170,694 research outputs found

    Dataset for: Schäfer, S. & Frings, C. Different effects of spatial separation in action and perception, Psychonomic Bulletin & Review. DOI: 10.3758/s13423-020-01867-9

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    Dataset for: Schäfer, S. & Frings, C. Different effects of spatial separation in action and perception, Psychonomic Bulletin & Review. DOI: 10.3758/s13423-020-01867-9unknow

    Frings (Theodor). Grundlegung einer Geschichte der deutschen Sprache

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    Polomé E. Frings (Theodor). Grundlegung einer Geschichte der deutschen Sprache. In: Revue belge de philologie et d'histoire, tome 28, fasc. 3-4, 1950. pp. 1174-1177

    Codebook for 'Dataset for: Intentional Weighting is context-dependent'

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    Codebook for 'Dataset for: Schmalbrock, P., Geissler, C.F., & Frings, C. Intentional Weighting is context-dependentunknow

    Data for: Tactile temporal offset cues reduce visual representational momentum

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    Data sets for the manuscript: Merz, S, Frings, C. & Spence, C. (2021): Tactile temporal offset cues reduce visual representational momentum, to be published in Attention, Perception, and Psychophysicsunknow

    Code for: Tactile temporal offset cues reduce visual representational momentum

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    Programming code for the manuscript: Merz, S, Frings, C. & Spence, C. (2021): Tactile temporal offset cues reduce visual representational momentum, to be published in Attention, Perception, and Psychophysicsunknownunknow

    Religiosität bei aserbaidschanischen Jugendlichen als Chance

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    Hunner-Kreisel C. Religiosität bei aserbaidschanischen Jugendlichen als Chance. In: Frings A, ed. Neuordnung von Lebenswelten. Studien zur Gestaltung muslimischer Lebenswelten in der frühen Sowjetunion und in ihren Nachfolgestaaten. Münster: Litt Verlag; 2006: 163-196

    PhD

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    dissertationThe audiogenic seizure (AGS)-susceptible Frings mouse is a genetic model for generalized reflex epilepsy. The single genetic locus responsible for the AGS phenotype in Frings mice, named monogenic audiogenic seizure-susceptible MASS1, has recently been identified but the function of MASS1 is unknown. One goal of the present investigation was to identify the pathophysiology from the Frings MASS1 mutation that leads to the development of the robust AGS-susceptible phenotype. We hypothesized that the Frings MASS1 mutation produces cochlear dysfunction leading to hyperexcitability in the inferior colliculus, and that the MASS1 mutation may exert direct effects on intrinsic neuroexcitability in the brain. The hypothesis was investigated through studies that mapped the AGS network in Frings mice, measured auditory function, examined tonotopic response domains in the inferior colliculus and measured electroconvulsive seizure thresholds (ECT) in mice with and without the MASS1 mutation. Neuronal activation from AGS in Frings mice, as measured by seizure-induced expression of the immediate early gene c-Fos, was limited to a brainstem seizure network. This suggests that an expanded neuronal network is not involved in the robust AGS phenotype. Measuring auditory brainstem responses revealed that the MASS1 mutation produces a moderate and relatively stable early onset hearing impairment. Sound-induced c-Fos expression in the inferior colliculus was used to examine tonotopic neuronal responses to sub-AGS threshold, tone stimulations. The Frings mice displayed significant tonotopic hyper-responsiveness in the inferior colliculus to the subthreshold tone stimulations. This suggests that abnormal neuronal circuits develop in the inferior colliculus as a result of the early onset hearing impairment from the MASS1 mutation. Behavioral ECT testing was used to measure regional neuroexcitability (brainstem, forebrain and limbic structures) associated with the MASS1 mutation. The ECT tests demonstrated that the MASS1 mutation significantly lowered the electroconvulsive threshold in the brainstem and lowered resistance to seizure spread. The studies in this dissertation revealed that the Frings MASS1 mutation produces a moderate and stable hearing impairment that results in a neuronal hyper-responsiveness in the inferior colliculus. These auditory defects, combined with a significantly lowered threshold for brainstem seizures, produce the particularly robust AGS phenotype in the Frings mice

    Flanker negative priming from spatially unpredictable primes: An ERP study

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    In a typical flanker task, a to-be-selected central target is flanked by two to-be ignored, identical distractors. The flanker negative priming (NP) effect denotes increased reaction time and error percent when the distractor of a first display serves as the target in the next. Most theories of NP are consistent with the idea that during processing of the first display, the identity of the distractors is inhibited. If the target of the subsequent display has the same identity, NP occurs because of persisting or retrieved inhibition. However, in the standard flanker task stimuli appear at the same screen locations for all trials, allowing for anticipatory spatial selection. No strong additional inhibition of stimulus identities may then be required. Therefore, besides the standard flanker task we employed a modified task in which the location of the stimulus triplet slightly differed across trials, thus disabling spatial pre-selection. Event-related potentials (ERPs) were recorded to identify brain correlates of NP in the two tasks. Behavioral NP was present in the modified task but absent in the standard task. An ERP correlate specific to NP in the modified task concerned larger amplitude of a left-posterior processing negativity. Results support the idea that stronger inhibition of distractor identities contributes to NP in the flanker task when spatial pre-selection is disabled. (C) 2010 Elsevier B.V. All rights reserved

    Dataset for: Predictability Reduces the Event-file Retrieval

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    Dataset for: Schmalbrock, P., Hommel, B., Münchau, A., Beste, C., & Frings, C. Predictability Reduces the Event-file RetrievalThe Deutsche Forschungsgemeinschaft (DFG) supported this research (FR2133/14-1)unknow

    Dataset for: The Sound of Silence: Silence as an Auditory Feature in Distractor-Response Binding.

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    Dataset for: Nemeth, M. , Frings, C., Schmalbrock, P., & Moeller, B. The Sound of Silence: Silence as an Auditory Feature in Distractor-Response Binding.unknow
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