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Establishing two principal dimensions of cognitive variation in Logopenic Progressive Aphasia
Logopenic Progressive Aphasia (LPA) is a neurodegenerative syndrome characterised by sentence repetition and naming difficulties arising from left-lateralised temporoparietal atrophy. Clinical descriptions of LPA largely concentrate on profiling language deficits, however, accumulating evidence points to the presence of cognitive deficits, even on tasks with minimal language demands. Although non-linguistic cognitive deficits in LPA are thought to scale with disease severity, patients at discrete stages of language dysfunction display overlapping cognitive profiles, suggesting individual-level variation in cognitive performance, independent of primary language dysfunction. To address this issue, we used principal component analysis to decompose individual-level variation in cognitive performance in 43 well-characterised LPA patients who underwent multi-domain neuropsychological assessments and structural neuroimaging. The principal component analysis solution revealed the presence of two, statistically independent factors, providing stable and clinically intuitive explanations for the majority of variance in cognitive performance in the syndrome. Factor 1 reflected âspeech production and verbal memoryâ deficits which typify LPA. Systematic variations were also confirmed on a second, orthogonal factor mainly comprising visuospatial and executive processes. Adopting a case-comparison approach, we further demonstrate that pairs of patients with comparable Factor 1 scores, regardless of their severity, diverge considerably on visuo-executive test performance, underscoring the inter-individual variability in cognitive profiles in comparably âlogopenicâ patients. Whole-brain voxel-based morphometry analyses revealed that speech production and verbal memory factor scores correlated with left middle frontal gyrus, while visuospatial and executive factor scores were associated with grey matter intensity of right-lateralised temporoparietal, middle frontal regions and their underlying white matter connectivity. Importantly, LPA patients with poorer visuospatial and executive factor scores demonstrated greater right-lateralised temporoparietal and frontal atrophy. Our findings demonstrate the inherent variation in cognitive performance at an individual- and group-level in LPA, suggesting the presence of a genuine co-occurring cognitive impairment that is independent of language function and disease severity.This work was supported in part by funding to Forefront, a
collaborative research group specialized to the study of frontotemporal dementia and motor neurone disease, from the National Health and Medical Research Council (NHMRC) of Australia program grant (APP1037746) and the Australian Research Council (ARC) Centre of Excellence in
Cognition and its Disorders Memory Program (CE110001021). Siddharth Ramanan is supported by a Faculty of Science Ph.D. Research Scholarship from The University of Sydney. Olivier Piguet is supported by an
NHMRC Senior Research Fellowship (APP1103258). Muireann Irish is supported by an ARC Future Fellowship (FT160100096) and an ARC Discovery Project (DP180101548). Matthew A. Lambon Ralph is supported
by a UKRI-MRC Programme Grant (MR/R023883/1) and an ERC Advanced grant (GAP: 670428 - BRAIN2MIND_NEUROCOMP)
Circumpolar habitat use in the southern elephant seal : implications for foraging success and population trajectories
In the Southern Ocean, wide-ranging predators offer the opportunity to quantify how animals respond to differences in the environment because their behavior and population trends are an integrated signal of prevailing conditions within multiple marine habitats. Southern elephant seals in particular, can provide useful insights due to their circumpolar distribution, their long and distant migrations and their performance of extended bouts of deep diving. Furthermore, across their range, elephant seal populations have very different population trends. In this study, we present a data set from the International Polar Year project; Marine Mammals Exploring the Oceans Pole to Pole for southern elephant seals, in which a large number of instruments (N = 287) deployed on animals, encompassing a broad circum-Antarctic geographic extent, collected in situ ocean data and at-sea foraging metrics that explicitly link foraging behavior and habitat structure in time and space. Broadly speaking, the seals foraged in two habitats, the relatively shallow waters of the Antarctic continental shelf and the Kerguelen Plateau and deep open water regions. Animals of both sexes were more likely to exhibit area-restricted search (ARS) behavior rather than transit in shelf habitats. While Antarctic shelf waters can be regarded as prime habitat for both sexes, female seals tend to move northwards with the advance of sea ice in the late autumn or early winter. The water masses used by the seals also influenced their behavioral mode, with female ARS behavior being most likely in modified Circumpolar Deepwater or northerly Modified Shelf Water, both of which tend to be associated with the outer reaches of the Antarctic Continental Shelf. The combined effects of (1) the differing habitat quality, (2) differing responses to encroaching ice as the winter progresses among colonies, (3) differing distances between breeding and haul-out sites and high quality habitats, and (4) differing long-term regional trends in sea ice extent can explain the differing population trends observed among elephant seal colonies.Publisher PDFPeer reviewe
In-situ observations using tagged animals
Marine mammals help gather information on some of the harshest environments on the planet, through the use of miniaturized ocean sensors glued on their fur. Since 2004, hundreds of diving marine animals, mainly Antarctic and Arctic seals, have been fitted with a new generation of Argos tags developed by the Sea Mammal Research Unit of the University of St Andrews in Scotland, UK. These tags investigate the at-sea ecology of these animals while simultaneously collecting valuable oceanographic data. Some of the study species travel thousands of kilometres continuously diving to great depths (up to 2100 m). The resulting data are now freely available to the global scientific community at http://www.meop.net. Despite great progress in their reliability and data accuracy, the current generation of loggers while approaching standard ARGO quality specifications have yet to match them. Yet, improvements are underway; they involve updating the technology, implementing a more systematic phase of calibration and taking benefit of the recently acquired knowledge on the dynamical response of sensors. Together these efforts are rapidly transforming animal tagging into one of the most important sources of oceanographic data in polar regions and in many coastal areas.Publisher PDFNon peer reviewe
Recognizing and engineering digital-like logic gates and switches in gene regulatory networks
A central aim of synthetic biology is to build organisms that can perform useful activities in response to specified conditions. The digital computing paradigm which has proved so successful in electrical engineering is being mapped to synthetic biological systems to allow them to make such decisions. However, stochastic molecular processes have graded input-output functions, thus, bioengineers must select those with desirable characteristics and refine their transfer functions to build logic gates with digital-like switching behaviour. Recent efforts in genome mining and the development of programmable RNA-based switches, especially CRISPRi, have greatly increased the number of parts available to synthetic biologists. Improvements to the digital characteristics of these parts are required to enable robust predictable design of deeply layered logic circuits
Marine mammals exploring the oceans pole to pole
Polar oceans are poorly monitored despite the important role they play in
regulating Earthâs climate system. Marine mammals equipped with biologging devices
are now being used to fill the data gaps in these logistically difficult to sample regions.
Since 2002, instrumented animals have been generating exceptionally large data sets
of oceanographic CTD casts (>500,000 profiles), which are now freely available to
the scientific community through the MEOP data portal (http://meop.net). MEOP
(Marine Mammals Exploring the Oceans Pole to Pole) is a consortium of international
researchers dedicated to sharing animal-derived data and knowledge about the polar
oceans. Collectively, MEOP demonstrates the power and cost-effectiveness of using
marine mammals as data-collection platforms that can dramatically improve the ocean
observing system for biological and physical oceanographers. Here, we review the
MEOP program and database to bring it to the attention of the international community.http://www.tos.org/oceanographyam2017Mammal Research InstituteZoology and Entomolog
Distribution and Cconnection to other Plant-Communities of Genista radiata (L.) Scop in the South Tyrol (Italy)
Es werden die Genista radiata-BestĂ€nde an der Mendel in SĂŒdtirol (Italien) beschrieben und ihr GesellschaftsanschluĂ diskutiert. Das Genisto-Festucetum alpestris Peer 83 besidelt steile sĂŒdexponierte KalkhĂ€nge der hochmontanen und subalpinen Stufe und ersetzt z.T. den ZwergstrauchgĂŒrtel mit Pinus mugo. Ăhnlich zusammengesetzt ist das Genisto-Festucetum alpestris pinetosum Peer 83, das in den ÂĄlockeren Erika-KiefernwĂ€ldern auftritt und bis in die tiefmontane Stufe hinunterreicht. Keinerlei syntaxonomische Bedeutung besitzt Genista radiata in den thermophilen Buschwaldgesellschaften, in denen die Pflanze lediglich eine Variante zum Orno-Ostryetum seslerietosum Peer 81 darstellt und speziell in der Saumzone anzutreffen ist. Auch in den LĂ€rchenwiesen der Kammlagen kommt Genista radiata nur sporadisch vor. Sie ist hier mit dem Festucetum nigrescentis laricetosum subass. prov. verzahnt.IstraĆŸene su vegetacijske sastojine vrste Genista radiata u juĆŸnom Tirolu i razmatrana njihova fitocenoloĆĄka pripadnost. Asocijacija Genisto-Festucetum alpestris Peer 83 nastava strme, juĆŸne vapnenaÄke obronke visokobrdskog i subalpskog pojasa. Subasocijacija Genisto-Festucetum alpestris pinetosum Peer 83 dolazi u rijetkim borovim ĆĄumama s crnjuĆĄom i spuĆĄta se do u niĆŸi brdski pojas. Termofilne niske ĆĄume, u kojima Genista radiata nema posebno sintaksonomsko znaÄenje, oznaÄene su samo kao varijanta zajednice Orno-Ostryetum seslerietosum Peer 81. Genista radiata dolazi takoÄer na travnjacima s ariĆĄem, ali samo sporadiÄno i to u mjeĆĄavini sa zajednicom Festucetum nigrescentis laricetosnm subass. prov.The Genista radiata-communities of the Mendel in the South Tyrol (Italy) are described and their connection to other plant-communities is discussed. Genisto-Festucetum alpestris Peer 83 settles on steep, south- exposed colcareous slopes of high-mountain and subalpine altitudes and replaces particularly the dwarf-shrub-belt with Firms mugo. Similar contents aire found in Genisto-F estucetum alpestris pinetasum Peer 83, which occurs in undensed Erico-Pinetum-communities and reaches down to the low-mountain-altitude. In the thermophilic bush-communities, in which Genista radiata is found only as a variant of Orneto-Ostryetum seslerie- tosum (Peer 81), the plant has no syntaxonomic importance. Genista radiata especially is found in the edge-zone. In the grassland of the larch- communities of the ridges Genista radiata appears only sporadically. Here the plant appeals in Festucetum nigrescentis laricetosum subass. prov
Animal-borne telemetry: An integral component of the ocean observing toolkit
Animal telemetry is a powerful tool for observing marine animals and the physical environments that they inhabit, from coastal and continental shelf ecosystems to polar seas and open oceans. Satellite-linked biologgers and networks of acoustic receivers allow animals to be reliably monitored over scales of tens of meters to thousands of kilometers, giving insight into their habitat use, home range size, the phenology of migratory patterns and the biotic and abiotic factors that drive their distributions. Furthermore, physical environmental variables can be collected using animals as autonomous sampling platforms, increasing spatial and temporal coverage of global oceanographic observation systems. The use of animal telemetry, therefore, has the capacity to provide measures from a suite of essential ocean variables (EOVs) for improved monitoring of Earth's oceans. Here we outline the design features of animal telemetry systems, describe current applications and their benefits and challenges, and discuss future directions. We describe new analytical techniques that improve our ability to not only quantify animal movements but to also provide a powerful framework for comparative studies across taxa. We discuss the application of animal telemetry and its capacity to collect biotic and abiotic data, how the data collected can be incorporated into ocean observing systems, and the role these data can play in improved ocean management
Brain functional connectivity in the healthy subject and in the pathology : study and applications
Les aires cĂ©rĂ©brales entretiennent des relations fonctionnelles, formant ainsi des rĂ©seaux qui peuvent ĂȘtre altĂ©rĂ©s dans diverses pathologies. L'Ă©tude de ces rĂ©seaux de connectivitĂ© fonctionnelle pourrait potentiellement aider au diagnostic d'un individu et au traitement de sa pathologie. Ă travers quatre Ă©tudes, nous avons montrĂ© que l'analyse en composantes indĂ©pendantes spatiale est une mĂ©thode suffisamment sensible, reproductible et spĂ©cifique pour mettre en Ă©vidence, Ă lâĂ©chelle individuelle et au repos, des rĂ©seaux sains et pathologiques fiables. Ainsi, le rĂ©seau pathologique sous-tendant les hallucinations acoustico-verbales permet de dĂ©finir les aires cĂ©rĂ©brales Ă traiter par stimulation magnĂ©tique transcrĂąnienne. Parmi les rĂ©seaux sains, ceux qui impliquent le cortex cingulaire postĂ©rieur et le prĂ©cunĂ©us semblent profondĂ©ment altĂ©rĂ©s dans les troubles de la conscience, et peuvent servir d'outil diagnostic pour distinguer le locked-in syndrome de l'Ă©tat vĂ©gĂ©tatif. Il est dĂ©sormais possible de cartographier, Ă l'Ă©chelle individuelle, les relations fonctionnelles entre les aires cĂ©rĂ©brales. LâĂ©tude Ă venir de la dynamique et du niveau dâactivitĂ© des rĂ©seaux de connectivitĂ© fonctionnelle nous renseignera davantage sur leurs fonctions et leur implication dans la pathologie.Brain areas are functionally connected in networks, even at rest. Since such connectivity networks could be impaired in several pathologies, they could potentially serve for diagnosis and treatment. Based on four studies, spatial independent component analysis has shown sufficient sensitivity, reproducibility and specificity to produce reliable healthy as well as pathological networks at the individual level. Therefore, the network underlying auditory hallucination could define the brain areas to treat by transcranial magnetic stimulation. Among the common resting-state networks, the ones involving the posterior cingular cortex and the precuneus seem deeply altered in disorders of consciousness, and so could be used as a diagnostic tool to distinguish the locked-in syndrome from the vegetative state. We can now map, at the individual level, the functional relationships between brain areas. Further studies on the dynamic and on the level of activity of the functional connectivity networks might provide relevant information about their functions and their involvement in the pathology
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