ライフサイエンスコーパス: Asia

1 urope, North America and Australia, and East Asia).

2 es (except for northern Africa and northeast Asia).

3 G-vaccination and stays >=3 months in Africa/Asia).

4 datasets from around the world (USA, Europe, Asia).

5 he sporadic nature of NiV outbreaks in South Asia.

6 ty modeling and mitigation policies in South Asia.

7 ssociated with societal upheaval in tropical Asia.

8 udomallei within densely populated Southeast Asia.

9 cribe the risk of SPM in patients with MM in Asia.

10 north Africa, and eastern Europe and central Asia.

11 s between humans and (peri)urban macaques in Asia.

12 frica, India, and most recently southeastern Asia.

13 with particularly strong effects over South Asia.

14 were conducted in Europe, North America, and Asia.

15 ading systems connecting Europe, Africa, and Asia.

16 vent during the Campanian-Maastrichtian from Asia.

17 o decades have been reported over inner East Asia.

18 rove this critical carbon sink for Northeast Asia.

19 inating from the republic of Tuva in central Asia.

20 frica and 1.7% (IQR, 0.7%-2.5%) in Southeast Asia.

21 ly refugees and asylum seekers, in Southeast Asia.

22 n the peat swamp forests (PSFs) of Southeast Asia.

23 rate shift with a probability of 95% in East Asia.

24 ss Africa, Central America and South-Western Asia.

25 rease again from other sources in South East Asia.

26 m group that are widespread across Southeast Asia.

27 evere pneumonia in 7 countries in Africa and Asia.

28 hich despite their name likely originated in Asia.

29 ning the major malaria vectors in Africa and Asia.

30 urope, North America and Australia, and East Asia.

31 ealth-affecting ~1.5 billion people in South Asia.

32 h Africa and 410 (IQR, 370-450) in Southeast Asia.

33 outh Africa and 44 (IQR, 37-51) in Southeast Asia.

34 a food resource, particularly in Africa and Asia.

35 n different socio-geographic levels in South Asia.

36 trol study done at seven sites in Africa and Asia.

37 re once widespread across Europe and western Asia.

38 lowed by the A-genome diploids of Africa and Asia.

39 frica and 5.8% (IQR, 5.1%-6.3%) in Southeast Asia.

40 or outbreaks of this disease beyond Far East Asia.

41 ceania, south Asia, east Asia, and southeast Asia.

42 atial-temporal dynamics of XCH(4) in monsoon Asia.

43 millet is present in significant numbers in Asia.

44 tant TB in South Africa and 83% in Southeast Asia.

45 y of NKTCL in multiple populations from east Asia.

46 y pathogen, following reports from Southeast Asia.

47 a virus (HPAIV) H5N1 outbreaks in South-East Asia.

48 of the earliest farming communities in East Asia.

49 at least for the United States, Europe, and Asia.

50 ent in many countries of Africa, Europe, and Asia.

51 freshwater biogeographic divides throughout Asia.

52 evolutionary origin distinct from Southeast Asia.

53 e needed to flatten the curve of HF in South Asia.

54 igh as 40% in resource-poor regions of South Asia.

55 ping risk-stratified screening programmes in Asia.

56 thalassemia with extremely high frequency in Asia.

57 echanization policies in South and Southeast Asia.

58 was notable for North America and Southeast Asia.

59 nmental resistance against this type outside Asia.

60 f this approach in an urban setting in South Asia.

61 tly concentrated in north western Europe and Asia.

62 atwaves but less typhoon landfalls over East Asia.

63 s) and relative terms, followed by Temperate Asia (+1,597 +/- 197), Northern America (1,484 +/- 74) a

64 ated in sub-Saharan Africa (25 [42%]), south Asia (13 [22%]), and North America (13 [22%]) and mainly

65 combustion environment (Hirata in Catal Surv Asia 18:128-133, 2014).

66 Foreign-born mothers originated from South Asia (28.6%), Europe/Central Asia (3.2%), Africa (2.1%),

67 were significantly greater in LMICs in South Asia (3.06 per 100 women) and Sub-Saharan Africa (2.76 p

68 ated from South Asia (28.6%), Europe/Central Asia (3.2%), Africa (2.1%), East Asia/Pacific (1.1%), an

69 In Southeast Asia, 35% of peatlands had been drained and converted to

70 ome sequences of Europe (43.07%) followed by Asia (38.09%), and North America (29.64%) while case fat

71 enters across Europe, the United States, and Asia (490 patients), was used for validation.

72 valence varied by world region, from 2.6% in Asia (95% confidence interval [CI], 0-5.9) to 10.5% in A

73 overlap with conservation areas in Southeast Asia, a globally important region for biodiversity.

74 Currently, South Asia accounts for a quarter of the world population, yet

75 from different parts of the globe including Asia, Africa and the Middle East.

76 In other regions, Europe, boreal Asia, Africa, South Asia, and Oceania, it was difficult

77 recordings of 60 subjects from the Honolulu Asia Aging Study including 10 with prevalent PD, 25 with

78 and is reaching epidemic proportions in East Asia, although there are differences in prevalence betwe

79 In the Middle East and South Asia, an older H9N2 virus strain has been replaced by a

80 5 were observed as 27.9 per 100,000 in South Asia and 18.61 per 100,000 in Sub-Saharan Africa.

81 te strains as well isolates from patients in Asia and Africa with clinical malaria.

82 d on successful clinical trials conducted in Asia and Africa, but studies, using mainly European data

83 ents of natural forest ecosystems in Europe, Asia and Africa.

84 Anthropogenic loss hotspots across Southeast Asia and around the world have characterized the ecosyst

85 tation and sustainable scale-up is needed in Asia and beyond.

86 medically-important vipers of Africa, South Asia and Central America.

87 biogeographic division of mainland Southeast Asia and describe 12 species and 4 genera of freshwater

88 onnections between freshwater basins of East Asia and Europe near the Cretaceous-Paleogene boundary,

89 h benefits across densely populated areas of Asia and Europe, we find that larger emission reductions

90 mallei to Myanmar and elsewhere in Southeast Asia and globally requires further study.

91 f human populations through Island Southeast Asia and into Sahul were driven by the lure of high-calo

92 The Aral Sea basin in Central Asia and its major rivers, the Amu Darya and Syr Darya,

93 blind trial of TAK-003 in endemic regions of Asia and Latin America (26 medical and research centres

94 fection, the predominant cause of malaria in Asia and Latin America, affects ~14 million individuals

95 which occur at a high frequency (40-60%) in Asia and moderate frequency (15%) in samples of European

96 nt throughout the arid landscapes of Central Asia and Mongolia, but have undergone dramatic populatio

97 ersal of Homo sapiens out of Africa and into Asia and Oceania.

98 number of studies were conducted in the East Asia and Pacific region (n = 20) followed by South Asia

99 irst study in a middle-income country in the Asia and Pacific region to show the effect of PCV on pne

100 Data are scarce for the effect of PCV in the Asia and Pacific region.

101 (640 000-970 000; 5%) of whom resided in the Asia and Pacific region.

102 a H9N2 viruses are endemic in poultry across Asia and parts of Africa where they occasionally infect

103 falciparum parasite populations in Southeast Asia and South America.

104 aps between the two methods remained in East Asia and South America.

105 m 43 archaeological contexts in Southwestern Asia and Southeastern Europe, between 40,000 and 3,000 c

106 orest were cleared across mainland Southeast Asia and sub-Saharan Africa for rubber plantations betwe

107 verted) in 54 countries (24 in Africa, 19 in Asia and the Middle East, 11 in Latin America) and net h

108 le East and North Africa, 9.9% (6.0%-14.6%); Asia and the Pacific, 9.8% (8.7%-11.0%); Eastern and Sou

109 cases from sub-Saharan Africa and 17.1% from Asia and the Pacific.

110 China in 2010 and in 2014 spread throughout Asia and to Europe and the United States via migrating b

111 ) plantations throughout South and Southeast Asia and Western Africa, causing tree mortality and seve

112 11 000 years ago in the New World and Asia, and apparently more recently in Africa.

113 -intensive gas supplies from Russia, Central Asia, and domestic shale gas fields, the supply-energy-w

114 across 21 countries in Africa, the Americas, Asia, and Europe.

115 , the B type is the most common type in East Asia, and its ancestral genome appears not to have sprea

116 e found to vary greatly across the Northeast Asia, and largely decided by mean diameter at breast hei

117 nerators and (131)I, particularly in Africa, Asia, and Latin America.

118 ave undergone parallel radiations in Africa, Asia, and Madagascar.

119 with extinction vulnerability [4] in Africa, Asia, and New Guinea, where large-scale rubber cultivati

120 s to human health, particularly in Southeast Asia, and no drugs or vaccines are available.

121 n 27 countries across Europe, South America, Asia, and north Africa.

122 regions, Europe, boreal Asia, Africa, South Asia, and Oceania, it was difficult to determine whether

123 t harm in 24 countries (22 in Africa, one in Asia, and one in Latin America).

124 ng early hominin species of Island Southeast Asia, and reached Java (Indonesia) more than 1.5 million

125 ub-Saharan Africa, Oceania, south Asia, east Asia, and southeast Asia.

126 food from distant locations, including South Asia, and such goods were likely consumed as oils, dried

127 Yersinia pestis remains endemic in Africa, Asia, and the Americas and is a known bioterrorism agent

128 e trees (trees/ha) in forests across Africa, Asia, and the Americas.

129 46.6 years, 68% were male, 77% were born in Asia, and the median time on treatment was 27.5 months.

130 e swine industry from Central Europe to East Asia, and they are being caused by circulating strains o

131 d clover natural populations from Europe and Asia, and varieties or synthetic populations.

132 r paired exchange (LPE) has been utilized in Asia, and was recently reported in Canada; here we repor

133 eastern Mediterranean and Africa, southeast Asia, and western Pacific), country income (low, middle,

134 rds for An. stephensi across its full range (Asia, Arabian Peninsula, Horn of Africa) and a set of sp

135 viruses, enzootic in poultry populations in Asia, are associated with fewer confirmed human infectio

136 For the past decade in Southeast Asia, artemisinins, the core component of first-line ant

137 cal Variable Model 6 (DGM-CM6), developed in Asia as a prognostic panel for all subtypes of breast ca

138 e source of Indo-European languages in South Asia, as well as Europe.

139 was done at 86 sites in 13 countries across Asia, Australasia, Europe, and North America and enrolle

140 ies in North America, Europe, South America, Asia, Australia, New Zealand, and South Africa.

141 udy at 68 centres from nine countries across Asia, Australia, North America, and western Europe.

142 uding Europe, North Africa, the Middle East, Asia, Australia/New Zealand, and the United States/Latin

143 le NiV continues to cause outbreaks in South Asia (Bangladesh and India), and these viruses have rema

144 ree times higher health benefits in parts of Asia because of the nonlinear health responses to pollut

145 Hence, many regions in Asia benefit disproportionately much from large coal pow

146 that, in addition to domestic anseriforms in Asia, both migratory wild birds and domestic anseriforms

147 ion therapy), is widespread across Southeast Asia but to date has not been reported in Africa(1-4).

148 nsplantation (LDLT) enjoys widespread use in Asia, but remains limited to a handful of centers in Nor

149 ery low death rate countries such as Eastern Asia, Central Europe, or the Balkans have a common featu

150 ue to recombinants was highest in South-East Asia, China, and West and Central Africa.

151 le East, Ethiopia, Russia, Pakistan, Central Asia, China, New Zealand, and South Africa were characte

152 South Asia clade I was identified as the major genotype, while

153 lla/groin, and (d) predominance of the South Asia clade I with intrinsic resistance to fluconazole an

154 lyses of other taxa from South and Southeast Asia, contribute to an improved understanding of the dis

155 Sub-Saharan Africa and south Asia contributed 81% of 5.9 million under-5 deaths and 7

156 tronger (South Africa) and weaker (Southeast Asia) correlation of fluoroquinolone resistance with rif

157 Countries in South Asia demonstrated the greatest rise in WL due to breast

158 or the emergence of pastoral groups in Inner Asia describe mounted, horse-borne herders sweeping acro

159 The web-based Joint Asia Diabetes Evaluation (JADE) platform provides a prot

160 burden in sub-Saharan Africa, Oceania, south Asia, east Asia, and southeast Asia.

161 roughout Latin America, Africa and Southeast Asia, emphasising the importance of an international vec

162 uch as the Indian subcontinent, Africa, East Asia, Europe and North America.

163 and 5 pediatric studies (3377 patients) from Asia, Europe, and North America were included (14 of 34

164 ing with HIV across four continents (Africa, Asia, Europe, and North America).

165 those found in patients from other areas of Asia, Europe, and North America, as well as other unique

166 observational database from 169 hospitals in Asia, Europe, and North America, we evaluated the relati

167 was done at 118 sites in 13 countries across Asia, Europe, and North America.

168 emiological studies of viral transmission in Asia, Europe, and the United States.

169 regions (ie, Africa, the Americas, Southeast Asia, Europe, Eastern Mediterranean, and Western Pacific

170 cations) from 74 centres in 13 countries (in Asia, Europe, North America, and South America).

171 m and was stratified by geographical region (Asia, Europe, North America, or South America) and previ

172 The Hindu Kush and Central Asia, extratropical Andes, greater Himalayas, and Patago

173 en occurring on smallholder poultry farms in Asia for two decades.

174 due to recombinants was highest in Southeast Asia (>95% of infections in Viet Nam, Cambodia, and Thai

175 Regionally, south-eastern Asia had the highest NH(3) EFs of synthetic N fertilizer

176 Biomass C stock in Northeast Asia has increased by 20%-46% over the past 20 years, of

177 Increasing air pollution in South Asia has serious consequences for air quality and human/

178 Extreme weather events in Asia have been occurring with increasing frequency as th

179 station and forest conservation in Northeast Asia have effectively expanded the size of the carbon si

180 xtensive areas of the peatlands in Southeast Asia have experienced land-cover change to smallholder a

181 d to examine how health systems in Southeast Asia have responded to the health system challenges of f

182 viruses of this lineage infecting poultry in Asia have spilled over into wild birds and spread via bi

183 ng economic plants, and economic plants from Asia have the greatest naturalization success.

184 In Asia, HCCs from patients with hepatitis B virus have bee

185 In Asia, high-input technology packages secured a tripling

186 the cardiovascular disease epidemic in South Asia (home to a quarter of world's population), where a

187 collection into four large regional groups: Asia, Iberia, UK, and Central Europe.

188 ory line of an economically important insect Asia II 7, a putative species of the Bemisia tabaci whit

189 Secondary endpoints were ASIA Impairment Scale (AIS) grade and change in upper-ex

190 ion of fluoroquinolone-resistant Shigella in Asia in the early 2000s and the subsequent global spread

191 the founder crops domesticated in Southwest Asia in the early Holocene, but was domesticated in nort

192 he innovation of horseback riding in Central Asia in the final 2nd millennium BCE.

193 ure, and indigenous varieties from Southeast Asia in the second group.

194 ed a rebound of importations from South East Asia in the successive weeks.

195 South Asia, including India and Nepal, suffers from severe air

196 ns of elderly persons in Africa and parts of Asia increase these countries' vulnerability to deaths i

197 From 2005-2015, mortality in South Asia increased by 8.20% and decreased by 6.45% in Sub-Sa

198 e modern and ancient DNA datasets from South Asia indicate that the Brahmin caste has higher Ancient

199 ndreds of thousands of migrants from central Asia into the Indian subcontinent via multiple modes of

200 Lung cancer in East Asia is characterized by a high percentage of never-smok

201 e USA and Canada and 15 centres in southeast Asia (Korea, Taiwan, and Singapore) that enrolled men an

202 al areas, such as South India and South East Asia (L1) or East Africa (L7).

203 of 1900 global S. Typhi indicated that South Asia might be the site of the original emergence of the

204 ways, across the Strait of Gibraltar and via Asia Minor.

205 these climate extremes in mainland Southeast Asia (MSEA) has never been defined.

206 nd Pacific region (n = 20) followed by South Asia (n = 7).

207 is the case for populations in southeastern Asia, nor whether the subgroup with a preference for ric

208 done at 107 sites in 15 countries in Europe, Asia, North America, and South America.

209 20 centers from Europe, Asia, North-America, and South-America participated from

210 ere are distinct opportunities in South-East Asia, Northern Europe, North America and South America.

211 ual outbreaks of fatal encephalitis in South Asia-one of the most populous regions on Earth.

212 78 countries (46 countries in Africa, 20 in Asia or the Middle East, and 12 in Latin America) were i

213 essed by American Spinal Injury Association (ASIA), or International Standards for Neurological Class

214 th the broader archaeofaunal record of Inner Asia, our analysis supports models for widespread change

215 most a third (32% [29-34]) would be in South Asia; over the next 100 years, almost 90% of deaths aver

216 the largest decrease occurred in high-income Asia Pacific (APC = -2.88% [-3.58 to -2.18%]).

217 d to ease COVID-19 restrictions: five in the Asia Pacific region (ie, Hong Kong [Special Administrati

218 amushi, is a major cause of fever across the Asia Pacific region with more than a billion people at r

219 Asia-Pacific (APAC) has been the world's most dynamic em

220 ers was as follows: Africa-Middle East 3.0%, Asia-Pacific 21.4%, Europe 48.2%, Latin America 12.1%, a

221 er the period 1918-2018 (across 23 different Asia-Pacific geopolitical entities).

222 The Asia-Pacific region represents the largest share (93.8%)

223 alpine grasslands-that are unmatched in the Asia-Pacific region(4,5), it is a globally recognized ce

224 ,537 patients (94.8%) were enrolled from the Asia-Pacific region, 684 (4.5%) from the Americas, and 1

225 orth America, South America, Europe, and the Asia-Pacific region.

226 orth America, South America, Europe, and the Asia-Pacific region.

227 the machine learning model using data from 2 Asia-Pacific sites (Singapore and New Zealand; n = 399).

228 tients from 14 European, North American, and Asia-Pacific study groups of the Ponte di Legno group we

229 rom North American study groups, and 20 from Asia-Pacific study groups).

230 archy" has been historically endorsed by the Asia-Pacific treatment algorithm as well as by the recen

231 at health risks in developing regions of the Asia-Pacific.

232 ope/Central Asia (3.2%), Africa (2.1%), East Asia/Pacific (1.1%), and the Middle East (0.6%).

233 nts with the highest salt-affected areas are Asia (particularly China, Kazakhstan, and Iran), Africa,

234 ue to increase in eastern Europe and central Asia, particularly among people who inject drugs (PWID),

235 to the development of the Nipponides in east Asia, parts of the North American Cordillera and the Alt

236 In Southeast Asia, people are often coinfected with different species

237 at the freshwater bivalve fauna of Southeast Asia primarily originated within three evolutionary hots

238 ction, the Surveillance for Enteric Fever in Asia Project (SEAP) conducts prospective enteric fever s

239 e analyzed Surveillance for Enteric Fever in Asia Project (SEAP) data to estimate the burden of enter

240 art of the Surveillance for Enteric Fever in Asia Project (SEAP) II in Pakistan.

241 ation-based Surveillance of Enteric Fever in Asia Project (SEAP) in Bangladesh, Nepal and Pakistan.

242 The Surveillance for Enteric Fever in Asia Project (SEAP) is a multicenter, multicountry study

243 The Surveillance for Enteric Fever in Asia Project (SEAP) is a prospective study of enteric fe

244 del in the Surveillance for Enteric Fever in Asia Project (SEAP) to assess incidence of enteric fever

245 ing in the Surveillance for Enteric Fever in Asia Project (SEAP), a 3-year surveillance study in Bang

246 The Surveillance for Enteric Fever in Asia Project (SEAP), a prospective surveillance study, c

247 art of the Surveillance for Enteric Fever in Asia Project (SEAP), we investigated the extent measured

248 art of the Surveillance for Enteric Fever in Asia Project (SEAP).

249 al for the Surveillance for Enteric Fever in Asia Project .

250 ed for the Surveillance for Enteric Fever in Asia Project in Nepal, we incorporated a geographic info

251 y 2020, anthropogenic emissions in Northeast Asia reduced due to the COVID-19 outbreak.

252 e-income countries, mainly in the South-East Asia region, Eastern Mediterranean region, and African r

253 density and underlying factors in Northeast Asia remain unclear.

254 V. cholerae contributes to outbreaks outside Asia remains debated.

255 n the summer monsoonal realm, like Southeast Asia, seasonally and interannually depleted oxygen isoto

256 preparations by local populations in Africa, Asia, South America, and Oceania.

257 highly related to previously described South Asia (subgroup I, II) and Southeast Asia (subgroup II) c

258 ed South Asia (subgroup I, II) and Southeast Asia (subgroup II) clades.

259 to a novel clade that emerged from a Central Asia sublineage exhibiting resistance to ciprofloxacin a

260 rs for long-term carriage were travelling to Asia, swimming in a sea/ocean, and not changing the kitc

261 stric, and liver cancers were more common in Asia than in other parts of the world, and the burden fr

262 ast China and 36% less rainfall in Southeast Asia than suggested by the multi-model mean.

263 ound in significant proportions outside East Asia, that is, in Europeans and Americans.

264 countries in Africa, Central America, South Asia, the Caribbean, and the Middle East.

265 st urban land expansion occurs in Africa and Asia, the developed world experiences a similarly large

266 vasion of FAWs from Africa eastward to South Asia, the Indochina Peninsula, and mainland China has re

267 fields and edible in many regions of Europe, Asia, the Middle East, Africa, and Australia.

268 IVs) circulate in poultry throughout much of Asia, the Middle East, and Africa.

269 th moderate and severe anaemia prevalence in Asia, the Middle East, and Latin America, but correlated

270 or greater, such as countries in Africa and Asia, the Pacific Islands, and parts of South America, o

271 t in the last decade has spread into Europe, Asia, the Pacific Region, and the Americas.

272 ca and Africa can be explained; in Southeast Asia, these factors explain only ~25%.

273 In view of increasing instability in South Asia, this study shows that a regional conflict using <1

274 ed variants circulating in South America and Asia.This study provides evidence for the existence of h

275 (3) Heterometrinae dispersed to Southeast Asia three times during India's collision with Eurasia,

276 rom over 76% in Latin America and South East Asia to 16% in South Korea and Singapore.

277 ow health systems are organised in Southeast Asia to address the health needs of forcibly displaced p

278 stillbirths in sub-Saharan Africa and south Asia, to improve the accuracy of determining causes of d

279 traordinary species diversity in America and Asia together with the continuous continental distributi

280 ajor outbreaks ongoing in Eastern Europe and Asia, urgent action is needed to advance our knowledge a

281 Despite its public health significance in Asia, vaccines and specific therapeutics against SFTS ar

282 plications, cost-effectiveness, and context (Asia versus Africa; emergency versus food-secure setting

283 tes in the USA, Europe, the Middle East, and Asia were assigned to one of three cohorts: patients wit

284 refore, it seems the great rivers of Central Asia were not just static "stage sets" for some of the t

285 Mollusks collected off the coasts of Asia were the most heavily contaminated, coinciding with

286 from 15 studies in Latin America, Africa and Asia) were identified through systematic review.

287 l epidemics, including in east and southeast Asia, west and central Africa, Middle East and north Afr

288 n the Late Jurassic, and colonized Southeast Asia when it collided with Eurasia in the early Cenozoic

289 Eastern Europe and is rapidly emerging into Asia, where it has led to the deaths of millions of pigs

290 ulcis Thunberg is widely distributed in East Asia, where it is well known as a food, but it is rarely

291 This Viewpoint focuses on Asia, where key populations have advocated for legal ref

292 d eastern (including northeastern Europe and Asia), which reflects the northern and southern ecotypes

293 ea, rice plant growth, and XCH(4) in monsoon Asia, which accounts for ~87% of the global rice area.

294 in tick-endemic areas of Europe and northern Asia who present with atypical vascular and/or thromboem

295 across North America, Europe, Australia, and Asia with relapsed or refractory multiple myeloma were r

296 he swine industry in Central Europe and East Asia, with current outbreaks caused by circulating strai

297 stigated mostly in Europe, the USA, and East Asia, with few data available from other regions of the

298 mallei originated in Australia and spread to Asia, with phylogenetic evidence of repeated reintroduct

299 nome appears not to have spread outside East Asia without first mutating into derived B types, pointi

300 ent civilizations across parts of Africa and Asia, yet the extent of these climate extremes in mainla