Global ETD Search

1	Longer-Term Mental Health Consequences of COVID-19 Infection: Moderation by Race and Socioeconomic Status Michelle Williams (12469851) 12 July 2022 (has links) <p> </p> <p>While evidence suggests that the mental health consequences of coronavirus disease 2019 (COVID-19) can persist for several months following infection, little is known about the longer-term mental health consequences and whether certain sociodemographic groups may be particularly impacted. The study objectives were to characterize the longer-term mental health consequences of COVID-19 infection and examine whether such consequences are more pronounced in Black people and people with lower socioeconomic status. 277 Black and White adults (age ≥ 30 years) with a history of COVID-19 (cases; tested positive ≥ 6 months prior to participation) or no history of COVID-19 infection (controls) completed a 45-minute online questionnaire battery. Unadjusted <em>t</em>-tests revealed that cases had greater depressive (<em>d</em> = 0.24), anxiety (<em>d</em> = 0.34), PTSD (<em>d</em> = 0.32), and insomnia (<em>d</em> = 0.31) symptoms than controls. These differences remained significant for symptoms of anxiety, PTSD, and insomnia after adjusting for age, sex, race, education, income, and smoking status. No case-control differences were detected for perceived stress and general psychopathology. Cases had more than double the odds of clinically significant symptoms of anxiety (<em>OR</em> = 2.22) and PTSD (<em>OR</em> = 2.40). Case-control status was more strongly and positively associated with depressive, anxiety, PTSD, perceived stress, and general psychopathology symptoms at lower education levels. Race and income were not moderators of the relationships. The mental health consequences of COVID-19 may be significant, widespread, and persist for at least 6 months after infection, and people with lower education levels may face a greater burden of these consequences.</p> Clinical psychology long covid covid-19 and mental health Clinical Psychology
2	Extreme obesity is a strong predictor for in-hospital mortality and the prevalence of long-COVID in severe COVID-19 patients with acute respiratory distress syndrome Heubner, Lars, Petrick, Paul Leon, Güldner, Andreas, Bartels, Lea, Ragaller, Maximillian, Mirus, Martin, Rand, Axel, Tiebel, Oliver, Beyer-Westendorf, Jan, Rößler, Martin, Schmitt, Jochen, Koch, Thea, Spieth, Peter Markus 26 February 2024 (has links) Acute Respiratory Distress Syndrome (ARDS) is common in COVID-19 patients and is associated with high mortality. The aim of this observational study was to describe patients’ characteristics and outcome, identifying potential risk factors for in-hospital mortality and for developing Long-COVID symptoms. This retrospective study included all patients with COVID-19 associated ARDS (cARDS) in the period from March 2020 to March 2021 who were invasively ventilated at the intensive care unit (ICU) of the University Hospital Dresden, Germany. Between October 2021 and December 2021 patients discharged alive (at minimum 6 months after hospital discharge—midterm survival) were contacted and interviewed about persistent symptoms possibly associated with COVID-19 as well as the quality of their lives using the EQ-5D-5L-questionnaire. Long-COVID was defined as the occurrence of one of the symptoms at least 6 months after discharge. Risk factors for mortality were assessed with Cox regression models and risk factors for developing Long-COVID symptoms by using relative risk (RR) regression. 184 Patients were included in this study (male: n = 134 (73%), median age 67 (range 25–92). All patients were diagnosed with ARDS according to the Berlin Definition. 89% of patients (n = 164) had severe ARDS (Horovitz-index < 100 mmHg). In 27% (n = 49) extracorporeal membrane oxygenation was necessary to maintain gas exchange. The median length of in-hospital stay was 19 days (range 1–60). ICU mortality was 51%, hospital mortality 59%. Midterm survival (median 11 months) was 83% (n = 55) and 78% (n = 43) of these patients presented Long-COVID symptoms with fatigue as the most common symptom (70%). Extreme obesity (BMI > 40 kg/m2) was the strongest predictor for in-hospital mortality (hazard ratio: 3.147, confidence interval 1.000–9.897) and for developing Long-COVID symptoms (RR 1.61, confidence interval 1.26–2.06). In-hospital mortality in severe cARDS patients was high, but > 80% of patients discharged alive survived the midterm observation period. Nonetheless, most patients developed Long-COVID symptoms. Extreme obesity with BMI > 40 kg/m2 was identified as independent risk factor for in-hospital mortality and for developing Long-COVID symptoms. info:eu-repo/classification/ddc/500 ddc:500 info:eu-repo/classification/ddc/600 ddc:600
3	Introducing advocate human capabilities (AHC) model applied to persons with Long COVID Mischuk, Lorraine Orysia Vera 13 December 2024 (has links) 2025 / A reductionistic or silo approach lacks a whole-person approach in which all relevant body systems are assessed concurrently with the environment, contributing to gaps in understanding. Also, current person–environment occupational therapy models are not universally appropriate for diverse social contexts. The Advocate Human Capabilities (AHC) model is introduced to bridge this gap in care. The AHC model recognizes the person and the environment are inseparable from the molecular level to the ubiquitous level, with a cacophony of interactions between all body systems and multiple environmental factors. When there is high homeostasis at the molecular level and consonance at the ubiquitous level, persons are optimal with their capabilities. Capabilities lead to occupational choice, engagement, and well-being, which social and cultural determinants can positively or negatively impact. The AHC model is built on evidence-based literature from diverse fields, including neurology, psychology, and behavioral sciences. Western, Eastern, and Indigenous knowledge provides the foundation for the inclusive AHC model supporting diverse populations in Canada, the United States, and worldwide. The model provides a means to investigate why persons are not optimal in their desired occupations, strengthening person–environment interventions and supporting occupational choice and well-being. The AHC model applied to persons with Long COVID will be delivered to occupational therapists via an online workshop. The workshop begins with the current research outlining Long COVID symptoms, complications, population challenges, and current rehabilitation approaches, including the strengths and limitations of the World Health Organization’s rehabilitation guidelines. Workshop participants will be trained in the AHC model with robust supporting evidence. They will also learn how the AHC assessment method applies the AHC model, providing the tools to systematically assess person and environment factors simultaneously while establishing a timeframe individualized to the person’s symptoms and lived experience with Long COVID. Furthermore, participants will learn how to synthesize the information gained, leading to more targeted person–environment interventions from the micro to the macro level, including the nervous system, cognitive, mental health, and physical factors, all supporting occupational choice. The workshop is steeped in adult learning theory. It provides participants with multiple interactive learning experiences, enhancing their knowledge gain and ability to use and apply the model and approach to their occupational therapy practice. Participants will be voluntarily recruited to participate in program evaluation research at the workshop conclusion and 1 year later. The anonymous survey reflects participants’ perceptions regarding the utility and confidence of using the AHC model and whether using the AHC model will improve outcomes (person-identified goals). The developer will use the findings to further inform the AHC model’s development and workshop delivery methods. The AHC model is a new lens reflecting the complex, inseparable person–environment relationship. The AHC model strives to be culturally safe and relevant around the globe, respecting persons’ context, values, and beliefs. / 2026-12-13T00:00:00Z Occupational therapy Eastern knowledge Environment Indigenous knowledge Long COVID Model Person
4	Incidence of Post-Acute COVID-19 Sequelae and Predictors for Post-COVID Infection Health Care Utilization in an Integrated Health System Patient Population Oravec, Michael J. 26 July 2023 (has links) No description available. Health Care Management Public Health Medicine long COVID post-COVID sequelae health services utilization health policy health disparities
5	Exploring the Link Between Neurocognitive Function and Long COVID: A Comprehensive Review Aguilar, Dinamaris 01 January 2024 (has links) (PDF) The intent of this thesis is to provide an in-depth overview of the neurological manifestations associated with long COVID. The review aimed to assess the cognitive functioning symptoms associated with SARS-CoV-2 post-infection (PASC), investigate the potential mechanisms by which SARS-CoV-2 affects the nervous system, contributing to cognitive fatigue, brain fog, and cognitive dysfunction, and explore the parallels between SARS-CoV-2 and Alzheimer’s Disease. Neuroinflammation emerges as a shared element among these mechanisms, significantly impacting cognitive function. The parallels between COVID-19 and Alzheimer's Disease offer insights into how Alzheimer's affects cognition, aiding in understanding COVID-19's impact. The review underscores a notable gender disparity: women exhibit a greater susceptibility to the adverse effects of COVID-19, yet research in this domain remains limited. It advocates for further investigation into sex-specific differences and emphasizes the importance of understanding and spreading awareness about long COVID's impact on neurocognitive function and the nervous system, given the tendency among many medical professionals to underestimate its significance. Medicine and Health Sciences Social and Behavioral Sciences
6	Физическая реабилитация лиц, перенесших COVID-19-ассоциированную пневмонию : магистерская диссертация / Physical rehabilitation of survivors of COVID-19-associated pneumonia Конюхова, Д. А., Konyukhova, D. A. January 2022 (has links) Значительная доля людей, столкнувшихся с коронавирусной инфекцией имеют осложнение в виде COVID-19-ассоциированной пневмонии и нуждаются в доступной и квалифицированной реабилитации. Цель работы - оценить влияние программы физической реабилитации на толерантность к физическим нагрузкам и функциональное состояние кардио-респираторной системы пациентов, перенесших COVID-19-ассоциированную пневмонию. В исследовании приняли 20 пациентов, перенесших COVID-19-ассоциированную пневмонию. В работе использовались следующие методы исследования: оценка толерантности к физической нагрузке оценивалась с помощью теста шестиминутной ходьбы, для оценки степени одышки после нагрузки использовалась шкала Борга, определяли сатурацию в покое и после проведения теста шестиминутной ходьбы, оценивалась частота сердечных сокращений до и после тестирования, а также выраженность одышки при повседневной деятельности оценивалась по шкале mMRC. Согласно полученным результатам, разработанная программа реабилитации повлияла на повышение толерантности к физическим нагрузкам, улучшение функционального состояния кардио-респираторной системы и субъективной переносимости физической нагрузки у пациентов, перенесших COVID-19-ассоциированную пневмонию. / A significant proportion of people who have experienced coronavirus infection have a complication in the form of COVID-19-associated pneumonia and need affordable and qualified rehabilitation. The aim of the work was to evaluate the impact of the physical rehabilitation program on exercise tolerance and the functional state of the cardio-respiratory system in patients who had undergone COVID-19-associated pneumonia. The study included 20 patients with COVID-19-associated pneumonia. Research methods were used in the work: assessment of exercise tolerance was assessed using a six-minute walk test, the Borg scale was used to assess the degree of dyspnea after exercise, saturation was determined at rest and after a six-minute walk test, heart rate was assessed before and after testing, as well as the severity of dyspnea during daily activities was assessed using the mMRC scale. According to the results obtained, the developed rehabilitation program influenced the increase in exercise tolerance, the improvement of the functional state of the cardio-respiratory system and the subjective exercise tolerance in patients who underwent COVID-19-associated pneumonia. ОДЫШКА «ДЛИТЕЛЬНЫЙ КОВИД» MASTER'S THESIS COVID-19-ASSOCIATED PNEUMONIA PHYSICAL REHABILITATION SHORTNESS OF BREATH «LONG COVID» RESPIRATORY REHABILITATION
7	Post-Acute Serological Response to SARS-COV-2 and Predicting Post COVID-19 Condition (PCC) in Canada Collins, Erin 05 January 2024 (has links) Background: Post COVID-19 Condition (PCC, also known as long COVID and post-acute sequelae of COVID-19) is a major public health concern with severe and pervasive impacts on physical and mental health. PCC is highly heterogeneous and may manifest as different clusters of symptoms of varying intensity and duration. The etiology of PCC remains uncertain, though several underlying pathophysiological mechanisms, such as cellular damage, inflammatory cytokines, and a hypercoagulable state, are thought to contribute to PCC inception and trajectory. Examination of potential serological markers of PCC, accounting for clinical covariates, may yield emergent pathophysiological insights. Objectives: Primary objectives of this thesis are to 1) Identify key clinical and potential serological predictors of PCC; 2) Acquire clinical and serological data in a large-scale prospective observational study; 3) Assess relationships between PCC and serological markers, accounting for clinical covariates; 4) Systematically review evidence to date on primary observational studies comparing serological response between people with and without persistent symptoms post COVID-19 recovery; 5) Discuss persisting gaps in knowledge and data quality, and propose strategies for resolve. Methods: This thesis is framed around three core efforts: 1) The design of survey questions and study materials, recruitment of participants, and data collection in a large-scale prospective cohort study launched in 2020; 2) The assessment of relationships between pre-defined serological predictors and PCC, accounting for clinical covariates; and 3) A robust rapid review of PCC onset and phenotype as functions of serological markers. Expert opinion was sought to define serological predictors. Clinical predictors were defined a priori based on systematic reviews meeting AMSTAR 2 guidelines. Conclusions: To address objectives, we described efforts to collect clinical and serological data from a large-scale prospective cohort study; identify PCC-cases and infected-controls; assess associations between pre-defined serological predictors (IgG titres targeting SARS-CoV-2 spike (S), nucleocapsid (N), and receiver binding domain (RBD) antigens, and efficient neutralization) and PCC; and synthesized findings from an extensive rapid review on PCC as a function of serological markers. Our multivariate analysis using Stop the Spread Ottawa data is, to our knowledge, the first Canadian study to report the direction and magnitude of association between selected serological predictors (anti-IgG response to S, N, and RBD SARS-CoV-2 antigens, and neutralizing efficiency) and PCC status and impact on quality of life. Finally, we described five potential strategies which may improve the accessibility, quality, and amalgamation of data pertaining to PCC: 1) Fostering comparability between studies to enable synthesis of multiple datasets; 2) Advancing the characterization and consensus on PCC phenotypes; 3) Employing innovative modelling strategies that could potentially yield novel insights; 4) Promoting robust collaboration and knowledge sharing among research teams; and 5) Engaging people with lived experience at all stages of research. Post-Acute Sequelae Serology Serum IgG antibodies SARS-CoV-2 immunology Post-COVID-19 Syndrome long COVID COVID-19 long hauler
8	Altérations épigénétiques associées à l’encéphalomyélite myalgique et la COVID longue (Méthylation de l’ADN) CHALDER, Lynda 08 1900 (has links) L'encéphalomyélite myalgique (EM), communément appelée syndrome de fatigue chronique (SFC), est une maladie chronique complexe, impliquant divers facteurs biochimiques, métaboliques, génétiques et épigénétiques dans sa pathogenèse. L'EM se caractérise par une fatigue persistante et débilitante, un malaise post-effort (PEM), des douleurs, des troubles du sommeil, des troubles cognitifs et d'autres symptômes. L'EM constitue un problème de santé important, compte tenu de sa prévalence dans la population générale. Cependant, notre compréhension des origines de l’EM reste limitée; son diagnostic est difficile et il n’existe aucun traitement curatif définitif ni de biomarqueur officiellement approuvé. Les approches de prise en charge actuelles visent principalement à soulager les symptômes, soulignant le besoin urgent de mieux comprendre ses causes sous-jacentes. Le développement de l’EM est reconnu comme une confluence de prédispositions génétiques et d’expositions environnementales, compte tenu de l’hétérogénéité clinique de cette pathologie. Ces dernières années, de nombreuses voies étiologiques ont été suggérées, notamment un développement post-infectieux de l’EM, qui reste l’une des principales hypothèses. L'implication de mécanismes épigénétiques, principalement la méthylation de l'ADN, un régulateur bien documenté de l'expression des gènes, est également apparu comme un acteur essentiel dans la pathogenèse de l'EM. Il est intéressant de noter, et avec une note d’inquiétude, que près de deux ans après la pandémie de SRAS-CoV-2 à l’origine du COVID-19, une cohorte croissante d’individus auparavant en bonne santé souffre du Long COVID (LC), une manifestation de symptômes persistants provenant de l’infection initiale. Il est remarquable de constater qu’il existe un chevauchement évident entre les présentations cliniques de l’EM et de la LC. Cependant, les mécanismes qui sous-tendent ce chevauchement restent encore à élucider. Dans le cadre de cette thèse, je me suis intéressée dans un premier temps à identifier les changements épigénétiques associés à l'EM à partir de la salive. Le choix d’utiliser la salive représente une approche non-invasive et découle également du fait que des études précédentes ont mis en évidence que les profils de méthylation de l’ADN obtenu des cellules buccales présentes dans la salive étaient assez similaires aux profiles observés au niveau du cerveau et des muscles (des tissus difficilement accessibles mais pourtant atteints dans l’EM) comparativement aux cellules mononuclées du sang périphériques (PBMCs). Cette approche pourrait aider à établir une signature épigénétique susceptible de combler le fossé conceptuel entre la génétique et l'influence environnementale dans la pathogenèse de l'EM. En effet, les sites CpG/gènes identifiés avec une méthylation différentielle pourraient être impliqués dans des mécanismes physiopathologiques associés au développement et/ou à la gravité de l'EM. Après correction de Bonferroni, mes travaux ont révélé un seul site CpG, "cg19803194", différentiellement méthylé chez les patients atteints d'EM par rapport aux sujets sains appariés pour l’âge. Ce site CpG est situé dans le corps du gène PTPRN2 codant pour la tyrosine phosphatase receptor type N2. De plus, le gène PTPRN2 contient un microARN intronique, le miR-153-3p (miR-153-2), qui est corégulé avec son gène hôte. En raison des défis éthiques et logistiques liés à l'accès aux tissus cérébraux ou musculaires, nous avons mesuré les niveaux circulants en miR-153-3p dans le plasma comme mesure de substitution pour évaluer les fluctuations de l'expression de PTPRN2. Nous avons donc analysé ce miARN comme un proxy prometteur pour mieux comprendre la dynamique d’expression de PTPRN2. Notre stratification des patients atteints d'EM basée sur les niveaux de méthylation de l'ADN cg19803194 (hypo vs hyper) a révélé qu'une réduction des niveaux circulants du miR-153-3p a été observée dans le groupe hypo-méthylé, ce qui concorde avec de précédentes études montrant que l'hypométhylation au niveau du corps des gènes, entraine habituellement une diminution de leur transcription. Cependant, l’intrigue a été amplifiée par un schéma contre-intuitif observé chez un sous-ensemble de patients. Cette découverte inattendue, nous a incité à découvrir un mécanisme alternatif régissant la régulation des niveaux de miR-153-3p en circulation, qui implique de manière complexe une interaction dynamique des niveaux nucléaires de PHB2 (Prohibitine 2) dans le contrôle de la maturation de certains miARN dont le miR-153-3p. La LC est un trouble complexe avec des symptômes prolongés et hétérogènes qui s’apparentent avec l’EM. Dans le cadre de ma seconde étude, nous avons utilisé une manoeuvre de provocation standardisée pour induire un malaise post-effort (PEM), ce qui nous a permis de stratifier les patients LC en deux groupes : LC1 (sévère) et LC2 (léger à modéré) en fonction de la gravité du PEM. Les patients LC1 présentaient des scores de gravité de la maladie significativement plus élevés et des scores neurocognitifs plus mauvais que les patients classés dans le groupe LC2. Ceci était étroitement lié aux scores PEM élevés chez les patients LC1 et aux scores PEM réduits chez les patients LC2. Nous avons également utilisé le profilage de la méthylation de l'ADN des cellules mononucléées du sang périphérique (PBMC) pour étudier les changements dans la méthylation de l'ADN associés aux symptômes de la LC (n = 24) par rapport aux participants ayant eu la COVID-19, suivie d’une rémission complète (SC pour Short COVID en anglais) (n = 4). Il est intéressant de noter que nous avons identifié des altérations de plusieurs gènes impliqués dans le dysfonctionnement neurocognitif et le changement de la réponse immunitaire liés à la persistance des symptômes de la LC. En outre, dans le cadre de ma troisième étude, nous avons effectué une analyse complète de la méthylation de l'ADN à l'échelle du génome, à partir d'échantillons de salive provenant du même groupe de patients LC (n=24) LC, de 4 participants SC et de 13 témoins sains (HC) pré-pandémiques. Nous avons étudié les signatures épigénétiques associées à la LC. Nous avons constaté que les patients LC présentaient une hypométhylation significative de trois gènes communs, MEST, DDR1 et LRP1, par rapport aux participants SC et HC. Ces gènes sont impliqués dans la cascade de l’inflammation, l’altération de la réponse immunitaire et des maladies neurologiques. Nous avons également signalé des altérations de la méthylation de LGR6, ZFAND2A et TDG dans les PBMCs et la salive chez les mêmes individus associés à la sévérité de la LC. Plus précisément, nous avons constaté une hypométhylation au niveau des gènes LGR6 et ZFAND2A et une hyperméthylation au niveau du gène TDG dans les cas graves (groupe LC1) par rapport aux cas légers à modérés (groupe LC2). Cette convergence de profils entre la salive et les PBMCs souligne l'importance de LGR6, ZFAND2A et TDG dans la gravité des LC. L’ensemble des résultats obtenus dans le cadre de cette thèse apporte un éclairage nouveau et pertinent sur les mécanismes épigénétiques qui sous-tendent l’EM et la COVID longue. Les nouvelles connaissances présentées dans les trois manuscrits ci-joints devraient nous permettre de mieux comprendre l’EM et la COVID longue, de développer de futures stratégies diagnostiques, thérapeutiques et préventives, mais également de mieux gérer les effets à long terme de ces conditions. En effet, les altération épigénétiques identifiées dans ces deux contextes pathologiques, plus précisément au niveau de la méthylation de l’ADN, pourraient être impliquées dans la sévérité et la persistance des symptômes de ces pathologies complexes, distinctes et présentant tout de même des similitudes. / Myalgic encephalomyelitis (ME), also known as chronic fatigue syndrome (CFS), is a complex chronic disease involving various biochemical, metabolic, genetic, and epigenetic factors. Patients with ME experience persistent and debilitating fatigue, post-exertional malaise (PEM), pain, sleep disturbances, cognitive impairment, and other symptoms. ME is a significant health problem, with an estimated prevalence of 0.2% to 0.5% in the general population. However, our understanding of the origins of ME remains limited; its diagnosis is complex, and there is no definitive cure or officially approved biomarker. Current management approaches focus primarily on relieving symptoms, highlighting the urgent need to understand its underlying causes better. The development of ME is thought to be a confluence of genetic predispositions and environmental exposures. In recent years, many etiological pathways have been suggested, including a post-infectious development of ME, which remains one of the main hypotheses. The involvement of epigenetic mechanisms, primarily DNA methylation, a well-documented regulator of gene expression, has also emerged as a critical player in the pathogenesis of ME. Interestingly, and with a note of concern, nearly two years after the SARS-CoV-2 pandemic that caused COVID-19, a growing cohort of previously healthy individuals suffer from Long COVID (LC), a manifestation of persistent symptoms from the initial infection. Remarkably, there is a clear overlap between the clinical presentations of ME and LC. However, the mechanisms underlying this overlap remain to be elucidated. This thesis investigated the epigenetic mechanisms underlying ME and LC. As part of this thesis, I was initially interested in identifying the epigenetic changes associated with ME from saliva. Saliva is a non-invasive sample that can be easily collected, and previous studies have shown that the DNA methylation profiles obtained from buccal cells present in saliva are similar to those observed in the brain and muscles. This suggests that saliva could be used as a proxy for these tissues, which are difficult to access but are thought to be involved in the pathogenesis of ME. I used Bonferroni's correction to identify a single CpG site, "cg19803194", differentially methylated in ME patients compared to age-matched healthy subjects. This CpG site is located in the body of the PTPRN2 gene, which encodes the tyrosine phosphatase receptor type N2. The PTPRN2 gene also contains an intronic microRNA, miR-153-3p (miR-153-2), which is co-regulated with its host gene. Due to ethical and logistical challenges, I measured circulating levels of miR-153-3p in plasma as a surrogate measure to assess fluctuations in PTPRN2 expression. This miRNA is a promising proxy for understanding the expression dynamics of PTPRN2 because it is located in the same gene and is co-regulated with it. My stratification of ME patients based on cg19803194 DNA methylation levels (hypo vs hyper) revealed that a reduction in circulating levels of miR-153-3p was observed in the hypo-methylated group. These findings agree with previous studies showing that hypomethylation in the body of genes usually decreases their transcription. However, a counterintuitive pattern was observed in a subset of patients. This unexpected finding prompted me to discover an alternative mechanism governing the regulation of circulating miR-153-3p levels. This mechanism involves a dynamic interaction of nuclear PHB2 (Prohibitin 2) levels in controlling the maturation of certain miRNAs, including miR-153-3p. LC is a complex disorder with prolonged and heterogeneous symptoms that resemble myalgic encephalomyelitis (ME). In my second study, we used a standardized provocative maneuver to induce post-exertional sickness (PEM), which allowed us to stratify LC patients into two groups: LC1 (severe) and LC2 (mild to moderate), depending on the severity of the PEM. LC1 patients had significantly higher disease severity scores and worse neurocognitive scores than patients classified in the LC2 group. This was closely related to high PEM scores in LC1 patients and reduced PEM scores in LC2 patients. We also used peripheral blood mononuclear cell (PBMC) DNA methylation profiling to investigate changes in DNA methylation associated with LC symptoms (n=24) compared to participants who had COVID followed by complete remission Short COVID (SC) (n = 4). Interestingly, we identified alterations in several genes implicated in neurocognitive dysfunction and changes in immune response related to the persistence of LC symptoms. In my third study, we also performed a comprehensive genome-wide DNA methylation analysis of saliva samples from the same group of LC patients (n=24), 4 SC participants, and 13 pre-pandemic healthy controls (HC). We studied the epigenetic signatures associated with LC. We found that LC patients showed significant hypomethylation of three common genes, MEST, DDR1, and LRP1, compared to SC and HC participants. These genes are involved in the cascade of inflammation, impaired immune response, and neurological disease. We also reported LGR6, ZFAND2A, and TDG methylation alterations in PBMCs and saliva in the same individuals associated with CL severity. Specifically, we found hypomethylation at the LGR6 and ZFAND2A genes and hypermethylation at the TDG gene in severe cases (LC1 group) compared to mild to moderate cases (LC2 group). This convergence of profiles between saliva and PBMCs highlights the importance of LGR6, ZFAND2A, and TDG in the severity of CL. All the results obtained in this thesis shed new and relevant light on the epigenetic mechanisms underlying ME and LC. The new knowledge in the three attached manuscripts allowed us to understand ME and LC better, develop future diagnostic, therapeutic, and preventive strategies, and better manage these conditions' long-term effects. Epigenetic alterations, more precisely at the level of DNA methylation, have been identified in both ME and long-term COVID. These alterations could be involved in the severity and persistence of the symptoms of these complex pathologies, which are distinct but share some similarities. The findings of this thesis suggest that epigenetics could be a promising target for developing new treatments for ME and long-term COVID. Further research is needed to confirm these findings and to develop effective therapeutic interventions. Encéphalomyélite myalgique COVID longue Épigénétique Méthylation de l’ADN Sites CpG Myalgic encephalomyelitis Long COVID Epigenetics DNA methylation CpG sites
9	Étude des profils d’expression de microARN circulants chez les survivants de la COVID-19 pour la détection du développement de l'encéphalomyélite myalgique : une étude pilote Petre, Diana 12 1900 (has links) Un nombre alarmant de personnes signalent une maladie persistante appelée COVID longue après leur infection par le virus SRAS-CoV-2. Il y a 650 million de cas de COVID-19 dans le monde, dont 10% de ces personnes développent des symptômes persistants. Parmi les symptômes observés, on remarque une fatigue profonde, de la myalgie, des troubles cognitifs, etc. Ces symptômes sont étonnamment similaires à ceux de l'encéphalomyélite myalgique (EM), une maladie chronique débilitante. L’EM est une maladie complexe souvent caractérisée par une fatigue profonde et le malaise après-effort. Environ 70% des patients atteints d'EM décrivent des épisodes d'infections virales comme élément déclencheur. Une autre maladie qui partage des symptômes similaires à l’EM est la fibromyalgie (FM). La FM est une autre maladie chronique et débilitante qui se caractérise par une douleur musculosquelettique et une sensibilisation centrale. Il n’existe toujours pas de traitement ni de test diagnostic à ce jour. Auparavant, nous avons découvert et validé onze microARN en tant que premier panel diagnostic pour l'EM et la FM. La majorité de ces petits ARN non codants participent à la régulation de gène, l'immunité et l'inflammation. Ce projet consiste à déterminer les trajectoires cliniques des personnes atteintes de la COVID longue à l’aide d’un nouveau test pronostic constitué de 11 miARN circulants permettant de différencier les diverses séquelles de la COVID longue. Par la suite, une recherche pan-génomique a permis d’établir une signature moléculaire plus précise pour chacun des six sous-groupes COVID longue. Nous proposons que les effets du virus SRAS-CoV-2 sur les microARN de l'hôte pourraient déclencher la persistance des symptômes de la COVID longue et que l’expression différentielle de certains microARN puissent contribuer au développement de différentes séquelles à long terme. Nous avons recruté des participants âgés de plus de 18 ans ayant été infectés par le virus SRAS- CoV-2, non-hospitalisés et présentant une COVID longue de plus de six mois et des sujets sains (groupe pré-pandemie) n’ayant pas reportés d’infection. L’analyse des symptômes a été réalisée à l’aide de trois questionnaires (SF-36, MFI-20, DSQ) complétés par tous les participants. Les niveaux d’expression de 11 microARN, précédemment identifiée dans l’EM, ont été mesurés par RT-qPCR dans des échantillons de plasma et la détermination des différentes trajectoires associées à des séquelles à long terme a été réalisée par analyse des composantes principales et validée par Random Forest Model (RFM). En stratifiant les patients selon leur signature de 11 miARN, nous avons évalué l’expression globale des 2549 miARN pour chaque séquelle et identifié de nouveaux miRNA spécifiques pour chacun des groupes à l’aide de la technologie microRNA array Agilent, une biopuce de la société Agilent. Nos données préliminaires nous ont permis d’identifier une signature moléculaire spécifique à chacune des séquelles de la COVID longue. Ces résultats nous permettrons de développer un nouveau test diagnostic basé sur les miRNA afin de prédire les conséquences à la suite de l’infection par le virus SRAS-CoV-2. / An alarming number of people are reporting a persistent illness called long COVID after their infection with the SARS-CoV-2 virus. There are an estimated 650 million cases of COVID-19 worldwide, with 10% of these people developing persistent symptoms. Among the symptoms observed, we notice profound fatigue, myalgia, cognitive disorders, etc. These symptoms are strikingly similar to those of myalgic encephalomyelitis (ME), a debilitating chronic disease. ME is a complex disease often characterized by profound fatigue and post-exertional malaise. Approximately 70% of ME patients describe episodes of viral infections as a trigger. Another disease that shares similar symptoms to ME is fibromyalgia (FM). FM is another chronic and debilitating disease that is characterized by musculoskeletal pain and central sensitization. There is still no treatment or diagnostic test to date. Previously, we discovered and validated eleven microRNAs as the first diagnostic panel for ME. Most of these small non-coding RNAs participate in gene regulation, immunity and inflammation. The objective of this project was to build a new diagnostic test to differentiate the various after-effects of long COVID using miRNAs. This project consists of determining the clinical trajectories of people with long COVID using a new prognostic test made up of 11 circulating miRNAs making it possible to differentiate the various after-effects of long COVID. Subsequently, a pan-genomic search made it possible to establish a more precise molecular signature for each of the six long COVID subgroups. We recruited participants aged over 18 years who had been infected with the SARS-CoV-2 virus, who were not hospitalized and had symptoms of long COVID for more than six months and healthy subjects (pre-pandemic group) who had not reported infection. The analysis of symptoms was carried out using three questionnaires (SF-36, MFI-20, DSQ) completed by all participants. The expression levels of 11 microRNAs previously identified in EM, from plasma samples were measured by RT-qPCR and the determination of the different trajectories associated with long-term sequelae was carried out by principal component analysis (PCA) and validated by Random Forest Model (RFM). By stratifying patients according to their signature of 11 miRNAs, we evaluated the overall expression of the 2549 miRNAs for each sequelae and identified new miRNAs specific for each of the groups using the Agilent microRNA array technology, a biochip from the company Agilent. Our preliminary data allowed us to identify a molecular signature specific to each of the after-effects of long COVID. These results will allow us to develop a new diagnostic test based on miRNAs in order to predict the consequences following infection by SARS-CoV-2 viruses. COVID-19 SRAS-CoV-2 COVID longue Encéphalomyélite myalgique Fibromyalgie RT-qPCR MicroARN Séquelles Long COVID Myalgic encephalomyelitis Fibromyalgia MicroRNA Sequelae Genetics / Génétique (UMI : 0369)
10	[pt] ESTRATÉGIAS DE REABILITAÇÃO PARA PACIENTES PÓS-COVID-19 COM PREJUÍZOS COGNITIVOS: UMA REVISÃO SISTEMÁTICA / [en] REHABILITATION STRATEGIES FOR POST-COVID-19 PATIENTS WITH COGNITIVE IMPAIRMENTS: A SYSTEMATIC REVIEW CAIO GOMES PARIZ 22 May 2023 (has links) [pt] Prejuízos cognitivos persistentes foram descritos em pacientes pós-COVID-19 independentemente da severidade da infecção, indicando que mesmo pacientes com infecção de grau leve ou moderado podem apresentar complicações cognitivas contínuas. Estratégias não-farmacológicas para reabilitação cognitiva ainda não foram revisadas de maneira sistemática neste grupo de pacientes. Dessa forma, o objetivo do presente estudo foi sistematicamente identificar, resumir e avaliar estudos de intervenção não-farmacológica avaliando desfechos cognitivos em pacientes com prejuízos neuropsicológicos persistentes após casos de COVID-19. Uma busca sistemática por artigos foi conduzida no dia primeiro de Julho de 2022. No total, 833 artigos foram identificados, dos quais 13 estudos foram incluídos na revisão final. Dentre esses, 7 eram estudos de grupo e 6 estudos de caso de sujeito único. Os estudos de grupo incluíram entre 12 e 50 participantes, e 2 destes também incluíram grupos controle. A maior parte dos estudos (11/13) testou a efetividade de intervenções multimodais de reabilitação, em geral combinando exercícios físicos com estimulação cognitiva. Dentre outros protocolos, reabilitação respiratória, ocupacional, psicossocial e fonoaudiológica também foram investigados. Com exceção de dois artigos, todos estudos descreveram resultados positivos após os processos de intervenção, incluindo aumento em escores de testes neuropsicológicos, redução em percepção de fadiga cognitiva e aumento de funcionalidade em atividades da vida diária. No entanto, as diversas limitações da presente literatura indicam que tais resultados devem ser interpretados com cautela. / [en] Persistent cognitive impairment has been described in people after COVID-19 irrespective of infection severity, indicating that patients with mild to moderate infection may also experience persevering cognitive problems. Non-pharmacological strategies for cognitive rehabilitation and their outcomes in this group have so far not been systematically summarized. Therefore, the aim of this study was to systematically identify, summarize, and appraise non-pharmacological rehabilitation intervention studies assessing neuropsychological outcomes in people with cognitive impairment after COVID-19. On July 1st, 2022, a systematic search was conducted using PubMed, Web of Science, PsycNET, and CENTRAL. In total, 833 papers were retrieved, of which 13 were included. Among those, 7 were group studies and 6 were single-subject case reports. The group studies included between 12 and 50 participants, of which two studies also included a control group. Most of the studies (11/13) tested multimodal interventions, mainly combining physical exercise with cognitive stimulation. Respiratory rehabilitation, occupational and speech-language therapy, EEG neurofeedback, tDCS, and psychosocial interventions were also investigated. With the exception of two, all studies described positive post-intervention results, including increased cognitive performance, reduced cognitive fatigue, and improved physical functionality. However, limitations of the current literature suggest that results should be considered carefully. [pt] NEUROPSICOLOGIA [pt] REABILITACAO COGNITIVA [pt] COVID LONGA [pt] SINDROME POS-COVID-19 [pt] ESTIMULACAO COGNITIVA [pt] REVISAO SISTEMATICA [en] NEUROPSYCHOLOGY [en] COGNITIVE REHABILITATION [en] LONG COVID [en] POST-ACUTE COVID-19 [en] COGNITIVE STIMULATION [en] SYSTEMATIC REVIEW

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