ライフサイエンスコーパス: infancy

1 alytical technique is still very much in its infancy.

2 tastable high-entropy alloys is still in its infancy.

3 elates of anxiety symptoms are observable in infancy.

4 iated hospitalization which persisted beyond infancy.

5 idual differences in temperament observed in infancy.

6 ech, in the function of language networks in infancy.

7 alformations (LUTM) even when managed during infancy.

8 cutes phylum were acquired at later times in infancy.

9 fspring growth and adiposity patterns during infancy.

10 nism of action of these lncRNAs are in their infancy.

11 rstanding of their functions is still in its infancy.

12 STING-associated vasculopathy with onset in infancy.

13 ts of uncertain significance (VUS) is in its infancy.

14 why C-H (18) F-fluorination is still in its infancy.

15 y responses following active vaccinations in infancy.

16 sex was each associated with higher nTreg in infancy.

17 igenetics in eating disorders remains in its infancy.

18 ir optoelectronic properties is still in its infancy.

19 other oral organisms, however, are in their infancy.

20 960s when clinical diagnostics were in their infancy.

21 ive role against NTS infections during early infancy.

22 standing of the human genome is still in its infancy.

23 ch' wireless link technology is still in its infancy.

24 progress to status epilepticus and death in infancy.

25 nalysis or cultivation is still in its early infancy.

26 s associated with reduced lung function from infancy.

27 the environment during a sensitive period in infancy.

28 astrointestinal and respiratory illnesses in infancy.

29 associated with severe neurodegeneration in infancy.

30 is the most common benign vascular tumor of infancy.

31 ren after unilateral cataract surgery during infancy.

32 tibody responses to the DTP vaccine in early infancy.

33 ota throughout the neonatal period, and into infancy.

34 e commonly present in the lower airways from infancy.

35 IA, just prior to seroconversion, and during infancy.

36 vioral consequences of ZIKV infection during infancy.

37 ial populations and bladder health is in its infancy.

38 of oral microbial communities continues past infancy.

39 her's fate in the human body is still in its infancy.

40 ing of immune cells in injury remains in its infancy.

41 , brain tumors, and focal hyperinsulinism of infancy.

42 ve dilated cardiomyopathy and death in early infancy.

43 gent features of cell groups is still in its infancy.

44 eness of the environment relative to that in infancy.

45 y for brain development during pregnancy and infancy.

46 PM2.5 may disrupt cardiac vagal tone during infancy.

47 probiotic Bifidobacterium bifidum strain in infancy.

48 fever virus following routine vaccination in infancy.

49 rconnected brain areas communicate is in its infancy.

50 events experienced in utero and during early infancy.

51 to the clinic, but the field is still in its infancy.

52 omes challenging for IOL implantation during infancy.

53 with reduced risk of clinical malaria during infancy.

54 However, the field is still in its infancy.

55 atory tract illness, on lung function during infancy.

56 d adiposity and lower fat-free mass in early infancy.

57 ts, root research has long been stuck in its infancy.

58 The fourth had viral encephalitis during infancy.

59 h protection against clinical malaria during infancy.

60 and adiposity acquisition from birth through infancy.

61 , 5 (45%) were stillborn, and 1 (9%) died in infancy.

62 alter where the reservoir is established in infancy.

63 or directly compared them to neurons born in infancy.

64 current understanding of PTS is still in its infancy.

65 ecal sIgA concentrations especially in later infancy.

66 ter size at birth and greater weight gain in infancy.

67 ific transcriptional mechanisms are in their infancy.

68 s, there is less evidence on survival beyond infancy.

69 ngly correlated materials are still in their infancy.

70 gical features compared with neurons born in infancy.

71 but this association has not been studied in infancy.

72 ndrome may develop MH-related RD as early as infancy.

73 emergence of neural flexibility during early infancy.

74 heir implementation in plants remains in its infancy.

75 knowledge of spiral cleavage is still in its infancy.

76 ng a cognitively flexible brain during early infancy.

77 markers of adiposity and lipid metabolism in infancy.

78 st was preceded by reduced sphingomyelins at infancy.

79 ons cause hyperinsulinaemic hypoglycaemia of infancy.

80 the increased telomere attrition rate during infancy.

81 state and fate of progenitor cells is in its infancy.

82 of adiposity and higher total cholesterol in infancy.

83 ost patients who underwent thymectomy during infancy.

84 ion of such heterojunctions are still at its infancy.

85 HD covary with neuromotor development during infancy.

86 nship between age and cancer is still in its infancy(2,3,7,8).

87 Infancy 25(OH)D was inversely associated with BMIZ in ch

88 We examined the associations of infancy 25(OH)D with BMI-for-age z-score (BMIZ) at ages

89 nses, senses, and other observations) during infancy (9-20 weeks of age).

90 n newborns and the leading cause of death in infancy, affecting nearly 1% of live births.

91 nt of the gastrointestinal microbiota during infancy affects immune system development and oral toler

92 tablish whether general anaesthesia in early infancy affects neurodevelopmental outcomes.

93 ent of Lifestyle and Allergic Disease During Infancy (ALADDIN).

94 jects who received 3 doses of HBV vaccine in infancy and 251 nonvaccinated subjects.

95 zation was assessed at 6 time points between infancy and age 16 years.

96 function of logical reasoning is present in infancy and aid understanding and learning about the soc

97 p with generalized arterial calcification of infancy and arterial calcification due to CD73 deficienc

98 (n = 253), lung function was measured during infancy and at 6, 11, 18, and 24 years.

99 een nonoptimal neuromotor development during infancy and autistic traits in childhood.

100 xposures to unpredictable maternal inputs in infancy and childhood (unpredictable maternal mood and s

101 We examined how birth size and growth in infancy and childhood were associated with IQ at age 5 y

102 elopmental and epileptic encephalopathies of infancy and childhood with diverse clinical manifestatio

103 l lung development, and continues throughout infancy and childhood, marking an extended window of sus

104 atural history of allergic conditions during infancy and childhood.

105 tract infections and hospital visits during infancy and childhood.

106 ctionally flexible vocalization, starting in infancy and continuing throughout life, long before ther

107 r foods and beverages, beginning during late infancy and continuing to 24 mo of age.

108 other foods and beverages, beginning during infancy and continuing to age 24 mo.

109 resage responding to these categories beyond infancy and discuss how social biases favoring own-race

110 The strongest evidence is available for infancy and early childhood, and additional studies in o

111 mia on offspring abdominal adiposity (AA) in infancy and early childhood.

112 se association between having a furry pet in infancy and EoE (aOR, 0.58; 95% CI, 0.34-0.97).

113 ith nonoptimal neuromotor development during infancy and examined the genetic correlation between non

114 ere associated with shorter infant TL across infancy and higher infant externalizing behavioral probl

115 aspects of functional behavior that begin in infancy and improve with experience.

116 obes for chronic neural recordings is in its infancy and initial studies leave questions about long-t

117 It typically manifests in infancy and is associated with high mortality.

118 ge in frontal theta during a novel video) in infancy and later general cognitive outcome.

119 een novel individuals appears early in human infancy and might be the product of an adaptive affiliat

120 history of breathing problems/eczema during infancy and non-respiratory syncytial virus (mostly rhin

121 ilarly flavored foods when re-exposed during infancy and potentially childhood.

122 tive and undermining coparental behaviors in infancy and preschool, assayed oxytocin (OT) and vasopre

123 ssible association between antibiotic use in infancy and risk of childhood obesity, with implications

124 r severe respiratory tract infections during infancy and subsequent persistent wheeze.

125 earch on supramolecular BCPs is still in its infancy and their generation by living processes remains

126 to emphasize that this field is still in its infancy and there are a number of potential barriers to

127 Proper nutrition during infancy and toddlerhood is crucial for supporting health

128 Nutrition during infancy and toddlerhood may influence health and disease

129 toma is the most common malignant disease of infancy, and amplification of the MYCN oncogene is close

130 to air pollution exposures during pregnancy, infancy, and childhood in a UK population-based birth co

131 d nitrogen dioxide exposure in utero, during infancy, and in childhood were negatively associated wit

132 Peak thymic output occurs in utero, during infancy, and in early childhood, diminishing throughout

133 Control over size and shape is still in its infancy, and optical properties are not yet at the same

134 factors on GM ecology, its maturation during infancy, and the interrelationships between the microbio

135 ion of hippocampus-dependent memories during infancy, and the role that experience exerts in promotin

136 fecal calprotectin) from newborns and during infancy, and their effects on development of the intesti

137 Food-sensitized-tolerance in infancy appears to be associated with a similar pattern

138 The evidence that fetal life and early infancy are "critical" or "sensitive" ages for later car

139 The evidence that fetal life and early infancy are "critical" or "sensitive" ages for later dev

140 arietal and sub-cortical neurogenesis during infancy are critical to the pathophysiology of ID.

141 to assess cognitive flexibility during early infancy are lacking, we aimed to assess the spatiotempor

142 imary intraocular lens (IOL) implantation in infancy are necessary.

143 The field is in its infancy as compared to their class I counterparts.

144 of balloon angioplasty for native CoA during infancy beyond the neonatal period was examined in infan

145 e hippocampus in infancy was absent in early infancy but became evident later in childhood and persis

146 each also predicted greater inflammation in infancy, but not lifetime colitis risk (both p > 0.05).

147 ocial stress confer risk for inflammation in infancy, but that stress in the mother-infant relationsh

148 This process is still in its infancy, but will facilitate future research and TPC tar

149 ccharides (HMOs) shape gut microbiota during infancy by acting as fermentable energy source.

150 nt role in brain development and behavior in infancy by promoting myelination.

151 undergo numerous medical interventions from infancy, can suffer from lifelong debilitation caused by

152 The use of plant chassis, although still in infancy, can take advantage of plant cells' inherent cap

153 Three distinct endotypes were found in infancy, characterized by a unique inflammatory signatur

154 ood and airways of healthy volunteers across infancy/childhood (2-12 yr), maturity (20-50 yr), and ol

155 Exposure to stress during early life (infancy/childhood) has long-term effects on the structur

156 After infancy, CLA(-) T(H)2 frequencies were increased in pati

157 Atopic dermatitis in infancy comprises three immunological endotypes.

158 research on neuroeconomic gameplay is in its infancy, consistencies have been observed across disorde

159 t that upper airway microbial composition in infancy contributes to the development of AR during chil

160 d we hypothesized that reduced protection in infancy could be due to impaired establishment of lung T

161 However, AD during infancy did not predict childhood behaviours.

162 An infancy dietary pattern representing higher levels of un

163 um and generalized arterial calcification of infancy, diseases that currently lack preventive or ther

164 ess than 1 h of general anaesthesia in early infancy does not alter neurodevelopmental outcome at age

165 cause of nemaline myopathy that is fatal in infancy due to respiratory insufficiency.

166 moderate to severe range; mild hypotonia in infancy followed by spastic diplegia (mean age: 8.4 +/-

167 ies in the protection against GBS disease in infancy following maternal exposure to GBS colonization.

168 the efficacy of oral tolerance induction in infancy for the prevention of FA.

169 me points during the neonatal period, and in infancy) from 596 full-term babies born in UK hospitals;

170 Generalized arterial calcification of infancy (GACI) is a rare genetic disease that affects th

171 nclude generalized arterial calcification of infancy (GACI), characterized by severe, early-onset min

172 osure to malaria blood stage antigens during infancy had a significant effect on T-helper lymphocyte

173 respiratory tract infections (fLRIs) during infancy have been identified as risk factors for persist

174 children with both peanut and egg allergy in infancy have tree nut allergy at age 6 years.

175 learning in evolutionary genomics is in its infancy, here we demonstrated its potential to detect in

176 type 2 generalized arterial calcification of infancy, heritable ectopic mineralization disorders with

177 In infancy, higher protein intake is consistently associate

178 rminant of the proportion present throughout infancy, highlighting the importance of prenatal immune

179 ive antiretroviral therapy (ART) regimens in infancy, HIV-1-specific antibody concentrations are asso

180 t patterns of mutagenesis are still in their infancy; however, technologies to understand synthetical

181 growth impairment, on risk of malaria during infancy in Africa.

182 iac, and genitourinary defects; and death in infancy in one individual.

183 crobial carbohydrate metabolism during early infancy in protecting against the development of allergi

184 migration, neuronal axon guidance during the infancy in rats in response to perinatal alcohol/ or nic

185 psychopathology frequently take shape during infancy in the context of parent-infant interactions and

186 eterm birth and improved visual attention in infancy in this sample, no consistent long-term benefits

187 as early as vocalization can be observed in infancy, in preterm infants still in neonatal intensive

188 RSV-induced wheezing illnesses during infancy influence respiratory health for years.

189 In this disease of early infancy, initially, the opacities remain confined to a f

190 ument how viral diversity changes from human infancy into senescence.

191 dren shift from harsh deprived conditions in infancy into supportive conditions in childhood and adol

192 Growth failure during infancy is a major global problem that has adverse effec

193 Exposure to high levels of pollen in infancy is a risk factor for allergic respiratory diseas

194 We suggest that EEG theta change in infancy is an excellent candidate predictive biomarker t

195 re to more unpredictable maternal signals in infancy is associated with aberrant maturation of cortic

196 ociations changes and whether weight gain in infancy is associated with MD.

197 Development of the gut microbiota in infancy is important in maturation of the immune system.

198 butyrate production in the gut during early infancy is protective against the development of atopic

199 sal hepatitis B immunisation at birth and in infancy is the key strategy for global elimination of HB

200 le epidemiology in this area is still in its infancy, its scope will likely expand dramatically over

201 eatures that include feeding difficulties in infancy, joint hypermobility, and characteristic facial

202 ient environment during fetal life and early infancy may adversely alter the ontogeny of the immune s

203 In conclusion, thymectomy during infancy may increase future risk of infection or autoimm

204 er how responding to face race and gender in infancy may presage responding to these categories beyon

205 Dog ownership in infancy may prevent food allergy.

206 asured by the chest-compression technique in infancy (mean age +/- SD: 2.0 +/- 1.2 mo).

207 ation of the host microbial community during infancy might be an especially promising approach.

208 e rats with a history of maltreatment during infancy mistreat their own offspring.

209 In infancy, mortality risk was amplified by obesity, wherea

210 dren with neuroendocrine cell hyperplasia of infancy (NEHI), surfactant dysfunction mutations, and ot

211 h FLG mutations who were exposed to a dog in infancy (odds ratio, 0.16; 95% CI, 0.03-0.86; P = .03).

212 showed persistent T cell lymphopenia during infancy, often associated with nail dystrophy.

213 combined effects of tptef/te and VmaxFRC in infancy on risk for asthma and abnormalities of airway s

214 coherent perception across the lifespan from infancy onwards.

215 SCA13 exists in distinct forms with onset in infancy or adulthood.

216 Children infected with HBV during infancy or childhood are more likely to develop chronic

217 egenerative disorders with an early onset in infancy or childhood.

218 ients with severe hypomyelination present in infancy or early childhood and develop severe neurologic

219 rm of muscular dystrophy and affects boys in infancy or early childhood.

220 2H G379R, G381R, and F416L) linked to severe infancy or early-onset epileptic encephalopathy exhibite

221 bone growth following use in late pregnancy, infancy, or childhood up to 8 years of age; an imbalance

222 t cries are the predominant vocalizations of infancy, our all-day recordings showed that protophones

223 hat selective attention is well-organized in infancy, particularly toward social information, and ind

224 ly control timing of malaria exposure during infancy, peripheral blood mononuclear cells collected fr

225 responsiveness to the gut microbiota during infancy precedes asthma and allergy development, possibl

226 t the parental caudate-vmPFC connectivity in infancy predicted lower child externalizing symptoms at

227 Higher maternal unpredictability during infancy presaged greater uncinate fasciculus GFA in chil

228 enting (RP) intervention, initiated in early infancy, prevented the use of nonresponsive, controlling

229 gs presented with stepwise regression during infancy, profound hypotonia and muscle weakness, severe

230 and deficient myelination on serial scans in infancy, prompting the diagnosis of Pelizaeus-Merzbacher

231 suggest that growth spurts starting in early infancy reduce mammographic dense area in adulthood.

232 ding during the prenatal period and in early infancy reduce the risk of early-onset AD, a phenotype a

233 al mechanisms linking these processes during infancy remain elusive.

234 ing and age-related diseases is still in its infancy, requiring in-depth characterization of the mole

235 esponding to others' joint attention bids in infancy (RJA) and to a reduced tendency to initiate join

236 STING-associated vasculopathy with onset in infancy (SAVI), a severe pediatric autoinflammatory dise

237 STING-associated vasculopathy with onset in infancy (SAVI), affects children and leads to severe lun

238 STING-associated vasculopathy with onset in infancy (SAVI).

239 Although still in their infancy, several applications are emerging for mixed-met

240 s exposed to depriving institutional care in infancy show reduced HPA axis responsivity, even years a

241 P not meeting the treatment threshold during infancy showed various late retinal findings and complic

242 muscle satellite cells (SCs) remains at the infancy stage.

243 c fibrosis (CF) lung disease starts in early infancy, suggesting that preventive treatment may be mos

244 identify changes in the airway microbiota in infancy that could underpin deterioration and potentiall

245 STING-associated vasculopathy with onset in infancy that is associated with enhanced expression of i

246 In infancy, the developmental composition of the microbiome

247 While in its infancy, the field of 'Cancer Systems Immunology' has al

248 During early infancy, the nonfood environment may protect against thi

249 While still in their relative infancy, these developing iPSC-based technologies hold c

250 Although this field is still in its infancy, these efforts offer exciting potential for the

251 While still in its infancy, this nascent field draws inspiration from the r

252 hanges in calcium physiology that occur from infancy through adolescence.

253 th, size, and body-composition outcomes from infancy through adulthood.

254 d growth in both structure and function from infancy through early childhood, and this significantly

255 It develops from infancy through individual characteristics and the envir

256 The science is however at its infancy to address whether synergistic variability and v

257 arly-life factors and systolic BP (SBP) from infancy to adolescence using linear spline mixed-effects

258 Using data from infancy to adolescence, our analysis of longitudinal whe

259 ings and time budgets of children from early infancy to adolescence.

260 profiles along an age-related spectrum from infancy to adulthood (eg, inducible costimulator molecul

261 t trends in US mortality related to CHD from infancy to adulthood over the past 19 years and determin

262 isease comprises an expanding continuum from infancy to adulthood, with early evidence of genotype-ph

263 From infancy to early childhood, hunter-gatherer children lea

264 um of overlapping phenotypes with onset from infancy to late adulthood.

265 was inversely associated with mortality from infancy to mid-adulthood.

266 We examined gut microbiota development from infancy to school age in relation to onset of IgE-associ

267 lergic compared to nonallergic children from infancy to school age.

268 e lack of long-term prospective studies from infancy to the onset of COPD.

269 lter DNA methylation, to dams exposed during infancy to the scarcity-adversity model of low nesting r

270 rophy, and the onset of symptoms ranges from infancy to the second decade of life.

271 s inversely related to body weight gain from infancy until puberty.

272 nectivity (FC) of language networks in human infancy using resting-state functional magnetic resonanc

273 xhibited higher interindividual variation in infancy versus later in life.

274 estational age and weight, zone and stage at infancy, visual acuity, current retina vascularization s

275 resulting from insult to the hippocampus in infancy was absent in early infancy but became evident l

276 Also, every 25-nmol/L 25(OH)D in infancy was associated with an adjusted 1.3 points lower

277 Higher FM accretion in infancy was associated with higher FM and waist circumfe

278 Weight gain in infancy was associated with IQ [per z-score increase fro

279 938 girls, PM10 exposure in utero and during infancy was negatively associated with pubertal stage an

280 In contrast, rapid weight gain in infancy was positively associated with BBD relative to s

281 influenza often presents non-specifically in infancy, we aimed to assess the extent to which existing

282 and FFM at birth and their accretion during infancy were associated with body composition and cardio

283 Higher FFM at birth and FFM accretion in infancy were associated with higher FM, FFM, waist circu

284 CMA and the use of hypoallergenic formula in infancy were associated with the later development of JI

285 lucosylceramides, and phospholipid ethers in infancy were inversely associated with mAb+ risk, while

286 Plasma ascorbic acid and 25(OH)D at infancy were lower in HLA-DR3/DR4 children among IA case

287 r respiratory tract infection history during infancy, wheezing history to 5 age years, and ensuing ma

288 ing and mass spectrometry are still in their infancy when it comes to their utilization in meat detec

289 ctions occurring prenatally and during early infancy, which may impair the trajectories of healthy gr

290 ith a history of ROP and no treatment during infancy who demonstrated late retinal findings or compli

291 y neural predictors of cognitive function in infancy will allow us to map the neurodevelopmental path

292 f FM and FFM at birth and their accretion in infancy with height, waist circumference, FM, FFM, and c

293 s and three unrelated males who presented in infancy with intractable focal seizures and severe devel

294 th, but associations of protein intake after infancy with later growth and IGF-I are less clear.

295 n greater direct UV light exposures in early infancy with lower incidence of eczema and proinflammato

296 k (K(Na)1.1) channels, result in epilepsy of infancy with migrating focal seizures (EIMFS) and severa

297 lepsies are frequently severe, presenting in infancy with pharmaco-resistant seizures; are often acco

298 peutic potential of its inhibitors is in its infancy with the first clinical trial having just starte

299 ction, positron acceleration is still at its infancy, with limited projects currently undergoing to p

300 cortical responses to faces develop early in infancy, yet evidence is conflicting on the central ques