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      Challenges, burden and emotional impact on Portuguese athletes during COVID-19 pandemic Translated title: Os desafios e o impacto emocional nos atletas portugueses durante a pandemia COVID-19 Translated title: Retos e impacto emocional de la pandemia en los deportistas portugueses durante la pandemia de COVID-19

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          Abstract

          ABSTRACT This study aimed to explore how contextual variables associated with the period of confinement during pandemic can differentiate symptoms of anxiety, depression, and stress. It also intended to understand the concerns that were experienced by athletes when resuming their sport practice and how these could be associated with psychopathological indicators. The sample comprised 265 athletes who completed self-reported questionnaires. Results demonstrated that there were differences in psychopathological indicators in terms of hours of training per week, and the type of contact that athletes have with their coach. Athletes reported concerns regarding the resumption of sport practice, and that were associated with anxiety, depression, and stress symptoms. This study may contribute in warning the sports community about the impact of contextual variables-related to critical moments of this pandemic. Sports communities should encourage the preservation of the athlete's physical activities, as well as supporting coaches in continuing to guide athlete's training.

          Translated abstract

          RESUMO O objetivo deste estudo foi explorar como é que variáveis contextuais associadas ao período de confinamento resultante da pandemia COVID-19 podem discriminar sintomas de ansiedade, depressão e stress em atletas. Adicionalmente, pretendeu-se explorar as preocupações mais experienciadas pelos atletas aquando da retoma da sua prática desportiva, e como é que estas se associam a indicadores psicopatológicos. Participaram neste estudo 265 atletas que completaram medidas de autorrelato. Os resultados demonstraram que existem diferenças nos indicadores psicopatológicos em termos de horas de treino por semana e do tipo de contacto que os atletas mantiveram com o treinador. Este estudo demonstrou que os atletas reportam preocupações relativamente à retoma da sua prática após o período de confinamento, e que estas preocupações foram associadas a sintomas de ansiedade, depressão e stress. Este estudo tem importantes implicações práticas, alertando a comunidade desportiva para o impacto de variáveis contextuais associadas à pandemia. As comunidades desportivas devem encorajar a preservação das rotinas dos atletas, e incentivar os treinadores a continuarem a orientar o treino dos seus atletas.

          Translated abstract

          RESUMEN Este estudio tuvo como objetivo explorar como las variables contextuales asociadas con el período de confinamiento de la pandemia pueden discriminar los síntomas de ansiedad, depresión y estrés. También se pretendió comprender las preocupaciones al retomar práctica deportiva y como estas podrían estar asociadas con indicadores psicopatológicos. La muestra incluyó 265 deportistas que completaron cuestionarios de autorespuesta. Los resultados demostraron que existen diferencias en los indicadores psicopatológicos en las horas de entrenamiento y el tipo de contacto que los deportistas tienen con su entrenador. Los atletas reportaron preocupaciones con respecto a la reanudación de la práctica deportiva después del período de confinamiento social, que se asociaron con síntomas de ansiedad, depresión y estrés. Este estudio puede contribuir a advertir a la comunidad deportiva sobre el impacto de las variables contextuales relacionadas con esta pandemia. Las comunidades deportivas deben fomentar la preservación de las actividades físicas, y apoyar a los entrenadores para que sigan guiando el entrenamiento de sus atletas.

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          Most cited references28

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          Characteristics of and Important Lessons From the Coronavirus Disease 2019 (COVID-19) Outbreak in China: Summary of a Report of 72 314 Cases From the Chinese Center for Disease Control and Prevention

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            An Ultra-Brief Screening Scale for Anxiety and Depression: The PHQ–4

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              COVID-19 infection: the perspectives on immune responses

              More than 100 years since the outbreak of the 1918 influenza pandemic, we now seem to face another pandemic. The outbreak of the new coronavirus (SARS-CoV-2) infection is spreading to every continent, forcing us to live with this virus for perhaps a long time. Scientists and clinicians have learned much of coronavirus disease 2019, COVID-19, and its pathogenesis [1]: not all people exposed to SARS-CoV-2 are infected and not all infected patients develop severe respiratory illness. Accordingly, SARS-CoV-2 infection can be roughly divided into three stages: stage I, an asymptomatic incubation period with or without detectable virus; stage II, non-severe symptomatic period with the presence of virus; stage III, severe respiratory symptomatic stage with high viral load [2]. From the point of view of prevention, individuals at stage I, the stealth carriers, are the least manageable because, at least on some occasions, they spread the virus unknowingly: indeed, the first asymptomatic transmission has been reported in Germany [3]. The role of asymptomatic SARS-CoV-2 infected individuals in disseminating the infection remains to be defined. Among over 1000 patients analyzed in Wuhan, except occasionally in children and adolescence, it infects all the other age groups evenly. About 15% of the confirmed cases progress to the severe phase, although there is a higher chance for patients over 65 to progress into the severe phase [1]. One of the biggest unanswered questions is why some develop severe disease, whilst others do not. Clearly, the conventional wisdom based on overall immunity of the infected patients cannot explain this broad spectrum in disease presentation. Two-phase immune responses induced by COVID-19 infection Clinically, the immune responses induced by SARS-CoV-2 infection are two phased. During the incubation and non-severe stages, a specific adaptive immune response is required to eliminate the virus and to preclude disease progression to severe stages. Therefore, strategies to boost immune responses (anti-sera or pegylated IFNα) at this stage are certainly important. For the development of an endogenous protective immune response at the incubation and non-severe stages, the host should be in good general health and an appropriate genetic background (e.g. HLA) that elicits specific antiviral immunity. Genetic differences are well-known to contribute to individual variations in the immune response to pathogens. However, when a protective immune response is impaired, virus will propagate and massive destruction of the affected tissues will occur, especially in organs that have high ACE2 expression, such as intestine and kidney. The damaged cells induce innate inflammation in the lungs that is largely mediated by pro-inflammatory macrophages and granulocytes. Lung inflammation is the main cause of life-threatening respiratory disorders at the severe stage [4]. Therefore, good general health may not be advantageous for patients who have advanced to the severe stage: once severe lung damage occurs, efforts should be made to suppress inflammation and to manage the symptoms. Alarmingly, after discharge from hospital, some patients remain/return viral positive and others even relapse. This indicates that a virus-eliminating immune response to SARS-CoV-2 may be difficult to induce at least in some patients and vaccines may not work in these individuals. Those recovered from the non-severe stage should be monitored for the virus together with T/B cell responses. These scenarios should be considered when determining the strategies of vaccine development. In addition, there are many types or subtypes of coronavirus. Thus, if vaccines directly targeting SARS-CoV-2 prove to be difficult to develop, the Edward Jenner approach should be considered. Cytokine storm and lung damage The cytokine release syndrome (CRS) seems to affect patients with severe conditions. Since lymphocytopenia is often seen in severe COVID-19 patients, the CRS caused by SARS-CoV-2 virus has to be mediated by leukocytes other than T cells, as in patients receiving CAR-T therapy; a high WBC-count is common, suggesting it, in association with lymphocytopenia, as a differential diagnostic criterion for COVID-19. In any case, blocking IL-6 may be effective. Blocking IL-1 and TNF may also benefit patients. Although various clinical sites in China have announced the use of mesenchymal stromal/stem cells (MSCs) in severe cases with COVID-19 infection, solid results have yet to be seen. One caveat is that MSCs need to be activated by IFNγ to exert their anti-inflammatory effects, which may be absent in severely affected patients as T cells are not well activated by SARS-CoV-2 infection. To enhance effectiveness, one could consider employing the “licensing-approach”: pretreat MSCs with IFNγ with/without TNF or IL-1 [5]. Such cytokine-licensed MSCs could be more effective in the suppression of hyperactive immune response and promotion of tissue repair, as licensed-MSCs are effective in LPS-induced acute lung damage [6]. Lung damage is a major hurdle to recovery in those severe patients. Through producing various growth factors, MSCs may help repair of the damaged lung tissue. It is important to mention that various studies have shown that in animal models with bleomycin-induced lung injury, vitamin B3 (niacin or nicotinamide) is highly effective in preventing lung tissue damage [7]. It might be a wise approach to supply this food supplement to the COVID-19 patients. HLA haplotypes and SARS-CoV-2 infection The major-histocompatibility-complex antigen loci (HLA) are the prototypical candidates for genetic susceptibility to infectious diseases [8, 9]. Haplotype HLA-loci variability results from selective pressure during co-evolution with pathogens. Immunologists have found that T-cell antigen receptors, on CD4+ or CD8+ T cells recognize the conformational structure of the antigen-binding-grove together with the associated antigen peptides. Therefore, different HLA haplotypes are associated with distinct disease susceptibilities. The repertoire of the HLA molecules composing a haplotype determines the survival during evolution. Accordingly, it seems advantageous to have HLA molecules with increased binding specificities to the SARS-CoV-2 virus peptides on the cell surface of antigen-presenting cells. Indeed, the susceptibility to various infectious diseases such as tuberculosis, leprosy, HIV, hepatitis B, and influenza is associated with specific HLA haplotypes. Particular murine MHC class II haplotypes are associated with the susceptibility to influenza. In man, HLA class I is also associated with H1N1 infections: HLA-A*11, HLA-B*35, and HLA-DRB1*10 confers susceptibility to influenza A(H1N1)pdm09 infection [10]. Therefore, it is imperative to study whether specific HLA loci are associated with the development of anti-SARS-CoV-2 immunity and, if so, to identify the alleles, either class I or II, that demonstrate induction of protective immunity. Once the dominant alleles are identified, simple detection kits can be developed. Such information is critical for (1) strategic clinical management; (2) evaluation of the efficacy of vaccination in different individuals in the general population; (3) assignment of clinical professional and managerial teams amid interactions with COVID-19 patients. Hyaluronan: a potential cause of fatalities The innate immune response to tissue damage caused by the virus could lead to acute respiratory distress syndrome (ARDS), in which respiratory failure is characterized by the rapid onset of widespread inflammation in the lungs and subsequent fatality [4]. The symptoms of ARDS patients include short/rapid breathing, and cyanosis. Severe patients admitted to intensive care units often require mechanical ventilators and those unable to breath have to be connected to extracorporeal membrane oxygenation (ECMO) to support life [11]. CT images revealed that there are characteristic white patches called “ground glass”, containing fluid in the lungs [2]. Recent autopsies have confirmed that the lungs are filled with clear liquid jelly, much resembling the lungs of wet drowning [4]. Although the nature of the clear jelly has yet to be determined, hyaluronan (HA) is associated with ARDS [12]; moreover, during SARS infection, the production and regulation of hyaluronan is defective. The levels of inflammatory cytokines (IL-1, TNF) are high in the lungs of COVID-19 patients and these cytokines are strong inducers of HA-synthase-2 (HAS2) in CD31+ endothelium, EpCAM+ lung alveolar epithelial cells, and fibroblasts [13]. Importantly, HA has the ability to absorb water up to 1000 times its molecular weight. Therefore, reducing the presence or inhibiting the production of HA holds a great promise in helping COVID-19 patients breathe. Doctors can simply provide patients medical grade hyaluronidase to reduce the accumulation of HA and thus to clear the jelly in the lung. In animal models, influenza-induced breathing difficulties can be relieved by intranasal administration of hyaluronidase. Doctors can also use a clinically approved bile therapy drug, Hymecromone (4-Methylumbelliferone, 4-MU), an inhibitor of HAS2 [14]. LPS-induced lung inflammation can be relieved by 4-MU. 4-MU or its chemical derivatives exist widely in various herbs used in traditional Chinese medicine, which may explain the observed effectiveness of combined herbal medicine in some patients. Overall, this synopsis is based on some clinical common sense. We propose some simple, but largely ignored, approaches to the treatment of COVID-19 patients (Fig. 1). We believe that the two-phase division is very important: the first immune defense-based protective phase and the second inflammation-driven damaging phase. Doctors should try to boost immune responses during the first, while suppressing it in the second phase. Since Vitamin B3 is highly lung protective, it should be used as soon as coughing begins. When breathing difficulty becomes apparent, hyaluronidase can be used intratracheally and at the same time 4-MU can be given to inhibit HAS2. Of course, HLA typing will provide susceptibility information for strategizing prevention, treatment, vaccination, and clinical approaches. We hope that some of the above ideas can be employed to help combat this deadly contagious disease of increasing incidence around the world. Fig. 1 Schematic representation of the progression of COVID-19 infection and potential adjuvant interventions. After an incubation period, the invading COVID-19 virus causes non-severe symptoms and elicits protective immune responses. The successful elimination of the infection relies on the health status and the HLA haplotype of the infected individual. In this period, strategies to boost immune response can be applied. If the general health status and the HLA haplotype of the infected individual do not eliminate the virus, the patient then enters the severe stage, when strong damaging inflammatory response occurs, especially in the lungs. At this stage, inhibition of hyaluronan synthase and elimination of hyaluronan can be prescribed. Cytokine activated mesenchymal stem cells can be used to block inflammation and promote tissue reparation. Vitamin B3 can be given to patients starting to have lung CT image abnormalities.
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                Author and article information

                Journal
                cpd
                Cuadernos de Psicología del Deporte
                CPD
                Universidad de Murcia (Murcia, Región de Murcia, Spain )
                1578-8423
                1989-5879
                April 2022
                : 22
                : 1
                : 44-56
                Affiliations
                [1] orgnameUniversidade de Coimbra orgdiv1Faculty of Psychology and Educational Sciences orgdiv2CINEICC - Center for Research in Neuropsychology and Cognitive Behavioural Intervention Portugal
                [3] orgnameUniversidade de Lisboa orgdiv1FMH - Faculty of Human Kinetics Portugal
                [2] orgnameCenter for Research in Neuropsychology and Cognitive Behavioural Intervention Portugal
                Article
                S1578-84232022000100005 S1578-8423(22)02200100005
                10.6018/cpd.462181
                6576675e-7c84-4244-a28b-2b782647f067

                This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 International License.

                History
                : 14 September 2021
                : 04 January 2021
                Page count
                Figures: 0, Tables: 0, Equations: 0, References: 29, Pages: 13
                Product

                SciELO Spain


                mental health,COVID-19 pandemic,concerns,saúde mental,preocupações,atletas,athletes,pandemia COVID-19,preocupaciones,deportistas,salud mental

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