Left hemisphere strategies in visual recognition, topographical orientation and time planning

Stephanie Clarke; Gil Assal; Nicolas de Tribolet

doi:10.1016/0028-3932(93)90039-3

Left hemisphere strategies in visual recognition, topographical orientation and time planning

Neurocase ◽

10.1093/neucas/2.6.521-g ◽

1996 ◽

Vol 2 (6) ◽

pp. 521g-540

Author(s):

S. Clarke

Keyword(s):

Left Hemisphere ◽

Visual Recognition ◽

Topographical Orientation ◽

Time Planning

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Neural organization of speech production: A lesion-based study of error patterns in connected speech

10.1101/544841 ◽

2019 ◽

Author(s):

Brielle C Stark ◽

Alexandra Basilakos ◽

Gregory Hickok ◽

Chris Rorden ◽

Leonardo Bonilha ◽

...

Keyword(s):

Left Hemisphere ◽

Phonological Processing ◽

Visual Recognition ◽

Temporal Cortex ◽

Occipital Cortex ◽

Neural Substrates ◽

Word Naming ◽

Lesion Volume ◽

Single Word ◽

Connected Speech

AbstractWhile numerous studies have explored single-word naming, few have evaluated the behavioral and neural correlates of more naturalistic language, like connected speech, which we produce every day. Here, in a retrospective analysis of 120 participants at least six months following left hemisphere stroke, we evaluated the distribution of word errors (paraphasias) and associated brain damage during connected speech (picture description) and object naming. While paraphasias in connected speech and naming shared underlying neural substrates, analysis of the distribution of paraphasias suggested that lexical-semantic load is likely reduced during connected speech. Using voxelwise lesion-symptom mapping (VLSM), we demonstrated that verbal (real word: semantically related and unrelated) and sound (phonemic and neologistic) paraphasias during both connected speech and naming loaded onto the left hemisphere ventral and dorsal streams of language, respectively. Furthermore, for the first time using both connected speech and naming data, we localized semantically related paraphasias to more anterior left hemisphere temporal cortex and unrelated paraphasias to more posterior left temporal and temporoparietal cortex. The connected speech results, in particular, highlight a gradient of specificity as one translates visual recognition from left temporo-occipital cortex to posterior and subsequently anterior temporal cortex. The robustness of VLSM results for sound paraphasias derived during connected speech was notable, in that analyses performed on sound paraphasias from the connected speech task, and not the naming task, demonstrated significant results following removal of lesion volume variance and related apraxia of speech variance. Therefore, connected speech may be a particularly sensitive task on which to evaluate further lexical-phonological processing in the brain. The results presented here demonstrate the related, though different, distribution of paraphasias during connected speech, confirm that paraphasias arising in connected speech and single-word naming likely share neural origins, and endorse the need for continued evaluation of the neural substrates of connected speech processes.

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Topographische Orientierung bei Patienten mit erworbener Hirnschädigung

Zeitschrift für Neuropsychologie ◽

10.1024//1016-264x.10.2.77 ◽

1999 ◽

Vol 10 (2) ◽

pp. 77-86

Author(s):

Martina Kindsmüller ◽

Andrea Kaindl ◽

Uwe Schuri ◽

Alf Zimmer

Keyword(s):

Brain Damage ◽

Cognitive Deficits ◽

Hospital Setting ◽

Hospital Staff ◽

Reading Test ◽

Map Reading ◽

Several Variables ◽

Topographical Orientation ◽

The One ◽

Behavioral Memory

Topographical Orientation in Patients with Acquired Brain Damage Abstract: A study was conducted to investigate the abilities of topographical orientation in patients with acquired brain damage. The first study investigates the correlation between wayfinding in a hospital setting and various sensory and cognitive deficits as well as the predictability of navigating performance by specific tests, self-rating of orientation ability and rating by staff. The investigation included 35 neuropsychological patients as well as 9 control subjects. Several variables predicted the wayfinding performance reasonably well: memory tests like the one introduced by Muramoto and a subtest of the Rivermead Behavioral Memory Test, the Map Reading Test and the rating by hospital staff. Patients with hemianopia experienced significant difficulty in the task.

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Investigation of the Effect of Mode and Tempo on Emotional Responses to Music Using EEG Power Asymmetry

Journal of Psychophysiology ◽

10.1027/0269-8803/a000099 ◽

2013 ◽

Vol 27 (3) ◽

pp. 142-148 ◽

Cited By ~ 11

Author(s):

Konstantinos Trochidis ◽

Emmanuel Bigand

Keyword(s):

Left Hemisphere ◽

Right Hemisphere ◽

Emotional Responses ◽

Interactive Effects ◽

Eeg Activity ◽

Musical Excerpt ◽

Major Mode ◽

Musical Modes ◽

Slow Tempo ◽

The Right

The combined interactions of mode and tempo on emotional responses to music were investigated using both self-reports and electroencephalogram (EEG) activity. A musical excerpt was performed in three different modes and tempi. Participants rated the emotional content of the resulting nine stimuli and their EEG activity was recorded. Musical modes influence the valence of emotion with major mode being evaluated happier and more serene, than minor and locrian modes. In EEG frontal activity, major mode was associated with an increased alpha activation in the left hemisphere compared to minor and locrian modes, which, in turn, induced increased activation in the right hemisphere. The tempo modulates the arousal value of emotion with faster tempi associated with stronger feeling of happiness and anger and this effect is associated in EEG with an increase of frontal activation in the left hemisphere. By contrast, slow tempo induced decreased frontal activation in the left hemisphere. Some interactive effects were found between mode and tempo: An increase of tempo modulated the emotion differently depending on the mode of the piece.

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Do You Want to See the Tree? Ignore the Forest

Experimental Psychology (formerly Zeitschrift für Experimentelle Psychologie) ◽

10.1027/1618-3169/a000240 ◽

2014 ◽

Vol 61 (3) ◽

pp. 205-214 ◽

Cited By ~ 12

Author(s):

Nicolas Poirel ◽

Claire Sara Krakowski ◽

Sabrina Sayah ◽

Arlette Pineau ◽

Olivier Houdé ◽

...

Keyword(s):

Visual Recognition ◽

Local Level ◽

Local Information ◽

Visual Environment ◽

Global Information ◽

Focus Attention ◽

Global Level ◽

Hierarchical Stimuli ◽

Priming Paradigm ◽

The One

The visual environment consists of global structures (e.g., a forest) made up of local parts (e.g., trees). When compound stimuli are presented (e.g., large global letters composed of arrangements of small local letters), the global unattended information slows responses to local targets. Using a negative priming paradigm, we investigated whether inhibition is required to process hierarchical stimuli when information at the local level is in conflict with the one at the global level. The results show that when local and global information is in conflict, global information must be inhibited to process local information, but that the reverse is not true. This finding has potential direct implications for brain models of visual recognition, by suggesting that when local information is conflicting with global information, inhibitory control reduces feedback activity from global information (e.g., inhibits the forest) which allows the visual system to process local information (e.g., to focus attention on a particular tree).

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