367 research outputs found

    Through the funhouse looking glass: Europe's ship of states

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    What is the nature of the European Union? Does it have the characteristics of a state, and if so, which? We employ a single imagea poster that won a Marshall Plan competition in 1950to examine the various legal perspectives of the EU that have emerged over the past six decades. Created as a symbol of European unity at the outset of European integration, the image was used half a century later on the book cover of Andrew Moravcsik's instant classic on intergovernmentalism. Here, we reinterpret the image yet againin four different ways. This attempt to sort out the legal perspectives of the EU was inspired by the Lisbon Treaty Case that is currently before the German Constitutional Court and will be decided in May 2009. --

    Through the funhouse looking glass: Europe's ship of states

    Get PDF
    What is the nature of the European Union? Does it have the characteristics of a state, and if so, which? We employ a single imagea poster that won a Marshall Plan competition in 1950to examine the various legal perspectives of the EU that have emerged over the past six decades. Created as a symbol of European unity at the outset of European integration, the image was used half a century later on the book cover of Andrew Moravcsik's instant classic on intergovernmentalism. Here, we reinterpret the image yet againin four different ways. This attempt to sort out the legal perspectives of the EU was inspired by the Lisbon Treaty Case that is currently before the German Constitutional Court and will be decided in May 2009

    GRM7 variants associated with age-related hearing loss based on auditory perception

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    Age-related hearing impairment (ARHI), or presbycusis, is a common condition of the elderly that results in significant communication difficulties in daily life. Clinically, it has been defined as a progressive loss of sensitivity to sound, starting at the high frequencies, inability to understand speech, lengthening of the minimum discernable temporal gap in sounds, and a decrease in the ability to filter out background noise. The causes of presbycusis are likely a combination of environmental and genetic factors. Previous research into the genetics of presbycusis has focused solely on hearing as measured by pure-tone thresholds. A few loci have been identified, based on a best ear pure-tone average phenotype, as having a likely role in susceptibility to this type of hearing loss; and GRM7 is the only gene that has achieved genome-wide significance. We examined the association of GRM7 variants identified from the previous study, which used an European cohort with Z-scores based on pure-tone thresholds, in a European–American population from Rochester, NY (N = 687), and used novel phenotypes of presbycusis. In the present study mixed modeling analyses were used to explore the relationship of GRM7 haplotype and SNP genotypes with various measures of auditory perception. Here we show that GRM7 alleles are associated primarily with peripheral measures of hearing loss, and particularly with speech detection in older adults

    EFFECTS OF CATTLE GRAZING ON SMALL MAMMAL COMMUNITIES AT RED ROCK LAKES NATIONAL WILDLIFE REFUGE, MONTANA

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    Cattle grazing is a common land-use on public land in the Intermountain West that often has varied and complex effects on wildlife. We undertook the current study to better understand the response of small mammals to the frequency of cattle grazing in wet meadow habitats on Red Rock Lakes National Wildlife Refuge. Three adjacent grazing units were selected for study that provided a range of rested grazing units (one, three, and eight years of rest). We captured and marked 363 individuals, and had 174 recaptures on six 1.8 ha grids over 27 days. Voles (Microtus spp.) comprised 99 percent of individuals captured, with two deer mice (Peromyscus maniculatus), and one common shrew (Sorex cinereus). Vole abundance increased with increasing rest from grazing. Nearly 61 percent (221) of voles were captured in the unit with 8 years of rest from grazing; 26 percent (94) and 13 percent (48) of total captures were in units of three and one year of rest, respectively.  Apparent 8 day survival probability estimates were 0.45 (±0.12 SE), 0.62 (±0.12) and 0.35 (±0.09) for treatments with one, three and eight years of rest, respectively. Litter depth and physiognomic classes litter, and forb, and bare ground approached an asymptote after three years rest from grazing

    Normotensive offspring with non-dipper hypertensive parents have abnormal sleep pattern.

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    The objective of this study was to determine whether abnormal microstructure of sleep in non-dipper hypertensive patients was present in their offspring. Subjects included 11 normotensive offspring of non-dipper hypertensive parents (FH + ND), 6 of dipper hypertensive parents (FH + D) and 5 of normotensive parents (Controls). We measured blood pressure beat-to-beat by Finapres and all stages of sleep by polysomnographically recording simultaneously during spontaneous nocturnal sleep. We analysed blood pressure pattern for 4-min long random periods while the subjects were awake and during all stages of sleep; sleep efficiency (SE), sleep latency (SL), delta-sleep latency (delta-SL), REM sleep latency (REM-SL), Stage 1, Stage 2, Stage 3, Stage 4 and REM duration and percentage values, and microstructural aspects of sleep (arousal and microarousal temporization and features). FH + D and controls showed a fall in blood pressure greater than 10% in all stages of NREM sleep and in the FH + ND blood pressure fall in less than 10% of waking values in all NREM stages. REM sleep and heart rate were similar in the three groups during all stages of sleep. FH + ND showed the same number of arousals but more microarousals than FH + D and controls (p < 0.0001). Microarousals induced several stage shifts through lighter sleep. For this reason, FH + ND spent more time in stage 2 than FH + D and controls. In conclusion, offspring of non-dipper hypertension parents showed a greater number of microarousals than the other two groups

    Effect of COVID-19 isolation measures on physical activity of children and their parents, and role of the family environment: a cross-sectional study

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    Background. The rigorous isolation measures due to the COVID-19 pandemic seriously impacted children’s lifestyles. A descriptive cross-sectional study was carried out to collect and analyze information about physical activity habits of children and their parents during the social distancing period resulting from the COVID-19 pandemic. Methods. An online questionnaire was administered to 363 families (507 children aged 5-13) recruited by convenience sampling, asking for physical activity type and frequency before, during, and after the lockdown period (9th March - May 3rd 2020), education, outdoor spaces, and children’s weight gain perception. Results. Results show a remarkable decrease in children’s physical activity during lockdown (88.9 vs 39.8% active children) associated with older age and low availability of outdoor spaces (p&lt;0.001). Parents’ physical activity was related to educational level, and a slight but significant correlation between parents’ education and children’s physical activity was found, especially with father’s university degree (p&lt;0.05). Active mothers significantly influenced children’s physical activity during the lockdown, especially if not engaged in smart working. The return to an active lifestyle by children did not reach previous levels (75.9% active children) and was directly related to parent’s physical activity. Finally, the risk of weight gain was lower in active children during the lockdown (OR = 0.46; p&lt;0.001). Conclusions. This work highlights the importance of physical activity during a pandemic event to prevent the risk of gaining weight, and underlines the relevance of the entire family system as a source of promotion of healthy behaviors in children

    Awaiting a cure for COVID-19: therapeutic approach in patients with different severity levels of COVID-19

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    COVID-19 is an unpredictable infectious disease caused by SARS-CoV-2. The development of effective anti-COVID-19 vaccines has enormously minimized the risk of severe illness in most immunocompetent patients. However, unvaccinated patients and non-re-sponders to the COVID-19 vaccine are at risk of short-and long-term consequences. In these patients, the outcome of COVID-19 relies on an interplay of multiple factors including age, immunocompetence, comorbid-ities, inflammatory response triggered by the virus as well as the virulence of SARS-CoV-2 variants. General-ly, COVID-19 is asymptomatic or mildly symptomatic in young people, but it may manifest with respiratory insufficiency requiring mechanical ventilation in cer-tain susceptible groups of patients. Furthermore, severe SARS-CoV-2 infection induces multiorgan failure syndrome by affecting liver, kidney heart and nervous system. Since December 2019, multiple drugs have been test-ed to treat COVID-19, but only a few have been prov-en effective to mitigate the course of the disease that continues to cause death and comorbidity worldwide. Current treatment of COVID-19 patients is essential-ly based on the administration of supportive oxygen therapy and the use of specific drugs such as steroids, anticoagulants, antivirals, anti-SARS-CoV-2 antibodies and immunomodulators. However, the rapid spread of new variants and the release of new data coming from the numerous ongoing clinical trials have cre-ated the conditions for maintaining a continuous up-dating of the therapeutic management of COVID-19 patients. Furthermore, we believe that a well-estab-lished therapeutic strategy along with the continu-um of medical care for all patients with COVID-19 is pivotal to improving disease outcomes and restoring healthcare care fragmentation caused by the pandem-ic. This narrative review, focusing on the therapeutic management of COVID-19 patients, aimed to provide an overview of current therapies for (i) asymptomatic or mildly/moderate symptomatic patients, (ii) hospitalized patients requiring low-flow oxygen, (iii) high-flow oxygen and (iv) mechanical ventilation

    PET imaging of the normal human auditory system: responses

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    Abstract The neural mechanisms involved in listening to sentences, and then detecting and verbalizing a specific word are poorly understood, but most likely involve complex neural networks. We used positron emission tomography to identify the areas of the human brain that are activated when young, normal hearing males and females were asked to listen to a sentence and repeat the last word from the Speech in Noise (SPIN) test. Listening conditions were (1) Quiet, (2) Speech, (3) Noise, and (4) SPIN with stimuli presented monaurally to either the left ear or the right ear. The least difficult listening task, Speech, resulted in bilateral activation of superior and middle temporal gyrus and pre-central gyrus. The Noise and SPIN conditions activated many of the same regions as Speech alone plus additional sites within the cerebellum, thalamus and superior/middle frontal gyri. Comparison of the SPIN condition versus Speech revealed additional activation in the right anterior lobe of the cerebellum and right medial frontal gyrus, near the cingulate. None of the left ear^right ear stimulus comparison revealed any significant differences except for the SPIN condition that showed greater activation in the left superior temporal gyrus for stimuli presented to the right ear. No gender differences were observed. These results demonstrate that repeating the last word in a sentence activates mainly auditory and motor areas of the brain when Speech is presented, whereas more difficult tasks, such as SPIN or multi-talker Noise, activate linguistic, attentional, cognitive, working memory, and motor planning areas.

    Comorbidity and in-hospital mortality in peritoneal dialysis patients: data of the Emilia Romagna region of Italy

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    Objective: Kidney failure increases in-hospital mortality (IHM); however, comorbidity is crucial for predicting mortality in dialysis patients. Our aim was to evaluate the impact of comorbidity, assessed by modified Elixhauser index (mEI), Charlson Comorbidity Index (CCI), and age-adjusted CCI, on IHM in a cohort of peritoneal dialysis patients admitted to hospitals of the Emilia Romagna region (ERR) of Italy. Patients and methods: All hospital admissions of peritoneal dialysis patients recorded between 2007 and 2021 in the ERR database were analyzed. The International Classification of Diseases, 9th Revision, Clinical Modification (ICD-9-CM) was used for detecting diagnoses and procedures, and the inclusion criterion was code 5498. Comorbidity burden was evaluated by three different scores, and hemodialysis (HD) treatment need was considered. IHM was our outcome. Results: During the 15 years of the study, 3,242 hospitalized peritoneal dialysis patients (62.7% males) were evaluated. Mean age was 62.8±20.6 years, 9.6% underwent HD, and IHM was 5.9% (n=192). IHM mortality was stable throughout the study period. Deceased subjects were older, were hospitalized longer, had a higher comorbidity burden, and had a higher percentage of HD treatment needs than survivors. Age, male sex, comorbidity burden, and HD treatment were predictors of IHM. Receiver operating characteristics (ROC) analysis confirmed the impact of comorbidity burden on IHM, especially when age was considered. Conclusions: We conclude that in male, elderly hospitalized peritoneal dialysis patients with failing dialysis technique, comorbidity burden should be considered being a predictor of IHM

    Early uneven ear input induces long-lasting differences in left-right motor function

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    How asymmetries in motor behavior become established normally or atypically in mammals remains unclear. An established model for motor asymmetry that is conserved across mammals can be obtained by experimentally inducing asymmetric striatal dopamine activity. However, the factors that can cause motor asymmetries in the absence of experimental manipulations to the brain remain unknown. Here, we show that mice with inner ear dysfunction display a robust left or right rotational preference, and this motor preference reflects an atypical asymmetry in cortico-striatal neurotransmission. By unilaterally targeting striatal activity with an antagonist of extracellular signal-regulated kinase (ERK), a downstream integrator of striatal neurotransmitter signaling, we can reverse or exaggerate rotational preference in these mice. By surgically biasing vestibular failure to one ear, we can dictate the direction of motor preference, illustrating the influence of uneven vestibular failure in establishing the outward asymmetries in motor preference. The inner ear±induced striatal asymmetries identified here intersect with non±ear-induced asymmetries previously linked to lateralized motor behavior across species and suggest that aspects of left±right brain function in mammals can be ontogenetically influenced by inner ear input. Consistent with inner ear input contributing to motor asymmetry, we also show that, in humans with normal ear function, the motor-dominant hemisphere, measured as handedness, is ipsilateral to the ear with weaker vestibular input. Despite a long-standing fascination with asymmetries in left±right brain function, very little is known about the causes of functional brain asymmetry in mammals, which appear independent of the mechanisms that create anatomical asymmetries during development. Asymmetries in motor function are a common example and include preferred turning direction, handedness, and footedness. In this study, using mouse models, we establish a causal link between transient imbalances in degenerating inner ear function and the establishment of stable asymmetries in neural pathways that regulate motor activity and in motor behavior. Our study also suggests that shared mechanisms may underlie lateralized motor behaviors across mammalian species. For example, we show that in humans with normal ear function, the strength of the vestibular response from each ear in the forebrain correlates with asymmetric motor behavior, measured as handedness. In a broader sense, our study reveals a conceptually novel role for sensory input in shaping the asymmetric distribution of brain function, a process for which there is otherwise no clear mechanism
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