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      Influencia de la dieta en el riesgo de infección y de gravedad de la COVID-19: una revisión sistemática Translated title: Influence of diet in COVID-19 infection and severity risk: a systematic review

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          Abstract

          Resumen Introducción: el riesgo y/o el pronóstico de la COVID-19, causado por el virus SARS-CoV-2, se han relacionado con enfermedades crónicas como obesidad, diabetes mellitus y enfermedades cardiovasculares, siendo la dieta de mala calidad un factor predisponente para estas enfermedades. Objetivo: sintetizar la evidencia científica sobre el efecto de la dieta en el riesgo de infección por SARS-CoV-2 y de COVID-19 grave. Métodos: revisión sistemática realizada siguiendo las guías PRISMA. La búsqueda bibliográfica se hizo en las bases de datos Web of Science, Scopus y Medline (a través del buscador PubMed). El análisis del riesgo de sesgo se realizó mediante las escalas Newcastle-Ottawa y Joanna Briggs Institute Critical Appraisal Checklist for Analytical Cross-Sectional Studies. Resultados: se incluyeron 14 estudios. Una buena adherencia a la dieta mediterránea se asoció con una disminución del riesgo de infección por SARS-CoV-2 (razón de momios RM = 0,44; IC 95 %: 0,22-0,88, para adherencia alta versus baja, y RM significativas de 0,88 y 0,95 en los estudios que analizaron la adherencia de forma cuantitativa) pero no con la gravedad de la COVID-19. Una dieta basada en plantas presentó una asociación protectora frente a la infección y la enfermedad grave. Concretamente, un alto consumo de verdura, legumbres y cereales, y una baja ingesta de lácteos y carnes rojas mostraron un efecto protector frente a la infección y/o la COVID-19 grave, según el estudio. Los suplementos vitamínicos y probióticos también disminuyeron el riesgo de infección. Conclusión: la evidencia disponible sugiere que una dieta saludable, basada en un patrón de dieta mediterránea o en alimentos vegetales, con consumo de lácteos y carnes rojas moderado, ejerce un efecto protector frente a la COVID-19.

          Translated abstract

          Abstract Introduction: the risk and/or prognosis of COVID-19, caused by the SARS-CoV-2 virus, have been related to chronic diseases such as obesity, diabetes mellitus, and cardiovascular diseases, with poor-quality diet being a predisposing factor for these diseases. Objective: to synthesize the scientific evidence on the effect of diet on the risk of SARS-CoV-2 infection and severe COVID-19. Methods: a systematic review was carried out following the PRISMA guidelines. The bibliographic search was made in the databases Web of Science, Scopus and Medline (through the PubMed search engine). Risk of bias analysis was performed using the Newcastle-Ottawa and Joanna Briggs Institute Critical Appraisal Checklist for Analytical Cross-Sectional Studies scales. Results: 14 studies were included. Good adherence to the Mediterranean diet was associated with a decreased risk of SARS-CoV-2 infection (OR = 0.44; 95 % CI, 0.22-0.88, for high versus low adherence, and significant ORs of 0.88 and 0.95 in studies that analyzed adherence quantitatively) but not with the severity of COVID-19. A plant-based diet also had a protective association against both COVID-19 infection and severity. Specifically, a high consumption of vegetables, legumes and cereals, and a low intake of dairy products and red meat showed a protective effect against infection and/or COVID-19 severity, depending on the study. Vitamin and probiotic supplements also lowered the risk of infection. Conclusion: the available evidence suggests that a healthy diet, based on a Mediterranean or plant-based diet, with moderate consumption of dairy and red meat, exerts a protective effect against COVID-19.

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          Most cited references50

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          A Novel Coronavirus from Patients with Pneumonia in China, 2019

          Summary In December 2019, a cluster of patients with pneumonia of unknown cause was linked to a seafood wholesale market in Wuhan, China. A previously unknown betacoronavirus was discovered through the use of unbiased sequencing in samples from patients with pneumonia. Human airway epithelial cells were used to isolate a novel coronavirus, named 2019-nCoV, which formed a clade within the subgenus sarbecovirus, Orthocoronavirinae subfamily. Different from both MERS-CoV and SARS-CoV, 2019-nCoV is the seventh member of the family of coronaviruses that infect humans. Enhanced surveillance and further investigation are ongoing. (Funded by the National Key Research and Development Program of China and the National Major Project for Control and Prevention of Infectious Disease in China.)
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            Risk factors of critical & mortal COVID-19 cases: A systematic literature review and meta-analysis

            Background An epidemic of Coronavirus Disease 2019 (COVID-19) began in December 2019 and triggered a Public Health Emergency of International Concern (PHEIC). We aimed to find risk factors for the progression of COVID-19 to help reducing the risk of critical illness and death for clinical help. Methods The data of COVID-19 patients until March 20, 2020 were retrieved from four databases. We statistically analyzed the risk factors of critical/mortal and non-critical COVID-19 patients with meta-analysis. Results Thirteen studies were included in Meta-analysis, including a total number of 3027 patients with SARS-CoV-2 infection. Male, older than 65, and smoking were risk factors for disease progression in patients with COVID-19 (male: OR = 1.76, 95% CI (1.41, 2.18), P 40U/L, creatinine(Cr) ≥ 133mol/L, hypersensitive cardiac troponin I(hs-cTnI) > 28pg/mL, procalcitonin(PCT) > 0.5ng/mL, lactatede hydrogenase(LDH) > 245U/L, and D-dimer > 0.5mg/L predicted the deterioration of disease while white blood cells(WBC) 40U/L:OR=4.00, 95% CI (2.46, 6.52), P 28 pg/mL: OR = 43.24, 95% CI (9.92, 188.49), P 0.5 ng/mL: OR = 43.24, 95% CI (9.92, 188.49), P 245U/L: OR = 43.24, 95% CI (9.92, 188.49), P 0.5mg/L: OR = 43.24, 95% CI (9.92, 188.49), P < 0.00001; WBC < 4 × 109/L: OR = 0.30, 95% CI (0.17, 0.51), P < 0.00001]. Conclusion Male, aged over 65, smoking patients might face a greater risk of developing into the critical or mortal condition and the comorbidities such as hypertension, diabetes, cardiovascular disease, and respiratory diseases could also greatly affect the prognosis of the COVID-19. Clinical manifestation such as fever, shortness of breath or dyspnea and laboratory examination such as WBC, AST, Cr, PCT, LDH, hs-cTnI and D-dimer could imply the progression of COVID-19.
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              COVID-19 Illness in Native and Immunosuppressed States: A Clinical-Therapeutic Staging Proposal

              The onslaught of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) associated coronavirus disease 2019 (COVID-19) has gripped the world in a pandemic and challenged the culture, economy and healthcare infrastructure of its population. It has become increasingly important that health systems and their clinicians adopt a universal consolidated framework to recognize the staged progression of COVID-19 illness in order to deploy and investigate targeted therapy likely to save lives. The largest report of COVID-19 from the Chinese Centers for Disease Control and Prevention summarized findings from 72, 314 cases and noted that while 81% were of a mild nature with an overall case fatality rate of 2.3%, a small sub-group of 5% presented with respiratory failure, septic shock and multi-organ dysfunction resulting in fatality in half of such cases, a finding that suggests that it is within this group that the opportunity for life saving measures may be most pertinent. 1 Once the disease is manifest, supportive measures are initiated with quarantines; however a systematic disease modifying therapeutic approach remains empirical. Pharmacotherapy targeted against the virus holds the greatest promise when applied early in the course of the illness, but its usefulness in advanced stages may be doubtful. 2 , 3 Similarly, use of anti-inflammatory therapy applied too early may not be necessary and could even provoke viral replication such as in the case of corticosteroids. 4 It appears that there are two distinct but overlapping pathological subsets, the first triggered by the virus itself and the second, the host response. Whether in native state, immunoquiescent state as in the elderly, or immunosuppressed state as in heart transplantation, the disease tends to present and follow these two phases, albeit in different levels of severity. The early reports in heart transplantation suggest that symptom expression during the phase of establishment of infection are similar to non-immunosuppressed individuals; however, in limited series the second wave determined by the host-inflammatory response appears to be milder, possibly due to the concomitant use of immuno-modulatory drugs. 5 , 6 Similarly, an epidemiological study from Wuhan in a cohort of 87 patients suggests that precautionary measures of social distancing, sanitization and general hygiene allow heart transplant recipients to experience a low rate of COVID-19 illness. 7 We do not of course, know if they are asymptomatic carriers, since in this survey-based study universal testing during the early 3 months was not employed. One interesting fact in this study was that many heart transplant recipients have hematological changes of lymphopenia due to the effects of immunosuppressive therapy which may obfuscate the laboratory interpretation of infection in such patients should they get infected. Much confusion abounds in the therapeutic tactics employed in COVID-19. It is imperative that a structured approach to clinical phenotyping be undertaken to distinguish the phase where the viral pathogenicity is dominant versus when the host inflammatory response overtakes the pathology. In this editorial we propose a clinical staging system to establish a standardized nomenclature for uniform evaluation and reporting of this disease, to facilitate therapeutic application and evaluate response. We propose the use of a 3-stage classification system, recognizing that COVID-19 illness exhibits three grades of increasing severity which correspond with distinct clinical findings, response to therapy and clinical outcome (Figure ). Figure 1 Classification of COVID-19 Disease States and Potential Therapeutic Targets Figure 1 The figure shows 3 escalating phases of disease progression with COVID-19, with associated signs, symptoms and potential phase-specific therapies. ARDS = Acute respiratory distress syndrome; CRP = C-reactive protein; IL = Interleukin; JAK = Janus Kinase; LDH=Lactate DeHydrogenase; SIRS = Systemic inflammatory response syndrome. Stage I (mild) – Early Infection The initial stage occurs at the time of inoculation and early establishment of disease. For most people, this involves an incubation period associated with mild and often non-specific symptoms such as malaise, fever and a dry cough. During this period, SARS-CoV-2 multiplies and establishes residence in the host, primarily focusing on the respiratory system. Similar to its older relative, SARS-CoV (responsible for the 2002-2003 SARS outbreak), SARS-CoV-2 binds to its target using the angiotensin-converting enzyme 2 (ACE2) receptor on human cells. 8 These receptors are abundantly present on human lung and small intestine epithelium, as well as the vascular endothelium. As a result of the airborne method of transmission as well as affinity for pulmonary ACE2 receptors, the infection usually presents with mild respiratory and systemic symptoms. Diagnosis at this stage includes respiratory sample PCR, serum testing for SARS-CoV-2 IgG and IgM, along with chest imaging, complete blood count (CBC) and liver function tests. CBC may reveal a lymphopenia and neutrophilia without other significant abnormalities. Treatment at this stage is primarily targeted towards symptomatic relief. Should a viable anti-viral therapy (such as remdesivir) be proven beneficial, targeting selected patients during this stage may reduce duration of symptoms, minimize contagiousness and prevent progression of severity. In patients who can keep the virus limited to this stage of COVID-19, prognosis and recovery is excellent. Stage II (moderate) - Pulmonary Involvement (IIa) without and (IIb) with hypoxia In the second stage of established pulmonary disease, viral multiplication and localized inflammation in the lung is the norm. During this stage, patients develop a viral pneumonia, with cough, fever and possibly hypoxia (defined as a PaO2/FiO2 of <300 mmHg). Imaging with chest roentgenogram or computerized tomography reveals bilateral infiltrates or ground glass opacities. Blood tests reveal increasing lymphopenia, along with transaminitis. Markers of systemic inflammation may be elevated, but not remarkably so. It is at this stage that most patients with COVID-19 would need to be hospitalized for close observation and management. Treatment would primarily consist of supportive measures and available anti-viral therapies such as remdesivir (available under compassionate and trial use). It should be noted that serum procalcitonin is low to normal in most cases of COVID-19 pneumonia. In early stage II (without significant hypoxia), the use of corticosteroids in patients with COVID-19 may be avoided. 4 However, if hypoxia ensues, it is likely that patients will progress to requiring mechanical ventilation and in that situation, we believe that use of anti-inflammatory therapy such as with corticosteroids may be useful and can be judiciously employed. Thus, Stage II disease should be subdivided into Stage IIa (without hypoxia) and Stage IIb (with hypoxia). Stage III (severe) – Systemic Hyperinflammation A minority of COVID-19 patients will transition into the third and most severe stage of illness, which manifests as an extra-pulmonary systemic hyperinflammation syndrome. In this stage, markers of systemic inflammation appear to be elevated. COVID-19 infection results in a decrease in helper, suppressor and regulatory T cell counts. 9 Studies have shown that inflammatory cytokines and biomarkers such as interleukin (IL)-2, IL-6, IL-7, granulocyte-colony stimulating factor, macrophage inflammatory protein 1-α, tumor necrosis factor-α, C-reactive protein, ferritin, and D-dimer are significantly elevated in those patients with more severe disease. 10 Troponin and N-terminal pro B-type natriuretic peptide (NT-proBNP) can also be elevated. A form akin to hemophagocytic lymphohistiocytosis (sHLH) may occur in patients in this advanced stage of disease. 11 In this stage, shock, vasoplegia, respiratory failure and even cardiopulmonary collapse are discernable. Systemic organ involvement, even myocarditis, would manifest during this stage. Tailored therapy in stage III hinges on the use of immunomodulatory agents to reduce systemic inflammation before it overwhelmingly results in multi-organ dysfunction. In this phase, use of corticosteroids may be justified in concert with the use of cytokine inhibitors such as tocilizumab (IL-6 inhibitor) or anakinra (IL-1 receptor antagonist). 11 Intravenous immune globulin (IVIG) may also play a role in modulating an immune system that is in a hyperinflammatory state. Overall, the prognosis and recovery from this critical stage of illness is poor, and rapid recognition and deployment of such therapy may have the greatest yield. The first open-label randomized controlled clinical trial of antiviral therapy was recently reported. 3 In this study, 199 patients were randomly allocated to the antiviral agents lopinavir–ritonavir or to standard of care and this regimen was not found to be particularly effective. One reason for this may have been that the patients were enrolled during the pulmonary stage with hypoxia (stage IIb) when the viral pathogenicity may have been only one lesser dominant aspect of the overall pathophysiology, and host inflammatory responses were the predominant pathophysiology We believe that this proposed 3-stage classification system for COVID-19 illness will serve to develop a uniform scaffold to build structured therapeutic experience as healthcare systems globally are besieged by this crisis, in patients with or without transplantation. Disclosure Dr. Siddiqi has nothing to declare. Dr. Mehra reports no direct conflicts pertinent to the development of this paper. Other general conflicts include consulting relationships with Abbott, Medtronic, Janssen, Mesoblast, Portola, Bayer, NupulseCV, FineHeart, Leviticus and Triple Gene.
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                Author and article information

                Journal
                nh
                Nutrición Hospitalaria
                Nutr. Hosp.
                Grupo Arán (Madrid, Madrid, Spain )
                0212-1611
                1699-5198
                April 2023
                : 40
                : 2
                : 444-456
                Affiliations
                [3] Granada orgnameInstituto de Investigbación Biosanitaria de Granada (ibsGRANADA) España
                [1] Granada Andalucía orgnameUniversidad de Granada orgdiv1Departamento de Obstetricia y Ginecología Spain
                [4] Madrid orgnameCentro de Investigación Biomédica en Red de Epidemiología y Salud Pública (CIBERESP) España
                [2] Granada orgnameUniversidad de Granad orgdiv1Departamento de Medicina Preventiva y Salud Pública España
                Article
                S0212-16112023000300028 S0212-1611(23)04000200028
                10.20960/nh.04448
                5f927560-e932-4fe9-9972-9778c7ea833a

                This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.

                History
                : 30 November 2022
                : 20 September 2022
                Page count
                Figures: 0, Tables: 0, Equations: 0, References: 51, Pages: 13
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                SciELO Spain

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                Dieta,Dieta mediterránea,COVID-19,SARS-CoV-2,Nutrientes,Diet,Mediterranean diet,Nutrients

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