ライフサイエンスコーパス: cognitive development

1 maternal sensory signals causally influences cognitive development.

2 safety outcomes and persistence of improved cognitive development.

3 rtant factor in the study of fatty acids and cognitive development.

4 crog/dL, have a long-term negative impact on cognitive development.

5 ntegrity, morbidity, or selected measures of cognitive development.

6 LC-PUFA supplementation may also benefit cognitive development.

7 rk for elucidating key features of brain and cognitive development.

8 sses and their connection to an individual's cognitive development.

9 of maternal alcohol consumption on offspring cognitive development.

10 little effect on physiological or behavioral/cognitive development.

11 dynamic top-down control signals underlying cognitive development.

12 intervention which may impact on subsequent cognitive development.

13 maturation to understand the foundations of cognitive development.

14 exists to intervene and influence life-long cognitive development.

15 n humans of major malformations and impaired cognitive development.

16 al environment interact to program offspring cognitive development.

17 ly regulates cortical metabolic function and cognitive development.

18 ies and can result in deficits in growth and cognitive development.

19 l changes in the brain and adversely effects cognitive development.

20 important role for Shank proteins in normal cognitive development.

21 d to a deeper computational understanding of cognitive development.

22 underlying deviations from typical brain and cognitive development.

23 ave attempted to study the effects of DHA on cognitive development.

24 t impairments in physical, intellectual, and cognitive development.

25 en specific infant and preschool measures of cognitive development.

26 ssors can impair children's health and their cognitive development.

27 onsequences for later motor, behavioural and cognitive development.

28 the most striking and debated phenomenon in cognitive development.

29 tudied longitudinally during a time of rapid cognitive development.

30 n the prefrontal cortex (PFC) is crucial for cognitive development.

31 ng the prenatal period influences neural and cognitive development.

32 omboembolic complications, and below-average cognitive development.

33 asks of judgment designed to study childhood cognitive development.

34 rgic fibers play an important role in normal cognitive development.

35 efined as engrafted survival with continuing cognitive development.

36 n devoted to assessing the effects of SBP on cognitive development.

37 s that zinc deficiency may lead to delays in cognitive development.

38 ent (MM) supplementation on child growth and cognitive development.

39 ensitivity to numerosity is related to their cognitive development.

40 prefrontal neurons relates to this profound cognitive development.

41 anization, and seizure cessation may promote cognitive development.

42 s during gestation and early life may affect cognitive development.

43 play behavior, are important for social and cognitive development.

44 hanisms that mediate human motor control and cognitive development.

45 iption is required for normal cerebellar and cognitive development.

46 te the associations between green spaces and cognitive development.

47 sparities are associated with differences in cognitive development.

48 ontractures of the face and limbs and normal cognitive development.

49 iency during pregnancy can affect children's cognitive development.

50 toddlers, an age when sleep is essential for cognitive development.

51 ociations between school greenness and 12-mo cognitive development.

52 have a unique role in predicting children's cognitive development.

53 f the brain that are associated with typical cognitive development.

54 cascading effects on social, emotional, and cognitive development.

55 s childhood are needed for "growth charting" cognitive development.

56 rties may be a fundamental characteristic of cognitive development.

57 sociate weakly with CNS pathology and future cognitive development.

58 are critical for infants' socioemotional and cognitive development.

59 opmental needs may be pivotal for social and cognitive development.

60 h, diminished vaccine response, and impaired cognitive development.

61 characteristic facial features and impaired cognitive development.

62 al-neocortical reorganization and children's cognitive development.

63 is leads to growth faltering and deficits in cognitive development.

64 nths at the time of transplant showed normal cognitive development.

65 to stunted growth and longer-term effects on cognitive development.

66 rect morbidity such as impaired physical and cognitive development.

67 the early postnatal brain may be crucial for cognitive development.

68 g consequences for infant socioemotional and cognitive development.

69 that PV(+) neuron maturation is critical for cognitive development.

70 h PWS, including a possible salutary role in cognitive development.

71 critical for subsequent cognitive and social-cognitive development.

72 s associated with an adverse effect on child cognitive development.

73 importance of referential pointing in human cognitive development [1-4], but species differences in

74 fferences of -5.3 (95% CI, -8.2 to -2.4) for cognitive development, -11.4 (95% CI, -15.3 to -7.5) for

75 n (fecal calprotectin), daily morbidity, and cognitive development (2-step means-end test and an atte

76 ne of interpersonal interactions and sensory-cognitive development [5-7].

77 ce, 5.9; 95% CI, -0.07 to 12.4; P = .08) and cognitive development (59.7 vs 57.7; difference, 2.0; 95

78 cocaine exposure had significant effects on cognitive development, accounting for a 6-point deficit

79 age relative to the mean attrition-corrected cognitive development across 15-20 years in a population

80 the preschool child, in whom cooperation and cognitive development affect reliability of results.

81 enchmark against which to measure changes in cognitive development after treatment.

82 The roles of fatty acids and gangliosides in cognitive development, age-related cognitive decline, ps

83 ociation between exposure to green space and cognitive development among schoolchildren that was part

84 Early life conditions are related to cognitive development and abilities in childhood and cog

85 scientific thinking from the perspective of cognitive development and associated attempts to teach s

86 We assessed cognitive development and behavioral and executive funct

87 Myelination correlates with cognitive development and can be regulated by impulse ac

88 eficial effects of fish consumption on early cognitive development and cardiovascular health have bee

89 obule membrane (MFGM) reduces differences in cognitive development and early growth between formula-f

90 an milk and infant formula yield benefits in cognitive development and early growth for breastfed inf

91 children can yield substantial benefits for cognitive development and educational achievement.

92 reduced maternal anxiety, and enhanced child cognitive development and executive functions from 6 mon

93 pregnancy has been associated with impaired cognitive development and increased fetal mortality.

94 Controls show a strong association between cognitive development and increasing cerebral tissue vol

95 ing within-person variability in theories of cognitive development and its neurobiological foundation

96 with aphasia had enjoyed a normal course of cognitive development and language experience.

97 favorable long-term outcome with continuing cognitive development and prolonged survival after succe

98 the synaptic connections that models normal cognitive development and psychotic symptom formation.

99 ementation in infancy would affect long-term cognitive development and school achievement, but this h

100 rate but interacting influences on offspring cognitive development and support a maternal modulation

101 es to reverse-engineering human learning and cognitive development and, in parallel, engineering more

102 as, including categorization, mental models, cognitive development, and decision making.

103 kes on the development of malnutrition, poor cognitive development, and diminished immune response.

104 egaloblastic anemia, birth defects, impaired cognitive development, and increased risk of cardiovascu

105 h, which are determinants of their survival, cognitive development, and lifelong health.

106 rosteroid homeostasis is critical for normal cognitive development, and there is increasing evidence

107 tion, suggest a possible sensitive period in cognitive development, and underscore the advantages of

108 ween infectious disease episodes and growth, cognitive development, and vaccine response in the first

109 ic determinant of mammalian craniofacial and cognitive development, and we implicate another member o

110 her newborn visual abilities relate to later cognitive development, and whether newborn ability for v

111 scale of motor development, three scales of cognitive development, and with receptive language.

112 Disorders of psychosocial and cognitive development are key factors affecting the qual

113 the mechanisms linking zinc deficiency with cognitive development are unclear, it appears that zinc

114 matter pathways that underlie emotional and cognitive development are unknown.

115 icularly docosahexaenoic acid (22:6n-3), and cognitive development as among the most studied lipids a

116 ldren exhibited normal speech, language, and cognitive development as assessed through a battery of a

117 luences is vital to advancing the science of cognitive development as well as for designing intervent

118 Primary outcome was cognitive development assessed with the Mental Developme

119 Adolescence is a time of social and cognitive development associated with changes in brain s

120 aternal MMN had long-term benefits for child cognitive development at 9-12 years of age, thereby supp

121 nts using robots as tools for modeling human cognitive development, based on developmental theory, co

122 ent and have potentially enormous effects on cognitive development, behavior, family dynamics, and th

123 ntation to infant formula narrows the gap in cognitive development between breastfed and formula-fed

124 Breastfeeding may benefit child cognitive development, but few studies have quantified b

125 sociated with enhanced survival and improved cognitive development, but might increase risk of obesit

126 acids (LCPUFAs) are hypothesized to improve cognitive development, but results are inconclusive, wit

127 cation, psychosocial functioning, motor, and cognitive development can promote academic and social su

128 Some aspects of development, in particular cognitive development, can only be studied in human bein

129 Analogous insights play a pivotal role in cognitive development: Children discover that object cat

130 ion of alcoholic beverages impacts brain and cognitive development, creating a range of deficits in t

131 Preliminary reports of improved cognitive development during hGH have also emerged.

132 Brain and cognitive development during the first 1000 days from co

133 al structural brain development and impaired cognitive development early in the course of their epile

134 r, and its relationship(s) to functional and cognitive development, especially language, remain to be

135 by-product theorists maintain that standard cognitive development facilitates the acquisition of rel

136 Deficits in cognitive development have been described most thoroughl

137 sure to recreational drugs impairs motor and cognitive development; however it is currently unknown w

138 Children were more likely to maintain normal cognitive development if they were fully engrafted follo

139 e informative COMT haplotype predicts normal cognitive development in a large population-based cohort

140 isorders and weakly associated with improved cognitive development in boys.

141 n period was associated with lower levels of cognitive development in children aged 4-5 y.

142 Although this exposure could also influence cognitive development in children, available epidemiolog

143 nmental stressor-aircraft noise-could impair cognitive development in children, specifically reading

144 em, especially due to its adverse effects on cognitive development in children.

145 ertain whether LC-PUFAs in infancy influence cognitive development in later childhood.

146 during pregnancy is associated with impaired cognitive development in offspring at age 5.5 years.

147 affeine intake during pregnancy and impaired cognitive development in offspring, a result in line wit

148 ween exposure to green space and measures of cognitive development in primary schoolchildren.

149 red with supplementation during lactation on cognitive development in rural Gambians.

150 arly infant feeding and detailed measures of cognitive development in the first 2 y of life in health

151 ary to determine the long-term trajectory of cognitive development in this population.

152 significant association (p = 0.005) with the Cognitive Development Index (CDI).

153 sure to environmental tobacco smoke (ETS) on cognitive development is controversial.

154 olyunsaturated fatty acid (LCPUFA) intake on cognitive development is controversial.

155 Cognitive development is determined by both genetics and

156 Cognitive development is known to involve improvements i

157 s to address in a more sophisticated way how cognitive development is mediated by changes in underlyi

158 maternal prenatal fish consumption for child cognitive development is not known.

159 Cognitive development is severely impaired.

160 e seizure group (Study 1), but the course of cognitive development is significantly altered (as shown

161 Although human cognitive development is unique, it is not known whether

162 hat the relation between zinc deficiency and cognitive development may vary by age in children and ma

163 blood lead concentrations 8-10 microg/dL and cognitive development needs further study in Chinese chi

164 This study compared the mental health and cognitive development of 9- to 12-year-old Eritrean war

165 wledge concerning the effects of lead on the cognitive development of children.

166 s primary research question: "Does Mn affect cognitive development of children?" We evaluated the rel

167 f different rearing conditions on neural and cognitive development of male rhesus monkeys (Macaca mul

168 The influence of perinatal risk factors on cognitive development of VPT or VLBW children appears to

169 s no significant between-group difference in cognitive development on the basis of the Bayley score (

170 lantation were major predictors for superior cognitive development posttransplant.

171 ome (RTT), a neurological disorder affecting cognitive development, respiration, and motor function.

172 Motor and cognitive development, respiratory function, and safety

173 results imply that studies of nutrition and cognitive development should be powered to continue thro

174 trary, an associative learning framework for cognitive development should seek heritable variation in

175 s of a child's life has a positive effect on cognitive development, social skills and behavior, and s

176 t and support a maternal modulation model of cognitive development that considers maternal self-stres

177 chological pattern revealed those aspects of cognitive development that do, and those that do not, re

178 ibutions to a cardinal feature of children's cognitive development-the transition from procedure-base

179 that breastfeeding in early life may promote cognitive development, their interpretation is complicat

180 gs of maternal modulation from the domain of cognitive development to the domain of physical developm

181 ological changes supporting motivational and cognitive development, underscoring the importance of fu

182 Cognitive development was analyzed and compared in child

183 Cognitive development was assessed as 12-mo change in de

184 relation between breastfeeding and childhood cognitive development was examined in 1991-1993 among 43

185 re or to placement in foster care, and their cognitive development was tracked through 54 months of a

186 causes of rare genetic syndromes that affect cognitive development, we anticipate progress in models

187 ce of maternal euthyroidism for normal fetal cognitive development, we propose that women with hypoth

188 To identify genes important for human cognitive development, we studied Williams syndrome (WS)

189 Differences in children's cognitive development were accounted for by household in

190 ntal effect on growth, vaccine response, and cognitive development, which are the primary outcome mea

191 itive associations between GWG and offspring cognitive development, which may have lasting effects on

192 ealth with 5 items (score range, 14-45), and cognitive development with 10 items (score range, 18-90)

193 mote nonmotor neural circuitry and influence cognitive development, with a focus on its relationship