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1 ific levels of word comprehension and object naming.
2 d through evidence from tasks such as object naming.
3 fy cortical sites critical for visual object naming.
4 function, episodic memory and confrontation naming.
5 herefore reflected the semantic component of naming.
6 roke in 87 individuals with impaired picture naming.
7 n was associated with improvement in picture naming.
8 and superordinate semantic errors in picture naming.
9 the source of universal tendencies in color naming.
10 versal and language-specific forces in color naming.
11 chy underlying word comprehension and object naming.
12 on somatosensory or auditory feedback during naming.
13 ty-independent convergence region for proper naming.
14 cluded motor, sensory, counting, and picture naming.
15 constraining temporal context is faster than naming a picture after a weakly constraining temporal co
17 that brain changes associated with improved naming ability in chronic aphasia rely on preservation a
21 tion, we document a gradual decline in pitch-naming accuracy with age, characterized by a perceptual
22 of universal or recurrent patterns in color naming across cultures is paralleled by the observation
23 roposal by Jameson and D'Andrade: that color naming across languages reflects optimal or near-optimal
27 ggest a potential role of the hippocampus in naming, although this is inconsistent with neurocognitiv
31 of ECoG HGA with respect to ECS was 78% for naming and 81% for mouth-related motor function, and equ
34 ce recognition (familiarity, identification, naming and cross-modal matching) and equivalent measures
35 relative to both ECS-induced impairments of naming and ECS disruption of mouth-related motor functio
37 ciations of TDP-43 with greater memory loss, naming and functional decline, and smaller hippocampal v
39 est, the King-Devick test, uses rapid number naming and has been tested in multiple athlete cohorts.
40 visional 16S rRNA based taxonomic scheme for naming and identifying unnamed canine bacterial taxa.
41 the operations they perform, their arbitrary naming and lack of documentation, however, mean that the
42 her behavioral predictors of dyslexia, rapid naming and letter knowledge, did not correlate with volu
47 tation naming predicts ECS interference with naming and mouth-related motor function with good specif
48 c stroke using a battery of oral and written naming and other lexical tests, and with magnetic resona
51 culty but the contrasting difference between naming and reading illustrates how the demands on somato
54 als, whereas Pappworth believed that only by naming and shaming could any expose act as a deterrent.
55 intensities were only correlated with Boston naming and Trails B results in the cognitively impaired.
56 -Verbal Learning Test delayed recall, Boston naming and Trails B scores as measures of specific domai
61 ge in two other similar tasks, spoken action naming and written object naming, each of which was inde
62 ated decrease (fluid intelligence and object naming) and a syntactic comprehension task that shows ag
65 We describe here the challenges of mapping, naming, and quantifying tRNA-derived RNAs and present a
68 elated with both (i) change in spoken object naming; and (ii) structural adaptation in the two peak c
69 (HR, 3.79; 95% CI, 1.57-9.15; P = .003) and naming animals (HR, 2.41; 95% CI, 1.04-5.59; P = .04) we
70 nosing diseases, prescribing treatments, and naming animals and objects using written information as
73 Color-naming among Tsimane' was boosted when naming artificially colored objects compared with natura
74 perature with weak hydrogen-bonded structure naming Au nanoparticles (NPs)-treated (AuNT) water via t
75 a novel cytokine, FAM150B, which we propose naming augmentor-alpha (AUG-alpha), as a ligand for ALK.
77 rs 5 years before expected onset in tests of naming (Boston Naming Test -0.7; SE 0.3) and executive f
78 lex Figure Test), and visual confrontational naming (Boston Naming Test Short Form) once per day over
79 nce that a network of brain regions supports naming, but separate components of this network are diff
80 Meaningful speech, as exemplified in object naming, calls on knowledge of the mappings between word
81 : Silent Sentence Completion (SSC), category naming (CAT) and verbal fluency (FAS), in localizing the
83 how treatment-related improvement in correct naming compared with cases where the same areas were int
84 hods, including a longitudinal assessment of naming, comprehension, picture and word association, as
85 ceae; we suggest resolving the long-standing naming conundrum by renaming it Peptoclostridium diffici
91 ndard and organism-specific protein and gene-naming conventions, visualization of protein architectur
93 fic groups of patients and, correspondingly, naming correlated with cortical atrophy in partially dis
94 e. if it affected the mouth, lips or tongue, naming could not be tested with ECS at the same cortical
95 e formalize this idea, test it against color-naming data from a broad range of languages and show tha
98 analyzed the World Color Survey (WCS) color-naming data set by using k-means cluster and concordance
99 (www.icsi.berkeley.edu/wcs/), a large color-naming database obtained from informants of mostly unwri
101 ortical stimulation mapping protects against naming decline when resection includes the hippocampal r
102 esection exhibited significant postoperative naming decline, despite preresection mapping and preserv
103 hippocampal resection showed no significant naming decline, suggesting a clinical benefit from corti
107 -temporal atrophy (when matched on degree of naming deficit to a set of cases with more extensive lef
109 resence of verbal fluency deficits, although naming deficits have been described in other studies.
111 ond group of PPA patients showed more severe naming deficits-the object name was neither verbalized n
112 rocesses underlying oral and written picture naming depend on intact function of different, but overl
118 sks, spoken action naming and written object naming, each of which was independently associated with
119 hat the cross-linguistic similarity in color-naming efficiency reflects colors of universal usefulnes
122 ymptom mapping analysis of 1718 phonological naming errors collected from 106 individuals with divers
137 We tested this hypothesis by correlating naming impairments with voxel-based morphometric (VBM) a
139 rolled oral word association task (vegetable naming), implementing a reverse-time longitudinal modeli
140 We assessed postoperative changes in visual naming in 33 patients, 14 who underwent left temporal re
144 speculated that the relative preservation of naming in post-operative HS patients might reflect corti
148 search has demonstrated intact confrontation naming in the presence of verbal fluency deficits, altho
151 a has allowed us to uncover unsuspected note-naming irregularities suggestive of a "perceptual magnet
153 These findings suggest that, although object naming is more error prone than reading, subjects can af
155 ccipital cortex is also critical for picture naming, it is likely that bilateral occipital damage is
160 pment, by somewhat subjective describing and naming main changes of oocytes, have been criticized for
161 e recognized but not retrieved during verbal naming, N400s in picture-word trials were also abnormal,
162 importance of Broca's area within the normal naming network and as such indicate that Broca's area ma
163 ed to illuminate brain reorganization of the naming network in comparison with healthy controls.
167 We also present a uniform murine OCT layer naming nomenclature system that is consistent with human
169 to the kidney exchange paired recipient, the naming of alternative recipients, and the potential to u
170 the past two decades, particularly after the naming of Australopithecus bahrelghazali and Kenyanthrop
173 e and unintended consequence of the gendered naming of hurricanes, with important implications for po
176 here lesions can be associated with impaired naming of people regardless of modality (e.g., picture o
187 correlation of the complete chromatic color-naming patterns obtained from individual WCS informants.
188 2 to 10, we found that (i) the average color-naming patterns of the clusters all glossed easily to si
190 es neither produced a significant deficit in naming pictures of famous faces on the computer, nor did
191 -native speakers of English who were overtly naming pictures of objects and reading their written nam
192 ied areas of the brain that are critical for naming pictures of objects, using a new methodology for
195 event-related ECoG HGA during confrontation naming predicts ECS interference with naming and mouth-r
198 evidence that the level of impairment in the naming process reflects the distribution of tissue dysfu
200 on the basis of the primary component of the naming process that was impaired (defined as visual, sem
201 with particular levels of impairment in the naming process were largely consistent with evidence for
202 tive interruption of other components of the naming process, including semantic and visual perceptual
203 the focus on comprehensively identifying and naming protein phosphatases in available apicomplexan ge
204 ties often enforce disparate conventions for naming proteins, the PNU supports grouping rules into us
205 has expanded largely owing to an increase in naming pseudogenes and non-coding RNA genes, and we now
207 ree familiar speech production tasks: object naming, reading and repeatedly saying "1-2-3." Bilateral
208 s suggests that the changes in spoken object naming reflected variation at the level of word-retrieva
211 web-based database for storing and applying naming rules to identify and correct syntactically incor
212 users to generate and manage collections of naming rules, optionally building upon the growing body
219 nts exhibited a greater proportion of visual naming sites above the superior temporal sulcus, whereas
220 the previously reported pattern of auditory naming sites anterior to visual naming sites, auditory n
221 language mapping with preservation of visual naming sites from resection, removal of an intact domina
222 es anterior to visual naming sites, auditory naming sites had a significantly more posterior distribu
224 to determine whether preservation of visual naming sites identified via cortical stimulation mapping
226 mpared the topography of auditory and visual naming sites in 12 patients with HS and 12 patients with
227 tients exhibited a more even distribution of naming sites in anterior and posterior temporal regions
228 HS patients had proportionally fewer overall naming sites in anterior temporal cortex, the region typ
229 the superior temporal sulcus, whereas visual naming sites in HS patients were scattered across superi
230 ermore, their more posterior distribution of naming sites is consistent with the more anterior propag
231 of auditory naming sites anterior to visual naming sites, auditory naming sites had a significantly
232 ssessed-testing each patient's spoken object naming skills and acquiring structural brain scans twice
233 emory (P = .006), working memory (P < .001), naming speed (P < .001), and cognitive fluency (P = .007
234 P < 0.001), working memory (P < 0.001), oral naming speed (P < 0.001), and cognitive flexibility (P <
235 activity was positively correlated with oral naming speed in both lateral frontal lobes (rho = 0.48 a
238 t all patients showed impairments in picture naming, syntactic comprehension and executive function.
239 tifs," where each motif is a different color-naming system based on a subset of a universal glossary
240 owever, little is understood about the color naming systems at the least technologically advanced end
243 etwork at rest and during an auditory covert naming task in five bilaterally anophthalmic subjects, w
244 re 'ecologically valid' auditory description naming task in our pre-resection cortical mapping protoc
245 eta (15-30 Hz) activities during an auditory-naming task were animated on the average surface image i
246 during the task relative to a neutral color-naming task while activation in functionally defined wor
247 f these complementary processes in a picture naming task with blocks of semantically heterogeneous (H
248 ed to between-category colors) for the color-naming task, but not for the diverted attention task.
249 subtypes were severely impaired on an odour naming task, in comparison with an age-matched control g
250 data using two extreme versions of the color-naming task, in three groups: the Tsimane', a remote Ama
252 Finally, in both recognition (study 3) and naming tasks (study 4), Chinese icon priming increased a
253 percent error in auditory comprehension and naming tasks as a function of infarct volume using a non
256 ther extra-scanner performance on the Boston Naming Test (BNT) and Semantic Fluency Test (SFT), neuro
257 abody Picture Vocabulary Test (PPVT), Boston Naming Test (BNT), Controlled Oral Word Association Test
258 re expected onset in tests of naming (Boston Naming Test -0.7; SE 0.3) and executive function (Trail
259 n, r = -0.63), recall (r = -0.44) and graded naming test scores (r = -0.50) over 1-year post-temporal
261 ), and visual confrontational naming (Boston Naming Test Short Form) once per day over at least two c
262 Digit Symbol Substitution Test, and Category Naming Test) in the modified intention-to-treat populati
263 er Abbreviated Scale of Intelligence, Graded Naming Test, Birt Memory and Information Processing Batt
265 peech therapy for 3 weeks, with standardized naming tests and brain magnetic resonance imaging before
267 nits (NuoL, NuoM, and NuoN, Escherichia coli naming) that are considered to be involved in the proton
269 RR, 0.68; 95%CI, 0.47, 0.99) and among those naming the health center as their principal source of fe
270 y members of the Porifera phylum, we suggest naming the newly described taxon Candidatus Porisulfidus
277 tructure for memory, without contribution to naming, this pattern might implicate direct hippocampal
278 g linguistic tests (verb generation, picture naming) to test for hemispheric dominance in patients wi
279 suppressed (relative to rest) during object naming, to a lesser extent when repeatedly saying "1-2-3
281 he underlying source of cross-language color-naming universals or derived from category boundaries th
283 al' language cortex; however, sparing visual naming (VN) sites has not reliably prevented post-operat
284 vent related responses revealed that picture naming was associated with a bilateral frontotemporal ne
286 e is occurring here, change in spoken object naming was correlated with change in two other similar t
288 nfirmation of previous work, rapid automatic naming was not predicted by the anatomical risk index, b
291 etermined SII/OP1 deactivation during object naming, we searched the whole brain for areas where acti
292 is mostly due to high ambiguity in resource naming, which is compounded by the on-going introduction
294 e employed, letter fluency and confrontation naming, which were developed for use with an older and p
295 t accounts for universal tendencies in color naming while also accommodating some observed cross-lang
296 investigated the physiological basis of odor naming with a paradigm where olfactory and visual object
298 nts showed the greatest deficits on tests of naming, word finding, and visual/verbal episodic memory.
299 with phonemic verbal fluency (walking while naming words beginning with a single letter), and comple
300 with phonemic verbal fluency (walking while naming words, alternating between two letters of the alp
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