Where Do Neurologists Look When Viewing Brain CT Images? An Eye-Tracking Study Involving Stroke Cases

The aim of this study was to investigate where neurologists look when they view brain computed tomography (CT) images and to evaluate how they deploy their visual attention by comparing their gaze distribution with saliency maps. Brain CT images showing cerebrovascular accidents were presented to 12 neurologists and 12 control subjects. The subjects' ocular fixation positions were recorded using an eye-tracking device (Eyelink 1000). Heat maps were created based on the eye-fixation patterns of each group and compared between the two groups. The heat maps revealed that the areas on which control subjects frequently fixated often coincided with areas identified as outstanding in saliency maps, while the areas on which neurologists frequently fixated often did not. Dwell time in regions of interest (ROI) was likewise compared between the two groups, revealing that, although dwell time on large lesions was not different between the two groups, dwell time in clinically important areas with low salience was longer in neurologists than in controls. Therefore it appears that neurologists intentionally scan clinically important areas when reading brain CT images showing cerebrovascular accidents. Both neurologists and control subjects used the “bottom-up salience” form of visual attention, although the neurologists more effectively used the “top-down instruction” form

Distributed representations of the "preparatory set" in the frontal oculomotor system: a TMS study

<p>Abstract</p> <p>Background</p> <p>The generation of saccades is influenced by the level of "preparatory set activity" in cortical oculomotor areas. This preparatory activity can be examined using the gap-paradigm in which a temporal gap is introduced between the disappearance of a central fixation target and the appearance of an eccentric target.</p> <p>Methods</p> <p>Ten healthy subjects made horizontal pro- or antisaccades in response to lateralized cues after a gap period of 200 ms. Single-pulse transcranial magnetic stimulation (TMS) was applied to the dorsolateral prefrontal cortex (DLPFC), frontal eye field (FEF), or supplementary eye field (SEF) of the right hemisphere 100 or 200 ms after the disappearance of the fixation point. Saccade latencies were measured to probe the disruptive effect of TMS on saccade preparation. In six individuals, we gave realistic sham TMS during the gap period to mimic auditory and somatosensory stimulation without stimulating the cortex.</p> <p>Results</p> <p>TMS to DLPFC, FEF, or SEF increased the latencies of contraversive pro- and antisaccades. This TMS-induced delay of saccade initiation was particularly evident in conditions with a relatively high level of preparatory set activity: The increase in saccade latency was more pronounced at the end of the gap period and when participants prepared for prosaccades rather than antisaccades. Although the "lesion effect" of TMS was stronger with prefrontal TMS, TMS to FEF or SEF also interfered with the initiation of saccades. The delay in saccade onset induced by real TMS was not caused by non-specific effects because sham stimulation shortened the latencies of contra- and ipsiversive anti-saccades, presumably due to intersensory facilitation.</p> <p>Conclusion</p> <p>Our results are compatible with the view that the "preparatory set" for contraversive saccades is represented in a distributed cortical network, including the contralateral DLPFC, FEF and SEF.</p

Compostagem e vermicompostagem de dejetos de caprinos: efeito das estações do ano Composting and vermicomposting caprine dejections: effect of season

A caprinocultura brasileira cresceu consideravelmente nos últimos anos, elevando a produção de resíduos, fato que justifica o estudo de práticas de reciclagem, tais como a compostagem e a vermicompostagem, pois, além da agregação de valor com a produção do composto, representa um meio de saneamento na área rural. Para o desenvolvimento deste trabalho, foram utilizados dejetos coletados de caprinos em diferentes faixas etárias, mantidos em sistema de semiconfinamento e com regime alimentar único. O objetivo principal foi avaliar os efeitos das estações do ano sobre os processos de compostagem e vermicompostagem. As reduções na quantidade de matéria seca (MS) foram de 53,7; 53,4; 51,4 e 47,8% para a compostagem e 57,4; 51,0; 41,4 e 53,6% para a vermicompostagem nas estações de verão, outono, inverno e primavera, respectivamente. Observaram-se maiores reduções na relação C/N durante o verão e outono, em relação à primavera e ao inverno, para ambos os processos. As equações de redução de volume, na compostagem, foram: y = -0,0512x + 1,0233; y = -0,0552x + 1,1766; y = -0,0521x + 1,1656 e y = -0,0558x + 1,3227, para as estações primavera, outono, inverno e verão, respectivamente, (x = número de semanas e y = volume, em m³).<br>Brazilian caprine raising has grown considerably in the last years and has elevated the waste production, what justifies the study of recycling practices of composting and vemicomposting because their aggregation values with the fertilizers production, and also represent a sanitation way in the rural zone. In this study, caprines of different ages, maintained in semi confinement system and with the same diet feeding were used. The main objective was evaluating the effect of the season on the composting and vermicomposting process. The dry matter reduction was of 53.7; 53.4; 51.4 and 47.8% for composting process and 57.4; 51.0; 41.4 and 53.6% for vermicomposting in Summer, Autumn, Winter and Spring respectively. Larger reductions were observed in the C/N ratio during Summer and Autumn in relation to Spring and Winter, for both processes. The equations of volume reduction in the composting process were: y = -0.0512x + 1.0233; y = -0.0552x + 1.1766; y = -0.0521x + 1.1656 and y = -0.0558x + 1.3227 for Spring, Autumn, Winter and Summer, respectively (x = number of weeks and y = volume in m³)