ライフサイエンスコーパス: increase with age

1 to adolescence (ie, systematic decreases or increases with age).

2 also has ontogenetic components (morningness increases with age).

3 erstitial fibrosis, and tubular atrophy) all increase with age.

4 ageing in that its incidence and prevalence increase with age.

5 11.2 with a significant (P < 0.0001) linear increase with age.

6 lowing severe brain trauma has been shown to increase with age.

7 all time points, which did not significantly increase with age.

8 rate, and cholesterol crystals, all of which increase with age.

9 th IgG1/IgG3-dominated humoral immunity that increase with age.

10 wards females and predation risk appeared to increase with age.

11 nd the number and size of simple renal cysts increase with age.

12 0.87-1.24]; P = .69), did not significantly increase with age.

13 The incidence rates in all groups increase with age.

14 The postoperative stroke incidence does not increase with age.

15 ons are nonrandom, more prevalent in men and increase with age.

16 ty and electrophysiological dysfunction both increase with age.

17 drome and urinary incontinence significantly increase with age.

18 ecretion due a failure of insulin content to increase with age.

19 Postsurgery mortality and morbidity increase with age.

20 qAF levels exhibited a significant increase with age.

21 FFMI curve showed a very modest exponential increase with age.

22 to injury in the central nervous system may increase with age.

23 ibody with immunoglobulin, which is known to increase with age.

24 scence-associated CD4+ T cells that normally increase with age.

25 Seropositivity to JC, MCV, and HPyV7 increased with age.

26 The density of cerebral LLC increased with age.

27 y of the cingulo-opercular/salience network, increased with age.

28 ductions than the other groups, and severity increased with age.

29 th age, and the apparent digestibility of CF increased with age.

30 Both bacterial abundance and diversity increased with age.

31 For each pathogen, the incidence increased with age.

32 nulosa cells), and their ovarian mRNA levels increased with age.

33 Within-group cooperation increased with age.

34 e prevalence of MetS was higher in women and increased with age.

35 alence of disease in each vascular territory increased with age.

36 nosed in 94 infants (37%) and its prevalence increased with age.

37 Risk increased with age.

38 The prevalence of periodontitis increased with age.

39 he prevalence and levels of serum antibodies increased with age.

40 e the proportion in poorer health categories increased with age.

41 ar, bone marrow, and left ventricular uptake increased with age.

42 eas the minor-to-major splice variant ratios increased with age.

43 .3 years; anisometropia and astigmatism also increased with age.

44 ys, methionine and total homocysteine (tHcy) increased with age.

45 Mortality rates were higher among men, and increased with age.

46 al cortex and the posterior cingulate cortex increased with age.

47 eparan sulfates (HS) as the GAG species that increased with age.

48 f controls and that the degree of activation increased with age.

49 difference existed throughout childhood but increased with age.

50 Periodontitis prevalence and severity increased with age.

51 CD36 and integrin alpha5beta1 significantly increased with age.

52 lpha-secreting) CD4(+) T cell responses also increased with age.

53 om the life-course perspective, and the risk increased with age.

54 ain networks, and this positive relationship increased with age.

55 years and, with one exception, exponentially increased with age.

56 of alpha-syn persisted in the same cells and increased with age.

57 rface area were similar in men and women and increased with age.

58 beta accumulation and plaque deposition that increases with age.

59 d susceptibility to new microbial infections increases with age.

60 power morcellation is low overall, but risk increases with age.

61 Its incidence increases with age.

62 he incidence of certain common human cancers increases with age.

63 Hepatitis A illness severity increases with age.

64 n overall mutation incidence of 15.7%, which increases with age.

65 Furthermore, overall incidence increases with age.

66 xicity with anthracycline-based chemotherapy increases with age.

67 hat the latency before the nerve regenerates increases with age.

68 ci-immune to malaria, risk of severe malaria increases with age.

69 lts aged >/= 50 years; the risk of infection increases with age.

70 The incidence of hematologic cancers increases with age.

71 ional entropy associated with brain activity increases with age.

72 oholic fatty liver disease (NAFLD) in humans increases with age.

73 ence of both dementia and painful conditions increases with age.

74 and the incidence of mortality and morbidity increases with age.

75 incidence and severity of herpes zoster (HZ) increases with age.

76 observed vulnerability to breast cancer that increases with age.

77 further since the prevalence of malnutrition increases with age.

78 e of neurodegenerative disease and arthritis increases with age.

79 of non-alcoholic fatty liver disease (NAFLD) increases with age.

80 Our results suggest that crowding increases with age.

81 PDI oxidation progressively increases with age.

82 emains possible instead that the optimum BMI increases with age.

83 cquired nasolacrimal duct obstruction (NLDO) increases with age.

84 ll as sites where the environmental variance increases with age.

85 .7% among men, respectively, with prevalence increasing with age.

86 setum fluviatile shoots, the MXE : XET ratio increasing with age.

87 Mouse fat tissue activin A increased with aging.

88 tly, while water vapor permeability slightly increased with aging.

89 studies, that 1/f electrophysiological noise increases with aging.

90 atherosclerotic plaques, amyloid deposition increases with aging.

91 ghly prone to injury, the incidence of which increases with aging.

92 d may help to explain why the risk of injury increases with aging.

93 adult brain are quiescent, and this fraction increases with aging.

94 cific warming than TSFs, with the difference increasing with aging.

95 X mosaicism frequency increases with age (0.11% in 50-year olds; 0.45% in 75-y

96 (adjusted HR [aHR], 0.3; 95% CI, .1-.9) and increased with age (10-15 vs 0-4 years; aHR, 3.4; 95% CI

97 Prevalence increased with age (18-34 years: 2.7%; >/=75 years: 18.6

98 Mean qAF values increased with age (2-12 months) in all groups of mice.

99 ence of choroidal nevus was 4.7% overall and increased with age (4.7%, 3.1%, 5.4%, 6.6%, and 7.5% in

100 Prevalence of any vascular disease increased with age (40 to 50 years: 2%, 51 to 60 years:

101 scores) and among adults, especially women, increasing with age (44.8% of women 45-64 y old had a BM

102 Larger mortality increase with age (5.3% per decade) was observed at the

103 There is a high frequency of obesity, which increases with age (9.5% in children <2 y old, 18.8% in

104 uingly, the magnitude of the immune response increases with age, a phenomenon termed "memory inflatio

105 of overweight, obesity, and central obesity increased with age (all p<0.0001) and was higher in men

106 of DC4-specific and adhesion-inhibitory IgG increased with age among P. falciparum-exposed children.

107 vidual contributions to cooperative behavior increase with age and are higher in fast-growing individ

108 Their expression and significance increase with age and with the progression of diabetes,

109 cells with a naive phenotype' (TMNP cells), increased with age and after severe acute infection and

110 ated that the relative risk of adult obesity increased with age and BMI, from 1.17 (95% UI, 1.09 to 1

111 Further, serum levels of IL-6 increased with age and contributed to elevated expressio

112 ally, levels of IL-5, but no other cytokine, increased with age and correlated with eosinophil number

113 dy, the odds of having CNV secondary to POHS increased with age and decreased with increasing level o

114 Physical scores increased with age and disease duration (p<0.001, p<0.00

115 The mean measurement bias increased with age and height.

116 would correct the nonrepresentativeness that increased with age and ill health that I introduced into

117 controls, white matter fractional anisotropy increased with age and increased white matter anisotropy

118 Myelin fragmentation increased with age and led to the formation of insoluble

119 The need for care increased with age and neurologic disorders, intensive c

120 els at P21; (2) the expression of GlyRalpha1 increased with age and reached significance at P12; and

121 cordingly, the relative genetic contribution increased with age and was greatest in adolescence (up t

122 The prevalence of NIU increased with age and was higher among adult females th

123 Antibody prevalence increased with age and was higher in one northwestern ar

124 This finding increased with age and was more common in men.

125 Early-life performance in all species increased with age and was predominantly influenced by w

126 e-specific IgG concentrations >/=0.35 mug/mL increased with age and was similar for the different ser

127 Sex-specific prevalence rates increased with age and were broadly similar in HIC and L

128 Within each cohort, 99th percentile values increased with age and were higher in men.

129 The risks of infection increased with age and were higher in those with diabete

130 Titers to avian influenza virus antigens increased with age and with geometric mean antibody tite

131 as well as adipose tissue, where repression increased with aging and high-fat diet-induced obesity.

132 Moreover, levels of FKBP51 are increased with aging and in Alzheimer disease, potential

133 RAN protein accumulation increases with age and disease, and TDP-43 inclusions ar

134 for diabetes diagnosis and care consistently increases with age and educational attainment, policy ma

135 of dynorphin, an endogenous opioid peptide, increases with age and has been associated with memory i

136 vel measure to assess LA diastolic function, increases with age and is higher in persistent AF and in

137 aged 65 years and older is 10% to 20%; risk increases with age and men appear to be at higher risk t

138 The sAHP amplitude increases with aging and may underlie age related memory

139 prevalence of most cardiovascular disorders increase with age, and cardiovascular disease is the lea

140 The frequency of mtDNA defects in iPSCs increased with age, and many mutations were non-synonymo

141 The magnitude of these associations increased with age, and the pattern was prominent for PM

142 ic T cells in the peripheral lymphoid tissue increased with age, and their numbers correlated with in

143 Male AMS increased with age, and there was no significant reprodu

144 Underreporting of weight increased with age, and underreporting of height decreas

145 ghest among men who have sex with men (MSM), increased with age, and was higher in people with AIDS t

146 e mostly deleterious, clustered in hotspots, increased with age, and were more abundant in women with

147 Cancer incidence increases with age, and as life expectancy increases, th

148 uals, the likelihood of cognitive impairment increases with age, and duration of infection.

149 Prevalence is higher among women than men, increases with age, and is notable among those aged 18-3

150 ssociated with AMD presence and severity and increases with age, and its retinal topography including

151 a melanogaster, for instance, male fertility increases with age, and older males are known to have a

152 at calcium influx across the plasma membrane increases with aging, and that this change is countered

153 even in younger, healthy eyes; its severity increases with age; and it may alter tear distribution a

154 ot previously identified in human platelets, increases with aging ( approximately 9-fold versus young

155 The underlying mechanisms, of why LOH rates increase with age, are not well understood.

156 predicts that reproductive investment should increase with age as future survival prospects diminish,

157 following acute febrile malaria but did not increase with age as humoral immunity is acquired or cor

158 Indeed, the prevalence of AF increases with age as does oxidative stress.

159 d c-Myc, both of whose tissue concentrations increase with age, as possible major causes for age-depe

160 (n=1242), and >/=80 (n=275) years, mortality increased with age, as follows: 2.1, 3.0, 5.4, 6.9, and

161 r, H3K9me3 decreased with age at IN2GHRE and increased with age at 5URGHRE.

162 Seroconversion increased with age at administration.

163 The prevalence of cardiac conditions increased with age at evaluation, ranging from 3% to 24%

164 BCL2 expression, or cytogenetic complexity, increases with age at diagnosis.

165 Moreover, these effects increased with age-at-adoption.

166 y cohort during follow-up and mortality risk increased with age: below 50 (5.8%), 50 to 59 (14.2%), 6

167 higher in children with glomerulopathies and increased with age, blood pressure, proteinuria, and low

168 ver, uptake in the frontal lobe continued to increase with age but it decreased in the parietal and o

169 te AMD were 9.1% and 1.6%, respectively, and increased with age but did not differ significantly by s

170 In preterm infants, choroidal thickness increased with age but was thinner when compared to term

171 ular (LV) and arterial elastance (stiffness) increase with age, but data examining longitudinal chang

172 Disease incidences increase with age, but the molecular characteristics of

173 matory mediators in circulation are known to increase with age, but the underlying cause of this age-

174 FasL expression in the eye was increased with age, but decreased following laser treatm

175 PCN incidence increased with age, but due to the rarity of PCNs in you

176 Cardiomyocyte cell size increased with age, but increased more in DBA/2 mice, al

177 Extent of BL and PD >/=4 mm also increased with age, but more rapidly and to a greater ex

178 Cytokine responses generally increased with age, but responses at birth were poorly p

179 Major bleeding risk increased with age, but there were no differences betwee

180 Seroprevalence increases with age, but it is not clear if it is increas

181 The concentration of CSF F2-IsoP increased with age by approximately 3 pg/mL (approximate

182 tween CD8CD28- telomere length and infection increased with age (CD8CD28- telomere length x age inter

183 ever, frontal pH values for patients with BD increased with age, contrary to studies of HCS and the p

184 The electrocardiographic PR interval increases with aging, differs by race, and is associated

185 The prevalence of diabetes increases with age, driven in part by an absolute increa

186 empirical work suggests that allocation may increase with age due to constraint (increases with expe

187 e-driven) chromosome translocation incidence increases with age during adulthood.

188 Stiffness increases with age during normal development and approac

189 most common forms of adult-onset strabismus increased with age, especially after the sixth decade of

190 (CT)-assessed functional small airway would increase with age, even among asymptomatic individuals.

191 l maternal effects can evolve when fertility increases with age faster than cumulative survival decli

192 The risk of proximal large polyps increased with age, female sex, and black race.

193 30-day mortality increased with age for both patients with breast cancer

194 Likelihood of total periodontitis (TP) increased with age for overall and NSP relative to non-p

195 ergic sensitization in young children, which increases with age for food sensitization.

196 We find that maternal allocation increases with age for young mothers during both the pre

197 oportion of ILI cases positive for influenza increased with age from 11% (31/275) in infants (aged 0-

198 ion of benzodiazepine use that was long term increased with age from 14.7% (18-35 years) to 31.4% (65

199 The percentage who used benzodiazepines increased with age from 2.6% (18-35 years) to 5.4% (36-5

200 Permanent atrial arrhythmias increased with age from 3.1% to 22.6% in patients <20 ye

201 In both groups, NTHi colonization increased with age from 33% in 5-month-olds to 65% in 24

202 Among older adults, tuberculosis rates increased with age from 9.6 per 100 000 in persons aged

203 Prevalence increased with age, from 0.55% at 55 to 59 years to 2.73

204 Prevalence increased with age, from 33.3% to 57.7% in PWCF younger

205 oprevalence of wild poliovirus types 2 and 3 increased with age, from 36.7% to 73.4% for type 2 and f

206 reater for men: 368 versus 44 for women, and increased with age: from 194 to 648 in men, and from 28

207 Cumulative incidence of AMD increased with age (>/=80 years old vs 50-59 years old:

208 Incidence increased with age (hazard ratio [HR]: 1.73; 95% confide

209 Mortality increased with age (hazard ratio, 3.26; 95% CI, 1.78-5.9

210 Genomic aberrations increase with age, highlighting the infant population as

211 entia, stroke, fractures, and breast cancer, increase with age; however, the excess risk for these co

212 More so, sensitivity to hepatic IRI increases with age; however, no strategies have been dev

213 e or hetE1506K mice, insulin content did not increase with age in homE1506K mice.

214 tal gyrus for FH- subjects and a significant increase with age in middle cingulate activation for FH+

215 y Egerman et al reported that GDF11/8 levels increase with age in mouse serum.

216 Visual field size and sensitivity increase with age in patterns that are specific to the p

217 We find a rapid increase with age in the number of random insertions and

218 We report that PTGES1 and COX2 progressively increase with aging in sun-protected human skin.

219 hat the seroprevalence of anti-M2 antibodies increased with age in 317 serum samples from healthy ind

220 CD40 expression increased with age in both cell populations.

221 C and medial prefrontal cortex; connectivity increased with age in controls, but decreased in individ

222 es native to heterochromatic regions and TEs increased with age in fly heads and fat bodies.

223 Lysosomal GL-3 inclusions increased with age in multiple cell types, including ren

224 Threat-related amygdala reactivity increased with age in participants with a positive famil

225 A decreased and orientation dispersion index increased with age in patients, but not control subjects

226 Whereas the central macular thickness increased with age in the control group, in the albinism

227 Results showed that delay discounting increases with age in a quadratic fashion, with greatest

228 ons; (2) the amplitude of responses to faces increases with age in both face-selective and object-sel

229 ngs: (1) neural sensitivity to face identity increases with age in face-selective but not object-sele

230 ources, the tissue content of this biopterin increases with age in GTP cyclohydrolase 1-deficient hyp

231 novel B-cell subset expressing 4-1BBL, which increases with age in humans, rhesus macaques, and mice,

232 This study showed that Abeta deposition increases with age in nondemented individuals and that a

233 nt (increases with experience) or restraint (increases with age in the face of declining residual rep

234 Importantly, attenuation increases with age, in proportion to reduced sensory sen

235 cal observations of strong RPE fluorescence, increasing with age, in the central area of the RPE.

236 In falciparum malaria, angiopoietin-2 increased with age, independent of parasite biomass (his

237 ndividuals and that ribosomal RNA production increases with age, indicating that nucleolar size and a

238 The prevalence increases with age, is highest among whites (5.6%), is l

239 For this cohort, LOI increased with age; LOI occurred in 1386 of 2780 patient

240 HP eradication was significantly increased with age, male sex, diabetes status, insulin u

241 The risk for cancer increases with age, male sex, and the presence of coexis

242 Serum creatinine concentrations at 48 hrs increased with age (mean +/- SEM; controls 0.18 +/- 0.03

243 Total DCIS detection rates increase with age, mostly because of an increase in high

244 PAAT increased with age (neonates: median: 81 ms, range: 53-1

245 in the National Health Interview Study that increased with age, obesity, and ill health.

246 ate for high-grade DCIS showed a significant increase with age (odds ratio, 1.18 per 5-year age group

247 Visual field area increased with age on testing with Goldmann isopters III

248 hat express CD25 (IL-2 receptor alpha-chain) increases with age on subsets of both CD31(+) and CD31(-

249 s 12.5% (64 of 513 patients), and prevalence increased with age (P < .0001, logistic regression coeff

250 th strength and dynamic manipulation ability increased with age (p < 0.0001 and p < 0.00001, respecti

251 The probability of this procedure increased with age (P < 0.0001).

252 ll and its 4 most common forms significantly increased with age (P <0.001 for all), with a peak incid

253 The benefit also modestly increased with age (P = .023 for interaction), but this

254 icipants younger than 20 years and gradually increased with age (p for trend <0.0001).

255 NCP volume increased with age (P<0.001) and was higher in men than

256 ANA prevalence increased with age (P=0.01), and ANAs were more prevalen

257 rscore that the rate of detectable mosaicism increases with age (p value = 5.5 x 10(-31)) and is high

258 17.2% [12.5-23.4]; this probability did not increase with age [P = 0.8]).

259 Annual change increased with age, particularly within superior regions

260 entrations (GMC) of SBA and NmA-specific IgG increased with age, peaking around age 20 years.

261 as observed in 7% of men, and its prevalence increased with age (per-year odds ratio (OR) = 1.13, 95%

262 age (r = -0.33; P<0.001; n = 254), and CPTR4 increased with age (r = 0.59; P<0.001; n = 254).

263 atios seen in the data into the ("unbiased") increasing-with-age ratios that they computed?

264 Prevalence increased with age, reaching 50% before ages 68, 84, and

265 e population of CD161(+) cells at birth that increased with age, reaching more than 30% of the spleno

266 Myofiber damage induced by eccentric strain increased with age, reflecting the accumulation of non-n

267 The frequency of this event increases with age, so that more than 50% of triple-mate

268 At 56 and 84 Hz, liver stiffness increased with age (Spearman correlation, r = 0.38 [P =

269 MUAC increased with age steadily throughout the growing perio

270 Because susceptibility to diseases increases with age, studying aging gains importance.

271 because women live longer and AF prevalence increases with age, the absolute number of women with AF

272 PA) and arachidonic acid (AA) concentrations increase with age.The aim of this study was to evaluate

273 .001), ERMs (P < 0.001), and VMT (P = 0.005) increased with age; the prevalence of PVCs (P = 0.05) de

274 patient aged 75 years or older taking DOACs increased with age; the risk was greatest among persons

275 The risk of developing glaucoma increases with age; therefore, understanding mechanisms

276 Atrial fibrillation increased with age to surpass IART as the most common ar

277 (95% confidence interval [CI], 14.1%-17.1%), increasing with age to 41.2% (95% CI, 30.0%-52.4%) in pe

278 Prevalence of undiagnosed glaucoma was 2.9%, increasing with age to 6.6% of the population over 70 ye

279 CI = 1.8-15.6) to 47.6% (95% CI = 35.1-60.1) increased with age until adulthood (>6) and varied by lo

280 asma and NP specimens containing anellovirus increased with age until patients were 19-24 months of a

281 MATS coverage increased with age, varied by geographical region, and w

282 e similar between models (P = 0.374), but an increase with age was evident only in SHR (P < 7 x 10(-6

283 compared among the groups and a significant increase with age was observed (P < .001).

284 her among those older than 60 years, but the increase with age was steeper for those younger than 60

285 The one exception to an exponential increase with age was the transition rate from A(-)N(-)

286 of nontuberculous mycobacterial disease that increase with age, we investigated correlates of mucocil

287 IgG, IgG1, and IgG3 responses generally increased with age, were higher in children with active

288 5-9, and 10-14 years) because concentrations increase with age when chloroquine is prescribed accordi

289 Prevalence of undetected glaucoma increased with age, whereas disease severity did not inc

290 the proportion of EV-A71 infection generally increased with age which showed rapid growth in severe c

291 ve complex influenza exposure histories that increase with age, which may lead to different postvacci

292 ow afterhyperpolarization (sAHP) exhibits an increase with aging, which correlates with memory impair

293 e in p16(+/LUC) mice revealed an exponential increase with aging, which was highly variable in a coho

294 d ages because reproductive output typically increases with age, which may lead to the evolution of s

295 Type 2 diabetes incidence increases with age, while beta-cell replication declines

296 found that plasma Abeta(1-42) concentration increases with age, while the concentration of Abeta(1-4

297 , aortic ascending and bifurcation diameters increased with age, with an unchanged aortic taper.

298 Bioaccumulation of POPs increased with age, with the exception of presumed nulli

299 erved that Abeta trimers and Abeta*56 levels increased with age; within the unimpaired group, they we

300 Impairments in DA increased with age, worse visual acuity, presence of RPD