixed SEIR Model in order to identify the new case of COVD-19 and how we can control the speed of transmission [19, 20, 25], and 3 (15%) studies calculated the incidence and basic characteristics of the pandemic COVID-19 outbreak [23, 32, 33] [Table 1].

Table 1

Level of risk, effects response to potential health emergencies, prevention and control methods of Coronavirus Disease 2019

Author and year publicationCountryPurpose of the studySample sizeMethodsTargetMaterials/ instruments
Lima
et al. [14]BrazilTo assess the susceptibility of patients and health professionals with COVID-19NASituational Analysis-Identify vulnerable oneHospitalized Patient with COVID-19
Kandel
et al. [15]SwitzerlandTo relieve existing health security capacities against COVID-19182 CountriesSituational Analysis-Prevention -Detection -Responding -Enabling Operational readiness18 indicators from the IHR state party Annual Reporting (SPAR) Tools
Wan
et al. [16]ChinaTo provide the awareness of COVID-19 among International community135 countriesClinical assessmentCommunity awarenessHospitalized Patient with COVID-19
Pagano
et al. [17]Washington DCTo describes the response of public health emergency like blood transfusion from the Hospitals and the regional blood centers704 confirmed casesBrief reportEncouraging blood donation and Community and healthcare provider awarenessBlood supply and transfusion Units
Wang
et al. [18]ChinaTo survey the level of knowledge on mental health condition and stress during the initial of the COVID-19 outbreak1210 respondents from 194 citiesOnline survey-Precautionary measures against COVID-19-The impact of Event Scale Revise (IES-R) -Depression, Anxiety and Stress Scale (DASS-21)
Forrester
et al. [19]CaliforniaTo develop an Institutional algorism to protect operating room team members during the COVID-19 pandemicNAAn interventional platform PPE taskforce-Developing common algorithm for PPE user-Operating room -Interventional suites -Endoscopes -Guidelines
Hou
et al. [20]ChinaTo explore the effectiveness of the quarantineNAA well mixed sustainable exposed infectious recovered compartmental ModelThe dynamic of the COVID-19 epidemic -Epidemiological charactesrtics of IndividualWell-Mixed SEIR Model
Gong
et al. [21]ChinaTo explore the role of internet hospitals during the prevention and control of COVID-194913 consultantsOnline epidemic related consultantsCompared with reported COVID-19 patientsMulticenter internet hospitals
Zheng
et al. [22]ChinaTo address community pharmacists’ role and the content of pharmaceutical care during the novel COVID pandemicCommunity Pharmacy management teamSummary the experienceSafe drugs use of the community, patient and populationPatient pharmaceutical care
Wang. [23]ChinaTo estimate the incidence of 2019-nCoV infection among people under home quarantine2004 peopleDescriptive cross sectional study-To calculate the incidence-laboratory results
Kim
et al. [24]KoreaTo quality the school closure effects on the COVID-19 epidemic60 casesMathematical Model and simulation studyAssess the school closure and its valueMathematical Model
Zhu
et al. [25]HongkongTo measure the attention of Chinese netizens to COVID-191101 Weibo accountsLongitudinal CohortAttention quickly increasedWeibo Accounts

Table 1, continued

Author and year of publicationCountryPurpose of the studySample sizeMethodsTargetMaterials/ instruments
Scott
et al. [26]USATo describe the public health investigation of a mildly ill, non hospitalized COVID-19 case who travelled to China35 specimensLaboratory diagnostic evaluation/ReportAssess the investigation resultsSpecimens
Basch
et al. [27]United StateTo address the investigating the content of You tube videos related to COVID-19100 You tube videosCross sectional studyAssess the gap in the current awarenessYou Tube Videos
Xiao
et al. [28]ChinaTo analyze the epidemiological charactesrtics of a cluster COVID-195 cases in January, 2020The National health Commission, a field epidemiological survey-Find out the source and transmission chain-Nasopharyngeal swabs -Sputum sample
Cao
et al. [29]ChinaTo describe the epidemiologic charactesrtics of COVID-19135 confirmed cases, 3 deaths, and 87 recoveriesDaily notification ReportTo provide scientific of prevention and control measuresData from COVID-19 cases
Zhu
et al. [30]ChinaTo evaluate the epidemiologic dynamics of COVID-1950,031 Confirmed cases (COVID-19)Analysis and reportsTo master the epidemic trend of COVID-19Daily number of new confirmed COVID-19
Khot and Nadkar. [31]IndiaTo review the available evidence of Novel 2019 Corona Virus outbreakNAInvestigation/ Diagnostic confirmationEvaluate of a new corona virus epidemicPCR
Chen
et al. [32]ChinaTo determine case distribution and its correlation with population emigration9805 casesOfficial case report-Early warning -Prevention of future outbreaksData on population migration
Li
et al. [33]ChinaTo investigate the clinical outcome of patients with moderate type of Corona Virus2019 (COVID-19) after discharged7 PatientsTest SARS-CoV-2 nuecleic acid by RT-PCR mtodsAssess the over all clinical out comes related with Death-Documentation -Sputum or nasal swab -Feces

In this review, 4 (20%) studies an intervention was focused on older age groups and new migrants and journey-related case groups and/or suspected vulnerable grous [14, 25, 31, 32] followed by 4 (20%) studies suggested that most of the time, infected patients with the COVID-19 infection and having severe symptoms had lower lymphatic counts and higher plasma level of Pt, APTT, D-dimer, LDH, PCT, ALB, CRP, and AST and other laboratory test results [16, 26, 28, 33].

Group transmission has been one possible way to transmit COVID-19 from one area to another since 23 March 2020. The evidence showed that the number of expected cases are lower depending on the time of quarantine and it may change the incidence of COVID-19 in children from 28.4 to 33.6 for 7 and 14 days [24, 25], and pharmaceutical effects were one vital management system for COVID-19 but there is still no effective medicine to manage COVID-19 or vaccine to protect transmissions [22, 23].

About 2 (10%) studies identified that the capacity to prevent, investigate, and control COVID-19 varies from country to country, which indicates a wide variety of implementation of control methods to slow COVID transmission [15, 20]. The finding showed that the world communities are vulnerable to COVID-19 and rated the psychological and mental impact from moderate to severe stages [23, 25]. The remaining 4 (20%) studies showed that a decision-tree algorism is used to describe the health institution guideline for actioning any precautions for all departments and most of the time, operation-room team members [19], emergency-based treatments like blood transfusions are a significantly observed treatment for COVID-19 in the first week of the disease outbreak occurring in China [17].

Most of the reviewed studies results showed that the case fatality and the incidence of COVID-19 was 22% and 8-65/1000000, respectively [29] and fewer than one-third of the videos covered any of the seven key prevention behaviors listed on the United States Centers For Diseases Control and Prevention websites [27].

The review showed that COVID-19; SARS-CoV-2 is one of the most killer diseases of global communities and it needs urgent public health emergency to slow transmissions. Therefore, this review was identified as various problems related to COVIOD-19 and its conclusion. Six (30%) of studies suggested that there is a shortage of community and healthcare-provider awareness and lack of training for health professionals related to the psychological and environmental impact of COVID-19 [14, 20, 25, 26, 27, 28], and followed by the epidemic prevention and control measures taken by the state and government at all level of health shown very significant effects [29, 30, 31, 32]. In another way, 3 (15%) of studies agreed that the implementation of efficient and effective potential health emergency response are critically important to slow COVID-19 transmission from person to person in world nations [15, 18, 22].

The remaining 7 (35%) studies suggested that the possibility of massive transmission in the children’s age group is lower [24], there is a relatively high incidence of positive viral nucleic acid in patients who met the ‘discharge from hospital’ criteria [33], some of the viral pneumonia cases were treated with scientifically approved traditional Chinese medicine and other drugs like Kaletera as combination form [16].

Moreover, around the globe, most of the district to specialized hospital activities have been switched from day to day activities and operations to COVID-19 and overall, people and routine activities are highly disrupted in both developing and developed countries [17, 21]. There is also agreement that internet hospitals can serve various kinds of endemic, epidemic, pandemic and sporadic diseases outbreaks, and offer special to the community at the time of the COVID-19 outbreak and lower psychological impact of the COVID-19 [18] including ensuring optimal healthcare workers safety are vital to slow COVID-19 transmission [19].

Seven (35%) of the studies reviewed recommended that mass quarantine and isolation action must be given great attention by government and communities [14, 18, 20, 27, 28, 29, 31] because it helps to slow COVID-19 transmission and decrease the morbidity and mortality rate in both low, middle and high-income countries. Five (25%) studies suggested that currently, COVID-19 is one of the most serious public-emergency and life-threatening problems; therefore facilitating the epidemiology screening and proactive communication of early warning in transparent manners and behaviors [16, 21, 25, 30, 32]. Two (10%) studies recommended that formulating psychological management and follow-up, including viral testing, should be implemented to identify the severity, magnitude, negative and positive result and/or confirmed cases and total death of the COVID-19 infected persons [18, 33]. The remaining 6 (30%) studies indicated that capacity building and collaboration between countries is critically important (5%) [15]. Further studies related to newly proved combined medication like Kaletera and Chinese traditional medicine in the treatment of COVID-19 is advisable [16].

For emergency care, blood transfusion and the utilization of existing supportive managements it healthcare providers are encouraged to take precautions before, during and after operating room activities [19], prepare a community-based pharmacy [22] and the state and government should develop various health and health-related models and simulations are the most commonly advised recommendations to slow COVID-19 transmission across the world [24] [Table 2].

Table 2

The study used to identify the level of risk, effects response to potential health emergencies, prevention and control methods of Coronavirus Disease 2019

Author and year of publicationAnalysisResultsConclusionRecommendation
Lima
et al. [14]SituationalThe majority of the interventions were focused on older people and new migrantsLack of training for providing mental health careFear seems more certainly a consequence of mass quarantine
Kandel
et al. [15]Six Geographic WHO regionsCountries vary widely in terms of their capacity to prevent, detect and respond to outbreakAn effective response to potential health emergencies could be enabledCapacity building and collaboration between countries are needed to strengthen global readiness for outbreak control
Wan
et al. [16]Clinical features and treatment of COVID-19The severe cases had lower lymphocytes counts and high plasma levelKaletra and Traditional Chinese medicine played an important role in the treatment of the viral pneumoniaFurther studies are required to explore the role of Kaletra and traditional Chinese medicine in the treatment of COVID-19
Pagano
et al. [17]Response based analysisBlood donations dropped significantly in the first week of COVID-19 occurring in the countryAs community activities are disrupted and hospital activities switch from routine, operations to pandemic focusUrgent care oriented, the blood supply and utilization requires of transformations
Wang
et al. [18]Psychological impact and mental health Status assessment -Descriptive statisticsMost of respondents rated the psychological impact of the outbreak as moderate to severeSpecific up to date and accurate health infection and particular precaution measure were associated with a lower psychological impact of the put break (P< 0.005)Formulate psychological interventions to improve the mental health of vulnerable groups during the COVID-19 epidemic
Forrester
et al. [19]Developing Guidelines by conjunction with our infectious diseases expertsA decision tree algorism describing our Institutional guideline for precautions for operating room team members was createdTo ensure optimal healthcare workers safetyTo encourage the healthcare professional should take precautions before, during and after operating room activities
Hou
et al. [20]Considering infected individuals as contagious during the latency periodThe possible impact of questionnaire and isolation intervention on diseases infectiousBy reducing the contact rate of latent individual, quarantine and isolation could be effectively reduce the potential peak number of COVID-19To initiate the communities upon quarantine and isolation action to minimize the risks.
Gong
et al. [21]-Evaluate the social panic of the epidemic -logistic regression modelReduce the chance of nasocommial cross infectionInternet hospitals can serve different types of Epidemic counselees, offer especial to the public during COVID-19To facilitate epidemiology screening
Zheng
et al. [22]Analyze the methods and strategiesPharmaceutical care services in communities during the COVID-19 shall posses different properties due to diseases charactesrtics and related change in the patients needCommunity pharmacies shall work as a strong supporter of patients medication and protective equipment supplyCommunity pharmacy shall be prepared to provide skill and effective PC services for community, patient,population to ensure medication safety and promote the overall COVID-19 pandemic control
Wang. [23]Descriptive analysis< 1% participants reported contact history with confirmed or suspected cases during their trip between January, 24-27,2020The incidence of COVID-19 in the sample was 1.5%Home quarantine is effective prevention and control COVID-19
Kim
et al. [24]Transmission parameters-The number of expected cases for children is 28.4 for 7 days and 33.6 for 14 daysThe possibility of massive transmission in the children’s age group is lowerAny government should try to use the simulation and mathematical model to reduce COVID-19 cases
Zhu
et al. [25]Follow upAttention to COVID-19 was limited prior to China openly knowledging human to human transmission on January, 2020Limited early warnings represents missed opportunities to engage citizens earlier in the outbreakGovernments should more proactively communicate early warnings in a transparent manner

Table 2, continued

Author and year of publicationAnalysisResultsConclusionRecommendation
Scott
et al. [26]High-risk contact NP/OP Speciement for SARS-CoV-2 testing and following 14 daysAll tested (35 Speciemen) result were negativeSARS-CoV-2 infection can cause mild illness and result in positive tests for up to 18 days after diagnosis, with out evidence of transmission to close contactsPublic health strategies to mange individuals with asymptomatic infection or mild illness
Basch
et al. [27]The videos viewed over 125 million timesFewer than one third of the videos covered any of the seven key prevention behaviors listed on the US centers for diseases control and prevention websiteThe results presents an important missed opportunity for diseases preventionEncourge effective preventive behaviours
Xiao
et al. [28]Multi prevention and control measures analyzing transmission chainIt is the key point for epidemiological investigationThe epidemiological investigation indicates that the transimission might occur in the Incubation period of COVID-19 casesClose attention should be paid to it further COVID-19 prevention and control
Cao
et al. [29]Descriptive analysisThe incidence of COVID-19 was 8.65 /1,000,000 with a 2.22% case fatality ratePeople are generally suspectible to Coronavirus-19 which has shown a familiar clusterUsing synthefic measure for slow COVID-19 transmission
Zhu
et al. [30]The epidemic Curve of the period over period growth rate of the new confirmed casesThere was declining the peak of the number of new confirmed cases in the countryThe epidemic prevention and control measures taken by the state and government at all levels have shown very significant effectEfficiency curbing the spread of the COVID-19 epidemic in China
Khot and Nadkar. [31]Every decades has witnessed the evalauation of a new Coronavirus epidemics-Management is primarly supportive, with never antivirals Lopinavir, Ritonavir and Remedesivi -Vigilant screening of suspected cases and their contacts is importantThe standard infection control and prevention techniques should be followed -Controlling this highly tranmsmissiable diseases requires international co-ordinationIsolation of symptoms cases and home quaranitine is asymptomatic contacts is recommended
Chen
et al. [32]Baidu QIanxi and CorrelationThe number of cases in some cities in China was relatively lowSome cities with a low number of cases should be a rapid increases in case loadUnderstanding the risk trends in different region is crucial to ensure preparedness at birth the individual
Li
et al. [33]Three weeks quarantined periodThere had no any sign and symptoms during the quarantine period in all 7 patients.There is a relatively high incidence of positive viral nucleic acid in patients met the discharge criteria-Follow up viral testing

4.1Confirmed Cases, Recovered and Deaths due to Coronavirus Disease 2019

The reviews indicated the highest confirmed COVID-19 cases, 764,177 patients were registered from the USA starting from the onset of the disease up to 13 April 2020, and followed by Spain accounted 198,674 confirmed cases. However, the lowest COVID-19 confirmed cases, only one case was reported in Yemen, and still, nothing COVID-19 cases and deaths occurred in Bosnia and Herzegovina or Antarctica. Regarding deaths, the most deaths, 40,591 were registered in the United States and followed by 23,660 deaths in Italy, 21,238 in Spain, 19,718 in France, 16,060 in the United Kingdom, 5,683 in Belgium, 5,118 in Iran, 4,632 in China, 4586 in Germany, 3,684 in Netherland, 2,462 in Brazil, 2017 in Turkey, 1,587 in Canada, 1,540 in Sweden, 1,393 in Switzerland and the lowest rate of deaths it means the countries which had registered only one death per their confirmed COVID-19 cases from December 2019 up to 13 April 2020 were reached 15 (Burundi, Burundi, Gabon, Liechtenstein, Cape Verde, cayman islands, Libya, Benin, Botswana, Curacao, British version Islands, Suriname, the Gambia, and Mauritania) [34].

However, a total of 39 countries: Rwanda, Gibraltar, Cambodia, Madagascar, Reunion, Vietnam, Faroeisland, FrenchIslands, French Guinea, French Polynesia, Uganda, Maldives, Macao, Eriteria, Mozambique, Sierra Leone, Chad, Mongolia, Nepal, Timer-Leste, Laos, New Caledonia, Fiji, Dominica, Nambia, Saint Lucia, Saint Barthelemy, Falkland Island (Islas Malvinas), Green lands, Monsterrat, Seychelles, Vatican city, Papua New Guinea, Bloutan, South Sudan, Anguilla, and Yemen have had not any death (Zero Death Number) from their registered total number of confirmed cases as active and closed cases of COVID-19. The result also showed that there was no death report within 11 confirmed cases it means that either zero, one, or more deaths registered in the Aland Islands [33, 34] [Table 3].

Table 3

Total confirmed cases per 1 million people, recovered and deaths due to Coronavirus Disease 2019

LocationConfirmedCases per 1 million peopleRecoveredDeaths
Worldwide2,402,076308.92623,911165,106
United States764,1772,318.8170,17240,591
Spain198,6744,218.177,35721,238
Italy178,9722,970.8147,05523,660
Germany145,1841,746.0683,4384,586
United Kingdom120,0671,807.2716,060
France112,6061,678.7836,57819,718
Turkey86,3061,037.8911,9762,017
China82,74759.0277,0844,632
Iran82,211986.5657,0235,118
Russia42,853292.023,291361
Brazil38,654182.914,0262,462
Belgium38,4963,340.388,7575,683
Canada35,056923.0311,8431,587
Netherlands32,6551,871.243,684
Switzerland27,4693,199.0717,8001,393
Portugal20,2061,966.21610714
India16,11611.852,302519
Peru15,628486.386,811400
Ireland15,2513,098.85610
Austria14,7101,652.3310,501452
Sweden14,3851,392.085501,540
Israel13,4911,469.613,754172
Japan10,80785.81,069238
South Korea10,674206.148,114236
Chile10,088527.974,338133
Ecuador9,468542.371,061474
Saudi Arabia9,362273.61,39897
Poland9,287241.981,040360
Romania8,746450.71,892434
Pakistan8,34838.091,868168
Mexico8,26165.262,627686
Denmark7,3841,268.134,141355
Norway7,0781,318.66165
United Arab Emirates6,781685.611,28641
Czechia6,746630.821,298186
Australia6,606257.394,23070
Singapore6,5881,155.0676811
Indonesia6,57524.63686582
Serbia6,318907.27753122
Philippines6,25957.69572409
Ukraine5,449130.11347141
Qatar5,4481,983.055188
Malaysia5,389164.613,19789
Belarus4,779507.6849447
Dominican Republic4,680451.81363226
Panama4,4671,058.83165126
Colombia3,79276.77711179
Finland3,783684.391,70094
Luxembourg3,5505,782.7662773
South Africa3,15853.7390354
Egypt3,14431.38732239
Argentina2,93065.2708134
Morocco2,85579.62327141
Thailand2,76541.591,92847
Algeria2,62961.141,047375
Moldova2,472921.7945767
Bangladesh2,45614.597591
Greece2,235208.4269113
Hungary1,916196.06250172

Table 3, continued

LocationConfirmedCases per 1 million peopleRecoveredDeaths
Kuwait1,915433.253057
Bahrain1,8811,218.827627
Croatia1,87145970947
Iceland1,7714,861.911,3289
Kazakhstan1,67689.7540117
Uzbekistan1,56545.892255
Iraq1,53939.331,00982
Estonia1,5281,150.2916440
Azerbaijan1,398138.8771219
Slovenia1,330635.1319274
Lithuania1,298464.6524233
Armenia1,291436.5254520
Oman1,266271.392336
North Macedonia1,207581.0917851
Slovakia1,161212.7822912
New Zealand1,105222.1197412
Ghana1,04234.41999
Cuba1,03592.3325534
Hong Kong1,026136.796024
Cameroon1,01738.3130542
Afghanistan99330.8113132
Bulgaria894127.7116142
Tunisia87974.994338
Côte d’Ivoire84732.82609
Djibouti846784.521022
Cyprus767875.677912
Latvia727381.27885
Andorra7139,194.923536
Lebanon67398.69921
Costa Rica660130.491125
Niger64829.0411720
Nigeria6273.0417021
Guinea57947.39875
Burkina Faso57627.633836
Bolivia56449.173133
Albania562197.4731426
Kyrgyzstan55484.791335
Uruguay528150.0629810
Kosovo510284.029312
Honduras47251.541046
San Marino46113,730.866039
Palestine43787.81723
Malta427865.141183
Taiwan42017.791896
Jordan41739.162767
Réunion408476.182370
Georgia394105.82864
Senegal36722.642203
Mauritius328259.092089
Democratic Republic of the Congo3273.652625
Montenegro308494.89555
Isle of Man2983,576.831936
Mayotte2711,184.511174
Sri Lanka27112.43967
Kenya2705.686714
Vietnam2682.792020
Guatemala25715.48217
Venezuela2567.951179
Jersey2452,294.0112
Guernsey2393,806.22879

Table 3, continued

LocationConfirmedCases per 1 million peopleRecoveredDeaths
Mali22411.224214
Paraguay20628.8418
El Salvador20130.99447
Faroe Islands1853,549.231760
Jamaica17363.45275
Tanzania1703.04117
Martinique163419.997312
Guadeloupe148363.85738
Rwanda14711.88760
Republic of the Congo14325.91116
Brunei138311.931151
Somalia1358.4927
Gibraltar1323,916.81200
Cambodia1227.981050
Madagascar1214.61390
Myanmar (Burma)1112.0477
Gabon10950.1771
Ethiopia1081.09163
Northern Cyprus108331.29523
French Guiana97340.14690
Aruba97863.69492
Monaco942,454.31223
Sudan922.17812
Liberia9120.3378
Bermuda861,343.18355
Togo8411.14495
Liechtenstein812,090.38551
Equatorial Guinea7958.1640
Barbados75261.3195
Sint Maarten671,649.68129
Guyana6583.0497
Cape Verde61110.8111
Cayman Islands61926.8771
Zambia613.41333
The Bahamas58150.52109
French Polynesia55199.33190
Uganda551.36200
Maldives52138.75160
Libya517.42111
Guinea-Bissau5031.1630
Haiti474.0603
Macao4566.22170
Eritrea3911.1530
Mozambique391.340
Syria392.2353
Saint Martin371,035.08192
Benin352.98181
Sierra Leone354.4360
Chad332.0380
Mongolia329.6770
Nepal311.0330
Zimbabwe251.6523
Angola240.7762
Eswatini2220.1281
Botswana208.5501
Timor-Leste1913.710
Laos192.6720
Belize1844.0702
New Caledonia1863.78140
Fiji1719.2100
Malawi170.8932

Table 3, continued

LocationConfirmedCases per 1 million peopleRecoveredDeaths
Dominica16222.8280
Namibia166.5160
Saint Lucia1583.9400
Grenada1412500
Curaçao1488.24111
Central African Republic122.1840
Åland Islands11368.08
Falkland Islands (Islas Malvinas)1120
Greenland11196.14110
Montserrat1120
Seychelles11112.6850
Nicaragua101.5562
Suriname1017.261
The Gambia104.2621
Vatican City820
Mauritania71.7221
Papua New Guinea70.7800
Saint Barthélemy610
Burundi50.4601
Bhutan56.7420
British Virgin Islands4133.221
South Sudan40.3100
Anguilla3201.7610
Yemen10.0300
Bosnia and Herzegovina

Source: Data December, 2019-April, 20, 2020; Corona virus (COVID-19) Map google.com [COVID-19-map/hl=en[Accessed April, 20, 2020] and Wikipedia]

The Coronavirus disease 19 outbreak has affected many countries worldwide. A total of 1,617,191 people were vulnerable with active cases of COVID-19. Among those active cases, the majority 1,562,980 (97%) cases were mild and 54,211 (3%) active cases were in a serious or critical condition [Fig. 3].

Figure 3.

Total number of active cases of COVID-19 outbreak from 31 December 2019 up to 20 April 2020.

Total number of active cases of COVID-19 outbreak from 31 December 2019 up to 20 April 2020.

Figure 4.

Total number of closed cases of COVID-19 from December, 2019 up to 20 April, 2020.

Total number of closed cases of COVID-19 from December, 2019 up to 20 April, 2020.

A total of 790,276 people were affected with closed cases which had an outcome globally. The majority, 625,202 (79%) had recovered from the temporary waiting areas, public health emergency centers, hospitals, health centers, and isolation areas and 165,074 (21%) died from a total of closed cases [Fig. 4].

During this systematic review; under management process or active cases 1,617,191 (77%), deaths 165,074 (7%), and recovered clients 625,202 (26%) had accounted from the the total 2,407,467 confirmed cases of COVID 19. The disease outbreak is serious, showing that there are more than 892 new cases, greater than 43 new deaths, 309 a total cases/1 million population, and 21.2 deaths/1million population from December 2019 up to April 20 2020 [Fig. 5].

Figure 5.

The total COVID-19 confirmed cases, deaths, recovered and under management process at isolated area,and rehabilitation area from December 2019 to 20 April 2020.

The total COVID-19 confirmed cases, deaths, recovered and under management process at isolated area,and rehabilitation area from December 2019 to 20 April 2020.

5.Discussions

This review suggested that the awareness of the community and healthcare providers on COVID-19 prevention and control methods and its implementations is lower than other public health problems. Moreover, lack of public health emergency and access to vaccine and medication for appropriate management of COVID-19 outbreak in the world is a serious and growing emergency problem for the community equivalent for the growing more than millions of developing and developed in the world.

This study review, the research team members concluded the results clearly and briefly related to the key relevant literature to the findings of the 20 selected relevant articles based on selection criteria. Almost all reviewed studies were reported from December 31 2020 to 19 April 2020. Most (55%) of the analysed research articles were from China. This indicated that there were about 44 pneumonia cases with unknown etiology in Wuhan City, Hubei Province of China between 31 December 2019 and 03 January 2020. Meanwhile, after one week of duration, the National Health Commission China reported to the WHO that the epidemic disease outbreak had arisen from contacts in a single seafood market in Wuhan City. However, the Chinese government also confirmed a new COVID-19 epidemic from the infected individual since 07 January 2020 [38].

This section (1) discusses the features of COVID-19; SARS-CoV-2; (2) describes magnitude of public health importance and controlling mechanisms of this disease; (3) rising potential effects of a response to health emergencies, prevention and control methods of COVID-19; (4) describes instruments used to measure causes of COVID-19; (5) identify the level of risk prevention and control methods of COVID-19; furthermore, (6) the result of prevention and control mechanisms of COVID-19.

The scholars identified 20 studies, the majority of 6 (30%) indicated the vulnerability of patients and health professionals with COVID-19 and investigated the clinical outcome for patients. Similarly, a study conducted in Italy [34] suggested that the newly pandemic diseases outbreak, COVID-19 has threatened the health status of the communities, transportation systems, and trading and business activities including overall commerce in world countries including Italy. Moreover, the epidemiologic and demographic characteristics of previous SARS-CoV-01, MERS-CoV viruses, and experience of an emergency physician in the country’s were supported to identify the causes and complications of COVID-19 in order to address the issues of COVID-19 [34]. Nonetheless, the reviewed studies showed that most of the world countries have a lack of testing kits for the diagnostic evaluation of COVID-19 and skilled professionals related to new cases of COVID-19. As a result, most of those who died in the community died due to a lack of early diagnosis of their cases and due to the difficulty of differentiating the pathological characteristics of the virus and possibly increased the mortality rate of the population in world nations. Similarly, a study conducted in Fujian, China [35] found that the pathological features of COVID-19 have a great similarity with SARS due to observing symptoms of acute respiratory diseases syndromes; but the latest pathological examination of COVID-19 exposed the clear mucinous secretions in the lungs. Therefore, early recognition of COVID-19 by health professionals and all expertise is still required.

This research showed that the majority of reviewed studies were focused on the importance of emergency response such as quarantine, isolation, the distance between persons and other prevention and control methods for COVID-19 in various countries as well as key information about the meaning of COVID-19, method of transmission, causes and epidemiologic characteristics, management and ways to prevent and control it. However, there is an increasing number of confirmed cases and deaths in both developing and developed countries. In particular, there is increasing socioeconomic crisis and social interaction. This is supported by a recent WHO report of 29 February 2020, which found that the application of travel, and import and export system such as trade restrictions to countries experiencing a COVID-19 outbreak has begun to be implemented. However, it has had significant social and economic effects, and has affected productivity, the resource used for intervention, and all other growth and development stages of every country in the world [37, 38].

Similarly, the study conducted in China by [37] agreed that the implementation of a Public Health Emergency of International Concern which was declared by the World Health Organization since the first cases of COVID-19 outbreak happened in China. The implementation of prevention and control strategies like wearing masks, washing hands using soap or sanitizers for effective hand hygiene care practices, spacing the contact between individuals in order to avoid public contact, early diagnosis and overall case detection, contact tracing, and quarantines were the most effective way to reduce COVID-19 transmission [37]. This review indicated that the implications for the importance of improving the work environment to increase awareness of healthcare providers and all communities on the way how to slow COVID-19.

The review revealed several carefully developed instruments and analytic approaches for measuring the level of risk, effects response to potential health emergencies, prevention, and control methods COVID-19. While these measures were developed for a specific study, a brief report and laboratory investigation official cases to identified confirmed diagnosis of COVID-19; SARS-CoV-2 outbreak and to address the research questions, which accounted for 6 (30%) of the level of risk, the effects a response to potential health emergencies, prevention, and control method of COVID-19 outbreak measurements, was the most used strategy.

The reviewed study also showed that there was a lack of attention to COVID-19 and it was very limited in some of the vulnerable countries and other territories. Therefore, 6 studies identified confirmed diagnosis of COVID-19; the SARS-CoV-2 outbreak. In this regard, there was a decline in the maximum number of new cases confirmed in China and it is relatively low in some cities in the country. It indicated that the lesson learned could help to control the outbreak of diseases in other countries. Moreover, all tested results from 35 specimens were negative. This instrument can provide a useful stepping stone for the further study of slow COVID-19 [39].

In some studies, measures were taken as part of an instrument; however, it is important to use them as measures to identify the level and risk response to emergency public health and prevention and control method of COVID-19 outbreak and to better understanding in health professionals and communities as to how to prevent and control COVID-19 transmission. Furthermore, it is also helpful to investigate the method of response to emerging public health for COVID-19. In the same way as this review, a WHO draft report (3 February 2020) suggested that an instrument such as strategic preparedness and response plan was used to stop further transmission of COVID-19 within China and that this was a critical and important instrument for other countries to mitigate the common impact of COVID-19 outbreak in all countries [38, 39].

The majority of these reviewed studies utilized brief reports and laboratory investigations with including official confirmed COVID-19 case approaches to answer the research questions. Meanwhile, a few studies used an online survey, a summary of experience, and longitudinal cohort method which helps to collect, analyze and interpret data. They used this method to assess the phenomenon, process, perspective, and views of healthcare providers and communities as well as governments, policymakers, and other stakeholders. Half of the reviewed studies, however, used various methods to address the research question as such situational analysis, clinical assessment and epidemiological survey, descriptive cross-sectional study, and an interventional plat for PPE task forces, simulation, and model approaches. A quality score based on respondents’ opinions within the reviewed studies using a standard form was used to obtain information according to the study design. The majority of reviewed studies frequently used situational and response-based analysis, descriptive and logistic regression, and follow up accompanied by use channels to compute study variables and socioeconomic characteristics including the final result of their studies [38, 39].

The findings of this review showed that older age groups and most of the vulnerable groups were the new migrants and journey-related case groups as well as people who are suspected and prone with COVID-19 and related to pandemic disease outbreaks. Similarly, the study was conducted in European countries, the COVID-19 related risk infection for people is higher in older adults in the EU/EEA and UK [40].

The results of this review study showed that the capacity to prevent, investigate, and control the COVID-19 outbreak is different from country to country. This indicated that there are a wide variety of methods to slow COVID transmission. Similarly, a study conducted in the UK [41] found that traditional public health prevention and control methods are effective to reduce the maximum number of disease outbreaks, morbidity and mortality rate globally if the countries have an opportunity to implement appropriately but not fully contain the outbreak of COVID-19. It is supported by [42] quarantine, especially complete social distancing has been implemented to slow down the spread of the Coronavirus outbreak (COVID-19) in the USA and many other European countries including Italy [41, 42].

The finding also revealed that most of the confirmed cases and patients infected with COVID-19 infection pandemic diseases outbreak and having severe symptoms had lower lymphocyte counts and higher plasma levels and other laboratory test results. Similarly, a study conducted in the USA [43] suggested that the impact of the pandemic COVID-19 outbreak on clinical microbiology laboratories was very high. Therefore, the rapid and accurate diagnosis and monitoring of SARS-CoV-2 infections and greatly assist in the control of this disease outbreak has been implemented using a combined device existing at the point of care with accessible measurements [43].

The review study suggested that in the first week of the COVID-19 outbreak occurred in China, the majority of the healthcare providers were administered blood transfusion as emergency care and there was a significant changed via the result of a safe life. Similarly, the WHO has adopted the Guidance for National Blood Services on Protecting the Blood Supply During Infectious Disease Outbreaks [44, 45] and risk assessment publications on pandemic COVID-19 outbreak from continental, regional networks and any higher institutions and health sectors [46, 47, 48].

6.Conclusion

Even though the novel COVID-19 outbreak on 31 December 2019 in Wuhan, Hubei city, China, and countries worldwide, there are normally relevant studies to determine the risk and impact of response to a public health emergency, prevention, and control methods of COVID-19 to slow transmission in countries. The finding showed that there has been an unprecedentedly rapid spread of pandemic COVID-19 outbreak across 212 countries with more than 1.1. million confirmed cases and more than 100,000 deaths worldwide as of 20 April 2020. Therefore, each country’s government should be drawn alongside to prevent and control of pandemic COVID-19 outbreak. Moreover, worldwide public health emergency responses with valuable support from the community, health professionals and governments will need to be discussed to find the way to slow COVID-19 transmission and other related action to pandemic diseases.

The WHO declared the COVID-19 outbreak to constitute a public health emergency of international concern since 30 January 2020. The nature of the COVID-19 outbreak was changed to pandemic level due to increased transmission, magnitude, severity, morbidity, and mortality rate across the world. Therefore, all governments should create strong partners and collaborate with joint activities using global outbreak prevention and control policy to respond to the COVID-19 emergency and decrease numbers of cases and deaths around the world.

As of today, there are still no any existing and available medicine for the treatment of the COVID-19; SARS-CoV-2 outbreak and still a lack of the effective potential therapeutic agents for other disease outbreaks as such Ebola, SARS-01 and MERS Coronavirus-caused respiratory problems, however, they have a little evidence to manage the symptoms related to previous viral endemic and pandemic disease outbreaks. Hence, there is increasing a probability of COVID-19 transmission among the world communities and the impact of the diseases in world nations.

The reviewed study finding revealed that almost all continents have no pre-existing immunity in the population against the new COVID-19 and anybody in the communities may be vulnerable to this disease outbreak. This is an issue for world communities and has the potential to kill all populations; therefore, international, national, regional, and local donors should have an important role to play in mitigating the economic impacts of the COVID-19 outbreak. Moreover, a combination of strong national governance, strict rules and regulations, strong healthcare providers and community awareness and citizen involvement, and wise use of big COVID-19 row data and digital technologies are very important to form the basic foundation of mitigation and curative measures of a disease outbreak. The implications of this review study are significant in certain areas of the COVID-19 outbreak which are worthy of further research.

The research team concluded that future research must look at the risk and impacts of a various public health emergency, prevention, and control methods of COVID-19 outbreak and other epidemic and pandemic diseases around the world. Moreover, these must be with respect to incubation periods, how drugs are synthesized, vaccine sources and effectiveness and frequency, the effect of a public health emergency, the impact of COVID-19 on each country’s economic, social and environmental growth and development including overall crisis, community health status, and personal and professional skill development to slow COVID-19 transmissions.

Therefore, the optimal duration and frequency of this response to a public health emergency to prevent and control of COVID-19 and to create positive impacts can be verified. In addition, it is valuable to investigate which types of responses to public health emergencies will prevent and control the COVID-19 outbreak effects and which are more targeted. As a result, hand washing with sanitizers, the distance between individuals, call for health professionals, quarantine, isolation, and overall precautionary measures and critical awareness of healthcare providers and communities to slow COVID-19 transmission can be designed accurately and effectively.

The effect of quarantine, especially home quarantine, school closure, and another early warnings as a public health emergency to prevent and control of COVID-19 pandemic outbreak transmission was regarded as a positive outcome, but it needs to be implemented with precaution. Therefore, we recommended that the use of various measurements of slow COVID-19 pandemic disease outbreak for comparison of outcomes in future researches.

Abbreviations

ARDSAcute Respiratory Distress Syndrome
COVID-19Coronavirus Disease 2019
HRQoLHealth-Related Quality of Life
MERSMiddle East Respiratory Syndrome
SARSSevere Acute Respiratory Syndrome
SMSISocial Media Search Indexes
SPARState Party Annual Reporting
WHOWorld Health Organization

Authors’ contributions

AAG designed the review protocol. Both AAG and TB designed the search strategy for this systematic review protocol and performed the search in collaboration with online healthcare librarians. AAG, TB, EW, AFA,SM, HZA, AK, BAT, BAA, BSD, NSZ,AGG, BM, and QKY have participated in data selection, data extraction, data analysis, and interpretation of the results. All authors critically revised, read, and approved the final manuscript.

Acknowledgments

The authors are grateful to Salale University, Fitche, Ethiopia for the material support. The authors would also like to acknowledge all scientific researchers and scientists, the World Health Organization, the Centre for Disease Prevention and Control; the Ministry of Health, and all those individuals who rendered valuable technical support during the study period.

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