ライフサイエンスコーパス: cognitive function

1 cant improvements in craving, withdrawal, or cognitive function.

2 ay be related to postsurgical impairments of cognitive function.

3 mics in particular) are essential for proper cognitive function.

4 of these NMDARs rescued spines and restored cognitive function.

5 tal socioeconomic background, education, and cognitive function.

6 oci shared between schizophrenia and general cognitive function.

7 al intervention may still benefit children's cognitive function.

8 ability to participate in social roles, and cognitive function.

9 sed on self-reports was associated with poor cognitive function.

10 pathological brain lesions and a decline in cognitive function.

11 A1 pyramidal cells and hippocampal-dependent cognitive function.

12 enhances neuronal excitability and improves cognitive function.

13 cipants stratified according to physical and cognitive function.

14 pole, and insula, which were correlated with cognitive function.

15 insulin resistance, could improve poststroke cognitive function.

16 ctivity, plasma inflammatory biomarkers, and cognitive function.

17 es and a lower Stroop score indicated better cognitive function.

18 patient-reported measures of depression and cognitive function.

19 functional disability, motor performance and cognitive function.

20 ccording to baseline measures of physical or cognitive function.

21 es assessed associations between 25(OH)D and cognitive function.

22 lation leading to a physiological deficit in cognitive function.

23 r, data are lacking on long-term PPI use and cognitive function.

24 K, neuronal intrinsic properties, aging, and cognitive function.

25 reported on the association between SDB and cognitive function.

26 (AD) is a progressive disorder that affects cognitive function.

27 easures of higher-level sound processing and cognitive function.

28 fects on hippocampal synaptic plasticity and cognitive function.

29 ngthening synaptic connections and improving cognitive function.

30 ought to be strongly associated with general cognitive function.

31 and molecular tools and the study of higher cognitive function.

32 ical activity interventions had no effect on cognitive function.

33 ing precisely localized synapses, calibrates cognitive function.

34 between PPI use and performance in tests of cognitive function.

35 mong participants with decreased physical or cognitive function.

36 c network that is critical for understanding cognitive function.

37 hese diffusion abnormalities correlated with cognitive function.

38 on how MD-PFC circuits support higher-order cognitive function.

39 o lower or upper three quartiles of baseline cognitive function.

40 the causal relationship between 25(OH)D and cognitive function.

41 a convincing association between PPI use and cognitive function.

42 vivo would predict impairment and rescue of cognitive function.

43 fects on hippocampal synaptic plasticity and cognitive function.

44 ritability of 21.5% (s.e.=0.01%) for general cognitive function.

45 ptoms and counterregulation while preserving cognitive function.

46 nto multivariate models predicting change in cognitive function.

47 ecific protein in hippocampal plasticity and cognitive function.

48 spine density correlated with restoration of cognitive function.

49 of excitatory representations for important cognitive functions.

50 e brain is essential to understanding higher cognitive functions.

51 nd that the thalamus is involved in multiple cognitive functions.

52 not associated with improved memory or other cognitive functions.

53 , supporting the idea of an impact of SAR on cognitive functions.

54 g temporal flexibility upon sensorimotor and cognitive functions.

55 ain rhythms and is present during a range of cognitive functions.

56 ation processing and is essential for higher cognitive functions.

57 lamus is engaged by tasks requiring multiple cognitive functions.

58 rived neurotrophic factor, which does foster cognitive functions.

59 ure, not only in motor behavior, but also in cognitive functions.

60 in the brain, is implicated in affective and cognitive functions.

61 neurons are crucial for many behavioral and cognitive functions.

62 neural ensembles is central to human higher cognitive functions.

63 refrontal cortex (DLPFC) supports a range of cognitive functions.

64 as observed to be positively associated with cognitive functioning.

65 toms of psychiatric disorders interfere with cognitive functioning.

66 ve reserve that influence normal or expected cognitive functioning.

67 nt during childhood for subsequent brain and cognitive functioning.

68 rbal-numerical reasoning, as well as general cognitive function, a phenotype that captures the shared

69 ed in quality of life, physical activity, or cognitive function across randomised groups.

70 However, cognitive functioning after reduced-intensity allogeneic

71 meostatic response geared to maintain proper cognitive function against exogenous insult.

72 venty-seven age-matched controls with normal cognitive function also underwent structural magnetic re

73 activities of daily living, and physical and cognitive functioning among oldest-old individuals betwe

74 this population-based study, we compared two Cognitive Function and Ageing Studies (CFAS I and CFAS I

75 althy participants aged 65 y and over in the Cognitive Function and Ageing Study Wales (CFAS-Wales) c

76 (Vantaa 85+, Cambridge City Over-75s Cohort, Cognitive Function and Ageing Study) performed from Janu

77 ridge City Over-75s Cohort, and 456 from the Cognitive Function and Ageing Study) with neuropathologi

78 However, in humans, it is unknown whether cognitive function and brain structure are affected by G

79 ession, and posttraumatic stress, as well as cognitive function and carers' burden.

80 al balance of n-6 and n-3 FAs depends on the cognitive function and developmental period studied.

81 o-linked proteins in synaptic plasticity and cognitive function and dysfunction is widely acknowledge

82 kinson's disease patients including impaired cognitive function and increased anxiety-like behavior.

83 ampal injection of p17 in mice reduces their cognitive function and induces behavioral deficiencies.

84 s to determine the effects of C. asiatica on cognitive function and its related properties.

85 ) infection is associated with impairment of cognitive function and mood disorders.

86 t of sustained virological response (SVR) on cognitive function and mood disorders.

87 Cognitive function and mood were not adversely affected

88 and substantial evidence of pleiotropy with cognitive function and neuroticism.

89 nent physical activity interventions promote cognitive function and prevent cognitive decline or deme

90 genetically strongly associated with general cognitive function and processing speed.

91 cipants (N=18) were administered measures of cognitive function and questionnaires concerning psychos

92 hood lead exposure was associated with lower cognitive function and socioeconomic status at age 38 ye

93 t childhood lead exposure is associated with cognitive function and socioeconomic status in adulthood

94 5R, R17S, and R17H will prove detrimental to cognitive function and successful aging, whereas homozyg

95 ing have not always translated into improved cognitive functioning and often take many days to emerge

96 factors had significant negative effects on cognitive functions and appeared to be independent from

97 the single-cell level to generate associated cognitive functions and other mPFC-dependent behaviors r

98 with regard to the role of the claustrum in cognitive functions and that of MCH in REM sleep.

99 x (PFC) is thought to play key roles in many cognitive functions and to be disrupted in pathological

100 understood, or ignored aspects of brain and cognitive function, and mechanisms fundamental to these

101 g cardiovascular disease, cancer, decline in cognitive function, and mortality.We investigated the as

102 linical outcomes (neuropsychiatric symptoms, cognitive function, and quality of life) after 4 months

103 mportant consideration in the role of FAs in cognitive function, and the optimal balance of n-6 and n

104 blood-brain barrier, and it improves memory, cognitive functions, and learning abilities of mice in a

105 In children, impairments of cognitive function are important manifestations, but the

106 Among those determinants of cognitive function are neuroepigenetic mechanisms that t

107 Cognitive functions arise from the coordination of large

108 An additional 80 men declined in cognitive function as assessed with the use of the Mini-

109 sion might expand disability of physical and cognitive functioning as more frail, elderly individuals

110 c stroke or TIA, pioglitazone did not affect cognitive function, as measured by the 3MS, over 5 years

111 = 10,308 at study recruitment in 1985), with cognitive function assessed at 4 waves (1997, 2002, 2007

112 ent of drug seeking and long-term effects on cognitive function assessed in a delay-match-to-sample w

113 ss in adipose tissue and brain, and improved cognitive function, associated with an increase in B. fr

114 tension, correlated with decreased executive cognitive function at 12 months (P=0.03).

115 ence in cognitive function z score) on child cognitive function at age 7-14 years (i.e., joint mediat

116 in later childhood (at age 7-14 years) with cognitive function at age 7-14 years.

117 ntal advances in our understanding of higher cognitive function at the level of molecular and neurona

118 We measured cognitive function at year 25 (mean +/- SD age: 50 +/- 4

119 However, there is a scarcity of data on cognitive functioning before parkinsonism diagnosis, a s

120 GR and MR genetic variation predicted unique cognitive functions, beyond the influence of cortisol an

121 Cognitive function, brain tissue volumes, and white matt

122 roscopic cortical networks are important for cognitive function, but it remains challenging to constr

123 nors' quality of life, physical activity, or cognitive function, but resulted in more donation-relate

124 olence, even if a decade earlier, can hamper cognitive functions, but only among individuals actively

125 esthetics might cause persistent deficits in cognitive function by disrupting key events in brain dev

126 ages Questionnaire, 3rd edition (ASQ-3), and cognitive functioning by using the Developmental Neurops

127 ot only IL-4 but also IL-13, are involved in cognitive functions by stimulating astrocytes from the m

128 regions and circuits important in executive cognitive function can bias behavioral choices away from

129 These cognitive functions can significantly affect the outcome

130 Cognitive function changes during the transition from ho

131 ewards, we tested whether training executive cognitive function could influence choice behavior and b

132 Most cognitive functions decline with age.

133 of reward outcomes, contributes to executive cognitive function deficits in alcoholic individuals.

134 Patients were evaluated for PD severity, cognitive function, depression rating and quality of lif

135 s and BCs may contribute to the emergence of cognitive function differentially, and predominantly dur

136 al health, life stress, concussion symptoms, cognitive function, disability and markers of chronic st

137 there are no significant differences in all cognitive function domains of C. asiatica when compared

138 ity may have broad application for improving cognitive function during the early phases of neurodegen

139 eural systems, and thereby explain shifts in cognitive functioning during acute stress, which may pla

140 Additionally, priming is affected by further cognitive functions (e.g., memory).

141 Cognitive function, executive function, visual function,

142 the Functional Assessment of Cancer Therapy-Cognitive Function (FACT-Cog) at prechemotherapy and pos

143 ion (Functional Assessment of Cancer Therapy Cognitive Function [FACT-COG] perceived cognitive impair

144 Moreover, dissociating innate differences in cognitive function from cannabis-induced deficits is cha

145 Primary outcome was self-reported cognitive function (Functional Assessment of Cancer Ther

146 ally related to donation, physical activity, cognitive function, haemoglobin and ferritin concentrati

147 w of the overall evidence of C. asiatica and cognitive function has been conducted.

148 The role of proinflammatory cytokines in cognitive function has been investigated with both benef

149 euroimaging phenotype associated with poorer cognitive function, HIV infection, and systemic immune a

150 or adults who were in the lowest quartile of cognitive function (HR: 1.13 95%CI [0.74-1.71]).

151 dults in the upper three quartiles of global cognitive function (HR: 3.48 95%CI [1.98-6.12]), but not

152 Efforts to remediate the multiple cognitive function impairments in schizophrenia should c

153 The primary brain region implicated in cognitive functions improved by nicotine is the prefront

154 idence to support the use of C. asiatica for cognitive function improvement in each cognitive domain.

155 shared genetic aetiology with other tests of cognitive function in 23 821 participants from UK Bioban

156 length, long-term black carbon exposure, and cognitive function in a cohort of older men: the VA Norm

157 eltap35) attenuated amyloidosis and improved cognitive function in a familial Alzheimer's disease mou

158 ) with minor allele frequency 1%) to general cognitive function in a sample of 35 298 healthy individ

159 s neuronal signaling and growth and improves cognitive function in adult and aged mice; however, whet

160 creased anxiety-like behavior, and decreased cognitive function in adulthood.

161 ijuana use is often associated with impaired cognitive function in adulthood.

162 ent revitalizes the hippocampus and improves cognitive function in aged mice.

163 finding that has implications for restoring cognitive function in aging and Alzheimer's dementia.

164 nnervation have been correlated with loss of cognitive function in Alzheimer's disease and schizophre

165 polipoprotein E4 is associated with improved cognitive function in Amazonian forager-horticulturalist

166 rotein expression, and hippocampal-dependent cognitive function in an animal model of chronic cerebra

167 sensory signals early in life and subsequent cognitive function in both humans (n = 128 mother/infant

168 ternal sensory signals early in life impacts cognitive function in both rats and humans.

169 rial showing an improvement in self-reported cognitive function in cancer survivors, indicating that

170 11483) in the UK Biobank cohort; and general cognitive function in CHARGE (Cohorts for Heart and Agin

171 n, and that this impact would further affect cognitive function in children.

172 ents without TBI on any measure of objective cognitive function in either raw or adjusted models (ful

173 Light improves cognitive function in humans; however, the neurobiologic

174 sociation between hypovitaminosis D and poor cognitive function in mid- to later-life is uncertain.

175 t young adulthood was associated with better cognitive function in midlife.

176 s immunoglobulin (IVIG) on brain atrophy and cognitive function in mild cognitive impairment (MCI) du

177 Social networks are known to protect cognitive function in old age.

178 arker of traffic-related air pollution, with cognitive function in older men, and we examined whether

179 ay help predict the impact of BC exposure on cognitive function in older men.

180 sts that glycemic control is associated with cognitive function in older patients with type 2 diabete

181 ve (CR) is one factor that helps to maintain cognitive function in patients with Alzheimer's disease

182 C activity even at resting state and improve cognitive function in patients with schizophrenia.

183 esting brain functional activity and improve cognitive function in patients with schizophrenia.

184 Cav-1 overexpression can preserve motor and cognitive function in the brain trauma setting is unknow

185 was associated with lower scores on tests of cognitive function in the offspring at age 4 and 6-12 y.

186 r hypothyroxinemia during pregnancy improves cognitive function in their children.

187 ppocampus enhances neuronal excitability and cognitive function in young normal mice, that old CA1 py

188 Cognitive functioning in autologous HCT recipients gener

189 uality), which may in turn benefit long-term cognitive functioning in children.

190 een used to make important claims concerning cognitive functioning in health and in disease.

191 in infancy (2-12 mo) and the development and cognitive functioning in Nepalese children 5 y later.Vit

192 In summary, dynamic hub load relates to cognitive functioning in patients undergoing lesion rese

193 ed positive association of connectivity with cognitive functioning in T1D, without overall group diff

194 nhedonia which lead to decreases in specific cognitive functions in adulthood.

195 ures of childhood violence victimization and cognitive functions in childhood, adolescence, and adult

196 performance was more dependent on non-memory cognitive functions in hippocampal-sparing and the no at

197 prefrontal cortex (PFC) is thought to impair cognitive functions in individuals with schizophrenia.

198 ure in the adult hippocampus and for related cognitive functions in mice.

199 ciated with improved verbal memory and other cognitive functions in older men with low testosterone a

200 Accordingly, NPY was shown to modulate cognitive functions in rodents.

201 We hypothesized that a nested structure of cognitive function, in terms of a canonical domain-gener

202 ry is a step forward in understanding higher cognitive function including short-term memory.

203 co withdrawal is associated with deficits in cognitive function, including attention, working memory,

204 pervasive impairments in clinically relevant cognitive functions, including general intelligence, exe

205 atory influence on neuronal activity affects cognitive functions, including memory.

206 hat addiction causes pervasive impairment in cognitive functions, including metacognitive ability, we

207 s associated with long-lasting impairment of cognitive functions, including neurodegenerative disease

208 arge-scale brain networks that support these cognitive functions, including the salience and executiv

209 Executive cognitive functions, including working memory, cognitive

210 To test if cognitive function influences the relationship between f

211 n control (or executive control) is a higher cognitive function involved in response selection and in

212 B-6, and vitamin B-12 intake in relation to cognitive function is limited, especially in midlife.We

213 Cognitive function is often impaired during hospitalizat

214 ver, the impact that prolonged torpor has on cognitive function is poorly understood.

215 I, IIIA, IIIB), but not in subtypes in which cognitive function is preserved (MPS IVA, VI).

216 causal link between anatomical structure and cognitive function is still missing.

217 Poor cognitive functioning is associated with an increased ri

218 To assess whether poor cognitive functioning is associated with an increased ri

219 vigilant reactions over slower higher-order cognitive functions is essential for adaptive responding

220 n microenvironment, which negatively affects cognitive function, is mediated via modulation of microg

221 ntal cortex plays a key role in higher order cognitive functions like decision making and social cogn

222 ergic (DA) pathways, essential for motor and cognitive function, may underpin a number of neurologica

223 DL), physical performance in three tests and cognitive function measured by Mini-Mental State Examina

224 te of functional independence (mRS 0-2), and cognitive function measured with the Trail Making Test (

225 inical and MRI neuroimaging findings, namely cognitive function, motor function, and brain volume (gl

226 y (open field test, light-dark box test) and cognitive function (novel object recognition test).

227 ewborn supplementation with vitamin A on the cognitive function of children at 8 y of age.A cohort of

228 ex (beta = -2.31; 95% CI: -4.45, -0.18), and cognitive function of left posterior cortex (beta = -3.2

229 memory (beta = -3.59; 95% CI: -6.95, -0.23), cognitive function of posterior cortex (beta = -2.31; 95

230 -387,785 for 3 wk significantly improves the cognitive functions of APP/presenilin-1 (PS1) transgenic

231 Impaired learning and cognitive function often occurs during systemic infectio

232 ncreased TMT-A performance and self-reported cognitive function on the PDQ.

233 hat older patients with reduced preoperative cognitive functions or who develop postoperative deliriu

234 pothesis due to the relative preservation of cognitive function over physical power output.

235 proteins in six known pathways essential for cognitive function (P<0.0001).

236 It is among the most fundamental of cognitive functions, particularly in humans and other pr

237 loid deposition interaction effect on global cognitive function (Pone-tailed=0.005).

238 Worse autonomic and cognitive functions predict development of ICB at the ti

239 Cognitive functions previously associated with these are

240 ontribute differentially to the emergence of cognitive function, primarily during prepubertal develop

241 etic aetiology between trail making, general cognitive function, processing speed and memory (standar

242 MENT: Working memory maintenance, like other cognitive functions, requires the coordinated engagement

243 spines predict impairment and restoration of cognitive function, respectively.

244 verbal-numerical reasoning (rg>0.6), general cognitive function (rg>0.6), processing speed (rg>0.7) a

245 The cognitive function score (P=0.04) and quality of social

246 w or adjusted models (fully adjusted: global cognitive function score 15.4 versus 15.2, p = 0.68; ver

247 ns in individual posterior lobules, in which cognitive functioning seems preponderant, are still unkn

248 cific InsR deficiency on stress sensitivity, cognitive function, sensorimotor gating, and prefrontal

249 ic, gastrointestinal, and endocrine disease; cognitive function; serum nutrient levels; and others (t

250 Cognitive functions should be screened for preoperativel

251 Implicated in sleep regulation and cognitive functioning, spindles may represent heritable

252 Cognitive functions such as working memory (WM) are emer

253 le-demand cortex (MDC), which control higher cognitive functions, such as working memory, attention,

254 n genetic basis underlying schizophrenia and cognitive function, suggesting novel molecular genetic m

255 (PFC), PV(+) neuron activity is involved in cognitive function, suggesting that PV(+) neuron maturat

256 in T1D, without overall group differences in cognitive function, suggests a putative compensatory rol

257 nically significant decline in self-reported cognitive function than were controls from prechemothera

258 urbance, anxiety, and depression, and better cognitive function than younger patients.

259 t effects on the neural circuitry supporting cognitive function that can be dissociated from its effe

260 ts engaged in interval timing, an elementary cognitive function that engages both areas.

261 een the thalamus and cortex are critical for cognitive function, the exact contribution of the thalam

262 and contributes predominantly to nuclei with cognitive functions, the medial ventral posterior clonal

263 Although crucial for various cognitive functions, the neural mechanisms of these infe

264 tance of attention and arousal regulation in cognitive functioning, these findings substantiate conce

265 s, a pathologic process seems to have caused cognitive functioning to fall substantially short of fam

266 spatial mapping may become one of the first cognitive functions to be understood in mechanistic deta

267 consumption were positively associated with cognitive function, together accounting for 20% (95% CI

268 FT-mu for two 5-day cycles were assessed for cognitive function using novel object/place recognition

269 utcomes assessed included measures of global cognitive function, verbal episodic memory, semantic flu

270 d supports sensory perception, movement, and cognitive function via numerous distinct nuclei.

271 ortical dopamine (DA) regulates a variety of cognitive functions via actions on D1 and/or D2 receptor

272 Human cognitive function was assessed at age 2 y with the Bayl

273 Test before and after treatment; subjective cognitive function was assessed using the Perceived Defi

274 Cognitive function was assessed using the Telephone Inte

275 ared to the highly comparable control group, cognitive function was impaired in 4 of the 6 cognitive

276 Cognitive function was investigated using the Clinical D

277 INTERPRETATION: Decline in cognitive function was more frequent with WBRT than with

278 , no significant between-group difference in cognitive function was observed over a median of 19 mont

279 The effect of poverty on cognitive function was small; nevertheless, financial in

280 For this preplanned analysis of cognitive function, we examined the Modified Mini-Mental

281 easured, and tolerance, quality of life, and cognitive function were assessed via questionnaires.Plas

282 to lipopolysaccharide (LPS) stimulation, and cognitive function were assessed.

283 eurodegeneration biomarkers and longitudinal cognitive function were compared between patients with d

284 serum 25(OH)D with global and memory-related cognitive function were non-linear (lower cognitive scor

285 r associations with global or memory-related cognitive function were non-significant and in opposing

286 Assessments of cognitive function were performed at baseline, week 24,

287 Both anxiety and cognitive functioning were assessed using elevated plus

288 t (P<0.05) treatment-related improvements in cognitive functioning were found for word-list learning

289 egression confirmed that worse autonomic and cognitive functions were predictors of ICB.

290 ns and preservation of hippocampal-dependent cognitive function when examined at 6-months after BCCAO

291 Frailty should be monitored alongside cognitive functioning when assessing risk factors for de

292 developed a mouse model where light improves cognitive function, which provides insight into mechanis

293 on of this architecture enables higher-level cognitive functions, which are unique to the brain.

294 R has a differentiated and complex impact on cognitive functions, which should be considered in the m

295 tect the linguistic signal and perform other cognitive functions, while, ideally, oscillating like th

296 and 12 months, we assessed survivors' global cognitive function with the Repeatable Battery for the A

297 ts (HFDs) can critically affect synaptic and cognitive functions within telencephalic structures such

298 EMENT Lack of sleep deteriorates several key cognitive functions, yet the neuronal underpinnings of t

299 rs had a larger direct effect (difference in cognitive function z score) on child cognitive function

300 ia (z score, 5.01; P = 5.53 x 10-7), general cognitive function (z score, -4.43; P = 9.42 x 10-6), an