1. COVID-19 is a respiratory illness caused by a novel coronavirus (SARS-CoV-2) that was declared a pandemic by the WHO in March 2020.
2. Symptoms range from mild to severe and include fever, cough, and shortness of breath. Chest imaging and PCR testing are used to diagnose the infection.
3. There is no specific treatment and care is supportive; prevention relies on hand hygiene, isolation of infected individuals, and social distancing measures.
Covid 19 in children consensus statementgisa_legal
This document presents an experts' consensus statement on the diagnosis, treatment, and prevention of 2019 novel coronavirus (2019-nCoV) infection in children. It summarizes the current strategies based on previous diagnosis and treatment of pediatric virus infections. The key points are: 1) 2019-nCoV infections in children can range from asymptomatic to mild or severe pneumonia, with most cases being mild; 2) Diagnosis is based on epidemiological history, clinical manifestations, and laboratory tests detecting 2019-nCoV nucleic acid; 3) Treatment involves supportive care, symptom relief, oxygen therapy, and antiviral drugs like interferon-α; 4) Prevention focuses on isolation of suspected cases and treatment of confirmed cases.
This document provides an overview of COVID-19 for EMS providers, including terminology, the origins and spread of the virus, clinical presentation, screening and risk assessment, treatment considerations, infection control protocols, and recommendations for interacting with the public. Key points covered include how the virus is transmitted, projected disease course, limitations of current testing and treatment options, importance of PPE and prenotification, and dispelling common myths. The goal is to equip EMS with up-to-date facts and best practices for responding safely and effectively during the pandemic.
At the end of 2019, a novel coronavirus was identified as the cause of a cluster of pneumonia cases in Wuhan, China. It rapidly spread globally, resulting in an ongoing pandemic. Coronaviruses can cause illnesses ranging from common cold to more severe respiratory diseases. This particular virus is designated SARS-CoV-2 and causes the disease COVID-19. Symptoms include fever, cough and shortness of breath. Diagnosis is made through PCR testing of respiratory samples. Treatment is supportive and includes oxygen supplementation. Several investigational agents are being studied but no proven treatments currently exist.
Middle East respiratory Syndrome Coronavirus Ashraf ElAdawy
This document provides information on Middle East Respiratory Syndrome Coronavirus (MERS-CoV), including:
- MERS-CoV is a novel coronavirus that was first identified in Saudi Arabia in 2012 and causes severe respiratory illness. About half of confirmed cases have been fatal.
- The virus is thought to originate from bats and possibly be transmitted by camels, though the animal reservoir is still unknown. Limited human-to-human transmission can occur in healthcare settings and among family contacts.
- Recommendations are provided for testing, treatment, prevention, and healthcare worker protocols for suspected MERS-CoV cases. Ongoing surveillance is needed as the virus poses a risk of spread outside the Middle East.
Clinical case Management Of Severe Acute Respiratory Infection SARIAshraf ElAdawy
This document provides guidance on clinical case management of severe acute respiratory infection (SARI). It defines SARI and outlines the typical clinical presentation. It discusses the principal etiological agents that can cause SARI, including various viruses and bacteria. The document provides guidance on initial patient assessment, diagnostic testing, exposure history, treatment including antivirals and antibiotics, supportive care, oxygen therapy and mechanical ventilation. The goal is to aid clinicians in managing SARI patients and detecting novel respiratory pathogens.
Covid 19 aka mers cov2 update and perinatal covidSri ChowdarRy
This document provides an overview of COVID-19 (coronavirus disease 2019), caused by the novel coronavirus SARS-CoV-2. It discusses the virology, epidemiology, clinical features, course, complications, diagnosis, and prevention of COVID-19. Key points include that SARS-CoV-2 is a betacoronavirus that uses the ACE2 receptor for cell entry, most infections are mild but some can be severe or critical, common symptoms include fever and cough but some patients are asymptomatic, and chest CT often shows bilateral ground-glass opacities consistent with viral pneumonia.
This document provides information on COVID-19. It describes COVID-19 as an infectious disease caused by SARS-CoV-2. The first cases were seen in Wuhan, China in December 2019. Most people experience mild to moderate symptoms, but older people and those with pre-existing medical conditions are more likely to develop serious illness. Diagnosis is made through PCR testing of respiratory samples. Common CT findings include ground glass opacities and consolidation.
Covid 19 in children consensus statementgisa_legal
This document presents an experts' consensus statement on the diagnosis, treatment, and prevention of 2019 novel coronavirus (2019-nCoV) infection in children. It summarizes the current strategies based on previous diagnosis and treatment of pediatric virus infections. The key points are: 1) 2019-nCoV infections in children can range from asymptomatic to mild or severe pneumonia, with most cases being mild; 2) Diagnosis is based on epidemiological history, clinical manifestations, and laboratory tests detecting 2019-nCoV nucleic acid; 3) Treatment involves supportive care, symptom relief, oxygen therapy, and antiviral drugs like interferon-α; 4) Prevention focuses on isolation of suspected cases and treatment of confirmed cases.
This document provides an overview of COVID-19 for EMS providers, including terminology, the origins and spread of the virus, clinical presentation, screening and risk assessment, treatment considerations, infection control protocols, and recommendations for interacting with the public. Key points covered include how the virus is transmitted, projected disease course, limitations of current testing and treatment options, importance of PPE and prenotification, and dispelling common myths. The goal is to equip EMS with up-to-date facts and best practices for responding safely and effectively during the pandemic.
At the end of 2019, a novel coronavirus was identified as the cause of a cluster of pneumonia cases in Wuhan, China. It rapidly spread globally, resulting in an ongoing pandemic. Coronaviruses can cause illnesses ranging from common cold to more severe respiratory diseases. This particular virus is designated SARS-CoV-2 and causes the disease COVID-19. Symptoms include fever, cough and shortness of breath. Diagnosis is made through PCR testing of respiratory samples. Treatment is supportive and includes oxygen supplementation. Several investigational agents are being studied but no proven treatments currently exist.
Middle East respiratory Syndrome Coronavirus Ashraf ElAdawy
This document provides information on Middle East Respiratory Syndrome Coronavirus (MERS-CoV), including:
- MERS-CoV is a novel coronavirus that was first identified in Saudi Arabia in 2012 and causes severe respiratory illness. About half of confirmed cases have been fatal.
- The virus is thought to originate from bats and possibly be transmitted by camels, though the animal reservoir is still unknown. Limited human-to-human transmission can occur in healthcare settings and among family contacts.
- Recommendations are provided for testing, treatment, prevention, and healthcare worker protocols for suspected MERS-CoV cases. Ongoing surveillance is needed as the virus poses a risk of spread outside the Middle East.
Clinical case Management Of Severe Acute Respiratory Infection SARIAshraf ElAdawy
This document provides guidance on clinical case management of severe acute respiratory infection (SARI). It defines SARI and outlines the typical clinical presentation. It discusses the principal etiological agents that can cause SARI, including various viruses and bacteria. The document provides guidance on initial patient assessment, diagnostic testing, exposure history, treatment including antivirals and antibiotics, supportive care, oxygen therapy and mechanical ventilation. The goal is to aid clinicians in managing SARI patients and detecting novel respiratory pathogens.
Covid 19 aka mers cov2 update and perinatal covidSri ChowdarRy
This document provides an overview of COVID-19 (coronavirus disease 2019), caused by the novel coronavirus SARS-CoV-2. It discusses the virology, epidemiology, clinical features, course, complications, diagnosis, and prevention of COVID-19. Key points include that SARS-CoV-2 is a betacoronavirus that uses the ACE2 receptor for cell entry, most infections are mild but some can be severe or critical, common symptoms include fever and cough but some patients are asymptomatic, and chest CT often shows bilateral ground-glass opacities consistent with viral pneumonia.
This document provides information on COVID-19. It describes COVID-19 as an infectious disease caused by SARS-CoV-2. The first cases were seen in Wuhan, China in December 2019. Most people experience mild to moderate symptoms, but older people and those with pre-existing medical conditions are more likely to develop serious illness. Diagnosis is made through PCR testing of respiratory samples. Common CT findings include ground glass opacities and consolidation.
- Coronaviruses typically cause common colds but SARS-CoV and MERS-CoV can cause pneumonia, respiratory failure, and death. A novel coronavirus, SARS-CoV-2, emerged in Wuhan, China in late 2019 and caused a global pandemic.
- SARS-CoV-2 spreads mainly through respiratory droplets when people cough, sneeze or talk within 6 feet of each other. Asymptomatic and pre-symptomatic people are highly infectious.
- COVID-19 symptoms range from mild to critical illness. The elderly and those with pre-existing conditions are at higher risk for severe disease. Diagnosis involves PCR testing of respiratory samples.
1. This document provides recommendations for the diagnosis and treatment of respiratory infections caused by the 2019 novel coronavirus (2019-nCoV) in children based on the latest national guidelines and current clinical practices in Zhejiang Province, China.
2. It summarizes the key details of 2019-nCoV including its etiology, epidemiology, clinical characteristics, diagnostic criteria, clinical classifications, differential diagnosis and imaging features to aid in the diagnosis and management of pediatric cases.
3. The recommendations aim to standardize the protocols for diagnosing and treating respiratory infections in children caused by 2019-nCoV, with the overall goal of identifying and managing cases early while differentiating them from other viral or bacterial infections.
This document provides information about COVID-19 presented by Dr. Mahasin Shaddad, including: discussing the modes of transmission, incubation period, clinical presentation, case definitions, and specimen collection for diagnosis. It outlines that COVID-19 is caused by a novel coronavirus that was first detected in China and has now spread internationally. The main modes of transmission are through respiratory droplets from coughing or sneezing. The median incubation period is 5 days, with a maximum of 14 days. Risk factors for severe illness include older age and pre-existing medical conditions.
Covid-19: Summary Recommendations - Brazilian Medical Association (AMB)
Authors: S. E. TANNI, H.A. BACHA, C. E. FERNANDES, J. E. L. DOLCI, A.N. BARBOSA, W. BERNARDO
Publication date: 2021
Journal: World Medical Journal
ISSN: 2256-0580
Volume: 2
Pages: 37-52
Publisher
World Medical Association
This document provides guidelines for clinicians on the clinical management of patients with severe acute respiratory illness (SARI) when a novel coronavirus (nCoV) infection is suspected. It outlines recommendations for early recognition and triage of patients, immediate infection prevention and control measures, and early supportive care including oxygen therapy, conservative fluid management, empiric antimicrobials, and monitoring for clinical deterioration. The guidelines aim to optimize safe and effective management of critically ill patients and provide up-to-date interim guidance for healthcare workers.
The document discusses coronavirus disease (COVID-19) including its definition, transmission, clinical presentation, course, and diagnostic testing recommendations. It defines healthcare personnel and notes COVID-19 is a new coronavirus strain discovered in 2019 that is zoonotic, mainly spread through respiratory droplets. Symptoms can range from mild to severe and include fever, cough and shortness of breath. Older patients and those with chronic conditions are at higher risk. Diagnostic testing is recommended for suspected cases using molecular tests on respiratory specimens.
The document provides guidelines for COVID-19 surveillance and response in Punjab, Pakistan. It outlines case definitions, epidemiology of COVID-19, alert thresholds, and surveillance protocols. It describes laboratory diagnosis, contact tracing, and the roles and responsibilities of the Provincial Disease Surveillance and Response Unit. Guidelines are provided for clinical management, laboratory sample collection and transport, and infection prevention and control.
Corona virus was first identified as a cause of the common cold in 1960. Until 2002, the virus was considered a relatively simple, nonfatal virus.Over the last three decades there have been three attacks of three different coronaviruses, SARS-CoV, MERS CoV and the recent one 2019 novel coronavirus (2019-nCoV).
Clinical and epidemiological features of Children with COVID 19Ramin Nazari M.D
- Children can be infected with COVID-19 but symptoms tend to be mild. Severe cases have occurred but are rare, especially in otherwise healthy children. Younger children, especially infants, may be more vulnerable to severe illness.
- A study in China found that 34% of COVID-19 cases in children were confirmed via lab tests while 66% were suspected cases. The majority of cases were mild. Severe or critical cases were more common in younger age groups, especially children under 1 year old.
- While children can spread the virus, severity of illness in children is generally milder than in adults. No significant differences in infection rates between boys and girls were observed.
The document provides an overview of the COVID-19 pandemic including:
- Coronaviruses and COVID-19 virus virology
- Modes of transmission are through respiratory droplets and contacting contaminated surfaces
- Clinical features are fever, cough and fatigue with risk of severe disease higher in older people and those with underlying conditions
- Diagnosis is through viral testing like PCR from respiratory samples and antibody tests
- Treatment focuses on supportive care while vaccines are still in development
The document provides a summary of COVID-19 including its definition, epidemiology, aetiology, pathophysiology, clinical presentation, diagnosis, treatment and prevention. Some key points:
- COVID-19 is caused by the SARS-CoV-2 virus and presents with respiratory symptoms ranging from mild to severe.
- It spread rapidly from Wuhan, China in December 2019. Risk factors include travel to affected areas and close contact with infected individuals.
- SARS-CoV-2 binds to ACE2 receptors in humans, similarly to SARS. It has a reproductive number of approximately 2.2.
- Diagnosis involves screening for exposure risk factors and testing respiratory samples for SARS-CoV-2
This document provides guidance on the care of patients with COVID-19. It defines COVID-19 and outlines the objectives of reviewing its history, case definition, clinical manifestations, diagnostic testing, medical management, prevention, and nursing care. It describes the virus's structure and history. Key points include its identification in China in late 2019, its declaration as a global pandemic by WHO in March 2020, and its spread to over 160 countries. Clinical features range from mild illness to pneumonia, ARDS, and septic shock. Diagnostic testing includes PCR from respiratory samples and serology. Management involves symptomatic care, oxygen therapy, treatment of coinfections, ventilation for respiratory failure, and treating septic shock.
Rekha Dehariya (M.Sc nursing 1st year) Bhopal Nursing College, Bhopal
Covid -19 has effected broud number of people all over the world. the health education is necessary to aware people about it.
Middle East Respiratory Syndrome Coronavirus (MERS-CoV) - May 2014Ashraf ElAdawy
The document discusses the Middle East Respiratory Syndrome Coronavirus (MERS-CoV) outbreak from 2012-2014. It provides data on case numbers and deaths across different countries. It examines the transmission patterns and risks, describing most cases as occurring in healthcare settings through human-to-human transmission. Symptoms are typically severe respiratory illness and there is no vaccine currently available.
Waheed Shouman was informed on December 31, 2019 of 44 cases of pneumonia in Wuhan, China with no known cause. Most patients reported a link to a seafood market. By January 1, 2020 person-to-person spread was occurring, including among healthcare workers. As of March 5, 2020 there were over 82 countries affected globally.
A review of literature covering current knowledge areas about pathophysiology and progression of CoVid-19 in humans. I gave a day to day disease account along with serum markers and clinical condition of patients. My objectives are: Appreciate the background knowledge about CoVid-19 in most recent literature.
Explain the progression of CoVid-19 disease in a human body based on current literature.
Correlate the known risk factors for adverse outcomes with pathogenesis of CoVid-19.
Describe the pharmacologic mechanisms being used to halt disease progression and prevent adverse outcomes.
The document summarizes information about the 2019 novel coronavirus (2019-nCoV) that causes COVID-19. It describes the virus's origin in Wuhan, China in December 2019. It provides details on the virus's taxonomy, epidemiology, clinical features, transmission, risk factors, diagnosis and management. The virus is genetically similar to bat coronaviruses and causes respiratory symptoms ranging from mild to severe illness and mortality in around 3% of cases. Human to human transmission can occur and diagnosis involves PCR testing of respiratory samples. There is no specific treatment currently, only symptomatic care, though some antiviral drugs are under investigation.
The document provides information about Coronavirus and COVID-19. It discusses that Coronaviruses originated from animal sources like bats and were first reported in China in 2019. The virus has since spread globally and was declared a public health emergency. Coronaviruses are enveloped RNA viruses that cause respiratory illness. COVID-19 is caused by SARS-CoV-2 and spreads through respiratory droplets. It mainly affects the lungs and common symptoms include cough, fever and difficulty breathing.
This document discusses COVID-19, caused by SARS-CoV-2. It defines the virus and outlines its origin in Wuhan, China in December 2019. Clinical features include fever, cough and dyspnea. Diagnosis involves travel history screening and PCR testing of respiratory samples. Management involves supportive care, with oxygen and ventilation for severe cases. Specific antivirals like remdesivir are under investigation but no vaccine currently exists. Prognosis is best for non-critical cases without comorbidities, with a overall fatality rate of 2.3%.
5-hydroxytryptamine or 5-HT or Serotonin is a neurotransmitter that serves a range of roles in the human body. It is sometimes referred to as the happy chemical since it promotes overall well-being and happiness.
It is mostly found in the brain, intestines, and blood platelets.
5-HT is utilised to transport messages between nerve cells, is known to be involved in smooth muscle contraction, and adds to overall well-being and pleasure, among other benefits. 5-HT regulates the body's sleep-wake cycles and internal clock by acting as a precursor to melatonin.
It is hypothesised to regulate hunger, emotions, motor, cognitive, and autonomic processes.
- Coronaviruses typically cause common colds but SARS-CoV and MERS-CoV can cause pneumonia, respiratory failure, and death. A novel coronavirus, SARS-CoV-2, emerged in Wuhan, China in late 2019 and caused a global pandemic.
- SARS-CoV-2 spreads mainly through respiratory droplets when people cough, sneeze or talk within 6 feet of each other. Asymptomatic and pre-symptomatic people are highly infectious.
- COVID-19 symptoms range from mild to critical illness. The elderly and those with pre-existing conditions are at higher risk for severe disease. Diagnosis involves PCR testing of respiratory samples.
1. This document provides recommendations for the diagnosis and treatment of respiratory infections caused by the 2019 novel coronavirus (2019-nCoV) in children based on the latest national guidelines and current clinical practices in Zhejiang Province, China.
2. It summarizes the key details of 2019-nCoV including its etiology, epidemiology, clinical characteristics, diagnostic criteria, clinical classifications, differential diagnosis and imaging features to aid in the diagnosis and management of pediatric cases.
3. The recommendations aim to standardize the protocols for diagnosing and treating respiratory infections in children caused by 2019-nCoV, with the overall goal of identifying and managing cases early while differentiating them from other viral or bacterial infections.
This document provides information about COVID-19 presented by Dr. Mahasin Shaddad, including: discussing the modes of transmission, incubation period, clinical presentation, case definitions, and specimen collection for diagnosis. It outlines that COVID-19 is caused by a novel coronavirus that was first detected in China and has now spread internationally. The main modes of transmission are through respiratory droplets from coughing or sneezing. The median incubation period is 5 days, with a maximum of 14 days. Risk factors for severe illness include older age and pre-existing medical conditions.
Covid-19: Summary Recommendations - Brazilian Medical Association (AMB)
Authors: S. E. TANNI, H.A. BACHA, C. E. FERNANDES, J. E. L. DOLCI, A.N. BARBOSA, W. BERNARDO
Publication date: 2021
Journal: World Medical Journal
ISSN: 2256-0580
Volume: 2
Pages: 37-52
Publisher
World Medical Association
This document provides guidelines for clinicians on the clinical management of patients with severe acute respiratory illness (SARI) when a novel coronavirus (nCoV) infection is suspected. It outlines recommendations for early recognition and triage of patients, immediate infection prevention and control measures, and early supportive care including oxygen therapy, conservative fluid management, empiric antimicrobials, and monitoring for clinical deterioration. The guidelines aim to optimize safe and effective management of critically ill patients and provide up-to-date interim guidance for healthcare workers.
The document discusses coronavirus disease (COVID-19) including its definition, transmission, clinical presentation, course, and diagnostic testing recommendations. It defines healthcare personnel and notes COVID-19 is a new coronavirus strain discovered in 2019 that is zoonotic, mainly spread through respiratory droplets. Symptoms can range from mild to severe and include fever, cough and shortness of breath. Older patients and those with chronic conditions are at higher risk. Diagnostic testing is recommended for suspected cases using molecular tests on respiratory specimens.
The document provides guidelines for COVID-19 surveillance and response in Punjab, Pakistan. It outlines case definitions, epidemiology of COVID-19, alert thresholds, and surveillance protocols. It describes laboratory diagnosis, contact tracing, and the roles and responsibilities of the Provincial Disease Surveillance and Response Unit. Guidelines are provided for clinical management, laboratory sample collection and transport, and infection prevention and control.
Corona virus was first identified as a cause of the common cold in 1960. Until 2002, the virus was considered a relatively simple, nonfatal virus.Over the last three decades there have been three attacks of three different coronaviruses, SARS-CoV, MERS CoV and the recent one 2019 novel coronavirus (2019-nCoV).
Clinical and epidemiological features of Children with COVID 19Ramin Nazari M.D
- Children can be infected with COVID-19 but symptoms tend to be mild. Severe cases have occurred but are rare, especially in otherwise healthy children. Younger children, especially infants, may be more vulnerable to severe illness.
- A study in China found that 34% of COVID-19 cases in children were confirmed via lab tests while 66% were suspected cases. The majority of cases were mild. Severe or critical cases were more common in younger age groups, especially children under 1 year old.
- While children can spread the virus, severity of illness in children is generally milder than in adults. No significant differences in infection rates between boys and girls were observed.
The document provides an overview of the COVID-19 pandemic including:
- Coronaviruses and COVID-19 virus virology
- Modes of transmission are through respiratory droplets and contacting contaminated surfaces
- Clinical features are fever, cough and fatigue with risk of severe disease higher in older people and those with underlying conditions
- Diagnosis is through viral testing like PCR from respiratory samples and antibody tests
- Treatment focuses on supportive care while vaccines are still in development
The document provides a summary of COVID-19 including its definition, epidemiology, aetiology, pathophysiology, clinical presentation, diagnosis, treatment and prevention. Some key points:
- COVID-19 is caused by the SARS-CoV-2 virus and presents with respiratory symptoms ranging from mild to severe.
- It spread rapidly from Wuhan, China in December 2019. Risk factors include travel to affected areas and close contact with infected individuals.
- SARS-CoV-2 binds to ACE2 receptors in humans, similarly to SARS. It has a reproductive number of approximately 2.2.
- Diagnosis involves screening for exposure risk factors and testing respiratory samples for SARS-CoV-2
This document provides guidance on the care of patients with COVID-19. It defines COVID-19 and outlines the objectives of reviewing its history, case definition, clinical manifestations, diagnostic testing, medical management, prevention, and nursing care. It describes the virus's structure and history. Key points include its identification in China in late 2019, its declaration as a global pandemic by WHO in March 2020, and its spread to over 160 countries. Clinical features range from mild illness to pneumonia, ARDS, and septic shock. Diagnostic testing includes PCR from respiratory samples and serology. Management involves symptomatic care, oxygen therapy, treatment of coinfections, ventilation for respiratory failure, and treating septic shock.
Rekha Dehariya (M.Sc nursing 1st year) Bhopal Nursing College, Bhopal
Covid -19 has effected broud number of people all over the world. the health education is necessary to aware people about it.
Middle East Respiratory Syndrome Coronavirus (MERS-CoV) - May 2014Ashraf ElAdawy
The document discusses the Middle East Respiratory Syndrome Coronavirus (MERS-CoV) outbreak from 2012-2014. It provides data on case numbers and deaths across different countries. It examines the transmission patterns and risks, describing most cases as occurring in healthcare settings through human-to-human transmission. Symptoms are typically severe respiratory illness and there is no vaccine currently available.
Waheed Shouman was informed on December 31, 2019 of 44 cases of pneumonia in Wuhan, China with no known cause. Most patients reported a link to a seafood market. By January 1, 2020 person-to-person spread was occurring, including among healthcare workers. As of March 5, 2020 there were over 82 countries affected globally.
A review of literature covering current knowledge areas about pathophysiology and progression of CoVid-19 in humans. I gave a day to day disease account along with serum markers and clinical condition of patients. My objectives are: Appreciate the background knowledge about CoVid-19 in most recent literature.
Explain the progression of CoVid-19 disease in a human body based on current literature.
Correlate the known risk factors for adverse outcomes with pathogenesis of CoVid-19.
Describe the pharmacologic mechanisms being used to halt disease progression and prevent adverse outcomes.
The document summarizes information about the 2019 novel coronavirus (2019-nCoV) that causes COVID-19. It describes the virus's origin in Wuhan, China in December 2019. It provides details on the virus's taxonomy, epidemiology, clinical features, transmission, risk factors, diagnosis and management. The virus is genetically similar to bat coronaviruses and causes respiratory symptoms ranging from mild to severe illness and mortality in around 3% of cases. Human to human transmission can occur and diagnosis involves PCR testing of respiratory samples. There is no specific treatment currently, only symptomatic care, though some antiviral drugs are under investigation.
The document provides information about Coronavirus and COVID-19. It discusses that Coronaviruses originated from animal sources like bats and were first reported in China in 2019. The virus has since spread globally and was declared a public health emergency. Coronaviruses are enveloped RNA viruses that cause respiratory illness. COVID-19 is caused by SARS-CoV-2 and spreads through respiratory droplets. It mainly affects the lungs and common symptoms include cough, fever and difficulty breathing.
This document discusses COVID-19, caused by SARS-CoV-2. It defines the virus and outlines its origin in Wuhan, China in December 2019. Clinical features include fever, cough and dyspnea. Diagnosis involves travel history screening and PCR testing of respiratory samples. Management involves supportive care, with oxygen and ventilation for severe cases. Specific antivirals like remdesivir are under investigation but no vaccine currently exists. Prognosis is best for non-critical cases without comorbidities, with a overall fatality rate of 2.3%.
5-hydroxytryptamine or 5-HT or Serotonin is a neurotransmitter that serves a range of roles in the human body. It is sometimes referred to as the happy chemical since it promotes overall well-being and happiness.
It is mostly found in the brain, intestines, and blood platelets.
5-HT is utilised to transport messages between nerve cells, is known to be involved in smooth muscle contraction, and adds to overall well-being and pleasure, among other benefits. 5-HT regulates the body's sleep-wake cycles and internal clock by acting as a precursor to melatonin.
It is hypothesised to regulate hunger, emotions, motor, cognitive, and autonomic processes.
share - Lions, tigers, AI and health misinformation, oh my!.pptxTina Purnat
• Pitfalls and pivots needed to use AI effectively in public health
• Evidence-based strategies to address health misinformation effectively
• Building trust with communities online and offline
• Equipping health professionals to address questions, concerns and health misinformation
• Assessing risk and mitigating harm from adverse health narratives in communities, health workforce and health system
DECLARATION OF HELSINKI - History and principlesanaghabharat01
This SlideShare presentation provides a comprehensive overview of the Declaration of Helsinki, a foundational document outlining ethical guidelines for conducting medical research involving human subjects.
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10 Benefits an EPCR Software should Bring to EMS Organizations Traumasoft LLC
The benefits of an ePCR solution should extend to the whole EMS organization, not just certain groups of people or certain departments. It should provide more than just a form for entering and a database for storing information. It should also include a workflow of how information is communicated, used and stored across the entire organization.
Mercurius is named after the roman god mercurius, the god of trade and science. The planet mercurius is named after the same god. Mercurius is sometimes called hydrargyrum, means ‘watery silver’. Its shine and colour are very similar to silver, but mercury is a fluid at room temperatures. The name quick silver is a translation of hydrargyrum, where the word quick describes its tendency to scatter away in all directions.
The droplets have a tendency to conglomerate to one big mass, but on being shaken they fall apart into countless little droplets again. It is used to ignite explosives, like mercury fulminate, the explosive character is one of its general themes.
Does Over-Masturbation Contribute to Chronic Prostatitis.pptxwalterHu5
In some case, your chronic prostatitis may be related to over-masturbation. Generally, natural medicine Diuretic and Anti-inflammatory Pill can help mee get a cure.
8 Surprising Reasons To Meditate 40 Minutes A Day That Can Change Your Life.pptxHolistified Wellness
We’re talking about Vedic Meditation, a form of meditation that has been around for at least 5,000 years. Back then, the people who lived in the Indus Valley, now known as India and Pakistan, practised meditation as a fundamental part of daily life. This knowledge that has given us yoga and Ayurveda, was known as Veda, hence the name Vedic. And though there are some written records, the practice has been passed down verbally from generation to generation.
8 Surprising Reasons To Meditate 40 Minutes A Day That Can Change Your Life.pptx
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1. CLINICAL OVERVIEW
Coronavirus: novel coronavirus (COVID-19) infection
Elsevier Point of Care (ver detalles)
Actualizado March 12, 2020. Copyright Elsevier, Inc. Todos los derechos reservados.
Urgent Action
Triage screening is
recommended at
registration for medical
care to identify patients
with symptoms and
exposure history that
suggest the possibility of
COVID-19, and to promptly
institute isolation measures
Patients with respiratory
distress require prompt
administration of
supplemental oxygen;
patients with respiratory
failure require intubation
Patients in shock require
urgent fluid resuscitation
and administration of
empiric antimicrobial
therapy
Synopsis
Key Points
COVID-19 (coronavirus disease 2019) is respiratory
tract infection due to a novel coronavirus, SARS-
CoV-2 (initially called 2019-nCoV); as of March 11,
2020, extent of infection was declared pandemic by
the WHO 1
Virus is thought to be zoonotic in origin, but the
animal reservoir is not yet known, and it is clear
that human-to-human transmission is occurring
Infection ranges from asymptomatic to severe;
symptoms include fever, cough, and (in moderate
to severe cases) dyspnea; disease may evolve over
the course of a week or more from mild to severe.
Upper respiratory tract symptoms (eg, rhinorrhea,
sore throat) are uncommon 2
A significant proportion of clinically evident cases
are severe; the mortality rate among diagnosed
cases is about 2% to 3% 1
Infection should be suspected based on
presentation with a clinically compatible history
2. and known or likely exposure (residence in or travel to an affected area within the
past 14 days, exposure to a known or suspected case, exposure to a health care
setting in which patients with severe respiratory tract infections are managed)
Chest imaging in symptomatic patients almost always shows abnormal findings,
usually including bilateral infiltrates; laboratory findings are variable but typically
include lymphopenia and elevated lactate dehydrogenase and transaminase levels
Diagnosis is confirmed by detection of viral RNA on polymerase chain reaction test
of upper or lower respiratory tract specimens or serum specimens
There is no specific antiviral therapy, although compassionate use and trial protocols
for several agents are underway; treatment is largely supportive, consisting of
supplemental oxygen and conservative fluid administration
Most common complications are acute respiratory distress syndrome and septic
shock; myocardial, renal, and multiorgan failure have been reported
There is no vaccine available to prevent this infection; infection control
measures are the mainstay of prevention (ie, hand and cough hygiene; standard,
contact, and airborne precautions; social distancing)
Pitfalls
It is possible (but not yet well established) that persons with prodromal or
asymptomatic infection may spread infection, making effective prevention more
challenging
Knowledge of this disease is incomplete and evolving; moreover, coronaviruses are
known to mutate and recombine often, presenting an ongoing challenge to our
understanding and to clinical management
Terminology
Clinical Clarification
COVID-19 (coronavirus disease 2019) is a respiratory tract infection with a newly
recognized coronavirus thought to have originated as a zoonotic virus that has
mutated or otherwise adapted in ways that allow human pathogenicity
3. Disease was provisionally called 2019-nCoV infection at start of outbreak (2019
novel coronavirus infection)
Outbreak began in China, where its effects to date are most widespread; it has since
spread to many other countries, and it was officially declared by WHO to be a
pandemic 1
on March 11, 2020
Illness ranges in severity from asymptomatic or mild to severe; a significant
proportion of patients with clinically evident infection develop severe disease 1
Mortality rate among diagnosed cases (case fatality rate) is about 2% to 3%; true
overall mortality rate is uncertain, as the total number of cases (including
undiagnosed persons with milder illness) is unknown
Knowledge of this disease is incomplete and evolving; moreover, coronaviruses are
known to mutate and recombine often, presenting an ongoing challenge to our
understanding and to clinical management
Classification
Pathogen is a betacoronavirus, 3
similar to the agents of SARS (severe acute
respiratory syndrome) and MERS (Middle East respiratory syndrome)
Classified as a member of the species Severe acute respiratory syndrome–related
coronavirus 4
Designated as SARS-CoV-2 (severe acute respiratory syndrome coronavirus 2) 4
Diagnosis
Clinical Presentation
History
In symptomatic patients, illness may evolve over the course of a week or longer,
beginning with mild symptoms that progress (in some cases) to the point of dyspnea
and shock 2
Most common complaints are fever (almost universal) and cough, which may or may
not be productive 2 5
4. Myalgia and fatigue are common 2
Patients with moderate to severe disease complain
of dyspnea 2
Hemoptysis has been reported in a small
percentage of patients 2
Pleuritic chest pain has been reported 6
Upper respiratory tract symptoms (eg, rhinorrhea,
sneezing, sore throat) are unusual 2 5
Headache and gastrointestinal symptoms (eg,
nausea, vomiting, diarrhea) are uncommon but
may occur 2
Patients may report close contact with an infected
person; outside of an identified outbreak area, a
history of recent travel (within 14 days) to an area
with widespread infection 7
is relevant, although
cases with no identifiable risk factor 8
are being
reported
Physical examination
Reported case series have not detailed physical
findings, but clinicians should be particularly
attuned to pulmonary and hemodynamic
indicators of severe disease
Patients with severe disease may appear quite ill, with tachypnea and labored
respirations
Fever is usual, often exceeding 39 °C. Patients in the extremes of age or with
immunodeficiency may not develop fever 2
Hypotension, tachycardia, and cool/clammy extremities suggest shock
Chronology of symptom onset of a
Shenzhen family cluster and their
contacts in Wuhan. - Dates filled in
red are the dates on which patients
1-6 had close contacts with their
relatives (relatives 1-5). Dates filled in
yellow are the dates on which
patients 3-6 stayed with patient 7.
The boxes with an internal red cross
are the dates on which patients 1 and
3 or relatives 1, 2, and 3 had stayed
overnight (white boxes) at or had
visited (blue boxes) the hospital in
which relative 1 was admitted for
febrile pneumonia. The information
of relatives 1-5 was provided by
patient 3. No virologic data were
available.
5. In children, hypotension plus 2 or 3 of the following criteria: 9
Altered mental status
Tachycardia (heart rate more than 160 beats per minute in infants or 150 in
older children) or bradycardia (heart rate less than 90 in infants or 70 in older
children)
Prolonged capillary refill (more than 2 seconds) or warm vasodilation and
bounding pulses
Tachypnea
Mottled skin, petechiae, or purpura
Oliguria
Hyperthermia or hypothermia
Causes and Risk Factors
Causes
Infection due to SARS-CoV-2 (2019 novel coronavirus)
Person-to-person transmission has been documented 6 and is presumed to occur by
close contact, 10
probably via respiratory droplets 11
It is not known when in the course of infection a person becomes contagious to
others. Chinese authorities have reported the possibility that the virus may be
transmitted before symptoms develop, 12
and a few case reports from Germany
13 and from China 14 have been published; if such transmission truly exists, its
frequency is not yet known 11 14
Additional means of transmission have not been ruled out (eg, contact with infected
environmental surfaces)
Risk factors and/or associations
Age
6. Most reported cases are adults of middle age and older, 2 5
but several pediatric
infections 6 have been reported
Sex
In published case series, males have been affected more often than females overall 2
3 5 6
Other risk factors/associations
Early on, an association was noted between infected persons and a market in Wuhan
that sold seafood, livestock, and wild game; infection was presumed to have been
acquired by exposure to infected animals 15
However, although environmental samples from the implicated market showed
evidence of the virus, no animal specimens have been positive; a zoonotic origin of
the virus remains likely, but the original source and reservoir of infection are
unknown 16
Diagnostic Procedures
Infection should be suspected in persons with a
compatible respiratory illness and exposure
history
A map of areas reporting cases 17
is available
through CDC, but it must be noted that it
includes countries reporting just a single case,
in which risk to general population is
extremely low
Chest imaging is essential to document presence
of pneumonia and to assess severity; both plain
radiography and CT have been used 5
In Hubei Province only, a trained medical
professional can classify a suspected case of
Primary diagnostic tools
Chest radiographs and chest CT
scans of 3 patients with 2019-nCoV
infection. - Case 1: chest radiograph
was obtained on January 1 (1A). The
brightness of both lungs was
diffusely decreased, showing a large
area of patchy shadow with uneven
density. Tracheal intubation was
seen in the trachea, and the heart
7. COVID-19 as clinically confirmed on the basis
of chest imaging, rather than by laboratory
confirmation 18
Oxygenation should be assessed by peripheral
saturation (eg, pulse oximetry) or by arterial
blood gas test 9
Polymerase chain reaction tests have been
developed by CDC and other governmental and
commercial organizations. In the United States,
the FDA 19 is permitting use of validated tests
developed by certain qualified laboratories that
have submitted a request for emergency use
authorization. Attempts to culture the virus are
not recommended
CDC 10 and WHO 9 have slightly different
criteria for whom to test. These criteria apply to
patients with compatible features of COVID-19
who are in the following categories (such
patients would be considered PUIs—persons
under investigation—by CDC):
WHO 20 21
Acute respiratory tract illness (fever and at
least 1 sign/symptom of respiratory tract
disease) and a history of travel to or
residence in an area reporting local
transmission of COVID-19 during the 14
days preceding symptom onset
A patient with any acute respiratory tract
illness and close contact with a person with
confirmed or probable COVID-19 in the 14
days preceding illness onset
shadow outline was not clear. The
catheter shadow was seen from the
right axilla to the mediastinum.
Bilateral diaphragmatic surface and
costal diaphragmatic angle were not
clear, and chest radiograph on
January 2 showed worse status (1B).
Case 2: chest radiograph obtained on
January 6 (2A). The brightness of
both lungs was decreased and
multiple patchy shadows were
observed; edges were blurred, and
large ground-glass opacity and
condensation shadows were mainly
on the lower right lobe. Tracheal
intubation could be seen in the
trachea. Heart shadow roughly
presents in the normal range. On the
left side, the diaphragmatic surface
is not clearly displayed. The right
side of the diaphragmatic surface
was light and smooth, and rib phrenic
angle was less sharp. Chest
radiograph on January 10 showed
worse status (2B). Case 3: chest CT
obtained on January 1 (3A) showed
mass shadows of high density in
both lungs. Bright bronchogram is
seen in the lung tissue area of the
lesion, which is also called
bronchoinflation sign. Chest CT on
January 15 showed improved status
(3B).
8. Severe acute respiratory tract infection
requiring hospital admission without an
alternative etiologic diagnosis
CDC 10
Recommends that clinicians use their
judgment, informed by knowledge of the
patient's travel and/or exposure history,
local COVID-19 activity, and other risk
factors to determine the need for testing in
persons with a clinically compatible illness
Collection of specimens from upper respiratory
tract, lower respiratory tract, and serum is
recommended for polymerase chain reaction
testing, plus a sputum specimen if productive
cough is present. 10 Additional specimens (eg,
stool, urine) may be collected and stored for
later testing at the discretion of public health
authorities. Care must be taken to minimize
risks associated with aerosolization during
specimen collection
CDC provides specific instructions for
collection and handling of specimens: 22
Upper respiratory tract
Both a nasopharyngeal and an
oropharyngeal swab should be obtained;
only synthetic fiber swabs with plastic
shafts are acceptable. The 2 specimens
should be submitted in separate
containers
Insert swab into nostril parallel to
palate. Leave swab in place for a few
Chest CT images in 2019-nCoV
infection. - A, Transverse chest CT
images from a 40-year-old man
showing bilateral multiple lobular and
subsegmental areas of consolidation
on day 15 after symptom onset. B
and C, Transverse chest CT images
from a 53-year-old woman showing
bilateral ground-glass opacity and
subsegmental areas of consolidation
on day 8 after symptom onset (B)
and bilateral ground-glass opacity on
day 12 after symptom onset (C).
9. seconds to absorb secretions
Swab the posterior pharynx, avoiding
the tongue and tonsils 9
Nasopharyngeal wash (or aspirate) or
nasal aspirate specimens are also
acceptable
Lower respiratory tract
Bronchoalveolar lavage or tracheal
aspirate are suitable lower respiratory
tract specimens
A deep cough sputum specimen (collected
after mouth rinse) is also acceptable
WHO advises against attempts to
induce sputum, because the process
may increase aerosolization and risk of
transmission
Serum
Blood should be collected in a serum
separator tube and centrifuged after
upright storage for 30 minutes
Minimum of 1 mL of whole blood is
needed (eg, in pediatric patients)
Other testing should be performed concurrently,
if indicated, to identify alternative pathogens
(eg, influenza virus, respiratory syncytial virus,
bacterial pathogens); such tests should not delay
arrangements for SARS-CoV-2 polymerase chain
reaction testing (Related: Community-acquired
pneumonia in adults)
10. Presentation includes fever, dry cough, and myalgias;
unlike with COVID-19, upper respiratory tract
symptoms are common (eg, coryza, sore throat)
Most cases are self-limited, but elderly persons or those
with significant comorbidities often require
hospitalization
Usually occurs in winter months in temperate climates
but is less seasonal in equatorial regions
Patients with severe disease may have abnormal chest
radiographic findings suggesting influenzal pneumonia
Routine blood work should be ordered as
appropriate for clinical management based on
disease severity (eg, CBC, coagulation studies,
chemistry panel including tests of hepatic and
renal function and—if sepsis is suspected—
lactate level) (Related: Sepsis)
Clinicians should report suspected cases of
COVID-19 to appropriate public health
authorities, who can facilitate testing if
necessary and can undertake contact tracing
and monitoring. In the United States, contact
local or state health department 10 23
Differential Diagnosis
Most common
Because COVID-19 cannot be distinguished clinically from other pneumonias, history of
contacts or travel remains an important differentiator, although cases without such
history are increasing in frequency
Influenza
Laboratory
Imaging
11. or secondary bacterial pneumonia
Positive result on rapid influenza diagnostic test
confirms influenza diagnosis with high specificity
during typical season; negative result does not rule out
influenza
Other viral pneumonias
(Related: )
Presentations include fever, dry cough, and dyspnea
Physical examination may find scattered rales
Chest radiography usually shows diffuse patchy
infiltrates
Diagnosis is usually clinical; testing for specific viral
causes (eg, respiratory syncytial virus, adenovirus) may
be done
Bacterial pneumonia
(Related: )
Presentation includes fever, cough, and dyspnea;
pleuritic pain occurs in some cases
Physical examination may find signs of consolidation
(eg, dullness to percussion, auscultatory rales, tubular
breath sounds)
Chest radiography usually shows lobar consolidation or
localized patchy infiltrate
Sputum examination may find abundant
polymorphonuclear leukocytes and a predominant
bacterial organism
Pneumococcal or legionella antigens may be detectable
in urine; sputum culture may find those or other
pathogens
Community-acquired pneumonia in adults
Community-acquired pneumonia in adults
12. Treatment
Goals
Ensure adequate oxygenation and hemodynamic support during acute phase of
illness
Disposition
Admission criteria
Nonsevere pneumonia
Radiographic evidence of pneumonia; progressive clinical illness with indications for
supplemental oxygen and hydration; inadequate care at home 9 28
CDC provides guidance for determining whether the home is a suitable venue and
patient and/or caregiver is capable of adhering to medical care recommendations
and infection control measures 28
Criteria for ICU admission
WHO provides criteria for severe pneumonia 9
Severe pneumonia characterized by tachypnea (respiratory rate greater than 30
breaths per minute), severe respiratory distress, inadequate oxygenation (eg, SpO₂
less than 90%)
Pediatric criteria include central cyanosis or SpO₂ less than 90%; signs of severe
respiratory distress (eg, grunting, chest retractions); inability to drink or
breastfeed; lethargy, altered level of consciousness, seizures; severe tachypnea
defined by age:
Younger than 2 months: 60 or more breaths per minute
Aged 2 to 11 months: 50 or more breaths per minute
Aged 1 to 5 years: 40 or more breaths per minute
Presence of severe complications (eg, septic shock, acute respiratory distress
syndrome)
13. Recommendations for specialist referral
All patients should be managed in consultation with public health authorities
Consult infectious disease specialist to coordinate diagnosis and management with
public health authorities
Consult pulmonologist to aid in obtaining deep specimens for diagnosis and
managing mechanical ventilation if necessary
Consult critical care specialist to manage fluids, mechanical ventilation, and
hemodynamic support as needed
Treatment Options
Standard, contact, and airborne precautions should be implemented as soon as the
diagnosis is suspected 29
Immediately provide the patient with a face mask and place the patient in a closed
room (preferably with structural and engineering safeguards against airborne
transmission, such as negative pressure and frequent air exchange) pending further
evaluation and disposition decisions
At present, no specific antiviral agent is approved for treatment of this infection.
Several existing antiviral agents are being used under clinical trial and compassionate
use protocols based on in vitro activity (against this or related viruses) and on limited
clinical experience
Lopinavir-ritonavir is FDA-approved for treatment of HIV infection. It has been used
for other coronavirus infections; it was used empirically for SARS 30 and is being
studied in the treatment of MERS 31
In China this combination is used in conjunction with interferon alfa for treatment
of some patients with COVID-19 32 33
Remdesivir is an experimental antiviral agent with significant in vitro activity
against coronaviruses 34 35 and some evidence of efficacy in an animal model of
MERS 35
14. Information on therapeutic trials and expanded access 36
is available at
clinicaltrials.gov
Corticosteroid therapy is not recommended for either viral pneumonia or acute
respiratory distress syndrome 9
Until a diagnosis of COVID-19 is confirmed by polymerase chain reaction test,
appropriate antiviral or antimicrobial therapy for other viral pathogens (eg, influenza
virus) or bacterial pathogens should be administered in accordance with the site of
acquisition (hospital or community) and epidemiologic risk factors 9
Otherwise, treatment is largely supportive and includes oxygen supplementation and
conservative fluid support 9
Management of septic shock includes cautious fluid resuscitation and use of
vasopressors if fluid administration does not restore adequate perfusion. WHO
provides guidance specific to the treatment of shock in patients with COVID-19 9
Nondrug and supportive care
WHO provides specific guidance for oxygenation, ventilation, and fluid management
9
Oxygenation and ventilation
Nasal cannula at 5 L/minute, titrated to target peripheral oxygen saturation:
SpO₂ of 90% or higher in nonpregnant adults; 92% or higher in pregnant patients
In most children the target SpO₂ is 90% or greater; for those who require urgent
resuscitation (eg, those with apnea or obstructed breathing, severe respiratory
distress, central cyanosis, shock, seizures, or coma), a target SpO₂ of 94% or
higher is recommended
High-flow nasal oxygen or noninvasive ventilation may be necessary to achieve
adequate oxygenation in some patients, although there is concern that these
techniques may result in higher risk of aerosolization of the virus 37
Mechanical ventilation may be necessary for patients in whom oxygenation
targets cannot be met with less invasive measures or who cannot maintain the
15. work of breathing; recommended settings are tidal volume of 4 to 8 mL/kg and
inspiratory pressures less than 30 cm H₂O
Use of PEEP may be necessary in patients with acute respiratory distress
syndrome. Optimal regimen is not clearly defined, although WHO suggests
higher rather than lower pressures (Related: Acute respiratory distress
syndrome in adults)
For patients with severe acute respiratory distress syndrome, prone positioning
is recommended
Extracorporeal membrane oxygenation has been used 2
in severely ill patients,
and it can be considered if resources and expertise are available
Fluid management
Overhydration should be avoided, because it may precipitate or exacerbate
acute respiratory distress syndrome
In patients with shock:
Administration of crystalloids (ie, saline or lactated Ringer solution) is
recommended
Adults: total of 30 mL/kg over the first 3 hours; goal is mean arterial
pressure of at least 65 mm Hg (if invasive pressure monitoring is available)
Children: 20 mL/kg bolus and up to 40 or even 60 mL/kg over the first hour
Comorbidities
Severe disease due to SARS-CoV-2 (2019-nCoV) has been associated with chronic
conditions such as diabetes, hypertension, and other cardiovascular conditions;
existing published guidance does not address management issues specific to these
comorbidities 2 6
Special populations
Pregnant patients
16. WHO guidelines 9 suggest that pregnant patients receive supportive care as
recommended for nonpregnant adults, with accommodations as dictated by the
physiologic changes of pregnancy (eg, expanded volume of distribution, elevated
diaphragm)
Monitoring
Patients who do not require admission should self-monitor temperature and
symptoms, and they should return for reevaluation if symptoms worsen;
deterioration may occur a week or more 38
into the course of illness 9
In hospitalized patients with proven COVID-19, repeated testing is recommended to
document clearance of virus, defined as 2 consecutive negative results on
polymerase chain reaction tests at least 24 hours apart 9
Complications and Prognosis
Complications
Most common complication is acute respiratory distress syndrome; other reported
complications include: (Related: Acute respiratory distress syndrome in adults)2 5
Septic shock (Related: Sepsis)
Acute kidney injury
Myocardial injury (Related: Heart failure)
Secondary bacterial and fungal infections
Multiorgan failure
Prognosis
Patients who require hospital admission often require prolonged inpatient stay
(more than 20 days), although duration of stay may be inflated by need for isolation
until documentation of sustained absence of fever and serial negative results on
polymerase chain reaction test 2 5
17. Otherwise, short and long-term prognosis (eg, recovery of pulmonary function)
remains to be seen with time
Mortality rate of diagnosed cases is about 2% to 3% 1
Screening and Prevention
Screening
At-risk populations
Screening of travelers from affected areas is being done under the guidance of public
health authorities at airports to assure that persons who are ill are referred for
medical evaluation, and to educate those who are not ill but at risk for infection
about self-monitoring
Triage screening is recommended at points of medical care to identify patients with
symptoms and exposure history that suggest the possibility of COVID-19, so that
prompt isolation measures can be instituted 9 29
Screening tests
Screening and triage to isolation and PCR testing are based on clinical presentation
and exposure history: 9 10 29
Presence of respiratory symptoms (cough, dyspnea) and fever (CDC, WHO)
Recent (within 14 days) travel to Wuhan City, China or broader geographic areas
with widespread COVID-19 (WHO, CDC)
Close contact with a person with known or suspected COVID-19 while that person
was ill (WHO, CDC)
Work in a health care setting in which patients with severe respiratory illnesses
are managed, without regard to place of residence or history of travel (WHO)
Unusual or unexpected deterioration of an acute illness despite appropriate
treatment, without regard to place of residence or history of travel, even if another
cause has been identified that fully explains the clinical presentation (WHO)
Prevention
18. There is no vaccine against COVID-19. Prevention depends on standard infection
control measures, including isolation of infected patients. Quarantine may be
imposed on asymptomatic exposed persons deemed by public health authorities to
be at high risk 39
For the general public, avoidance of ill persons and diligent hand and cough hygiene
are recommended. Social distancing should be used as much as possible. Advise
public as follows: 11
Avoid large gatherings and unnecessary gatherings; stay home when possible
Telecommute if nature of job makes it possible
Wash hands often and thoroughly. Soap and water are best. High-alcohol hand
sanitizers are acceptable until next possible handwashing
Greet others without touching; nod or wave instead of shaking hands or hugging.
Try to maintain 1-m (3-ft) social distance
Cover coughs. Use tissue and throw it away; second choice is sleeve, not hand
Avoid touching face
Patients managed at home 40
Patient is encouraged to stay at home except to seek medical care, to self-isolate to
a single area of the house (preferably with a separate bathroom), to practice good
hand and cough hygiene, and to wear a face mask during any contact with
household members
Patients should be advised that if a need for medical care develops, they should
call their health care provider in advance so that proper isolation measures can
be undertaken promptly on their arrival at the healthcare setting
Duration of infectious potential and need for precautions has not been fully
established; CDC recommends consultation with public health authorities and
demonstration of negative results of molecular assays for SARS-CoV-2 RNA on 2
sets of respiratory secretions at least 24 hours apart, as well as subjective and
objective evidence of clinical improvement 41
19. Household members/caregivers should:
Wear face masks, gowns, and gloves when caring for patient; remove and
discard all when leaving the room (do not reuse)
Dispose of these items in a container lined with a trash bag that can be
removed and tied off or sealed before disposal in household trash
Wash hands for at least 20 seconds after all contact; an alcohol-based hand
sanitizer is acceptable if soap and water are not available
Not share personal items such as towels, dishes, or utensils before proper
cleaning
Wash laundry and "high-touch" surfaces frequently
Wear disposable gloves to handle dirty laundry and use highest possible
temperatures for washing and drying, based on washing instructions on the
items
Clean surfaces with diluted bleach solution or an EPA-approved disinfectant
Restrict contact to minimum number of caregivers and, in particular, ensure
that persons with underlying medical conditions are not exposed to the patient
In health care settings 29 42
CDC provides preparedness checklists 43
for outpatient and inpatient health care
settings
Provide the patient with a face mask and place the patient in a closed room
(preferably with structural and engineering safeguards against airborne
transmission, such as negative pressure and frequent air exchange)
Persons entering the room should follow standard, contact, and airborne
precautions
Gloves, gowns, eye protection, and respirator (N95 or better) with adherence to
hospital donning and doffing protocols
20. In circumstances in which supplies of N95 respirators and other protective
equipment are short, their use should be prioritized for aerosol-generating
procedures; standard surgical face masks should be used for other situations
Equipment used for patient care should be single-use (disposable) or should be
disinfected between patients; WHO 42
suggests using 70% ethyl alcohol
Criteria for discontinuation of isolation precautions have not been determined.
CDC recommends individualized assessment in consultation with public health
officials. Factors to be considered include clinical improvement in temperature
and respiratory status and negative results on polymerase chain reaction from 2
consecutive sets of throat and nasopharyngeal specimens at least 24 hours apart 44
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