ライフサイエンスコーパス: preschool

1 as mediated by collaborative coparenting in preschool.

2 Sixty-nine patients (51.4%) belonged to the preschool (0-5 years) age group.

3 pression severity scores were 2.61 (1.78) at preschool, 1.77 (1.58) at time 2, and 2.16 (1.64) at tim

4 ildren (average age 4.9 years) in 214 Indian preschools, 4 months of math game play yielded marked an

5 red mother-reported deworming in children of preschool age (12-59 months).

6 atients are more commonly encountered in the preschool age group and are associated with severe visua

7 e Asthma Predictive Index [API]) assessed at preschool age in diagnosing asthma at 6 years of age was

8 households, but did not affect cognition at preschool age in this setting.

9 Lower income-to-needs ratio at preschool age was associated with reduced connectivity b

10 within 2 wk postdelivery (n = 305) and/or at preschool age, 4.5 y (n = 273), and whose mothers had a

11 when the diagnosis is more reliable than at preschool age.

12 early preventive strategy against obesity at preschool age.

13 ive behavior (insistence on sameness) at the preschool age.

14 factor for increased bronchial reactivity at preschool age.

15 de are associated with pulmonary function at preschool age.

16 nt supplements (LNS) on child development at preschool age.

17 ol levels during laboratory stressors in 120 preschool-age children (3-5 years old), as well as hippo

18 pts the smooth flow of speech, affects 5% of preschool-age children and 1% of the general population,

19 r energy overestimate energy requirements of preschool-age children because of the erroneous classifi

20 tool-based measures of infection among 3,663 preschool-age children in an area endemic for S. mansoni

21 rams, and that in high-transmission settings preschool-age children represent a key population missed

22 This study assessed the exposure of Greek preschool-age children to PEs, BPA, PBs, and OPs by inve

23 Altered body composition was evident in preschool-age children with CP across functional capacit

24 stosomiasis in women of reproductive age and preschool-age children, and the need for further researc

25 A third study, with preschool-age children, showed that subtle reciprocal cu

26 We reexamined the DRI for energy for preschool-age children.

27 propriate PAL categories are recommended for preschool-age children.

28 d the learning underlying this attraction in preschool-age children.

29 and direct neurocognitive assessment of 158 preschool aged children (aged 49-72 months; 54% male) at

30 immunologic changes caused by peanut OIT in preschool aged children and determine the effect on thes

31 ildren born during the study period, 376,638 preschool-aged (53,460 [14.2%] exposed to dogs and 1729

32 ruments exist to ascertain the severity of a preschool-aged child's asthma exacerbations managed at h

33 h a decreased likelihood of ICU discharge in preschool-aged children (age-specific hazard ratios at 6

34 k of asthma in both school-aged children and preschool-aged children (OR, 0.48; 95% CI, 0.31-0.76, an

35 hildren (OR, 0.87; 95% CI, 0.81-0.93) and in preschool-aged children 3 years or older (HR, 0.90; 95%

36 y cost effective even if treatment costs for preschool-aged children and adults were ten times greate

37 $0.74 for school-aged children and $1.74 for preschool-aged children and adults.

38 sessment tool for critically ill infants and preschool-aged children and to determine delirium preval

39 es targeting specific obesity classes within preschool-aged children are warranted.

40 ts, preventing subsequent health benefits to preschool-aged children as well as certain adolescents a

41 icosteroids during wheezing exacerbations in preschool-aged children by demonstrating findings of a p

42 08).This mHealth obesity prevention study in preschool-aged children found no difference between the

43 y concentrations of phthalate metabolites in preschool-aged children have not been thoroughly examine

44 No evidence was found in US preschool-aged children of an inverse association betwee

45 food allergy and other allergic diseases in preschool-aged children remain sparse.

46 ed influenza, and 3 household cRCTs in which preschool-aged children were vaccinated: 22% (95% CI, 1%

47 munities randomized to biannual treatment of preschool-aged children with azithromycin or placebo.

48 optimal energy intake and improve growth in preschool-aged children with cystic fibrosis (CF) are a

49 o consider annual vaccination of school- and preschool-aged children with either trivalent inactivate

50 Of these, 18,799 children (5.0%) in the preschool-aged children's cohort experienced an asthmati

51 Identifying associations between preschool-aged children's electronic media use and their

52 Our objectives were to determine whether preschool-aged children's frequency of eating healthy fo

53 lly significant anxiety symptoms manifest in preschool-aged children, and correlates of anxiety sympt

54 in the first 2 years, hazelnut and cashew in preschool-aged children, and peanut at all ages.

55 um instrument for critically ill infants and preschool-aged children, in whom delirium is extremely p

56 lished sample of vision screening results on preschool-aged children, provide additional insight on t

57 This suggests that preschool-aged children, rather than infants, are respon

58 with a lower likelihood of ICU discharge in preschool-aged children.

59 for incident asthma at ages 1 to 5 years for preschool-aged children.

60 n infancy predicts mathematical abilities in preschool-aged children.

61 hool-aged children; school-aged children and preschool-aged children; adults; and the entire communit

62 ngitudinal study that followed children from preschool (ages 3 to 5 y) to late adolescence, and which

63 Preschool airway pathology was examined in relation to a

64 n a mobile eye examination unit visiting the preschool among children with failed preschool-based vis

65 ess including 35 (20.2%) toddlers, 34(19.7%) preschool and 65 (37.6%) school age children, and 39 (22

66 Wechsler Preschool and Primary Scale of Intelligence (WPPSI-III)

67 nitive outcome was the score on the Wechsler Preschool and Primary Scale of Intelligence (WPPSI-IV);

68 he Chinese version and norms of the Wechsler Preschool and Primary Scale of Intelligence - Revised wh

69 al and performance IQ scores on the Wechsler Preschool and Primary Scale of Intelligence Third Editio

70 ry outcome of the trial will be the Wechsler Preschool and Primary Scale of Intelligence Third Editio

71 , Second Edition, at age 4, and the Wechsler Preschool and Primary Scale of Intelligence, Third Editi

72 intelligence quotient (FSIQ) on the Wechsler Preschool and Primary Scale of Intelligence, third editi

73 and 3 years; intelligence using the Wechsler Preschool and Primary Scale of Intelligence-III at age 5

74 n (SD) age of 52.9 (8) months using Wechsler Preschool and Primary Scale of Intelligence.

75 en Scales of Early Learning and the Wechsler Preschool and Primary Scale of Intelligence.

76 e tool to monitor structural lung disease in preschool and school-age children with CF.

77 In preschool and school-age children, lung clearance index

78 Multilevel modeling of the effects of preschool and school-age maternal support on hippocampal

79 rding the importance of regular screening of preschool and school-aged children to reduce the develop

80 g periods of daily television exposure among preschool and school-aged children.

81 pathophysiology of asthma and wheeze between preschool and school-aged children.

82 The intervention was implemented in >=95 preschools and elementary schools in northern California

83 es from desktop surfaces were collected from preschools and schools.

84 ng 3 different tests: (1) Frisby; (2) Randot Preschool; and (3) Titmus Fly.

85 heir experience of pathological guilt during preschool, as well as their sex and age at the time of i

86 ermining coparental behaviors in infancy and preschool, assayed oxytocin (OT) and vasopressin (AVP),

87 Investigation of preschool asthma is important since not all children out

88 be an important clinical marker of instable preschool asthma.

89 School readiness skills at the end of preschool, attendance and chronic absences, and parental

90 We aimed to follow-up the Preschool Autism Communication Trial (PACT), to investig

91 tion-focused intervention in the original UK Preschool Autism Communication Trial, with one negative

92 as a function of preschool depression, other preschool axis I disorders, maternal history of depressi

93 veness; evidence in support of the effect of preschool-based (n=6), community-based (n=7), and home-b

94 of this study was to assess the impact of a preschool-based health promotion educational interventio

95 Preschool-based interventions offer promise to instill h

96 terventions or 6 months for school-based and preschool-based interventions; and (3) a primary outcome

97 t autorefractive screening were referred for preschool-based mobile follow-up.

98 Preschoolers in 2 cities received preschool-based Retinomax screening with a standard refe

99 ing the preschool among children with failed preschool-based visual screening.

100 Parents were recruited from Australian preschools between February and August 2010 and allocate

101 The prevalence of CVD in preschool boys varies by ethnicity, with the highest pre

102 avior Rating Inventory of Executive Function-Preschool (BRIEF-P).

103 novel heritable and nonheritable pathways to preschool callous-unemotional behaviors.

104 ations between mother-child interactions and preschool child eating or weight status published to Mar

105 swabs and blood samples were taken among 120 preschool children (<4 years of age) at an acute episode

106 Three hundred consecutive preschool children (aged 2-6 years) were screened using

107 In total, 176 preschool children (aged 3-5 y) were randomized into 2 p

108 was assessed in 42 infants (ages 0-2 yr), 39 preschool children (ages 3-6 yr), and 38 school-age chil

109 sociated with an increased risk of asthma in preschool children (aOR 1.37; 95% CI 1.02-1.83 and aOR 1

110 Child Behavior Checklist version for preschool children (CBCL/1.5-5) externalizing scale (pri

111 ncentrations and inflammation and malaria in preschool children (PSC) (age range: 6-59 mo) and women

112 ncentrations and inflammation and malaria in preschool children (PSC) (age range: 6-59 mo) and women

113 and the prevalence of low TBI (<0 mg/kg) in preschool children (PSC) (age range: 6-59 mo) and women

114 orted illness, and anthropometric status, in preschool children (PSC) (age range: 6-59 mo) and women

115 ncentrations and inflammation and malaria in preschool children (PSC) (age range: 6-59 mo) and women

116 We aimed to evaluate predictors of anemia in preschool children (PSC) (age range: 6-59 mo) by country

117 wed cross-sectional data from 16 surveys for preschool children (PSC) (n = 29,765) and from 10 survey

118 es, and 3) assess risk factors for anemia in preschool children (PSC) and women of reproductive age (

119 the relation between PZC and inflammation in preschool children (PSC; 6-59 mo) and nonpregnant women

120 omen of reproductive age (WRA; 15-49 yr) and preschool children (PSC; 6-59 mo).

121 ther the portion size effect is sustained in preschool children across 5 consecutive days, a period t

122 The authors enrolled 562 preschool children age 3 to 5 years, 51% female, 54% His

123 LA) preschool vision program screened 11 260 preschool children aged 3-5 years in Los Angeles County

124 den of behavioural and emotional problems in preschool children and comorbidities in the Kilifi Healt

125 It is evident from our review that preschool children and infants also contribute a signifi

126 t very early in life and are prevalent among preschool children and infants, often in the absence of

127 percent of all decreased VA in Asian and NHW preschool children and more than 90% of decreased VA wit

128 and vitamin A status assessment in women and preschool children and to analyze the findings in terms

129 IDA is most prevalent among preschool children and women.

130 ate in older children, whereas phenotypes in preschool children are variable, often including non-ato

131 a variety of familiar vegetables or fruit to preschool children as a snack would lead to increased se

132 of multiple screening tests for identifying preschool children at higher risk for vision problems an

133 authors investigated diagnostic outcomes of preschool children at school age and in adolescence.

134 tioning was investigated in 20 adults and 32 preschool children born very preterm.

135 When asked, "duck:duckling is like tiger:?," preschool children choose another duckling (object match

136 Origin of Cardiovascular Risk in Overweight Preschool Children cohort study aimed to evaluate at the

137 In this prospective study in a preschool children cohort, we assessed whether the fract

138 ly reduced in moderate uncorrected hyperopic preschool children compared to emmetropic subjects.

139 Many preschool children develop recurrent, severe episodes of

140 However, unlike older asthmatic patients, OW preschool children do not demonstrate reduced responsive

141 th, malaria-naive adults and malaria-exposed preschool children elicit vaccine-specific antibodies wi

142 This demonstration that preschool children failed to adjust their intake during

143 ic mechanisms, (ii) better stratify allergic preschool children for prognosis and (iii) propose novel

144 Here we examined the gut microbiome of preschool children from 30 Nigerien communities randomiz

145 ye diseases may prevent a high proportion of preschool children from experiencing unnecessary VI and

146 neural mechanisms of selective attention in preschool children from lower socioeconomic status backg

147 epidemiological studies of these problems in preschool children from sub-Saharan Africa have been pub

148 Preschool children from the Western Highlands of Guatema

149 The WHO estimates that 190 million preschool children have vitamin A deficiency (VAD).

150 Many preschool children have wheeze or cough, but only some h

151 y responses measured at a follow-up visit in preschool children in relation to reported time with res

152 ucted a tuberculin skin-test survey in 5,119 preschool children in the general population and among h

153 As the most common chronic disease in preschool children in the United States, early childhood

154 The study included preschool children in the United States.

155 ddlers does not appear to be sustained among preschool children in this context and does not affect t

156 vioural and emotional problems are common in preschool children in this Kenyan rural area and are ass

157 he prevalence of active trachoma among rural preschool children in Wadla district was 22%.

158 associations of active trachoma among rural preschool children in Wadla district, Amhara region, Eth

159 do not establish whether vision screening in preschool children is better than no screening.

160 Testability for CVD in preschool children is high by 4 years of age.

161 s before and after a high-dose supplement in preschool children living in a region in South Africa wi

162 Newly diagnosed preschool children may have clinical and immunological c

163 In preschool children off controller therapy, OW is associa

164 rated that mass azithromycin distribution to preschool children reduced childhood mortality(1).

165 Future prevention interventions in preschool children should target both parents and childr

166 aimed to evaluate at the onset of obesity in preschool children the prevalence of metabolic abnormali

167 Mass distribution of azithromycin to preschool children twice yearly for 2 years has been sho

168 etween prenatal antibiotic use and asthma in preschool children using data from the prescription data

169 Asthma in preschool children was defined as >/= 3 prescriptions fo

170 se countries, the mean deworming coverage in preschool children was estimated at 33.0% (95% CI 32.9-3

171 f pregnancy and the development of asthma in preschool children was observed in the case-control anal

172 n the score of JPAC and asthma knowledge for preschool children whose asthma onset was within one yea

173 ) sensitivity and 84% (70/83) specificity in preschool children with 53% (96/180) prescreening probab

174 The sample consisted of 421 newly diagnosed preschool children with ASD 2 to 4 years old (355 boys;

175 among 509 adults and 140 school-age and 131 preschool children with asthma/wheeze from the Unbiased

176 h children with asthma, IgE transcripts from preschool children with atopic dermatitis are significan

177 dy was to characterize the IgE repertoire of preschool children with atopic dermatitis with regard to

178 In preschool children with CF, lung clearance index correla

179 , as a means to track disease progression in preschool children with CF.

180 to therapy for exacerbations in infants and preschool children with CF.

181 le in an interventional study in infants and preschool children with CF.

182 training intervention offered for parents of preschool children with disruptive behavioral problems s

183 mited evidence supports this intervention in preschool children with outpatient wheezing illnesses.

184 lower respiratory tract illnesses (LRTIs) in preschool children with recurrent wheeze.

185 ldren with moderate to severe asthma, and in preschool children with recurrent wheeze.

186 Despite increased anti-viral responses, preschool children with severe wheeze had impaired airwa

187 These data suggest that the number of preschool children with VI is projected to increase disp

188 tool for predicting asthma at school age in preschool children with wheeze or cough.

189 and school-aged children with asthma and 54 preschool children with wheezing [68.2% of whom were ato

190 alorie supplementation to pregnant women and preschool children younger than 6 y in the intervention

191 re replicated in a second experiment (n = 26 preschool children), where familiar symbols and line dra

192 dotoxin, and environmental tobacco smoke (in preschool children); and limited or suggestive evidence

193 tions have been shown to reduce mortality in preschool children, although the factors mediating this

194 larger portions of food increases intake in preschool children, it is unknown whether this portion s

195 In a longitudinal prospective study of preschool children, the authors assessed the likelihood

196 Among Head Start preschool children, the prevalence of amblyopia and stra

197 rs of response to inhaled corticosteroids in preschool children, these relatively cheap and available

198 dict the risk of later asthma in symptomatic preschool children, which is ready to be tested in other

199 or low to moderate hyperopia (2.0-<4.0 D) in preschool children, with family history of strabismus an

200 W and asthma severity and response to ICS in preschool children.

201 rol scale and then adapting it to Portuguese preschool children.

202 ontribute to improved sustained attention in preschool children.

203 ted with a small increased risk of asthma in preschool children.

204 tly improves an accurate asthma diagnosis in preschool children.

205 eding on the development of sensitization in preschool children.

206 le asthma diagnosis is difficult in wheezing preschool children.

207 onsidered to be a commensal, particularly in preschool children.

208 tudies on prevalence of allergic rhinitis in preschool children.

209 mprove long-term vision outcomes of affected preschool children.

210 moglobin concentrations modestly in Nigerian preschool children.

211 sava to improve vitamin A status of Nigerian preschool children.

212 ly Informed) intervention was used to enrich preschool classrooms serving children from low-income fa

213 ive parenting, reducing by 21% the effect of preschool conduct disorder in predicting major depressio

214 Delirium prevalence was 44% using the PreSchool Confusion Assessment Method for the ICU and 47

215 elirium daily by the research team using the PreSchool Confusion Assessment Method for the ICU and by

216 rsus 35% in patients 2-5 years old using the PreSchool Confusion Assessment Method for the ICU and re

217 The PreSchool Confusion Assessment Method for the ICU demons

218 ility was assessed using blinded, concurrent PreSchool Confusion Assessment Method for the ICU evalua

219 An interdisciplinary team created the PreSchool Confusion Assessment Method for the ICU for pe

220 The PreSchool Confusion Assessment Method for the ICU is a h

221 The short-form PreSchool Confusion Assessment Method for the ICU mainta

222 elirium assessments were completed using the Preschool Confusion Assessment Method for the ICU.

223 from the prospective validation study of the Preschool Confusion Assessment Method for the ICU.

224 In a cohort of preschool control children and children with asthma, we

225 tion, we designed and evaluated a game-based preschool curriculum intended to exercise children's eme

226 The results suggest that attention to preschool depression and conduct disorder in addition to

227 data from 167 children participating in the Preschool Depression Study, a longitudinal study that fo

228 l time points during 10 years as part of the Preschool Depression Study.

229 disorder at age 6 or later as a function of preschool depression, other preschool axis I disorders,

230 Study findings provide evidence that this preschool depressive syndrome is a robust risk factor fo

231 to explore the longitudinal relation between preschool eczema (PSE), FLG mutation, or both and IgE se

232 While symptoms are often evident before preschool, few children receive appropriate treatment du

233 rimental and control groups persisted at the preschool follow-up and resembled differences initially

234 End-of-preschool follow-up of a nonrandomized, matched-group co

235 nt differences in cortisol production at the preschool follow-up, such that children in the ABC inter

236 y school for children aged 8-13 years, and a preschool for children younger than 5 years.

237 Full-day preschool graduates also had higher rates of attendance

238 Of the total, 596 had previously received a preschool health promotion intervention at 3 to 5 years

239 sought to explore the long-term impact of a preschool health promotion intervention delivered in an

240 on parents/caregivers of children attending preschools in a socioeconomically disadvantaged communit

241 ter-randomized trial involving 15 Head Start preschools in Harlem, New York.

242 ized controlled study involved 15 Head Start preschools in Harlem, New York.

243 analysis included 3429 children in 37 public preschools in San Francisco, California, who underwent v

244 health, and those who previously received a preschool intervention showed a negligible residual effe

245 expansion of the CPCs in Chicago, a full-day preschool intervention was associated with increased sch

246 en's experience of pathological guilt during preschool (Lambda = 0.91, F2,120 = 6.17, P = .003, d = .

247 Scales of Infant Development, Third Edition; Preschool Language Scale, Fourth Edition), adaptive beha

248 eased faster for those with higher levels of preschool maternal support.

249 cludes prospective assessments of poverty in preschool, measures of testosterone, DHEA, and hippocamp

250 sonance imaging were associated with reduced preschool motor and visuomotor function and more externa

251 Preschool-onset (18 months) remitting wheeze was only as

252 Preschool-onset conduct disorder also predicted major de

253 tility and public health significance of the preschool-onset depression construct, the authors invest

254 Preschool-onset depression emerged as a robust predictor

255 Preschool-onset depression, a developmentally adapted fo

256 henotypes were identified: never/infrequent, preschool-onset remitting, midchildhood-onset remitting,

257 e) in 4- and 5-year-old children enrolled in preschool or kindergarten is associated with significant

258 Full-day preschool participants had higher scores than part-day p

259 that school achievement could be improved by preschool pedagogy in which numerate adults engage child

260 d whether early child care spanning the full preschool period from infancy onward is protective for c

261 The preschool period is a pivotal time for lifestyle interve

262 ograms have the potential to improve current preschool practice and strengthen these early skills, po

263 significantly related to letter knowledge, a preschool predictor of later reading ability.

264 The study findings indicate that enriching preschool programs serving at-risk children with a relat

265 oach that can leverage public investments in preschool programs to enhance public health.

266 Two hundred two preschool recurrent wheezers (aged 2-4 yr) were prospect

267 tive abilities with the Wechsler Primary and Preschool Scale of Intelligence(TM)-III (WPPSI-III) and

268 th Edition), cognitive (Wechsler Primary and Preschool Scale of Intelligence, 3rd Edition), and behav

269 s assessed IQ using the Wechsler Primary and Preschool Scales of Intelligence-Revised.

270 ith 7887 age-matched controls drawn from the preschool screening cohort in the north of Scotland in t

271 visually insignificant etiologies or through preschool-screening eye examinations; all had 20/20 in b

272 Clinical Evaluation of Language Fundamentals-Preschool, Second Edition, at age 4, and the Wechsler Pr

273 e, near control score, near PACT, and Randot Preschool stereoacuity (Stereoptical Co, Inc, Chicago, I

274 ion between early life feeding variables and preschool TL.

275 on, family-support, and health services from preschool to third grade.

276 apping VA fortification and supplementation, preschool VA capsule distribution should be re-evaluated

277 ple Australian states have introduced funded preschool vaccination programs in 2018.

278 viour Rating Inventory of Executive Function-Preschool Version (BRIEF-P) in the children at age 5-6 y

279 University of California Los Angeles (UCLA) preschool vision program screened 11 260 preschool child

280 Preschool vision screening could allow detection and tre

281 Many preschool visual screening programs incorporate school-b

282 ssion severity during early childhood (i.e., preschool) was associated with more global hyporeactivit

283 rus (RSV) causes exacerbations of asthma and preschool wheeze (PSW).

284 rsy about its effectiveness in children with preschool wheeze and a corticosteroid responder phenotyp

285 Data on preschool wheeze were extracted from primary-care record

286 a particular focus on the difficult area of preschool wheeze.

287 Our study indicates that sST2 in preschool wheezers has predictive value for the developm

288 lchildren, but nothing is known about ASM in preschool wheezers.

289 ant growth characteristics with the risks of preschool wheezing (1-4 years) and school-age asthma (5-

290 itively associated with an increased risk of preschool wheezing (pooled odds ratio [pOR], 1.34; 95% C

291 t adjusted for gestational age at birth with preschool wheezing (pOR, 1.10; 95% CI, 1.00-1.21) and sc

292 ndependently associated with higher risks of preschool wheezing and school-age asthma (P < .05).

293 n this age group is generally referred to as preschool wheezing.

294 the hypothesis that an enrichment program in preschool would be associated with reduced levels of psy

295 The preschool years offer a unique window of opportunity to

296 the association of occlusion throughout the preschool years with improved visual acuity in infants t

297 Speech disorders are highly prevalent in the preschool years, but frequently resolve.

298 During the preschool years, there appears to be only a small amount

299 by MRI in the neonatal period and during the preschool years.

300 en preceded by wheezing illnesses during the preschool years.