0
selected
-
1.
SARS-CoV-2 and immune-microbiome interactions: Lessons from respiratory viral infections.
Cyprian, F, Sohail, MU, Abdelhafez, I, Salman, S, Attique, Z, Kamareddine, L, Al-Asmakh, M
International journal of infectious diseases : IJID : official publication of the International Society for Infectious Diseases. 2021;105:540-550
-
-
-
Free full text
Plain language summary
Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is an enveloped RNA beta-coronavirus. This virus caused the coronavirus disease 2019 (COVID-19) pandemic. The aim of this review was to investigate the relationship between microbiota, immunity, and COVID-19, with particular focus on how microbiome-associated immune crosstalk can shape outcome of COVID-19. The study included 118 articles which investigated or reviewed COVID-19 or coronavirus and the microbiome of the gut or respiratory tract. Findings indicate that: - an over-activated immune system leads to massive pulmonary damage in COVID-19 patients. - the effect of aging and comorbidities, and the use of antibiotics have an effect on the diversity of the microbiota. - the milieu of gut flora can exert influence on pulmonary immune responses. - a unique cross-talk exists between the pulmonary and gut microbial compartments. Authors conclude by highlighting the need of further studies that delineate the role of the microbiota and their products in the immune dysregulation observed in SARS-CoV-2 infections.
Abstract
By the beginning of 2020, infection caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) had rapidly evolved into an emergent worldwide pandemic, an outbreak whose unprecedented consequences highlighted many existing flaws within public healthcare systems across the world. While coronavirus disease 2019 (COVID-19) is bestowed with a broad spectrum of clinical manifestations, involving the vital organs, the respiratory system transpires as the main route of entry for SARS-CoV-2, with the lungs being its primary target. Of those infected, up to 20% require hospitalization on account of severity, while the majority of patients are either asymptomatic or exhibit mild symptoms. Exacerbation in the disease severity and complications of COVID-19 infection have been associated with multiple comorbidities, including hypertension, diabetes mellitus, cardiovascular disorders, cancer, and chronic lung disease. Interestingly, a recent body of evidence indicated the pulmonary and gut microbiomes as potential modulators for altering the course of COVID-19, potentially via the microbiome-immune system axis. While the relative concordance between microbes and immunity has yet to be fully elucidated with regards to COVID-19, we present an overview of our current understanding of COVID-19-microbiome-immune cross talk and discuss the potential contributions of microbiome-related immunity to SARS-CoV-2 pathogenesis and COVID-19 disease progression.
-
2.
Understanding Viral Infection Mechanisms and Patient Symptoms for the Development of COVID-19 Therapeutics.
Choi, HM, Moon, SY, Yang, HI, Kim, KS
International journal of molecular sciences. 2021;22(4)
-
-
-
Free full text
Plain language summary
The outbreak of a novel coronavirus was reported in Wuhan, in the Hubei province of China, in December 2019. This virus was officially designated as severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) because of its phylogenetic and taxonomic similarities to other coronaviruses. The aim of this review was to understand the viral infection mechanisms of SARS-CoV-2, the clinical features of Covid-19 and the mechanisms through which Covid-19 can be effectively treated with existing drugs. Literature shows that: • SARS-CoV-2 is usually transmitted by inhalation or contact with infected droplets. Inhaled droplets or aerosol carrying the virus then infect and spread through the respiratory tracts. • Severe inflammatory response is a remarkable feature of Covid-19 symptoms. This is caused by delayed viral clearance, which induces chronic systemic inflammation and widespread tissue damage, even leading to cytokine storms. • The incubation period is generally 5-6 days, but it ranges from one day to as much as two weeks. • Interstitial pneumonia and subsequent acute respiratory distress syndrome are the leading causes of death in patients with Covid-19. • There is no licensed treatment for Covid-19, only a combination of antiviral and anti-inflammatory drug treatments are being used. Authors conclude that their finding may provide new insights into the development of therapeutics by understanding the various clinical and basic research studies currently underway.
Abstract
Coronavirus disease 2019 (COVID-19), caused by the SARS-CoV-2 virus, has become a worldwide pandemic. Symptoms range from mild fever to cough, fatigue, severe pneumonia, acute respiratory distress syndrome (ARDS), and organ failure, with a mortality rate of 2.2%. However, there are no licensed drugs or definitive treatment strategies for patients with severe COVID-19. Only antiviral or anti-inflammatory drugs are used as symptomatic treatments based on clinician experience. Basic medical researchers are also trying to develop COVID-19 therapeutics. However, there is limited systematic information about the pathogenesis of COVID-19 symptoms that cause tissue damage or death and the mechanisms by which the virus infects and replicates in cells. Here, we introduce recent knowledge of time course changes in viral titers, delayed virus clearance, and persistent systemic inflammation in patients with severe COVID-19. Based on the concept of drug reposition, we review which antiviral or anti-inflammatory drugs can effectively treat COVID-19 patients based on progressive symptoms and the mechanisms inhibiting virus infection and replication.
-
3.
Probiotics in Prevention and Treatment of COVID-19: Current Perspective and Future Prospects.
Kurian, SJ, Unnikrishnan, MK, Miraj, SS, Bagchi, D, Banerjee, M, Reddy, BS, Rodrigues, GS, Manu, MK, Saravu, K, Mukhopadhyay, C, et al
Archives of medical research. 2021;52(6):582-594
-
-
-
Free full text
-
Plain language summary
The novel coronavirus pandemic of 2019 (COVID-19), an emerging infectious disease, is caused by multiple strains of Severe Acute Respiratory Syndrome Coronavirus-2. The main aim of this study was to outline the potential role of probiotics in fighting the COVID-19. This study focuses on recent evidence on the association between microbiota, probiotics, and COVID-19, the role of probiotics as an immune-modulator and antiviral agent. Findings support probiotics’ role in regulating the immune system, suggesting a definitive role for probiotics in viral infections. Thus, probiotics supplementation could reduce the severity of COVID-19 morbidity and mortality. Authors conclude that supplementation of probiotics in high risk and severely ill patients, and frontline health workers, may help to limit the infection and flatten the COVID-19 curve. However, further studies should be conducted for more conclusive evidence.
Abstract
Saving lives and flattening the curve are the foremost priorities during the ongoing pandemic spread of SARS-CoV-2. Developing cutting-edge technology and collating available evidence would support frontline health teams. Nutritional adequacy improves general health and immunity to prevent and assuage infections. This review aims to outline the potential role of probiotics in fighting the COVID-19 by covering recent evidence on the association between microbiota, probiotics, and COVID-19, the role of probiotics as an immune-modulator and antiviral agent. The high basic reproduction number (R0) of SARS-CoV-2, absence of conclusive remedies, and the pleiotropic effect of probiotics in fighting influenza and other coronaviruses together favour probiotics supplements. However, further support from preclinical and clinical studies and reviews outlining the role of probiotics in COVID-19 are critical. Results are awaited from many ongoing clinical trials investigating the benefits of probiotics in COVID-19.
-
4.
Nutrition amid the COVID-19 pandemic: a multi-level framework for action.
Naja, F, Hamadeh, R
European journal of clinical nutrition. 2020;74(8):1117-1121
-
-
Free full text
-
Plain language summary
This Lebanese articled provides a commentary on the evolving COVID-19 pandemic and aims to give a framework for Nutritional action to help the physical and mental health of individuals, communities, and nations. At an individual level the focus is on the link between diet and immunity and the profound effect diet has on people’s immune system and disease susceptibility. An adequate intake of iron, zinc, and vitamins A, E, B6, and B12 is predominantly vital for the maintenance of immune function. Individuals should aim to eat as healthily as possible, including a wide range of fruits and vegetables, limit snacking, take regular exercise and get an adequate amount of sleep to support their health. Single foods promising cures or prevention of infection are unfounded claims which can give a false sense of security. The focus for communities is on food availability, for nations its food security and on a global level it is about food trade agreements. Its important to protect against hoarding and panic buying to ensure enough food for everyone. National economic instability during COVID-19 can lead to a risk of food security so governments are advised to support local agricultural produce and reduce their reliance on imported goods. Global supply chains and agreements need to be respected to lessen the impact further down the supply chain. The health of each individual has a direct impact on the community and nation and is a direct consequence of their dietary awareness and choices.
-
5.
Nutrition, the digestive system and immunity in COVID-19 infection.
Bold, J, Harris, M, Fellows, L, Chouchane, M
Gastroenterology and hepatology from bed to bench. 2020;13(4):331-340
-
-
-
Free full text
Plain language summary
Covid-19 needs both prevention and recovery strategies to reduce complications. This review study aimed to discuss the associations between nutrition, obesity, and the impact these have on stomach symptoms associated with Covid-19. Obesity has been identified as a risk factor for Covid-19 and this could be due to several factors such as impaired immune function, increased inflammation, increased susceptibility to infection and the high number of cells on fat tissue, which express the receptor known to allow Covid-19 into cells. The involvement of the gut microbiota of obese individuals was extensively reviewed and gut dysbiosis has been associated with many diseases, thus improving gut microbiota may go some way to improving Covid-19 outcomes. Nutritional interventions to reduce obesity need to be part of a multi-pronged strategy and the possible introduction of vitamin D supplements and probiotics. The paper did not draw any conclusions; however this paper could be used by healthcare professionals to understand the role of obesity in increasing the risk of Covid-19 infection, complications that may arise upon and after infection and nutritional strategies as part of a management plan.
Abstract
The current review aimed to synthesize the literature on the complex relationship between food consumption and nutritional status as well as the digestive system in order to examine the relationship between immunity and potential responses to COVID-19 infection. The goal is to help inform the many healthcare professionals working with COVID-19 patients. A literature search was performed on PubMed, Scopus, and EMBASE databases. Hand searches were also undertaken using Google and reference lists to identify recent evidence. Studies were critically appraised, and the findings were analyzed by narrative synthesis. Nutritional status can impact immunity in several ways, including affecting susceptibility to infection, severity of disease, and recovery time, and is therefore a significant consideration in the management of COVID-19. COVID-19 can also impact digestive function, which can further impact nutritional status. The role of Vitamin D deficiency in vulnerability to severe respiratory infections, including COVID-19, has been recognized, and it may have a role in treatment where deficiency is indicated. Healthcare professionals should be aware that obesity may be accompanied by micronutrient malnutrition including vitamin D deficiency and alterations in the microbiome and inflammatory responses, which can further impact immunity and disease severity. Multidisciplinary team-work is recommended in the management of patients with COVID-19, and approaches should include a consideration of nutritional status (both macronutrients and micronutrients), body weight, and gastrointestinal signs and symptom.