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1 rein one pathway assumes primacy for a given cognitive process.
2 in mice that allowed genetic access to this cognitive process.
3 Categorization is an important cognitive process.
4 thout conscious intent or other higher-order cognitive process.
5 t contributions to decision making and other cognitive processes.
6 oscillatory activity related to task-related cognitive processes.
7 c signaling in the CNS contributes to normal cognitive processes.
8 stinct forms of dysgraphia that affect these cognitive processes.
9 Second, behavior is multiply determined by cognitive processes.
10 that ACh may have a more specialized role in cognitive processes.
11 wards other people by enhancing these social-cognitive processes.
12 n attributed to heuristics or limitations in cognitive processes.
13 ited by external sensory stimuli or specific cognitive processes.
14 prenatal iodine supplementation on specific cognitive processes.
15 the network, as they emerge during specific cognitive processes.
16 eurons in cortical networks underlies higher cognitive processes.
17 ncorporation of emotional, motivational, and cognitive processes.
18 diverse modalities, motor control and higher cognitive processes.
19 em is able to modulate brain functioning and cognitive processes.
20 crucial for neuronal development and higher cognitive processes.
21 inked to elevated arousal and alterations in cognitive processes.
22 tions on surgical team members' behavior and cognitive processes.
23 d ventral (vLPFC), which have been linked to cognitive processes.
24 t it may play a crucial role in a variety of cognitive processes.
25 investigating interactions among underlying cognitive processes.
26 are complex phenomena based on affective and cognitive processes.
27 -general mechanisms that are engaged in many cognitive processes.
28 ad to lasting deficits in learning and other cognitive processes.
29 he brain to make inferences about underlying cognitive processes.
30 eural mechanisms and likely reflect distinct cognitive processes.
31 performance of certain animal behaviours and cognitive processes.
32 egions have been implicated in nonlinguistic cognitive processes.
33 ial role in many perceptual and higher-order cognitive processes.
34 which are then misinterpreted by the biased cognitive processes.
35 and refutable) understanding of human neuro-cognitive processes.
36 e of metacognition-knowledge about one's own cognitive processes.
37 e resolutions in the facilitation of healthy cognitive processes.
38 us to better consider the role of the Re in cognitive processes.
39 late to sensory stimuli, motor responses, or cognitive processes.
40 an be achieved by accurately mirroring human cognitive processes.
41 rception, memory, decision making, and other cognitive processes.
42 ction and the posterior cingulate cortex for cognitive processes.
43 ing aging, stress, and depression, influence cognitive processes.
44 ce suggests that the PLR may be modulated by cognitive processes.
45 nterface between perception and higher-order cognitive processes.
46 erstand neural substrates underlying complex cognitive processes.
47 ically estrogens, in the rapid modulation of cognitive processes.
48 hanging environmental demands during complex cognitive processes.
49 re specifically associated with higher-level cognitive processes.
50 in both speech production and domain-general cognitive processing.
51 otential to impact both network activity and cognitive processing.
52 requencies rapid changes between sensory and cognitive processing.
53 However, we differ in our analysis of human cognitive processing.
54 tory pathways or nonauditory factors such as cognitive processing.
55 ar to be a neural basis for major aspects of cognitive processing.
56 for cerebro-cerebellar communication during cognitive processing.
57 terations in brain volumes and emotional and cognitive processing.
58 nvestigated the role of SHARP1 and SHARP2 in cognitive processing.
59 induced in the gamma frequency range during cognitive processing.
60 cetylcholine might, at least partly, enhance cognitive processing.
61 long term, however, has a negative impact on cognitive processing.
62 suggest a central role for the DMN in higher cognitive processing.
63 neural synchronization that is critical for cognitive processing.
64 te regions that are central in emotional and cognitive processing.
65 response/regulation and integrative/complex cognitive processing.
66 tent can affect deaf signers' linguistic and cognitive processing.
67 asks when making inferences about sensory or cognitive processing.
68 in stimulation to improve dopamine-dependent cognitive processing.
69 role of resting-state activity for effective cognitive processing.
70 l networks and the role of the cerebellum in cognitive processing.
71 nsory modality of the stimulus and degree of cognitive processing.
72 Our results indicate that, in parallel with cognitive processes, a novel transcriptional network coo
73 nd unique deficits in early sensory and late cognitive processing across psychotic diagnostic groups.
76 ds to shifts of connectivity and overlapping cognitive processes along a posterior-anterior vmPFC axi
77 nization are inherent to a broad spectrum of cognitive processes and are disturbed in neuropsychiatri
78 erlines the importance of socialized spatial cognitive processes and argues for socio-economic analys
79 in the cerebellum as a participant in higher cognitive processes and as a locus for a range of disord
81 ard an associative account of the underlying cognitive processes and corticocortical functional conne
82 can potentially be used to understand other cognitive processes and dysfunctions in signal propagati
83 raining can enhance different, age-dependent cognitive processes and highlight the importance of iden
84 distraction highlight the powerful influence cognitive processes and learning mechanisms have on the
85 est that PDE4A5 is a molecular constraint on cognitive processes and may contribute to the developmen
86 e disturbed in schizophrenic patients during cognitive processes and may represent an endophenotype o
89 e used to identify neural pathways for other cognitive processes and their dysfunctions in brain diso
90 cellular mechanisms associated with complex cognitive processes and, therefore, that alterations in
91 ave been associated with impaired social and cognitive processing and altered prefrontal cortical (PF
94 TION: Our work shows a link between residual cognitive processing and the modulation of autonomic som
95 tion, in terms of a canonical domain-general cognitive process, and various subfactors representing d
96 ontal cortex is responsible for higher order cognitive processing, and prefrontal dysfunction is beli
98 cortex, suggesting important roles in higher cognitive processing, and that the organization of the c
99 ions associated with social and higher-level cognitive processing, and the second with regions involv
100 FC includes dissociable regions for pain and cognitive processing; and (2) meta-analyses are correct
101 psychology, and recognize that higher-order cognitive processes are built from complex configuration
103 s contradicting evidence as to whether these cognitive processes are overlapping or distinct, which h
107 i release which goals, and how the stages of cognitive processing are selectively influenced to bette
108 y may reflect a continuous stream of ongoing cognitive processes as well as random fluctuations shape
109 regions involved in visual and higher-order cognitive processes (as revealed by simultaneous acquisi
110 ly reflects the reliability of perceptual or cognitive processes, as suggested by normative models ba
113 be more rooted in expressive biases than in cognitive processing biases, and ultimately operate with
114 field, we recommend including assessments of cognitive processing biases; examining G x E interaction
115 implicated in a broad range of behaviors and cognitive processes, but it has been unclear what contri
116 on factors SHARP1 and SHARP2 are involved in cognitive processing by controlling Igf2 expression and
117 portant basis for the differential timing of cognitive processing by the LPFC and ACC in normal and p
118 rned reveals, at least in rough outline, how cognitive processes can be an emergent property of neuro
121 temporal order recognition memory (TORM), a cognitive process controlled by the prefrontal cortex (P
124 tantly, the relative influence of both socio-cognitive processes differed across individuals: partici
125 ement disorders, surgical anesthesia, and in cognitive processes disrupted in neurodegenerative and n
126 demonstrating that inverse RL is an abstract cognitive process divorceable from the values and concer
127 nections and how such development relates to cognitive processes during the earliest stages of life r
128 rain regions which are involved in important cognitive processes during training and transfer tasks.
130 sociated with clear declines in physical and cognitive processes, emotional functioning fares relativ
131 ndividual LFP bands reflect both sensory and cognitive processes engaged independently during differe
134 ategorization is an essential perceptual and cognitive process for assigning behavioral significance
136 ing of stimulus features as well as flexible cognitive processing for classifying stimuli according t
139 ating a functional role of sleep spindles in cognitive processes has, so far, been hindered by the la
140 frequency range, but their function in human cognitive processing has not been fully elucidated.
143 In human listeners, although auditory and cognitive processing have sometimes been viewed as separ
144 PFC) is critically involved in emotional and cognitive processes, here we studied whether maternal ke
147 goal of memory research is to understand how cognitive processes in memory are supported at the level
148 importance, offer no immediate insights into cognitive processes in the brain, and (2) high-level abs
151 ggering the complex events may contribute to cognitive processes in the human neocortex, and their lo
152 itofrontal cortex during self-reflection and cognitive processes in the medial prefrontal cortex duri
154 lly distinct effects of LC-MOR activation on cognitive processing in an operant strategy-shifting tas
155 ippocampal neuronal circuits of relevance to cognitive processing in male mice at 6, 24, and 72 h pos
158 al frontal cortex exerts top-down control of cognitive processing in the striatum.SIGNIFICANCE STATEM
159 l interventions targeting appearance-related cognitive processes, in particular personal evaluation o
160 useful model system in the study of complex cognitive processes including birdsong, a naturally lear
161 ntal cortex (PFC) plays an important role in cognitive processes, including access to consciousness.
162 imple and noninvasive index for a variety of cognitive processes, including perception, attention, ta
163 The dopaminergic system is essential for cognitive processes, including reward, attention and mot
164 re and performs functions integral to higher cognitive processes, including sensory perception, memor
165 logical anxiety is associated with disrupted cognitive processing, including working memory and decis
169 during behavioral tasks assessing elementary cognitive processes inherent to flexible goal-directed b
170 ebo-controlled between-subjects design where cognitive processing (intuition vs reflection) was exper
173 role of oscillatory phase for perceptual and cognitive processes is being increasingly acknowledged.
174 inclusion of impairments in more generative cognitive processes is necessary for complete understand
176 RPTN plays a potential role in emotional and cognitive processing; its decrease in serum may indicate
178 ch breaks new ground by mimicking visual and cognitive processes known to be involved in recognition
180 test this theory and assess how the chain of cognitive processes leading to error detection is modula
181 he dorsal hippocampus is a critical locus of cognitive processes linked to spatial and contextual lea
183 refore provides a plausible pathway by which cognitive processes may influence pupil diameter, perhap
184 ormal integration of sensorimotor and social-cognitive processing may play in the pathophysiology and
186 tiplex topology is an important proxy of the cognitive processes of acquisition, capable of capturing
187 Our findings indicate that the distorted cognitive processing of near-miss outcomes and event seq
188 imple and noninvasive index for a variety of cognitive processes, offering a biomarker that has value
189 nd sometimes pathological impact of top-down cognitive processes on perception and may represent an o
191 r this is due to differences in higher level cognitive processes or basic nociceptive responses.
192 in DMN may be associated with less efficient cognitive processing or greater risk for development of
193 , it may subserve computation for a specific cognitive process, or it could be an irrelevant byproduc
194 ibution of the substrates that support these cognitive processes, or the lesions that give rise to th
196 ppraisal style is shaped by three classes of cognitive processes--positive situation classification,
197 at during inhibitory control alcohol affects cognitive processes preceding actual motor inhibition.
198 ought to underlie reproducible behaviors and cognitive processes ranging from memory recall to arm mo
199 ent emerges as catalyzing a motivated social cognitive process related to social prediction and contr
201 port the idea that interictal spikes disrupt cognitive processes related to the underlying tissue.
202 er, the roles of early attentional and later cognitive processes remain unclear, limiting theoretical
203 gical bases of the deficits in emotional and cognitive processing remain incompletely understood.
206 at these nuclei might play a crucial role in cognitive processes requiring Hip-mPFC interactions, inc
210 the capacity theory, perception, and higher cognitive processes seem to contradict this principle.
211 entations in the service of a broad range of cognitive processes.SIGNIFICANCE STATEMENT Individuals r
212 ermines the outcome of high-level sequential cognitive processes.SIGNIFICANCE STATEMENT Multistep dec
213 scales, thereby shaping internal states and cognitive processes.SIGNIFICANCE STATEMENT The two promi
214 understanding of this area's function during cognitive processing.SIGNIFICANCE STATEMENT Contemporary
215 mpared to pronounced age-related declines in cognitive processing speed across 106 healthy adults (19
217 ity; myelin content estimate) that predicted cognitive processing speed but not vocabulary, from (2)
218 with better scores on short-term memory and cognitive processing speed by 0.21 SD (95% CI: -0.04, 0.
219 2Max was associated with increased scores on cognitive processing speed by 0.45 SD (95% CI: 0.08, 0.8
222 ce could result from enhancements in various cognitive processing stages, including (1) sensory proce
225 ain-specific musical expertise, default-mode cognitive processing style, and intensity of emotional e
228 )-containing glycans have been implicated in cognitive processes such as learning and memory, their p
230 behavior and may affect learning of complex cognitive processes such as psychologically mediated ana
233 amma oscillations) have been associated with cognitive processes such as sensory perception and integ
234 FC) is thought to be critical for sustaining cognitive processes such as working memory and decision-
235 of the noradrenergic system, which modulates cognitive processes, such as arousal, working memory, an
237 perception of pain is strongly influenced by cognitive processes, such as expectations toward the eff
240 ctions with others impact the development of cognitive processes, such as sustained attention, that s
241 prefrontal cortex that is essential for core cognitive processes, such as working memory, which are i
242 tional modeling to quantify the influence of cognitive processes-suggest that perception is criticall
243 esearch gives a critical role to associative cognitive processes, suggesting a hippocampal role in ma
244 enous brain oscillations, thereby modulating cognitive processes supported by those brain rhythms.
245 information overload often imparted to human cognitive-processing systems, suppression of irrelevant
246 hough the inherence heuristic is a versatile cognitive process that addresses a wide range of psychol
247 epresentational knowledge, is a foundational cognitive process that can become compromised in aging a
248 In sum, this article illuminates a basic cognitive process that emerges early in life and is like
250 nning in the context of decision making as a cognitive process that integrates information across tim
252 elies on an inherence heuristic, an implicit cognitive process that leads people to explain observed
253 pression impairs long-term spatial memory, a cognitive process that relies on histone acetylation.
255 ving in free will impacts fundamental social-cognitive processes that are involved in the understandi
256 The prefrontal cortex (PFC) underlies higher cognitive processes that are modulated by nicotinic acet
257 cortical circuit may be linked to the social cognitive processes that are taxed by life in more compl
258 onal drive, hunger, and, finally, limbic and cognitive processes that bring about hunger-mediated inc
259 nstead require the coordination of different cognitive processes that can be mathematically formalise
261 t shift in researcher attention toward basic cognitive processes that give rise to decision phenomena
264 which good performance can arise because of cognitive processes that occur after a stimulus, during
268 ion of a BOLD signal much lower than that of cognitive processes that take place during natural readi
269 cipate in the control of motor functions and cognitive processing that are impaired in neuropsychiatr
270 for an anxiety-related bias in emotional and cognitive processing that is considered by some to be a
271 an interval timing task to study elementary cognitive processing that requires both frontal and cere
272 recollection and familiarity--the two latent cognitive processes theorized to underlie recognition me
275 patients randomized to TOP (54.9%) received cognitive processing therapy compared with 16 of 132 ran
279 re the potential for stress history to shift cognitive processing through changes in CRF neurotransmi
282 To support the claim that a domain-general cognitive process underlies ape metacognition one needs
283 ead gain signals affecting already available cognitive processes underlies the maturation of cognitio
285 ed a sequence of components that represented cognitive processes underlying the encoding of verbal in
286 rietal junction (TPJ) might be recruited for cognitive processes unique to social decision making.
288 t, as in sensory processing, optimization of cognitive processing using topographic maps may be a com
289 ceptors have been proposed to be involved in cognitive processes via their impact on plasticity.
290 -learning techniques with modeling of latent cognitive processes, we show that mind wandering in huma
291 tance of the mammalian neocortex for complex cognitive processes, we still lack a comprehensive descr
292 electrophysiological measures of sensory and cognitive processing, we found that PSZ were actually su
293 in both lower-level and higher-level social cognitive processes which are collectively critical for
294 se an algorithm called betasort, inspired by cognitive processes, which performs transitive inference
295 suppression and strategy generation/use are cognitive processes widely held to be supported by the f
297 rt et al. conflate the domain-specificity of cognitive processes with the statistical pattern of vari
299 The Hayling Test was designed to tap these cognitive processes within the same sentence completion
300 ts as "peripheral," altering the inputs to a cognitive process without altering the processing itself
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