No. |
1st Author |
Title |
B2-59 |
Yusuke Moriguchi |
Development of executive function: Is there any relationship
between executive function and theory of mind? |
B2-60 |
Kerry Lee |
The contributions of working memory, language, and
intelligence to individual differences in algebraic word problem
solving |
B2-61 |
Swee Fong Ng |
The contribution of working memory to structural and
procedural errors in algebraic problem solving |
B2-62 |
Lisa Archibald |
Working memory and specific language impairments |
B2-63 |
Naoko Muroya |
Effect of reading aloud on reading span test in reading
disabled readers |
B2-64 |
Poncelet Martine |
Role of phonological and visual short-term memory
in the acquisition of lexical and sublexical reading procedures :
A 5-year longitudinal follow-up study |
B2-65 |
Satoru Kawamura |
The role of visuo-spatial short-term memory in reading
and writing acquisition of Kanji |
B2-66 |
Maki Koyama |
Effects of learning logographs and of early music
training on working memory development: A cross-cultural study of
Japanese and English children |
B2-67 |
Yuh-Shiow Lee |
Effects of skill training on working memory capacity |
B2-68 |
Juliet Conlin |
Domain similarity decrements in children’s working
memory span |
B2-69 |
Nathalie Gavens |
Developmental differences in working memory span |
B2-70 |
Maiko Shiraishi |
Effects of time pressure on stimulus evaluation and
response preparation processes |
B2-71 |
Hideya Koshino |
Cortical networks subserving working memory in high
functioning autism: An fMRI study with a letter n-back task |
B2-72 |
Kazue Igarashi |
Study of executive function and working memory in
the patients with ADHD (Attention Deficit/ Hyperactivity Disorders) |
B2-73 |
Risa Sawaki |
Neural activation in adults with ADHD predisposition
during Go/No-go task and Stop task: A study with functional MRI |
B2-74 |
Mie Komori |
The individual differences on lexical access in Japanese
language |
B2-75 |
Mizuki Nakao |
The effect of working memory load on event-related
brain potentials during lexical decision task |
B2-76 |
Makoto Miyatani |
Effects of random generation on N400 in a sentence
verification task |
B2-77 |
Jeremy Tree |
Where language & Short-term memory meet: Immediate
serial recall, primacy & recency effect in progressive aphasia |
B2-78 |
Kumiko Okura |
Experimental study of inner speech in a patient with
Wernicke’s aphasia |
B2-79 |
Yan Cheng |
Selection demands versus association strength and
the role of the left inferior prefrontal cortex in the retrieval
of semantic and phonological information |
B2-80 |
Takako Yoshimura |
Dementia and its deficit of Working Memory - comparison
with aphasic clients- |
B2-81 |
Steve Majerus |
Verbal short-term memory in the context of impaired
lexico-semantic knowledge |
B2-82 |
Takeo Kondou |
Individual differences in prefrontal and occipital
cortex activations while executing the spatial span task: A multi-channel
near-infrared spectroscopy study |
B2-83 |
Hirohito Kondo |
The modulation of the cingulo-prefrontal network for
verbal and visuospatial working memory: An fMRI study |
B2-84 |
Satoshi Tanaka |
Domain-specific working memory processes of non-primary
motor cortex: A combined fMRI and rTMS study |
B2-85 |
Masanao Morishita |
The neural basis of updating information in working
memory: An fMRI study |
B2-86 |
Andrew McCollough |
Appending new representations into visual working
memory |
B2-87 |
Masahiro Kawasaki |
ERPs in frontal and occipital areas during two stage
manipulation of visual working memory |
B2-88 |
Mª Concepción Castellanos |
Spatial working memory and spatial attention: A study
using high density event-related potentials |
B2-89 |
Takashi Ozaki |
Voluntary covert orienting of attention to distant
targets yields broader and retinotopically dependent activation in
the dorsal frontal region |
B2-90 |
Pierre Salamé |
Working memory, object-location binding, and schizophrenia |
B2-91 |
Tomoko Yokota |
The influence of perceptual load on visual search
in TBI patients |
B2-92 |
Clayton Curtis |
Selection and maintenance of saccade goals in the
human frontal eye fields |
B2-93 |
Yumiko Watanabe |
Functional roles of the mediodorsal nucleus of the
primate thalamus in spatial working memory |
B2-94 |
Satoe Ichihara-Takeda |
Working memory-related activity in the monkey dorsolateral
prefrontal and orbitofrontal cortices is affected by reward schedules |
B2-95 |
Shigeru Kubota |
A model of delayed matching-to-sample task in prefrontal,
inferior temporal and posterior parietal cortices |
B2-96 |
Kazuo Hikosaka |
Cue-outcome associations in primate orbitofrontal
neurons |
B2-97 |
Anna Roe |
Optical imaging of prefrontal cortex during oculomotor
delay response task in macaque monkey |
B2-98 |
Jun-nosuke Teramae |
A novel cellular mechanism for parametric working
memory in a model neoron |