An Epidemiological Update on COVID-19 E-Book
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- Herausgeber: Bentham Science Publishers
- Kategorie: Fachliteratur
- Sprache: Englisch
An Epidemiological Update on COVID-19 brings recent findings about the pandemic to the forefront. The reference is a compilation of eleven chapters contributed by expert scholars in epidemiology and medicine that cover topics of interest to anyone interested in COVID-19 monitoring and response measures. The topics also indicate some clinical areas of interest to COVID-19 researchers that have received attention due to the pandemic. It covers basic knowledge about respiratory conditions associated with SARS-CoV-2 infection and COVID-19 epidemiology. These topics are complemented with chapters detailing the symptoms and biochemical mechanisms of novel coronavirus infections intended for readers with an advanced level of understanding of life sciences and medicine. Special topics such as the immune response to Sars-CoV-2, and, recombinant drugs for COVID-19, are also covered in this book. Each chapter is organized in a reader-friendly format and includes a list of references.
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Seitenzahl: 202
Veröffentlichungsjahr: 2002
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FOREWORD
I hope my letter finds you in the best of health and spirits. I am delighted to tell you that this book fulfilled all my expectations. Please, feel free to contact the editor in case you need more information. The pandemic has activated an extraordinary order for digital health technology and has revealed successful solutions. In this scenario, the thrust area of research towards this “AN EPIDEMIOLOGICAL UPDATE ON COVID-19” is welcomed. I am confident that this book was written in a well-defined manner. All the chapters are easily communicable to the research and student communities. With pleasure, I congratulate the editors and authors for their efforts to bring out this book.
These book chapters provide the vast knowledge of the COVID journey in this world and successfully serve as the basis of study for the renowned researchers in this field and the students specializing in this field. In addition, this edited book completely delivers the history and main aspects of COVID-19. This book describes the various topic related to COVID like Acute Respiratory Distress Syndrome (ARDS), Best and Worst Epidemiological Scenarios of Covid-19, Neuropathological Features of Covid-19, Human to Human Transmission of SARS – COV-2 etc.,and the authors gave a complete view on the “An Epidemiological Update on COVID-19”.
I hope it can be very helpful and timely.
PREFACE
Epidemics and pandemics have been frightening the human chase again and again. SARS, H1N1, Ebola, and more have exposed their real face in the past, but with every such outbreak. The coronavirus outbreak came to light on December 31, 2019 and this COVID-19 pandemic is the defining global health crisis of our time and the greatest challenge. As the global Covid-19 pandemic evolved, several countries faced a surge of acute and critically ill patients but had limited resources of space, staff, and stuff. In a relatively short period of time, the new coronavirus was recognized; the travel on COVID-19 has grown exponentially, from a single scientific report to over a few thousand publications, across numerous disciplines. The universality and clinical implications of our observations require further research to define. This pandemic has provoked an extraordinary requirement for digital health technology solutions and has exposed victorious solutions such as population screening, the pathway of the infection, projecting the use and allocation of resources, and designing targeted responses. In this scenario, the thrust area of research towards this “AN EPIDEMIOLOGICAL UPDATE ON COVID -19” is welcomed.
This edited book chapter has been fully revised and updated to suit the requirement of the readers and highlights the comprehensive overview of recent novel coronavirus infections, their biology and associated challenges for their treatment and prevention of novel Coronavirus Disease 2019 (COVID-19). A thoughtful of the topics covered in the book is very important in the context of designing strategies to protect the human race from further sufferers and harm due to SARS-CoV-2 infection-causing COVID-19.
The target audience will include advanced science, medical, pharmacy and nursing students and all the researchers. On behalf of all the chapter authors, we hope to spread the word that this book emphasizes all the thrust areas of COVID-19.
Dedication
I dedicate this book to those individuals who have been very supportive of me in my career and social life, I would like to take this opportunity to thank Professors Dr. Jesus Simal Gandara (University of Vigo-Spain), Dr. Mika Sillanpaa (Aalto University - Finland) and Dr. Moonish Alikhan (King Saud University-Saudi Arabia), our CEO, Dr. Dun Yang (Anticancer Bioscience, Chengdu, China), our VP, Dr. Jing Zhang,(Anticancer Bioscience, Chengdu, China), my Ph.D. Supervisors, Dr. N. Nagendra Gandhi(Anna University, Chennai, India), Dr. K. Kathirvan (University of Madras, Chennai, India), well-wishers, my parents, and finally my lovable wife and daughter.
List of Contributors
Acute Respiratory Distress Syndrome (ARDS)
V. Shyamala1,*,R. Harini2,D. Manikandan3,S.U. Mohammed Riyaz4Abstract
The lungs' air sacs are filled with fluid, leading to a life-threatening lung injury known as acute respiratory distress syndrome (ARDS). The tiny blood vessels of the lungs are damaged in this condition. The amount of oxygen in the bloodstream decreases, giving rise to carbon dioxide in blood circulation. This makes breathing extremely difficult, ultimately leading to organ failure. Usually, the organs damaged due to this condition are the kidneys or brain. The variations in the severity of ARDS are dependent on different signs and symptoms. Most of the time, ARDS is represented by shortness of breath, dry hacking cough, fever, headaches, and fast pulse rate. Labored and unusually rapid breathing, Low blood pressure, mental confusion, and extreme tiredness could also be other signs. ARDS can also be associated with old age, chronic lung disease, a history of alcohol misuse, or smoking.
INTRODUCTION
Ashbaugh and colleagues were the first to define acute respiratory distress syndrome (ARDS) in 1967. They believed that ARDS is associated with signs including acute non-cardiogenic, pulmonary oedema, and increased lung stiffness. In this condition, the process of breathing becomes difficult. It may give rise to pneumonia, trauma, sepsis, and aspiration, resulting in lung failure. It was defined as a condition associated with diffuse pulmonary oedema and respiratory failure by the American European Consensus Conference (AECC) in 1994. Its coexistence with left-sided heart failure was also pointed out at that time [8].
The European Society of Intensive Care Medicine (ESICM) ARDS Definition Task Force proposed some minor changes in the definition of ARDS after reevaluation. Keeping in mind the ‘mild’, ‘moderate’, and ‘severe’ oxygenation levels, these alterations were done. The first case of ARDS was also reported from Denver in 1967 [7].
Mild: 200 mm Hg < PaO2/FiO2 ratio ≤ 300 mm Hg with positive end-expiratory pressure (PEEP) or continuous positive airway pressure ≥ 5 cm H2O.Moderate: 100 mm Hg < PaO2/FiO2 ratio ≤ 200 mm Hg with PEEP ≥ 5 cm H2O.Severe: PaO2/FiO2 ratio ≤ 100 mm Hg with PEEP ≥ 5cm H2O.Since no method can measure lung injury, various clinical manifestations lead us to the diagnosis of ARDS. These clinical manifestations include pathological samples of lung tissue, distal airspace, or blood samples. In the beginning, ARDS may look like pneumonia (bacterial and viral most frequently: fungal sometimes) or major trauma (such as blunt or penetrating injuries or burns). The other possible clinical condition could be non-pulmonary sepsis or aspiration of gastric and/or oral and esophageal contents worsened due to some infection. Some other probable causes of ARDS may include acute pancreatitis, transfusion of fresh frozen plasma, RBCs and platelets, and smoke inhalation. Sometimes a drug overdose and inhalation of fresh or saltwater may lead to the development of ARDS. The hemorrhagic shock or cardiopulmonary bypass and lung resection etc. may also lead to ARDS. Acute respiratory distress syndrome (ARDS) may also be caused by primary graft dysfunction following lung transplantation, high-altitude pulmonary oedema, and neurogenic oedema. The clinical disorders associated with ARDS vary depending on geography so it may have different clinical manifestations in different parts of the world. Another factor is the healthcare system across the globe that makes ARDS show different manifestations clinically. The understating of epidemiology, pathogenesis, and pathophysiology of ARDS is not an easy job as it has different clinical manifestations in different parts of the world. Thus it is considered a heterogeneous syndrome. Its patients are segregated into sub-phenotypes based on clinical and biological features. Specific therapies of ARDS may have different effects on different patients.
Pathophysiology
Acute inflammation affects the process of gaseous exchange by affecting the lungs’ gas exchange surface as well as the alveolar-capillary membrane [1]. A direct pulmonary or indirect extra-pulmonary insult could be the other physiological processes associated with the disease, as these may cause the proliferation of inflammatory mediators. Some elements of the blood may pass into the tissues as a result of perspiration. As a result, some mediators are secreted by the Alveolar macrophages that accumulate inflammatory cells in the lung. This results in the inactivation of surfactants leading to the collapse of the alveolar epithelial barrier. Sometimes, there may be gaps in the alveolar epithelial barrier, leading to necrosis of types I and II alveolar cells. There is intravascular coagulation in the alveolar capillaries resulting in microthrombi. These physiological processes give rise to a condition known as pulmonary edema. There is a loss of surfactant, and dead cells or debris are deposited along the alveoli (hyaline membranes), resulting in compromising pulmonary compliance. There is a difficulty in the process of gaseous exchange. Chest radiography may reveal air space opacification or coarse reticular opacification, as shown in Fig. (1).
Fig. (1)) Chest X ray of ARDS patient.In The Lancet Respiratory Medicine, Giacomo Grasselli and colleagues [2] reported stark similarities between the pulmonary injuries caused by COVID-19 and ARDS. They noticed decreased pulmonary compliance and increased lung weight in the patients of both conditions. There is an increase in the high D-dimer concentrations and mortality due to the lung damage caused by both diseases.
These results indicate that the death in COVID-19 may be caused by pulmonary vascular thrombosis. Further investigations of pulmonary arterial pressure and right-sided heart anatomy and function could also test this hypothesis. The pathophysiological role of the heart–lung interactions is reported to be changed due to the damage caused to the pulmonary circulation, leading to ventricular dysfunction.
Causes of ARDS
The causes of ARDS are not completely known and are being investigated. It has been reported that Direct or Indirect Injuries could possibly cause ARDS. Direct injuries are those which cause bruising of the lungs. The possible causes may be pneumonia or aspiration,injury to the chest or breathing of unwanted gases, including smoke. Indirect injures may include infections caused by viruses as well as bacteria. Other indirect injuries that may lead to ARDS are low blood pressure, injuries that require a blood transfusion, and acute pancreatitis.
Epidemiology
Acute respiratory distress syndrome (ARDS) has been recognized as a major clinical problem worldwide. It was first described by Ashbaugh et al. [1] in 1967 and is reported to be associated with high morbidity and mortality [2-4]. A notable variation has been found in epidemiology and clinical outcomes in different healthcare settings [4]. The occurrence of ARDS may vary from 1 to 79 cases per 100 000 [3]. A less number of cases of ARDS has been reported in Europe as compared to the USA [6], while the number of cases in Brazil ranges from 1.8 to 31 per 100 000 [7, 8].
The survival rate in patients with ARDS is improving gradually [9, 10], but the differences in in-hospital mortality and several observational studies [2-4, 8-11] have remained significant. It can be explained by the variations in risk factors associated with ARDS, differences in diagnostic techniques, ability to diagnose ARDS, and biases involved in the clinics while undergoing trials [12]. A recent study on ARDS involved 459 ICUs in 50 different countries across the globe [13], and all the patients were included in the trial, keeping in mind the Berlin criteria [5]. The diagnosis of these patients under trial was compared with those patients who were diagnosed in the clinics by various physicians. It was found that the incidence of ARDS is far higher in North America, Oceania, and Europe than in South America, Asia, and Africa. In all, 30.0% of the patients with mild, 46.6% with moderate, and 23.4% with severe ARDS were diagnosed as per Berlin criteria. Out of it, 34% of the patients were diagnosed with ARDS at day 1, while 60.2% of the patients were diagnosed only at the end of their stay in ICUs [13]. Many of the patients with ARDS were not treated well [14-16], and optimal mechanical ventilation was less utilized. 82% of the patients received less than 12 cm H2O positive end-expiratory pressure (PEEP), while ventilation in more than 35% of the patients was more than 8 mL·kg−1 ideal body weight without measurement of their plateau pressure [17, 18]. In addition, adjunctive treatments were also less utilized (pronation 16%, corticosteroids 23%, recruitment manoeuvres 33% and neuromuscular blockade 38%) [13]. It was witnessed that the severity has been increased in 19% of patients, mortality in hospitals remained 40%, while mortality was worsened with the increase in diving pressure (Pplateau−PEEPextrinsic) and with ARDS severity (46% severe ARDS) [19]. Drug-based preventive strategies remain a major challenge, since two recent trials on aspirin and statins failed to reduce the incidence in atrisk patients. A new disease-modifying therapy is awaited: some recent studies promised to improve the prognosis of ARDS, but mortality and disabling complications are still high in survivors in intensive care [20]. Chest ultrasonography was conducted to check bilateral chest opacities with chest radiographs. The previous pieces of evidence also supported the use of ultrasonography [21].
Risk Factors
ARDS is not considered a disease but a clinical condition. It is usually caused by acute respiratory failure due to pulmonary and non-pulmonary insults. Usually, there is a lack of education about environmental and individual risk factors that may lead to ARDS [3, 22, 23]. This condition is associated with alcoholism as well as smoking [24]. Numerous studies have also pointed out the relation between environmental pollution and disease occurrence. A study was conducted by Ware et al. [25] to investigate the effect of long-term ozone exposure in individuals with risk for ARDS. These individuals resided within 50 km of one of the 163 air quality monitoring stations nearby Nashville (TN, USA). The record about levels of ozone, nitrogen dioxide (NO2
