ライフサイエンスコーパス: ethnic

1 um urolithiasis between Chinese and Japanese Ethnics.

2 a representative sample of 15020 rural multi-ethnic adults from 2009 to 2010.

3 of metabolic syndrome (MetS) examined multi-ethnic adults in rural areas in Xinjiang, China.

4 e prevalence of MetS in Xinjiang rural multi-ethnic adults was high.

5 population growth, diverse and often divided ethnic affiliations, and existential security threats, l

6 The observed geographical, racial and ethnic, age, sex, and temporal variations require consta

7 Ethnic and age-related variability in the effects of obe

8 ic variation exists, motivating future trans-ethnic and ancestrally diverse QT GWAS.

9 tes this ethnic disparity by combining trans-ethnic and ethnic-specific information.

10 ciated cancers, only NPC exhibits remarkable ethnic and geographic distribution.

11 irus (EBV) infection and exhibits remarkable ethnic and geographic distribution.

12 ssing data and differential dropout, limited ethnic and racial diversity, and differences in definiti

13 of cancer death in the United States in all ethnic and racial groups.

14 posure variability showed significant racial/ethnic and regional differences, high exposure burden to

15 Many studies have assessed racial/ethnic and sex disparities in the prevalence of elevated

16 d hypertension, as well as associated racial/ethnic and sex disparities.

17 We found evidence of racial/ethnic and socioeconomic differences in model-based esti

18 We aimed to a) assess racial/ethnic and socioeconomic inequalities in noise pollution

19 The United States has large racial, ethnic, and regional variation; we collected data from a

20 To estimate age, racial/ethnic, and sex-specific annual net transition probabili

21 t opportunity to reach families from racial, ethnic, and socioeconomic groups who historically have n

22 rice consumption in the U.S. population and ethnic- and age-based subpopulations.

23 sian Canadians and for patients with "other" ethnic background, respectively.

24 nd 11% South Asian; 7% had "other" (n = 121) ethnic background.

25 le differences in incidence by geography and ethnic background.

26 than fitting in, participants from minority ethnic backgrounds avoided applying to certain hospitals

27 m people from a wide range of geographic and ethnic backgrounds demonstrates a small percentage of he

28 Studies involving patients of other ethnic backgrounds failed to provide sufficient evidence

29 ces the need to study populations of diverse ethnic backgrounds to identify shared and unique genetic

30 iduals come from three families of different ethnic backgrounds.

31 acute for graduates from black and minority ethnic backgrounds.

32 vitamin D status in women of diverse racial/ethnic backgrounds.A total of 301 women who underwent BM

33 stantially; socioeconomic, geographical, and ethnic barriers to accessing PC were observed.

34 restriction may "unmask" implicit racial or ethnic biases that are otherwise inhibited when in a res

35 We recommend the routine use of pan-ethnic carrier screening panels in reproductive medicine

36 identified COL7A1 mutations in a large multi-ethnic cohort of 152 extended Iranian families with high

37 We recruited a multi-ethnic cohort of healthy volunteers (n = 91) and used th

38 The hypothesis of ethnic compartmentalization was tested by reconstructing

39 Reflecting Britain's current ethnic composition, we included in our analysis particip

40 the United States reported on the racial or ethnic demographics of study participants.

41 extrahepatic insulin degradation related to ethnic differences between AAs and EAs.

42 aimed to determine whether there are racial/ethnic differences in 1-year adherence to AET and whethe

43 Despite ethnic differences in allele frequencies of variants in

44 Racial and ethnic differences in associations between socioeconomic

45 rtality risk and revealed significant racial/ethnic differences in associations of SLE mortality with

46 avioral characteristics contribute to racial/ethnic differences in birthweight.

47 We investigated ethnic differences in hypothesised explanatory factors s

48 and mortality with digoxin use but no racial/ethnic differences in outcomes were observed.

49 data on the prevalence, severity, and racial/ethnic differences in pediatric obesity.

50 There were significant racial/ethnic differences in spine BMD.

51 hite British ethnicity but did not eliminate ethnic differences in these markers.

52 suggest the existence of variations, such as ethnic differences, in COMT genetic effects on the corti

53 after detention, focusing on sex and racial/ethnic differences.

54 ic factors likely contribute to the observed ethnic differences.

55 pic body fat measures did not explain racial/ethnic differences.

56 surance coverage, access to care, and racial/ethnic disparities among adults with chronic disease.

57 Our findings highlight racial/ethnic disparities among youth in achieving positive out

58 view discusses possible causes of racial and ethnic disparities and also considers future directions

59 Racial/ethnic disparities exist in longer-term outcomes of EGS

60 Racial/ethnic disparities have been described in in-hospital an

61 ether out-of-pocket costs explain the racial/ethnic disparities in adherence.

62 Conclusion Racial/ethnic disparities in AET adherence were largely explain

63 Purpose Racial/ethnic disparities in cancer survival in the United Stat

64 munication is associated with reduced racial/ethnic disparities in immediate PBR (IPBR).

65 isal of the empirical research on racial and ethnic disparities in incidence, survival, and outcomes

66 States in 2014, with significant racial and ethnic disparities in infection rates.

67 Racial and ethnic disparities in patients with solid malignancies h

68 Racial/ethnic disparities in preterm birth (PTB) are well docum

69 ly help clarify the genetic architecture and ethnic disparities in SLE.

70 Racial and ethnic disparities in the incidence of esophageal cancer

71 This study demonstrates decreased racial/ethnic disparities in the incidence of esophageal SCC ov

72 Racial/ethnic disparities in the incidence of total esophageal

73 lomavirus (HPV) to investigate the effect of ethnic disparities in vaccine and cervical screening upt

74 However racial and ethnic disparities seems to be a risk factor for their d

75 ted the effect of the New York law on racial/ethnic disparities, using California as a comparator.

76 oach, called XP-BLUP, which ameliorates this ethnic disparity by combining trans-ethnic and ethnic-sp

77 l environments defined by such magnitudes of ethnic diversity and cultural differentiation.

78 e ASCO Strategic Plan to Increase Racial and Ethnic Diversity in the Oncology Workforce is designed t

79 e ASCO Strategic Plan to Increase Racial and Ethnic Diversity in the Oncology Workforce.

80 of a measured GFR and the potential lack of ethnic diversity in the study cohort.

81 e to focus on western China because poverty, ethnic diversity, and geographical access represent part

82 ssed into firik which is a whole wheat-based ethnic food by using traditional cooking method.

83 l laboratory courses regardless of academic, ethnic, gender, and socioeconomic profiles.

84 t catalyzes development curation of national/ethnic genetic databases, (ii) the migration of all FIND

85 associated QT prolongation in a multi-racial/ethnic, genome-wide association study (GWAS).

86 can ancestry genotyped on the Illumina Multi-Ethnic Genotyping Array.

87 cancer between 2000 and 2013 for each racial/ethnic group (non-Hispanic black, Hispanic, Asian Americ

88 tes that the Korean population is a distinct ethnic group comparable to other discrete ethnic groups

89 Age and racial/ethnic group disparities were addressed through targeted

90 The Fulani ethnic group has relatively better protection from Plasm

91 lity rates of colorectal cancer (CRC) of any ethnic group in the United States.

92 and infected individuals from the sympatric ethnic group Mossi, we observed a key difference: a stro

93 The racial/ethnic group with the second most VI is projected to shi

94 d from one university to ensure diversity in ethnic group, age and gender.

95 food allergy and intolerance by sex, racial/ethnic group, and allergen group.

96 were converted to z scores for age, height, ethnic group, and sex.

97 he HIV population based on sex, age, race or ethnic group, calendar year, and registry).

98 2011-2012, P<0.001 for trend across race or ethnic group, sex, and age subgroups).

99 After adjustment for age, sex, and race or ethnic group, the relative annual increase in the incide

100 and by cancer type, sex, age, and racial and ethnic group.

101 opulation-based study of participants from 3 ethnic groups (3280 Malay, 3400 Indian, and 3353 Chinese

102 lived in deprived areas than those of other ethnic groups (36.9-55.3% vs 16.4-29.4%).

103 Significant variation was observed among ethnic groups (Blacks>Hispanics>Whites).

104 numbers of women and men from each of 4 race/ethnic groups (blacks, Asians, Hispanics, and non-Hispan

105 icipants (78.7% response rate) from 3 racial/ethnic groups (Chinese [recruited from February 9, 2009,

106 oximately equal numbers of girls from 2 main ethnic groups (Fijians of Indian descent [FID] and Indig

107 of all five metal biomarkers than other race/ethnic groups (p < 0.05), regardless of sociodemographic

108 r people with severe mental illness for five ethnic groups (white British, black Caribbean, black Afr

109 Asians with those of four other NHANES race/ethnic groups (white, black, Mexican American, and other

110 ds in the representation of women and racial/ethnic groups across critical care fellowship types.

111 for both men and women and for certain race/ethnic groups among younger adults aged 18 to 54 years;

112 be mutually exclusive across different human ethnic groups and even more clearly in a cohort of 129 U

113 cess to KT was significantly reduced for all ethnic groups assessed compared with white Canadians, an

114 essing modifiable risk factors and targeting ethnic groups at risk of poor sexual health are needed.

115 n divided categorically into distinct racial/ethnic groups based on social rather than biological con

116 ewly qualified nurses from non-White/British ethnic groups being less likely to get a job at graduati

117 nd 12 of the study.Postintervention in the 2 ethnic groups combined, both the vitamin D3 biscuit and

118 Admixture between racial/ethnic groups creates long-range linkage disequilibrium

119 ct ethnic group comparable to other discrete ethnic groups in Africa and Europe, providing a rational

120 to the representation of black and minority ethnic groups in healthcare education and the workplace.

121 but rates were highest in all major race and ethnic groups in Texas.

122 s the predictor variable within the 4 racial/ethnic groups in the Multi-Ethnic Study of Atheroscleros

123 2013, sepsis hospitalizations for all racial/ethnic groups increased, and mortality rates decreased b

124 nclude that differential methylation between ethnic groups is partially explained by the shared genet

125 librium and allele frequency patterns across ethnic groups may increase gene-mapping resolution.

126 Clinical trials that include racial and ethnic groups need to confirm these findings.

127 nly partly explained inequalities among some ethnic groups relative to white British ethnicity but di

128 graphic variation within individual race and ethnic groups was observed, but rates were highest in al

129 ause previous studies have compared distinct ethnic groups where genetic and environmental context ar

130 SMRs were broadly similar in different ethnic groups with severe mental illness, although the s

131 tors and sexual health markers for all these ethnic groups with white British as the reference catego

132 ne response genes parallel that of different ethnic groups within the human population, a potential b

133 the association between AMD and VSF in the 3 ethnic groups, adjusting for age, sex, presenting visual

134 8.6%, respectively) than males, other racial/ethnic groups, and residents of other regions, respectiv

135 ate of SCC decreased over time in all racial/ethnic groups, and this was most pronounced in black per

136 The prevalence varied in different ethnic groups, geographic regions, age, education and GD

137 Hypertension prevalence varies between ethnic groups, possibly due to differences in genetic, e

138 The role of obesity varies in different ethnic groups, with Chinese being particularly sensitive

139 urally and linguistically diverse indigenous ethnic groups, yet genetic variation and histories of pe

140 focusing on the perspectives from different ethnic groups.

141 of risk-adjusted differences between racial/ethnic groups.

142 factors appear stronger in women and certain ethnic groups.

143 rmality but normal weight (MAN) for 5 racial/ethnic groups.

144 CRF (10.3+/-1.7 mmHg; P = 0.103) between the ethnic groups.

145 rican individuals than in the other 4 racial/ethnic groups.

146 wer parasite densities compared to sympatric ethnic groups.

147 rectionally replicate when assessed in other ethnic groups.

148 t cancer outcomes observed among these three ethnic groups.

149 ssociations are consistent across racial and ethnic groups.

150 h BMI but in the opposite direction in other ethnic groups.

151 sk factors were largely similar across the 3 ethnic groups.

152 fish and rice consumption across the racial/ethnic groups.

153 ontrol for socioeconomic differences between ethnic groups.

154 race (2.8%) comprising the other major race/ethnic groups.

155 r DR in this study were similar across the 3 ethnic groups.

156 of heterogeneity in allelic effects between ethnic groups.

157 icularly among youths of minority racial and ethnic groups.

158 ent and in a minority of patients from other ethnic groups.

159 e-susceptible loci that vary among different ethnic groups.

160 es summarizing risk across different African ethnic groups.

161 sue samples from patients representing three ethnic groups: Caucasian Americans (CA), African America

162 ir data from 3 population-based studies in 3 ethnic groups: Chinese, Malay and Indian.

163 onging to one of the following seven largest ethnic groups: white British, black Caribbean, black Afr

164 cant inverse associations were observed in 4 ethnic groups; the association in Native Hawaiians did n

165 Application of MR-MEGA to trans-ethnic GWAS of kidney function in 71,461 individuals ind

166 Our findings show the utility of trans-ethnic GWASs for discovery and characterization of genet

167 pply there 'cos you know, it's not really an ethnic hospital'.

168 Finally, analysis of a large multi-ethnic human population with cleft lip identified cluste

169 breast cancer disparities related to racial/ethnic identity and advance knowledge related to the pat

170 sis to date of TNBC in the context of racial/ethnic identity and BBD as risk factors.

171 of disparities in oncology related to racial/ethnic identity.

172 tudying breast cancer risk related to racial/ethnic identity.

173 has well-documented correlations with racial/ethnic identity.

174 and incident cardiovascular disease (CVD) in ethnic Indian and Malay adults in Singapore.

175 In Britain, ethnic inequalities in diagnoses of sexually transmitted

176 INTERPRETATION: Ethnic inequalities in sexual health markers exist, and

177 inding suggests that there is an independent ethnic influence in the association of the disease with

178 ere white, and for many participants, racial/ethnic information was either not collected or not known

179 lipids and traditional CVD risk factors, in ethnic Malay and Indian men.

180 These results do not depend on ethnic matching or gender.

181 of the GPX3-TNIP1 locus with ALS using cross-ethnic meta-analyses.

182 ace/ethnicity group, and in a combined trans-ethnic meta-analysis comprising a total of 86 627 indivi

183 Our trans-ethnic meta-analysis confirmed recent findings implicati

184 Trans-ethnic meta-analysis of genome-wide association studies

185 We employ trans-ethnic meta-regression to model allelic effects as a fun

186 weight or obese adults, older adults, racial/ethnic minorities (including Asian Americans), and perso

187 odds ratio, 0.81; 95% CI, 0.79-0.85), racial/ethnic minorities (odds ratio, 0.65; 95% CI, 0.61-0.70),

188 OR, 1.84; 95% CI, 1.24-2.73) or other racial/ethnic minorities (OR, 2.19; 95% CI, 1.16-4.11) had grea

189 This study found that HSHs treat fewer ethnic minorities and have similar outcomes as LSHs for

190 mited by underuse, particularly among racial/ethnic minorities and individuals of low socioeconomic s

191 and assess the representation of racial and ethnic minorities and women in randomized controlled tri

192 Although the NHS workforce is very diverse, ethnic minorities are unevenly spread across occupations

193 th (MCH) outcomes and service coverage among ethnic minorities compared with Han populations in weste

194 Ethnic minorities had a lower likelihood of receiving pa

195 Although racial/ethnic minorities had greater improvements in some outco

196 Among those with severe mental illness, some ethnic minorities have lower mortality than the white Br

197 h outcomes and health service coverage among ethnic minorities in China.

198 persistent underrepresentation of racial and ethnic minorities in critical care fellowship programs.

199 pre-vaccination era, before 2008, women from ethnic minorities in England reported a disproportionate

200 any occupations that routinely interact with ethnic minorities in potentially high-conflict situation

201 llow-up, particularly among patients who are ethnic minorities or have little or no health insurance.

202 critical care fellows and those from racial/ethnic minorities were underrepresented in all years.

203 MCH outcomes continue to improve nationally, ethnic minorities will take a greater share of the overa

204 al screening uptake in vaccinated women from ethnic minorities would lead to rapid improvement in equ

205 e greatest among women, older adults, racial/ethnic minorities, and individuals with lower educationa

206 oups, especially women, older adults, racial/ethnic minorities, and the socioeconomically disadvantag

207 Many in this group, particularly racial/ethnic minorities, lacked insurance coverage and access

208 s per 1000 population, and the proportion of ethnic minorities, the maternal mortality ratio was 118%

209 Because HPV vaccination uptake is lower in ethnic minorities, we predict an initial widening of thi

210 eported rates may remain higher among racial/ethnic minorities.

211 lect underrepresentation of women and racial/ethnic minorities.

212 but little is known about this inequality in ethnic minorities.

213 Rates increased for ethnic minority groups (incidence rate ratio: 1.4; 95% C

214 k may result in a large proportion of racial/ethnic minority groups being overlooked.

215 Compared with whites, all racial/ethnic minority groups had a statistically significantly

216 especially for the poor, less educated, and ethnic minority groups in remote areas in western China.

217 unnatural-cause mortality were lower in most ethnic minority groups relative to the white British gro

218 support of parents, siblings, and racial and ethnic minority groups.

219 ed as including a greater than 20% racial or ethnic minority participants based on US census data.

220 that could further our understanding of why ethnic minority populations are lagging behind.

221 it eligible children aged 3-5 years from non-ethnic minority populations with no identified or suspec

222 ceration are more likely to be of racial and ethnic minority populations, poor, and have higher rates

223 were categorized based on the percentage of ethnic minority stroke patients (< 25% minorities ["whit

224 Ethnic minority women had lower odds of antenatal care u

225 onfounding effects of socioeconomic factors, ethnic minority women were less likely to use antenatal

226 5-0.746): younger age; female sex; racial or ethnic minority; no history of hypertension, diabetes, o

227 Dbase data content into 90 distinct national/ethnic mutation databases, all built around Microsoft's

228 studies conducted >30 y ago, do not reflect ethnic or geographic diversity, and were performed in an

229 droxyvitamin D (25[OH]D) concentration, age, ethnic or racial origin, body-mass index, vitamin D dosi

230 toward members of a particular sex, racial, ethnic, or religious group.

231 d eastern China], urbanity [urban vs rural], ethnic origin [Han and non-Han], occupation [farmer and

232 Older age, hyperopia, and east Asian ethnic origin are the main risk factors for primary angl

233 CI 1.65-1.82) after adjustment for age, sex, ethnic origin, and chronic disease (ie, minimally adjust

234 The HR for falls-adjusted for age, sex, ethnic origin, history of recent fall, physical activity

235 ed intraocular pressure, sub-Saharan African ethnic origin, positive family history, and high myopia.

236 After controlling for maternal age, race or ethnic origin, pre-pregnancy BMI, preterm delivery, low

237 5-10% of infected people, depending on their ethnic origin.

238 106.4) and "other" (104.7; p < 0.001) racial/ethnic patients.

239 group hegemony violently by participating in ethnic persecution of subordinate out-groups.

240 ifferences could significantly contribute to ethnic phenotypic differences.

241 local factors, especially socioeconomic and ethnic population composition.

242 he health of its citizens seriously; a multi-ethnic population that brings diversity and energy to na

243 ng to the susceptibility to CAD in the multi-ethnic populations from Southeast Asia.

244 lower in the Fulani than in other sympatric ethnic populations, and targeted SNP analyses of other c

245 als among 9978 participants of 3 major Asian ethnic populations, retinal emboli were most commonly se

246 fatty acids (PUFAs) may vary across various ethnic populations.

247 rs, and the results were compared with other ethnic populations.

248 lic imputation methods, and diversity across ethnic populations.

249 Ethnic/racial differences in body composition and fat di

250 of access to care could substantially reduce ethnic/racial disparities in overall survival among none

251 esterol were significant risk factors across ethnic/racial populations (p-trends < 0.01).

252 ngle-center ICH study (n = 261), and (3) the Ethnic/Racial Variations of Intracerebral Hemorrhage stu

253 years, research cohorts lack full racial and ethnic representation.

254 in four of five independent T2D case/control ethnic sets of 2000 to 5000 exomes each.

255 into consideration the type of diabetes, and ethnic, social, cognitive, literacy, and cultural factor

256 in early stage BC in young women, including ethnic specific differences.

257 hnic disparity by combining trans-ethnic and ethnic-specific information.

258 nalysis allowed us to evidence recurrent and ethnic-specific mutations: p.Phe223Leu in Africans (23.5

259 Our results suggest that common ethnic-specific variation in GPR158 may influence EE; ho

260 everal mutations were novel and demonstrated ethnic specificity.

261 Participants in the Multi-Ethnic Study of Atherosclerosis (MESA) underwent a compr

262 We included 3733 participants from the Multi-Ethnic Study of Atherosclerosis (MESA) with SBP between

263 in LSOCA was compared with that in the Multi-Ethnic Study of Atherosclerosis (MESA), a Human Immunode

264 s study included participants from the Multi-Ethnic Study of Atherosclerosis (MESA), a prospective co

265 Using data from the Multi-Ethnic Study of Atherosclerosis (MESA), we evaluated ass

266 Tsimane and 6814 participants from the Multi-Ethnic Study of Atherosclerosis (MESA).

267 thin the 4 racial/ethnic groups in the Multi-Ethnic Study of Atherosclerosis (n = 6,814).

268 (Multi-Ethnic Study of Atherosclerosis [MESA]; NCT00005487).

269 90 participants (45-84 y old) from the Multi-Ethnic Study of Atherosclerosis and assigned 5-y residen

270 obtained from 554 participants in the Multi-Ethnic Study of Atherosclerosis and the Coronary Artery

271 Using longitudinal data from the Multi-Ethnic Study of Atherosclerosis that were linked to fore

272 nducted between 1989 and 2003, and the Multi-Ethnic Study of Atherosclerosis was conducted between 20

273 We included participants from MESA (Multi-Ethnic Study of Atherosclerosis) (n=6621) and the Dallas

274 , and 1496 Hispanic persons from MESA (Multi-Ethnic Study of Atherosclerosis) and 803 South Asian par

275 m MMP-7 in 1,227 participants in MESA (Multi-Ethnic Study of Atherosclerosis) at baseline.

276 osis and NT-proBNP levels in the MESA (Multi-Ethnic Study of Atherosclerosis) study.

277 ted normotensive participants in MESA (Multi-Ethnic Study of Atherosclerosis) with measurements of se

278 In MESA (Multi-Ethnic Study of Atherosclerosis), 5657 participants (52%

279 eline among 4986 participants in MESA (Multi-Ethnic Study of Atherosclerosis), a cohort initially fre

280 inked individual-level data from MESA (Multi-Ethnic Study of Atherosclerosis), a community-based coho

281 yses of participants enrolled in MESA (Multi-Ethnic Study of Atherosclerosis), a population-based coh

282 cial Differences in Stroke), the MESA (Multi-Ethnic Study of Atherosclerosis), and the JHS (Jackson H

283 al cardiovascular disease in the MESA (Multi-Ethnic Study of Atherosclerosis).

284 e included participants from the MESA (Multi-Ethnic Study of Atherosclerosis).

285 mong 1554 African Americans from MESA (Multi-Ethnic Study of Atherosclerosis).

286 and 455 incident diabetes cases in the Multi-Ethnic Study of Atherosclerosis, a multicenter US study

287 luding the Framingham Heart Study, the Multi-Ethnic Study of Atherosclerosis, and the Cardiovascular

288 etes among 5,310 participants from the Multi-Ethnic Study of Atherosclerosis, enrolled in 2000-2002.

289 A total of 1669 participants in the Multi-Ethnic Study of Atherosclerosis, or MESA, who were free

290 o 2011 among 5,919 participants in the Multi-Ethnic Study of Atherosclerosis.

291 tudy, Cardiovascular Health Study, and Multi-Ethnic Study of Atherosclerosis.

292 76 asymptomatic participants of MESA ([Multi-Ethnic Study of Atherosclerosis] 68.7 years, 53.0% women

293 wer risk of colorectal cancer in most racial/ethnic subgroups.

294 had the greatest influence on overall racial/ethnic survival disparities accounting for 24% of dispar

295 ographic, and neighborhood factors to racial/ethnic survival disparities in California.

296 Conclusion Overall reductions in racial/ethnic survival disparities were driven largely by reduc

297 t diagnosis had the largest effect on racial/ethnic survival disparities, but earlier detection would

298 ect variation in patient age at diagnosis or ethnic variation affecting miRNA epigenetic regulation o

299 ver, the reasons for these inequalities, and ethnic variations in other markers of sexual health, rem

300 exual behaviours, and whether they explained ethnic variations in sexual health markers (reported STI