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Our study emphasizes the important role of geometrical boundary in regulating biomechanical properties of cell aggregates. Obstructive sleep apnoea syndrome is a growing health concern, affecting nearly one billion people worldwide; it is an independent cardiovascular risk factor, associated with incident obesity, insulin resistance, hypertension, arrhythmias, stroke, coronary artery disease and heart failure. Obstructive sleep apnoea-related cardiovascular and metabolic co-morbidities are a major concern for prognosis and the complexity of obstructive sleep apnoea integrated care. Continuous positive airway pressure, the first-line therapy for the treatment of obstructive sleep apnoea, is highly effective at improving symptoms and quality of life, but has limited effect on co-morbidities. Deciphering the molecular pathways involved in obstructive sleep apnoea metabolic and cardiovascular consequences is a priority to make new pharmacological targets available, in combination with or as an alternative to continuous positive airway pressure. Intermittent hypoxia, a landmark feature of obstructive sleep apnoea, is the key intermediary mechanism underlying metabolic and cardiovascular complications. Experimental settings allowing intermittent hypoxia exposure in cells, rodents and healthy humans have been established to dissect the molecular mechanisms of obstructive sleep apnoea-related co-morbidities. The main objective of this review is to recapitulate the molecular pathways, cells and tissue interactions contributing to the cardiometabolic consequences of intermittent hypoxia. Sympathetic activation, low-grade inflammation, oxidative stress and endoplasmic reticulum stress are triggered by intermittent hypoxia and play a role in cardiometabolic dysfunction. The key role of hypoxia-inducible factor-1 transcription factor will be detailed, as well as the underestimated and less described importance of mitochondrial functional changes in the intermittent hypoxia setting. Cells cope with environmental changes through various mechanisms. Pathways involving HIF-1, SIRT1, and AMPK play major roles in energy homeostasis under stress conditions. Diacylglycerol kinase (DGK) constitutes an enzyme family that catalyzes conversion of diacylglycerol to phosphatidic acid. We reported earlier that energy depletion such as ischemia induces proteasomal degradation of DGKζ before cell death, suggesting involvement of DGKζ in energy homeostasis. This study examines how DGKζ depletion affects the regulation of HIF-1α, SIRT1, and AMPKα. Under hypoxia DGKζ depletion attenuates HIF-1α induction and SIRT1 expression, which might render cells vulnerable to energy stress. However, DGKζ depletion engenders enhanced AMPKα phosphorylation by upstream kinase TAK1 and an increase in intracellular ATP levels. Results suggest that DGKζ exerts a suppressive effect on TAK1 activity in the AMPK activation mechanism, and that DGKζ depletion might engender dysregulation of the AMPK-mediated energy sensor system. Autonomic dysfunction is a common condition in the alpha-synucleinopathies (Parkinson's disease, dementia with Lewy bodies, multiple system atrophy). Cardiovascular symptoms may include orthostatic hypotension, supine hypertension or decreased heart rate response. A clinical suspicion and physical examination are essential for diagnosis, taking blood pressure in supine and standing positions. The electrocardiogram may show a prolongation of the PR and QT intervals, while 24-hour ambulatory blood pressure monitoring provides information on blood pressure patterns. Cardiac sympathetic dysfunction can be confirmed by an innervation myocardial scintigraphy with 123-I-methylbenzylguanidine (123-I-MIBG). This can reflect specific neuronal noradrenergic uptake. We present the case of a man with Parkinson's disease who was diagnosed with cardiovascular autonomic dysfunction after a complete study. BACKGROUND The phenomenon of pregnancy-induced remission of rheumatoid arthritis (RA) was first reported by Philip Hench in 1938. Despite extensive efforts, the underlying scientific basis has remained elusive. A number of different potential mechanisms have been investigated. We have undertaken a systematic review of the available peer-reviewed articles involving pregnant patients with RA in order to establish the depth of current scientific understanding of this important topic. METHODS This review was conducted according to guidelines of preferred reporting items for systematic reviews and meta-analyses. Studies were identified by a thorough search of multiple databases including Medline, PubMed and EMBASE. Search terms used were different combinations of the keywords rheumatoid arthritis, inflammatory arthritis, pregnancy, mechanisms, disease activity, relapse and remission. Non-English language articles and studies that were not directly relevant were excluded. Two independent reviewers (CR and KA) screeitrullinated protein antibody (ACPA); and 1 each on microchimerism, gamma delta T cells, regulatory T cells, and mannose-binding lectin. The results of these studies were heterogenous and occasionally conflicting. Selected studies varied greatly in terms of population size, methodology and use of controls and disease activity assessments. CONCLUSION This systematic review has found that the cause of the pregnancy-induced amelioration of RA remains to be determined, despite extensive efforts. It is unclear which of the various transitory changes in pregnancy may be responsible for initiating downstream anti-inflammatory immunological mechanisms. CA3 We discuss limitations of the current literature and suggest areas for future study. OBJECTIVES To determine the impact of a disease flare on patient reported outcome measures (PROMs) in rheumatoid arthritis (RA) patients, who are tapering treatment. METHODS Data were used from the TARA trial; a multicenter, randomized controlled trial in which RA patients, with a well-controlled disease (DAS≤2.4 and SJC≤1) for at least 6 months, gradually tapered their DMARDs. PROMs of patients with a flare (DAS>2.4 and/or SJC>1) were compared every three months before and after a flare with their own norm values. Linear Mixed Models were used to investigate whether a disease flare influenced functional ability (HAQ-DI), fatigue (BRAF-MDQ), quality of life (EQ-5D and SF36), anxiety and depression (HADS), morning stiffness, general health (GH) and worker productivity, and if so, the duration was determined. For unemployment and sick leave we used descriptive statistics. RESULTS A flare negatively influenced GH, morning stiffness, HAQ-DI, EQ-5D, BRAF-MDQ, and the SF36 physical component scale and this effect lasted >3 months.

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