ライフサイエンスコーパス: verbal memory

1 ifferent levels: regional hypometabolism and verbal memory.

2 d this was associated with an improvement in verbal memory.

3 ding globulin was positively associated with verbal memory.

4 or global cognition and 1.65 (1.04-2.61) for verbal memory.

5 e and anxiety symptoms, and visuospatial and verbal memory.

6 ion for word encoding correlated with better verbal memory.

7 rbal memory and the brain systems underlying verbal memory.

8 the impaired range on a task of unrehearsed verbal memory.

9 ariables of information processing speed and verbal memory.

10 bal thinking, but not sustained attention or verbal memory.

11 e on all neurocognitive tests except that of verbal memory.

12 ment than comparison subjects on measures of verbal memory.

13 orming more poorly than controls on tests of verbal memory.

14 pocampal formation is necessary for auditory-verbal memory.

15 working memory, whereas MR was implicated in verbal memory.

16 cognitively impaired in processing speed and verbal memory.

17 te effects of chronic memantine treatment on verbal memory.

18 al stimuli were administered to characterize verbal memory.

19 has been shown to be central for encoding of verbal memories.

20 in all domains (0.16 < R2 < 0.58) except for verbal memory (0.05 < R2 < 0.06).

21 0.21 [95% CI 0.06-0.35], p = 0.006), and for verbal memory (0.12 [95% CI 0.01-0.24, p = 0.031), but n

22 e in global cognition (0.52 [0.31-0.88]) and verbal memory (0.56 [0.34-0.94]).

23 ng (1.80 points [95% CI, 0.73 to 2.86]), and verbal memory (0.60 points [95% CI, 0.13 to 1.07]).

24 obal cognition, 0.54 (95% CI, 0.10-0.98) for verbal memory, 0.51 (95% CI, 0.07-0.96) for language, an

25 on (9.0%), but were nonetheless elevated for verbal memory (23.8%) and visuospatial memory (14.8%).

26 nt improvements were noted for all subtests (verbal memory: 28.0% vs. 37.5%, respectively, norm 50%,

27 ted onset), decreased hippocampal volume and verbal memory (7.5 years after expected onset), and decr

28 g (95% CI: -4.6, 0.2, p = 0.08), and -1.7 on Verbal Memory (95% CI: -3.9, 0.6, p = 0.14).

29 n addition, post-depressives scored lower in verbal memory, a neuropsychological measure of hippocamp

30 with left hippocampal sclerosis with better verbal memory additionally activated left orbitofrontal

31 Despite having an initial verbal memory advantage over men, women have greater rat

32 r ratios correlated positively with tests of verbal memory and a verbal memory factor (e.g. NAA/Cr an

33 ment, a significant postoperative decline in verbal memory and confrontational naming was observed in

34 ed initial psychosis except on two measures (verbal memory and cortical sulcal depth).

35 piciousness while also including compromised verbal memory and declining social functioning have the

36 The presence of both higher CDR-SB and lower verbal memory and executive function at baseline predict

37 rvasive but evident in performance scores on verbal memory and fluency tests.

38 ere significantly positively associated with verbal memory and global cognition in early group women.

39 ye-hand coordination, executive functioning, verbal memory and learning, and visual memory).

40 ye-hand coordination, executive functioning, verbal memory and learning, visual memory and learning,

41 ye-hand coordination, executive functioning, verbal memory and learning, visual memory, and visuocons

42 ye-hand coordination, executive functioning, verbal memory and learning, visual memory, and visuocons

43 Verbal memory and left hippocampal volumes were signific

44 ithin a 2-year period: 2 measures of delayed verbal memory and middle temporal lobe cortical thicknes

45 isual-spatial function, expressive language, verbal memory and modulation of affect.

46 memory tasks: hippocampal-dependent episodic verbal memory and nonhippocampal visual perceptual learn

47 ther equally impaired on Executive Function, Verbal Memory and Nonverbal Memory.

48 neuropsychological parameters pertaining to verbal memory and nonverbal problem solving.

49 hey characteristically also suffer from poor verbal memory and often from poor auditory skills.

50 APOE-4 allele had lower scores on objective verbal memory and on the subjective memory measure for r

51 red with placebo is associated with improved verbal memory and other cognitive functions in older men

52 In contrast, for verbal memory and phonology, the data may suggest that d

53 correlated with performance on language and verbal memory and positively with visuospatial ability.

54 Deficits in verbal memory and psychomotor speed/executive function a

55 re negatively correlated with performance in verbal memory and several executive function measures.

56 eased spindles produced significantly better verbal memory and significantly worse perceptual learnin

57 e mania is characterized by core deficits in verbal memory and sustained attention against a backgrou

58 Verbal memory and sustained attention deficits may relat

59 use of HT might confer long-term benefits to verbal memory and the brain systems underlying verbal me

60 postmenopausal stage might confer benefit to verbal memory and the neural systems underlying memory,

61 d negatively and significantly with tests of verbal memory and the Verbal Memory Factor.

62 Verbal memory and vigilance appear to be necessary for a

63 essing speed), Rey Auditory Verbal Learning (verbal memory), and Stroop (executive function) were ana

64 ver 5.4 y with 5 tests of general cognition, verbal memory, and category fluency.

65 score averaging 5 tests of global cognition, verbal memory, and category fluency.

66 mal male subjects and on tests of attention, verbal memory, and executive functions in comparison wit

67 k 24 on measures of attention/concentration, verbal memory, and figural memory and a trend for verbal

68 ionships of childhood deficits in attention, verbal memory, and gross motor skills to adulthood schiz

69 ecutive functions including verbal learning, verbal memory, and information processing that is indepe

70 iations with each WRAML index-Visual Memory, Verbal Memory, and Learning-were examined with multivari

71 so exhibited reduced frontal recruitment for verbal memory, and more pronounced left posterior hippoc

72 th affective psychopathology, impairments in verbal memory, and overall cognitive function: these fin

73 ths in verbal intelligence, verbal learning, verbal memory, and reading, and significant weaknesses i

74 ition (averaging tests of general cognition, verbal memory, and semantic fluency) and verbal memory (

75 measures of attention, short-term visual and verbal memory, and spatial reasoning within the context

76 sts of intellect (intelligent quotient; IQ), verbal memory, and sustained attention.

77 nitive test scores across psychomotor speed, verbal memory, and verbal fluency were associated with t

78 al fluency, motor functions, working memory, verbal memory, and vigilance, improved significantly wit

79 n, language, motor function, spatial memory, verbal memory, and visual processing.

80 ical tests of attention, executive function, verbal memory, and visuospatial skills were administered

81 carotid amobarbital testing and non-invasive verbal memory assessment before surgery, and correlated

82 However, better verbal memory at follow-up was linked to greater post-su

83 Impaired verbal memory, attention, and some executive functions m

84 ficantly worse than the controls in tests of verbal memory, attention, verbal fluency and spatial rea

85 on, verbal memory, and semantic fluency) and verbal memory (averaging tests of recall).

86 x responses to "new" Braille words suggested verbal memory based on the mechanism of recollection.

87 verbal (beta = -2.49; 95% CI: -4.71, -0.27), verbal memory (beta = -3.59; 95% CI: -6.95, -0.23), cogn

88 The authors examined group differences in verbal memory between men on androgen deprivation therap

89 ) of 130 patients in tests of non-verbal and verbal memory (BMIPB).

90 benefits for aspects of processing speed and verbal memory but interferes with practice effects durin

91 enic compounds can exert positive effects on verbal memory, but not in older men and women, when no o

92 We investigated neural mechanisms of verbal memory by using fMRI and a task designed to tease

93 tive Syndrome Scale) and cognitive function (verbal memory [California Verbal Learning Test, second e

94 sition was predicted by group membership and verbal memory capacity and not by symptoms.

95 2003), including tests of general cognition, verbal memory, category fluency, and attention.

96 cognitive tests measuring general cognition, verbal memory, category fluency, and working memory.

97 Altered attention/executive and verbal memory, common in PACS, persisted in most subject

98 0.12 to 1.15]), but not in new learning and verbal memory, compared with prestroke slopes.

99 ermore, performance changes in attention and verbal memory correlated with mean regional FA changes i

100 d and significant benefit of waking rest for verbal memory (d = 0.38, p < 0.001).

101 five domains-attention, response inhibition, verbal memory, decision speed, and information processin

102 ion on word encoding correlated with greater verbal memory decline after left anterior temporal lobe

103 terial specific memory impairment, typically verbal memory decline following left and visual memory d

104 gical tests predicted clinically significant verbal memory decline in all patients who underwent left

105 ed data for the prediction of post-operative verbal memory decline in such patients with a novel fMRI

106 een adult child's education and respondent's verbal memory decline varied by exposure specification.

107 Postsurgical verbal memory decline was more common in LTLE than in RT

108 n cure seizures, but may produce significant verbal memory decline, which is hard to predict.

109 left hippocampal tail predicted postsurgical verbal memory decline.

110 .7 points, 95% CI 3.6-7.8; p<0.0001) and non-verbal memory (decline of 6.8 points, 4.8-8.7; p<0.0001)

111 receptor had a relevantly increased odds of verbal memory deficits (OR, 182.8; 95% CrI, 3.1-10 852.4

112 gher disease severity correlated with larger verbal memory deficits (RAVLT delayed recall, r = -0.40;

113 ngs suggest that smaller left hippocampi and verbal memory deficits are an expression of early neurod

114 Verbal memory deficits can be ameliorated by memory exer

115 Verbal memory deficits have been reported in many studie

116 predates symptoms by several years and that verbal memory deficits precede more widespread deteriora

117 disorganized communication, suspiciousness, verbal memory deficits, and decline in social functionin

118 phrenia includes smaller left hippocampi and verbal memory deficits.

119 long with residual executive dysfunction and verbal memory deficits.

120 gnition, r = -0.41; P = .04) correlated with verbal memory deficits.

121 the cingulum was negatively associated with verbal memory delayed recall (left: beta = -0.52, p = 0.

122 campal volume was positively associated with verbal memory delayed recall (left: beta = 0.44, p = 0.0

123 ith schizophrenia has a selective deficit in verbal memory despite normal motivation, attention, and

124 tate Examination (MMSE), word list learning (verbal memory), digit span (attention), clock drawing an

125 a impaired cognitive performance in tests of verbal memory, digit symbol coding, digit span backwards

126 of treating brain and behavioral aspects of verbal memory dysfunction in patients with schizophrenia

127 speed (Symbol Digit Modalities Test (SDMT)), verbal memory (East Boston Memory Test), and working mem

128 Control subjects displayed subsequent verbal memory effects within left parahippocampal gyrus,

129 During the verbal memory encoding task the comparison subjects, but

130 uch patients with a novel fMRI assessment of verbal memory encoding.

131 Mild impairments in cognitive processing and verbal memory evident on neuropsychological testing 2 da

132 were associated with worse verbal learning, verbal memory, executive function, and psychomotor speed

133 erall performance and worse verbal learning, verbal memory, executive function, psychomotor speed, an

134 airments in the domains of processing speed, verbal memory, executive function, working memory, visuo

135 een endogenous serum levels of estradiol and verbal memory, executive functions, or global cognition.

136 Eight patients did daily verbal memory exercises that became progressively more d

137 est for accuracy of abstraction/flexibility, verbal memory, face memory, spatial processing, and emot

138 positively with tests of verbal memory and a verbal memory factor (e.g. NAA/Cr and Logical Memory: r

139 ficantly with tests of verbal memory and the Verbal Memory Factor.

140 improvement in the MPH group on a measure of verbal memory failed to reach statistical significance.

141 d hormone-replacement therapy on measures of verbal memory, figural memory, mental rotations, attenti

142 ng principal components analysis (PCA; PCA1: verbal memory/fluency; PCA2: attention/working memory; P

143 sy but may impair memory function, typically verbal memory following left, and visual memory followin

144 and basal temporal cortex related to recent verbal memory for object names, text and auditory words.

145 ippocampus that is important for maintaining verbal memory function after anterior temporal lobe rese

146 for effective preoperative reorganization of verbal memory function to the ipsilateral posterior medi

147 schizophrenic parents, childhood deficits in verbal memory, gross motor skills, and attention identif

148 k for schizophrenia by childhood deficits in verbal memory, gross motor skills, and attention.

149 emotion identification, h(2)g=0.36, P=1e-05; verbal memory, h(2)g=0.24, P=0.005).

150 s related to greater decline among women for verbal memory, immediate recall [California Verbal Learn

151 of bone mineral density to the prevalence of verbal memory impairment among 4,304 elderly subjects in

152 d other covariates, the prevalence ratios of verbal memory impairment for each increased bone mineral

153 The prevalence of verbal memory impairment for each increasing bone minera

154 The authors suggest that verbal memory impairment in schizophrenia is a consequen

155 whom neuropsychometric data were available, verbal memory impairment preceded visual memory deficits

156 The prevalence of verbal memory impairment was 15% (4/26 patients); none d

157 Verbal memory impairment was defined as a combined score

158 al density in the elderly is associated with verbal memory impairment.

159 whose changes after ECT can track patients' verbal memory impairments (r = 0.613, p = 0.008).

160 ther baseline memory performance or post-ECT verbal memory impairments.

161 The prevalence of significant verbal memory improvements was 12% (3/26).

162 onselective inhibitor carbenoxolone improved verbal memory in elderly men.

163 ine treatment may have beneficial effects on verbal memory in FXTAS.

164 right anterior temporal lobe resection than verbal memory in left temporal lobe epilepsy.

165 obal cognition in both sexes combined and in verbal memory in men.

166 r psychomotor speed, executive function, and verbal memory in midlife.

167 py may have a selective beneficial effect on verbal memory in older nondemented women.

168 ler subiculum volumes were related to poorer verbal memory in patients with bipolar disorder and heal

169 showing a positive influence of estrogen on verbal memory in postmenopausal women.

170 Impaired verbal memory in schizophrenia is a key rate-limiting fa

171 an innovative approach to the remediation of verbal memory in schizophrenia, based on principles deri

172 : early memory loss (initially selective for verbal memory in some individuals) was followed soon aft

173 (18)F-ASEM binding was not associated with verbal memory in this small MCI sample.

174 h a significant decline in global cognition, verbal memory, language, and executive function, and ele

175 multiple domains (attention, visual memory, verbal memory, language, motor, and visual) in a cohort

176 which reflect performance in the domains of verbal memory, learning, visual organization and memory,

177 ssociated with estrogen depletion, including verbal memory loss in humans, may therefore stem from co

178 and placebo groups on the secondary outcome, verbal memory (mean difference in cognitive change over

179 mprovements on the WAIS-III digit symbol and verbal memory measures.

180 intelligence, executive function, attention, verbal memory, motor skills, and visual-spatial percepti

181 in attention, working memory, visual memory, verbal memory, new learning, and executive function in r

182 of different cognitive abilities were used: Verbal Memory, Nonverbal Memory and Executive Function.

183 function and processing speed, but not with verbal memory or crystallized ability.

184 psychological measures of speeded attention, verbal memory or visuospatial functions, nor were signif

185 Reduced performance on tests for verbal memory (OR, 1.74; 95% CI, 1.169-2.594; P = .006),

186 be for encoding words correlated with better verbal memory outcome after left anterior temporal lobe

187 ivation correlated with better postoperative verbal memory outcome.

188 Retention of verbal memory over 1 week was negatively correlated with

189 We carried out a prospective study of verbal memory over a long-term retention interval of 8 w

190 s associated with a dose-response decline in verbal memory over the following six years, independent

191 rovement in executive function (P < .01) and verbal memory (P < .05) after chemotherapy, and follow-u

192 nly (P <.04), particularly in the domains of verbal memory (P <.01) and psychomotor functioning (P <.

193 ve tests of immediate (P = .015) and delayed verbal memory (P = .002), processing speed (P < .001), e

194 tamoxifen on Processing Speed (P = .036) and Verbal Memory (P = .05) in the no-chemotherapy group.

195 airment on logical reasoning (P = 0.012) and verbal memory (P = 0.03), and trends toward greater impa

196 l cognitive (p for linear trend < 0.001) and verbal memory (p for linear trend = 0.009) trajectories,

197 l cognitive (p for linear trend = 0.008) and verbal memory (p for linear trend = 0.01) trajectories.

198 lly affected already had significantly lower verbal memory (P=0.003) and performance IQ (P=0.030) sco

199 intracarotid amobarbital testing: P < 0.001; verbal memory: P < 0.05).

200 categorical fluency test 1.1, -0.3 to 2.6), verbal memory (paragraph recall test 0.29, -1.2 to 1.8),

201 brain connections that can predict baseline verbal memory performance (r = 0.535, p = 0.026).

202 support vector regression model to estimate verbal memory performance based on connectivity.

203 Between time points, deteriorating verbal memory performance correlated with decreasing upp

204 ctivity did not negatively impact subsequent verbal memory performance for individuals with low anter

205 We prospectively measured visual and verbal memory performance in 20 patients with epilepsy i

206 pplied hippocampus also was an advantage for verbal memory performance in cerebral small vessel disea

207 cline group demonstrated significantly lower verbal memory performance including immediate recall (F

208 y volunteers, Met allele carriers had poorer verbal memory performance than their Val-homozygous coun

209 both before and after lung transplantation, verbal memory performance was slightly better posttransp

210 ral lobe correlated with worse postoperative verbal memory performance.

211 sed theta amplitude was associated with poor verbal memory performance.

212 w DHub values accurately predicted declining verbal memory performance.

213 mine concentrations correlated with impaired verbal memory performance.

214 sychosis beyond clinical criteria, but worse verbal memory predicted more rapid conversion.

215 ssociated with greater decline among men for verbal memory (prediction II).

216 al lobes that is associated with declines in verbal memory processes among colorectal cancer survivor

217 Left-sided lesions interfere with verbal memory processes, whereas right-sided lesions int

218 hysiological marker of semantic priming, and verbal memory processes.

219 ded lesions interfere with visuospatial (non-verbal) memory processes.

220 ive electrodes in brain regions that support verbal memory processing.

221 emained associated with overall performance, verbal memory, psychomotor speed, and fine motor skills,

222 mpus MAO-A VT was negatively correlated with verbal memory (r = -.44, p = .023).

223 sponses of cognitive control networks during verbal memory recall are partly responsible for reduced

224 up had significant improvements in immediate verbal memory recall over time.

225 hology would impair activity associated with verbal memory recall; and that central cholinesterase in

226 and mesial temporal lobe systems supporting verbal memory, regardless of ADHD comorbidity.

227 CBG also enhanced verbal memory relative to placebo.

228 ombined raloxifene group on the two tests of verbal memory (relative risk, 0.77) and attention, (rela

229 52% and 32% showed discordance in global and verbal memory, respectively.

230 zures was the first factor that impaired the verbal memory retention between 30 minutes and 1 week.

231 rformance (as measured by a clinical test of verbal memory retention).

232 pples were more pronounced during successful verbal memory retrieval and recover the cortical neural

233 Indeed, previous studies have suggested that verbal memory retrieval leads to the reinstatement of ac

234 Each participant underwent testing of verbal memory (Rey Auditory-Verbal Learning Test), visua

235 The secondary end point was a verbal memory score combining 4 tests of verbal memory,

236 tates was associated with steeper decline in verbal memory scores (e.g., for 9-year change in immedia

237 Verbal memory scores at the time of imaging were lower,

238 tes was associated with a steeper decline in verbal memory scores over time, but only among women.

239 composite measures of executive function and verbal memory scores were generally within normal limits

240 .02, 0.12) scores; overall associations with verbal memory scores were null, with mixed and imprecise

241 l 3 generations was associated with baseline verbal memory scores, independent of the prior generatio

242 Cognitive outcomes were performance on verbal memory, semantic fluency, working memory, and exe

243 with preserved cognition, patients with mild-verbal memory/semantic fluency exhibited decreased mean

244 formed significantly more poorly than men in verbal memory, spatial memory, and visual processing.

245 es in several processes inherent in episodic verbal memory (storage, retrieval, recognition) and visu

246 , we noted significant worsening on tests of verbal memory (T score decline of 5.7 points, 95% CI 3.6

247 erformed better than nonusers on the imaging verbal memory task (p<.05).

248 fitted with indwelling electrodes perform a verbal memory task and asked how encoding or retrieval c

249 itron emission tomography using a continuous verbal memory task during the period of tracer uptake.

250 ng speed, and selective attention deficit in verbal memory task performance in schizophrenia.

251 ance and regional brain activations during a verbal memory task were assessed before and after these

252 ctivity were acquired in the test phase of a verbal memory task where healthy human volunteers made R

253 Here, using a paired-associates verbal memory task, we combine behavioural data, computa

254 Hippocampal function was assessed using a verbal memory task.

255 s from 115 patients performing a free recall verbal memory task.

256 ct size 1.2) and also performed worse on the verbal memory task.

257 oring performed a paired-associates episodic verbal memory task.

258 e same brain region that is activated during verbal memory tasks in healthy individuals.

259 a higher rate of errors of commission on the verbal memory test (incorrectly identified distracters a

260 inical Dementia Rating Scale sum of boxes, a verbal memory test (logical memory), and a controlled or

261 udy examined differences in performance on a verbal memory test and in cortisol levels between patien

262 harshly and performed worse on an objective verbal memory test than did epsilon4+ adults who did not

263 nning, which correlated with memory decline (verbal memory test, unstandardized beta = -0.79, P < 0.0

264 h FMS showed normal cognitive functioning on verbal memory tests free of distraction.

265 iated with improved performance in motor and verbal memory tests.

266 ALF assessment comprised visual and verbal memory tests: complex figure drawing and the face

267 Patients had worse visual and verbal memory than controls.

268 ey Auditory Verbal Learning Test (RAVLT) for verbal memory, the Digit Symbol Substitution Test (DSST)

269 On verbal memory, there was a significant genotype effect b

270 s associated with worse global cognitive and verbal memory trajectories, whereas higher MUFA intake w

271 novel visual episodic information, auditory verbal memory using a novel/familiar paradigm has not ye

272 At baseline and 12 months, we assessed verbal memory using the Rey Auditory Verbal Learning Tes

273 7 Test, Digit Symbol Substitution Test), and Verbal Memory (Verbal Paired Associates, Logical Memory,

274 ition was assessed five times using tests of verbal memory, verbal fluency, and reasoning.

275 mptomatic from menopause had improvements in verbal memory, vigilance, reasoning, and motor speed, bu

276 essing, attention/vigilance, working memory, verbal memory, visual memory, and reasoning/problem solv

277 ion processing, motor speed, verbal ability, verbal memory, visual memory, and visuospatial ability.

278 n that yielded measures of global cognition, verbal memory, visual memory, attention, language, execu

279 tention, executive function, working memory, verbal memory, visual memory, visuospatial perception, a

280 so included measures of sustained attention, verbal memory, visual-motor integration, and fine motor

281 ent cognitive impairments in working memory, verbal memory, visuospatial memory and attention signifi

282 neuropsychological factors were constructed: verbal memory (VM), visual memory (VsM), verbal learning

283 Verbal memory was assessed using delayed recall of a thr

284 The most consistent finding was that verbal memory was associated with all types of functiona

285 A 1-standard deviation increase in verbal memory was associated with an increased probabili

286 Verbal memory was evaluated at baseline and 24m with the

287 Performance on a test of verbal memory was independently and strongly related to

288 Verbal memory was unchanged over the course of the study

289 We found that visual memory and verbal memory were better predicted by FC, whereas visua

290 Executive functioning and verbal memory were between the low-average and borderlin

291 s a verbal memory score combining 4 tests of verbal memory, which is a strong predictor of Alzheimer

292 few years of illness, with the exception of verbal memory, which shows significantly less improvemen

293 age and sex corrected) with T1-weighted MRI, verbal memory with the ten-item Consortium to Establish

294 or, language, spatial attention, spatial and verbal memory) with the pattern of lesion and indirect s

295 e (Addenbrooke's Cognitive Examination-III), verbal memory (word learning test) and processing speed

296 er Disease Word-List Learning; range, 0-30), verbal memory (Word-List Delayed Recall; range, 0-10), a

297 uospatial navigation, cognitive flexibility, verbal memory, working memory, decision speed, informati

298 -affected participants with poor declarative verbal memory would have pronounced abnormalities in the

299 sociated with a minimally greater subsequent verbal memory z score (beta = 0.08; 95% CI, 0.01-0.14).

300 er than the norm on short-term and long-term verbal memory (z score = -1.40 [1.58], p = 0.016; z scor