ライフサイエンスコーパス: environmental health

1 nvestigate how social science contributes to environmental health.

2 Social science collaboration with environmental health.

3 reaching strength of evidence conclusions in environmental health.

4 transparent method of research synthesis in environmental health.

5 rch synthesis in evidence-based medicine and environmental health.

6 mportant to the assessing human exposure and environmental health.

7 the potential to positively impact human or environmental health.

8 relatively new subjects within the field of environmental health.

9 as important implications for both human and environmental health.

10 f nutritious foods is critical for human and environmental health.

11 gression of diabetes is an emerging issue in environmental health.

12 oss a variety of decision-making contexts in environmental health.

13 bacterial genera with interest in public and environmental health.

14 ty pollutant of growing concern to human and environmental health.

15 for water purification to protect public and environmental health.

16 ial diversity in determining both public and environmental health.

17 d dioxins pose a serious threat to human and environmental health.

18 or drug discovery, genotoxicity testing, and environmental health.

19 of public policy and, eventually, human and environmental health.

20 the interconnectedness of human, animal, and environmental health.

21 ange is essential for safeguarding human and environmental health.

22 esistance (AMR) threatens human, animal, and environmental health.

23 by the NOAA Mussel Watch Program to monitor environmental health.

24 powerful platforms for monitoring human and environmental health.

25 ely detected at levels threatening human and environmental health.

26 s is urgently needed to safeguard public and environmental health.

27 s a key global priority to protect human and environmental health.

28 to determine the potential risk to human and environmental health.

29 euticals (FPPs), pose a persistent threat to environmental health.

30 es resulting in growing threats to human and environmental health.

31 s) have serious adverse effects on human and environmental health.

32 ly important for engineered applications and environmental health.

33 Biodiversity is key for human and environmental health.

34 could have a devastating effect on human and environmental health.

35 to address challenges in human, animal, and environmental health.

36 ti-faceted challenges related to arsenic and environmental health.

37 logy, Fe biogeochemistry, and both human and environmental health.

38 injuries (63.6), infectious diseases (63.0), environmental health (62.9), and universal health covera

39 he environmental impact of humanity, because environmental health affects human health.

40 rs and outdoors can be heavily influenced by environmental health (air, water, and soil quality) inte

41 of these conditions is an emerging issue in environmental health, although identifying and prioritiz

42 .453-0.472) had the highest translatability; environmental health and applications focused on the ele

43 m we analyze here is of great importance for environmental health and development.

44 tudies being conducted within the Children's Environmental Health and Disease Prevention Research Cen

45 interdisciplinary approaches that integrate environmental health and economic disciplines are greatl

46 s advanced and improved our understanding of environmental health and justice.

47 lth research and discuss the intersection of environmental health and reproductive justice issues in

48 hnology advancements should be fostered, the environmental health and safety (EHS) of nanoparticles u

49 ndustry has raised public concerns about the environmental health and safety impact of engineered nan

50 A critical need for advancing environmental health and safety research for nanomateria

51 O(2) (E171) rather than that adopted in many environmental health and safety tests (i.e., P25), which

52 as extraction wells and wells with disclosed environmental health and safety violations, we different

53 iseases, health statistics, occupational and environmental health and safety, injury prevention and c

54 making decisions about their regulation for environmental, health and safety reasons.

55 se pages (to help fill in knowledge gaps for environmental health) and new phenotype search parameter

56 e; engineering and technology; lab sciences, environmental health, and biomedical sciences; and behav

57 The project team consisted of public health, environmental health, and legal professionals with exper

58 driven, solution-oriented problem solving in environmental health, and to inspire more members of the

59 is an emerging technology that could address environmental, health, and animal welfare concerns assoc

60 practices, this paper analyzes U.S. federal environmental, health, and safety (EHS) regulations usin

61 The life-cycle environmental, health, and safety (EHS) risks of nanomat

62 ked networks and for the potential to reduce environmental, health, and safety impacts associated wit

63 on's material and energy needs must consider environmental, health, and social impacts while developi

64 Health approach, in which human, animal and environmental health are considered together, such a gen

65 action, recognizing that human, animal, and environmental health are interdependent.

66 tock dynamics and reproduction as well as in environmental health assessment.

67 of species and evolve as a new omics tool in environmental health assessment.

68 al hazard screening, this work suggests that environmental health assessments should consider effects

69 ion, but few studies have demonstrated their environmental health benefits in field settings.

70 rn Louisiana are subject to disproportionate environmental health burdens, including elevated risk fo

71 are used as sentinels for the assessment of environmental health but sex or stage in the reproductio

72 gical effects constitutes a new paradigm for environmental health but still lacks high-throughput, us

73 diments is important for long-term human and environmental health, but site-management decisions are

74 Systems science applied to environmental health can address major challenges by a)

75 of age in the Columbia Center for Children's Environmental Health (CCCEH) longitudinal cohort study.

76 posity in the Columbia Center for Children's Environmental Health (CCCEH) New York City birth cohort.

77 In 1998-2002, the Mount Sinai Children's Environmental Health Center (New York City) investigated

78 has the opportunity to address its national environmental health challenges and to assume a central

79 y by adding programs in reproductive health, environmental health, chronic diseases, nutrition, injur

80 sed Dutch cohort study, the Occupational and Environmental Health Cohort Study (AMIGO) (n = 14,829; a

81 ipants in the Columbia Center for Children's Environmental Health cohort.

82 The Research Triangle Environmental Health Collaborative invited 111 participa

83 l health, and to inspire more members of the environmental health community to consider this approach

84 tamination of well water is recognized as an environmental health concern.

85 technologies is emerging as an international environmental health concern.

86 use toxicity in exposed organisms and are an environmental health concern.

87 organic chemicals known or suspected to pose environmental health concern.

88 urrence of the beta-blocker labetalol causes environmental health concern.

89 anophosphate insecticide, has raised serious environmental health concerns since it is a potent neuro

90 ority for exposure assessment because of the environmental health concerns that they pose.

91 lergic diseases and asthma in the context of environmental health concluded that connecting science w

92 By contrast, several lifestyle/environmental health conditions are still underfunded, i

93 als, but also assess the long-term human and environmental health consequences of dendrimer exposure

94 Benefits to both population and environmental health could be expected from consumption

95 est investment, the world's most challenging environmental health crises can be addressed by adapting

96 lution inequity": the difference between the environmental health damage caused by a racial-ethnic gr

97 he nation's leadership with country-specific environmental health data that can be used to protect th

98 d reach strength of evidence conclusions for environmental health decision making.

99 rse groups to improve the science underlying environmental health decisions.

100 ntended to link exposure science and diverse environmental health disciplines including toxicology, e

101 These findings highlight environmental health disparities affecting pregnant wome

102 and generate scientific knowledge to reduce environmental health disparities in low-income, minority

103 fields of biomedical diagnosis, food safety, environmental health, drug screening and delivery.

104 tter decision-making and improved public and environmental health, economic viability, and sanitation

105 be integrated into future assessments of the environmental health effects and utilization of AgNP-con

106 Environmental health (EH) professionals, one of the larg

107 Expanded quantification of disease due to environmental health (EH) risk factors, including climat

108 We evaluated how data in environmental health (EH) studies may be vulnerable to l

109 necessitate increased mining with attendant environmental, health, energy, water, and carbon-footpri

110 ds in allergy/allergens, immunology, asthma, environmental health, environmental exposures and pollut

111 l substance and their grouping for human and environmental health evaluation through read-across.

112 s study was to measure the effect of various environmental health factors and household demographics

113 an analyte of great importance to human and environmental health for which, like so many other small

114 . 1) is a global treaty to protect human and environmental health from adverse effects of the toxic e

115 ich is particularly important in fields like environmental health, further steps are needed to provid

116 ons that can exceed the California Office of Environmental Health Hazard Assessment 8-h Reference Exp

117 Air pollution is a pervasive environmental health hazard that occurs over a lifetime

118 ambient radon exposure presents an important environmental health hazard.

119 Higher risk of exposure to environmental health hazards near oil and gas wells has

120 ual pollutants and comparing IAPs with other environmental health hazards require a common metric of

121 en found, potentially leading to significant environmental/health hazards.

122 auses of global disease fall in the realm of environmental health: household air pollution (HAP) and

123 re emissions (CO(2), PM(2.5), NO(X), HC) and environmental health impacts (primary PM(2.5)) from the

124 ural gas, wind, water, or solar power reduce environmental health impacts by 50% or more.

125 rid average" electricity increases monetized environmental health impacts by 80% or more relative to

126 mity of emissions to people, when evaluating environmental health impacts for EVs.

127 The environmental health impacts of transportation depend in

128 ties, the net result is that primary PM(2.5) environmental health impacts per passenger-km are greate

129 In contrast, e-bikes yield lower environmental health impacts per passenger-km than the t

130 This is of environmental health importance because increases in air

131 over the long-term, allowing the benefits of environmental health improvements to be sustained in set

132 utrient and microbial pollution on human and environmental health, improvements in both access to ade

133 rning surveillance across human, animal, and environmental health in diverse settings, including at t

134 With human environmental health in mind, novel dismantling methods

135 ndicators of physiological, biochemical, and environmental health in participants in the US National

136 are central to balancing food production and environmental health in the face of climate change.

137 f expert-based narrative review prevalent in environmental health include a prespecified protocol, st

138 Environmental health information resources lack exposure

139 d maximize transparency in the evaluation of environmental health information.

140 A paucity of environmental health infrastructure and materials for sa

141 Engineered environmental health interventions and services in low-i

142 ics sensors are increasingly used to monitor environmental health interventions, but the effect of se

143 otential to reduce bias in monitoring use of environmental health interventions.

144 tify barriers and facilitators to success in environmental health interventions.

145 Balancing productivity, profitability, and environmental health is a key challenge for agricultural

146 Understanding feedbacks between human and environmental health is critical for the millions who co

147 tion of genetics and genomics to problems in environmental health is only the beginning yet, by itsel

148 Microplastics (MPs) are a significant environmental health issue and increasingly greater sour

149 y Committee, and the reasons that this is an environmental health issue.

150 To respond to complicated environmental health issues, the National Institute of E

151 thods of research synthesis commonly used in environmental health lag behind systematic review method

152 Environmental health literacy (EHL) is coalescing into a

153 nce, support community empowerment, increase environmental health literacy, and generate individual a

154 The built environment, a key component of environmental health, may be an important contributor to

155 an feedback along with input from experts in environmental health, medical toxicology, infectious dis

156 impacts of both cost-savings information and environmental health messaging strategies with residenti

157 nd Disease Registry, and National Center for Environmental Health); New York City Department of Healt

158 tal health issues, the National Institute of Environmental Health (NIEH), Chinese Center for Disease

159 DC's expanded mission into chronic diseases, environmental health, occupational health, and injury co

160 hronic disease, injury prevention, violence, environmental health, occupational safety and health, an

161 observations by community health workers and environmental health officers, and (ii) sensor-equipped

162 dopted prior to the occurrence of any severe environmental, health, or safety hazard.

163 cts that have the potential to realize a net environmental, health, or societal benefit.

164 By integrating human, animal, and environmental health perspectives, we can better underst

165 Environmental health policies could play a crucial role

166 impacts, with special emphasis on improving environmental health policies through better scientific

167 the American Thoracic Society Committees on Environmental Health Policy and International Health, we

168 A transdisciplinary approach for environmental health practice has emerged that engages t

169 eking behaviours, structural and behavioural environmental health practices, and animal husbandry wer

170 sis, and agent-based modeling, to the global environmental health priorities of HAP and WASH research

171 ntly, lead poisoning remains the most common environmental health problem affecting American children

172 application of sewage sludge will strengthen environmental health protections.

173 lop a systematic-review framework to address environmental health questions by extending approaches d

174 ematic review can be successfully applied to environmental health questions to provide greater object

175 rest in applying these procedures to address environmental health questions.

176 The Columbia Center for Children's Environmental Health recruited pregnant women for a pros

177 outbreaks; creation and implementation of 6 environmental health regulations; establishment of a cen

178 ere characterised by individual, social, and environmental health-related factors using logistic regr

179 ries and investments in capacity for further environmental health-related research are positive steps

180 Novel technologies are being integrated into environmental health research and are also applicable to

181 indigenous communities in various stages of environmental health research and discuss the intersecti

182 ngaging community partners in the conduct of environmental health research and in the development of

183 e, these species have been the main focus of environmental health research and regulatory standards.

184 Members of the environmental health research community should work clos

185 Environmental health research employs a variety of metri

186 ple levels, to examine how transdisciplinary environmental health research fosters better science, an

187 We propose that scientific discovery (T1) in environmental health research frequently occurs through

188 atic and transparent method for synthesizing environmental health research from multiple evidence str

189 nology and context of translational science, environmental health research has not always found a cle

190 Environmental health research has suggested that fine pa

191 ace of change is brisk, there is a dearth of environmental health research in this region.

192 Environmental health research involving community partic

193 Environmental health research is complex and often moves

194 g at new advances in veterinary, public, and environmental health research may offer several advantag

195 hould be considered mainstream in children's environmental health research with particular focus on i

196 mitations of the FDA's regulatory action for environmental health research, advocacy, and regulation,

197 can help ensure reproducible and consistent environmental health research.

198 ng the viewpoints and perspectives common to environmental health research.

199 e lifespan - and its integration into future environmental health research.

200 n science, and to explore TEK's relevance to environmental health research.

201 igenome is a primary interest for children's environmental health researchers studying the environmen

202 To aid environmental health researchers, we have created open-s

203 me, the food color debate offers a lesson to environmental health researchers; namely, too narrow a f

204 Air pollution is the world's largest single environmental health risk (WHO).

205 on from solid fuel combustion is the leading environmental health risk factor globally.

206 air pollution would no longer be a leading, environmental health risk factor if the use of fossil fu

207 (2.5)) air pollution exposure is the largest environmental health risk factor in the United States.

208 Air pollution is a leading environmental health risk factor, and in situ toxicity a

209 late matter (PM(2.5)) is the world's leading environmental health risk factor.

210 atter (PM(2.5)) pollution represents a major environmental health risk in Africa.

211 Air pollution poses the largest environmental health risk in Europe.

212 particulate matter (PM) pollution is a major environmental health risk in urban areas.

213 The largest U.S. environmental health risk is cardiopulmonary mortality f

214 Air pollution, a leading environmental health risk, claims millions of lives year

215 romises to more completely inform children's environmental health risk.

216 ects of land use on air quality, the largest environmental health risk.

217 ies face disproportionate health burdens and environmental health risks compared with the average Nor

218 Environmental health risks such as household air polluti

219 , yet it is often overlooked in terms of the environmental health risks.

220 Despite increasing availability of environmental health science (EHS) data, development, an

221 ut how classes of chemicals are delimited in environmental health science and regulation.

222 sily visualized framework for translation of environmental health science knowledge-from discovery to

223 kshop for the Development of a Framework for Environmental Health Science Language" hosted at North C

224 Social science has informed environmental health science through ethnographic studie

225 Collaboration with environmental health science through team projects has a

226 and train the next generation of leaders in environmental health science while recognizing that most

227 ion-making that incorporates cancer biology, environmental health science, translational toxicology,

228 demonstrate how social science has enhanced environmental health science.

229 ematic and transparent research synthesis in environmental health science.

230 productive justice framework in activism and environmental health science.

231 ne to handle the breadth of data relevant to environmental health sciences (e.g., human, animal, and

232 Environmental health sciences (EHS) span many diverse di

233 elds of risk communication, health literacy, environmental health sciences (EHS), communications rese

234 The National Institute of Environmental Health Sciences (NIEHS) and National Toxic

235 1-13 January 2011, the National Institute of Environmental Health Sciences (NIEHS) Division of the Na

236 ubstantially since the National Institute of Environmental Health Sciences (NIEHS) environmental just

237 Since 1992, the National Institute of Environmental Health Sciences (NIEHS) has contributed to

238 nology Initiative, the National Institute of Environmental Health Sciences (NIEHS) has developed an i

239 Specifically, the National Institutes of Environmental Health Sciences (NIEHS) Superfund Research

240 EHSCCs), funded by the National Institute of Environmental Health Sciences (NIEHS), formed a working

241 is coordinated by the National Institute of Environmental Health Sciences (NIEHS).

242 se of the support from National Institute of Environmental Health Sciences (NIEHS).

243 0th anniversary of the National Institute of Environmental Health Sciences (NIEHS).

244 ntion is to characterize differences between environmental health sciences and clinical medicine, and

245 er 17-18, 2014, by the National Institute of Environmental Health Sciences and the National Cancer In

246 US National Institute of Environmental Health Sciences and WHO.

247 ur work bridges the gap between clinical and environmental health sciences by increasing physicians'

248 Environmental Health Sciences Core Centers (EHSCCs), fun

249 Contemporary environmental health sciences draw on large-scale longit

250 l Institutes of Health/National Institute of Environmental Health Sciences Environmental Genome Singl

251 d 7-8 June 2012 at the National Institute of Environmental Health Sciences in Research Triangle Park,

252 eSNPs dataset, and the National Institute of Environmental Health Sciences SNPs dataset.

253 The National Institute of Environmental Health Sciences sponsored the "Workshop fo

254 The National Institute of Environmental Health Sciences sponsored the Workshop on

255 Institutes of Health's National Institute of Environmental Health Sciences Superfund Research Program

256 Institutes of Health's National Institute of Environmental Health Sciences Superfund Research Program

257 anslational research framework applicable to environmental health sciences that retains the basic str

258 exposure and BP in the National Institute of Environmental Health Sciences' Sister Study, a large U.S

259 le were taken from the National Institute of Environmental Health Sciences' Sister Study.

260 e Avon Foundation, the National Institute of Environmental Health Sciences, Breast Cancer Now and the

261 tection Agency and the National Institute of Environmental Health Sciences, it is solely the consensu

262 earch supported by the National Institute of Environmental Health Sciences, the Agency for Toxic Subs

263 tection Agency and the National Institute of Environmental Health Sciences, where gaps between the em

264 , and evaluation in a manner relevant to the environmental health sciences.

265 insights into numerous research questions in environmental health sciences.

266 t of effective knowledge organization in the environmental health sciences.

267 dation for data-driven semantic standards in environmental health sciences.

268 In 2008, the National Institute of Environmental Health Sciences/National Toxicology Progra

269 d Infectious Diseases; National Institute of Environmental Health Sciences; National Heart, Lung, and

270 Environmental health scientists may find it challenging

271 This paper provides an introduction for environmental health scientists to emerging population-b

272 akes the form of accountability research, as environmental health scientists work to quantify the cos

273 ealth approach linking human, veterinary and environmental health should address screening for TB inf

274 d faculty in chemical sciences, engineering, environmental health, social sciences, public policy, an

275 Arsenic and environmental health: state of the science and future re

276 In order to develop the environmental health strategic plan, we sought to quanti

277 y-Abu Dhabi commissioned a multidisciplinary environmental health strategic planning project.

278 Environmental health studies commonly rely on urban comp

279 Environmental health studies have examined associations

280 Conventional environmental health studies have primarily focused on l

281 To measure heat exposure, environmental health studies often use heat index, which

282 asingly support stakeholder participation in environmental health studies, and yet there is very litt

283 ing companion animals as sentinels for human environmental health studies, we conducted a comparative

284 ication in areas such as cancer research and environmental health studies.

285 and as such should be considered in routine environmental health studies.

286 Social science-environmental health team science has altered the way sc

287 ironmental hazards, is an emergent notion in environmental health that may contribute to these dispar

288 Air pollution is a major global environmental health threat and the leading environmenta

289 wildfire smoke has emerged as a significant environmental health threat in the United States (U.S.),

290 ng increased awareness of e-waste as a major environmental health threat.

291 ory structures intended to protect human and environmental health through the control of new molecule

292 llutants are closely correlated to human and environmental health, thus their monitoring is of paramo

293 cohort of the Columbia Center for Children's Environmental Health to determine whether prenatal polyc

294 draw from lessons learned in other areas of environmental health to highlight how external and inter

295 ate change will inevitably intensify China's environmental health troubles, with potentially catastro

296 fe, such as variation in human densities and environmental health, two factors known to increase risk

297 ics in which social scientists have expanded environmental health understandings at multiple levels,

298 llowed by the Columbia Center for Children's Environmental Health, we acquired diffusion tensor imagi

299 erinary medicine, including human, herd, and environmental health, we advocate for the use of stringe

300 public funds to maximize expected returns in environmental health, where returns are measured in term