1,863 research outputs found
The Frequency of Occurrence of Phonemes in the Speech of Aphasics
This study was designed to investigate the phoneme selection patterns in the spontaneous speech of Broca\u27s and Wernicke\u27s aphasics. The frequency distributions of phonemes for the aphasic subjects was compared to the normal distribution curve of English consonantal phonemes. Differences in the frequency of occurrence of phonemes subsequent to neurological impairment may be linked to the nature of the impairment. In addition, this study described and compared the occurrence of phonological processes in the single word responses of the subject groups. The frequency of phonemes and the occurrence of phonological processes were then analyzed jointly for possible trends.
Analysis of the spontaneous language samples of the aphasic subjects revealed that the frequency of occurrence of phonemes was not significantly different than the normal distribution, nor was it different between the subject groups. This finding held true with regards to the values of the phoneme frequencies and the ranking within the phoneme distributions. The Assessment of Phonological Processes-Revised (Hodson, 1986) was used to analyze the single word responses to confrontation tasks. It was found that both the Broca\u27s and Wernicke\u27s aphasics exhibited phonological processes in their speech, but the Broca\u27s aphasics produced significantly more errors.
The results of this study reveal that, although aphasics exhibit phonological processes in their speech, these errors are not reflected in a change in the frequency of occurrence of phonemes. Interpretation of this finding may indicate that the phonological processes demonstrated in the speech of aphasics are not the result of a dysfunction of the rule-based structure of the linguistic system, but rather of the processing links within this system. As well, the nature of the phonological processes exhibited may serve to differentiate the nature of the two aphasic disorders; Broca\u27s aphasia as a motor programming deficit, and Wernicke\u27s aphasia as a deficiency in selection and retrieval
Scaling mechanisms of energy communities:A comparison of 28 initiatives
Energy communities have mushroomed over the past decades. These initiatives have scaled, that is replicated their experiences, expanded membership, and diversified involved actors and technologies. The picture existing literature paints is hopeful that the scaling of local-scale action may translate into global-scale impact and thus effectively contribute to combating climate change. However, important gaps remain in understanding the (combinations of) conditions which are necessary for scaling with this goal in mind. This article pushes the boundaries of knowledge further by examining and comparing 28 energy communities through a fuzzy set Qualitative Comparative Analysis (QCA) and by identifying the necessary conditions of actionable scaling mechanisms. Our analysis identifies a high number (8) of necessary (combinations of) conditions for scaling. Addressing a strong need amongst policy makers to facilitate broader scaling of community initiatives, this article offers concrete insights on mechanisms that need to be in place to scale energy communities. Insights are developed on â for example â the type of capacity support needed, support structures and the tools needed for connecting communities with each other. These insights help corroborate empirically, for the first time the crucial leverage points that will support strategies for upscaling the impact of energy communities, and will enable them to flourish as an essential element of the global climate governance system.</p
A concise taxonomy for describing data as an art material.
How can we describe data when used as an art material? As the number of artists using data in their work increases, so too must our ability to describe the material in a way that is understood by both specialist and general audiences alike. In this paper we review existing vocabularies, glossaries, and taxonomies of data, and propose our own concise taxonomy. We present a number of examples of how existing data art works are described, and demonstrate our taxonomy by applying it to these works. To conclude we propose the adoption of this concise taxonomy by artists, critics, and curators, and suggest that on-going refinement of the taxonomy takes place through crowd-sourced knowledge sharing on the web
More Than a Safety Net: Ethiopia\u27s Flagship Public Works Program Increases Tree Cover
More than one billion people worldwide receive cash or in-kind transfers from social protection programs. In low-income countries, these transfers are often conditioned on participation in labor-intensive public works to rehabilitate local infrastructure or natural resources. Despite their popularity, the environmental impacts of public works programs remain largely undocumented. We quantify the impact on tree cover of Ethiopia\u27s Productive Safety Net Program (PSNP), one of the world\u27s largest and longest-running public works programs, using satellite-based data of tree cover combined with difference-in-differences and inverse probability treatment weighting methodologies. We find that the PSNP increased tree cover by 3.8% between 2005 and 2019, with larger increases in less densely populated areas and on steep-sloped terrain. As increasing tree cover is considered an important strategy to mitigate global warming, our results suggest a winâwin potential for social safety net programs with an environmental component
Algebraic equations of state for the liquid crystalline phase behavior of hard rods
Based on simplifications of previous numerical calculations [Graf and
L\"{o}wen, Phys. Rev. E \textbf{59}, 1932 (1999)], we propose algebraic free
energy expressions for the smectic-A liquid crystal phase and the crystal
phases of hard spherocylinders. Quantitative agreement with simulations is
found for the resulting equations of state. The free energy expressions can be
used to straightforwardly compute the full phase behavior for all aspect ratios
and to provide a suitable benchmark for exploring how attractive interrod
interactions mediate the phase stability through perturbation approaches such
as free-volume or van der Waals theory.Comment: 12 pages,accepted for publication in Phys. Rev.
The role of positron-emission tomography in the diagnosis of giant cell arteritis
Abstract
Background: Giant cell arteritis (GCA) is an inflammatory disease of the larger vessels, typically affecting the temporal arteries,
but involvement of the carotid and thoracic arteries is not uncommon. Serious complications such as blindness can occur if the
disease is left untreated. Currently, the gold standard test for GCA is a temporal biopsy, but this invasive technique is not without
risks and frequently inaccurate. We investigate the use of 18-fluoro-desoxyglucose (18F-FDG) positron emission tomography
(PET) as a new diagnostic means in GCA.
Methods: We performed a literature search in the MEDLINE database for original research articles written in the English
language that discussed the use of PET in diagnosing GCA. After applying selection criteria, 9 articles were included for literature
review and 4 of these were incorporated in a meta-analysis.
Results: 18-FDG uptake in the extracranial arteries is correlated to the presence GCA within patients suspected for vasculitis. In
our meta-analysis we found the following results: sensitivity 85% (95% CI; 74-92%, I2=0.0%), specificity 91% (95% CI; 82-96%,
I2=31.2%), positive likelihood ratio 7.18 (95% CI; 3.43-15.06, I2 =10.1%) and negative likelihood ratio 0.19 (95% CI; 0.11-0.33,
I2= 0.0%).
Discussion: 18F-FDG-PET cannot replace temporal artery biopsy at the present time, because of its limited ability to visualise the
cranial arteries. However, PET may be provide valuable information when extracranial involvement is suspected, specifically in
biopsy-negative patients who are strongly suspected of having GCA
Defying the Gibbs Phase Rule: Evidence for an Entropy-Driven Quintuple Point in Colloid-Polymer Mixtures
Using a minimal algebraic model for the thermodynamics of binary rod--polymer
mixtures, we provide evidence for a quintuple phase equilibrium; an observation
that seems to be at odds with the Gibbs phase rule for two-component systems.
Our model is based on equations of state for the relevant liquid crystal phases
that are in quantitative agreement with computer simulations. We argue that the
appearance of a quintuple equilibrium, involving an isotropic fluid, a nematic
and smectic liquid crystal, and two solid phases can be reconciled with a
generalized Gibbs phase rule in which the two intrinsic length scales of the
athermal colloid--polymer mixture act as additional field variables
Animal Models of Bone Loss in Inflammatory Arthritis: from Cytokines in the Bench to Novel Treatments for Bone Loss in the Bedsideâa Comprehensive Review
Throughout life, bone is continuously remodelled. Bone is formed by osteoblasts, from mesenchymal origin, while osteoclasts induce bone resorption. This process is tightly regulated. During inflammation, several growth factors and cytokines are increased inducing osteoclast differentiation and activation, and chronic inflammation is a condition that initiates systemic bone loss. Rheumatoid arthritis (RA) is a chronic inflammatory auto-immune disease that is characterised by active synovitis and is associated with early peri-articular bone loss. Peri-articular bone loss precedes focal bone erosions, which may progress to bone destruction and disability. The incidence of generalised osteoporosis is associated with the severity of arthritis in RA and increased osteoporotic vertebral and hip fracture risk. In this review, we will give an overview of different animal models of inflammatory arthritis related to RA with focus on bone erosion and involvement of pro-inflammatory cytokines. In addition, a humanised endochondral ossification model will be discussed, which can be used in a translational approach to answer osteoimmunological questions
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