ライフサイエンスコーパス: built environment

1 , and changes to environmental surroundings (built environment).

2 ions were elaborated on and reflected in the built environment.

3 from oceans, lakes, sediments, soils and the built environment.

4 generation, transport, agriculture, and the built environment.

5 ribution of secondary materials in the urban built environment.

6 raditional cohorts for air pollution and the built environment.

7 mean radiant temperature measurements in the built environment.

8 ructure in an uncertain and rapidly changing built environment.

9 pportunities for analytical chemistry in the built environment.

10 BC are strongly affected by the street-level built environment.

11 rus-2 (SARS-CoV-2) on surfaces common to the built environment.

12 mental factors such as air pollution and the built environment.

13 and community context, and neighborhood and built environment.

14 ring the serviceability and integrity of the built environment.

15 lp counteract climate-carbon feedback in the built environment.

16 l segregation, environmental pollutants, and built environment.

17 participants' perceptions of change in their built environment.

18 and customizable agent-based simulation of a built environment.

19 implementation and 25.8% proposed changes in built environment.

20 terventions aimed at tackling the obesogenic built environment.

21 atic hydrocarbons (PAHs) into water from the built environment.

22 se exposure patterns are associated with the built environment.

23 often a junction between the natural and the built environment.

24 patially correlated exposures related to the built environment.

25 s becoming an important issue faced by urban built environments.

26 een human experience and intelligence within built environments.

27 ble initially, following construction of new built environments.

28 highlighting increasing disparities in their built environments.

29 features of natural environments compared to built environments.

30 nal multispecies health and health equity in built environments.

31 lenge to water sustainability in natural and built environments.

32 and these concepts are translatable to other built environments.

33 tem (GIS) variables to characterize walkable built environments.

34 eling, and behaviors give rise to social and built environments.

35 cioeconomic position (37%); neighborhood and built environment (20%); race, racism, and discriminatio

36 (1) economic stability, (2) neighborhood or built environment, (3) education access, (4) health care

37 are access and quality, (3) neighborhood and built environment,(4) economic stability, and (5) social

38 The built environment, a key component of environmental heal

39 r sustainable urban design, and for circular built environments across Europe.

40 How these built environments affect the perception of defensive co

41 Built environment affects cardiovascular health, but com

42 The built environment affects mental health outcomes, but th

43 xposure to the urban exposome, including the built environment, air pollution, road traffic noise, me

44 ssociations between multiple measures of the built environment and biomarkers of early vascular aging

45 nship between the quality of the residential built environment and birth outcomes, which we argue are

46 GSI images of built environment and cardiometabolic disease prevalence

47 In this study of the built environment and COPD, to our knowledge the largest

48 s is important in environmental science, the built environment and cultural heritage preservation.

49 heroin-related incidents and features of the built environment and demographic characteristics that a

50 have relied upon subjective measures of the built environment and few have examined the relation bet

51 ated the association between the residential built environment and five adverse birth outcomes.

52 wn that associations between features of the built environment and health depend on the geographic sc

53 mon sources of data used for research on the built environment and health: listings of businesses fro

54 lly, an association between moving to a more built environment and increase in z-BMI was consistent a

55 Google satellite images (GSI) to measure the built environment and link them with prevalence of cardi

56 nship between the physical conditions of the built environment and mental health outcomes does not ho

57 fe exposure to several chemicals, as well as built environment and meteorological factors, may affect

58 nterventions, though it is not clear how the built environment and occupant behaviours interact to mo

59 However, previous studies on the built environment and physical activity have led to mixe

60 stics of the social environments such as the built environment and pollution, as well as by socioecon

61 ere wildfire is altering the natural and the built environment and posing risks to environmental and

62 tant to understand relationships between the built environment and progression towards CVD.

63 which might be compensated by modifying the built environment and providing assistive devices, and f

64 ion between residential characteristics, the built environment and the behaviour of people regulate t

65 No association between built environment and the likelihood of walking or not w

66 Buildings are a key component of the built environment and there is currently a lack of data

67 enewable content and energy footprint of the built environment and to develop "smart buildings" that

68 les often fail to capture the nuances of the built environment and undocumented emission sources.

69 t and few have examined the relation between built environment and walking among older adults.

70 sal inference on the association between the built environment and walking.

71 We analyzed relationships between built environments and walking in trips.

72 itable economic investment in the social and built environment, and (4) increasing funding for resear

73 nal exposome, focusing on air pollution, the built environment, and air temperature.

74 Health care access, built environment, and economic stability were associate

75 Disparities in pollution exposure, built environment, and resource allocation are intertwin

76 th care access and quality, neighborhood and built environment, and social and community context.

77 thcare access and quality, neighbourhood and built environment, and social and community context.

78 th care access and quality, neighborhood and built environment, and social context were significant p

79 ncial status, education, health-care access, built environment, and social context) were assessed at

80 nd their associations with various land use, built environment, and socioeconomic factors.

81 king with, including the use of devices, the built environment, and the demands and complexities of p

82 ion and chemical exposures, climate, and the built environment-and severe acute respiratory syndrome

83 ces Task Force released a recommendation for built environment approaches to increase physical activi

84 uminium, copper, iron, and zinc in the human-built environment are mapped globally at 1-km nominal re

85 informational environment, and altering the built environment are the least costly, most logisticall

86 teraction between occupant behaviors and the built environment are thought to affect indoor fungal co

87 a societal commitment to alter the food and built environments are all necessary components to battl

88 Human occupied built environments are no longer confined to Earth.

89 worldwide has had a disastrous impact on the built environment, as these disruptive events devastate

90 as an important influence on the natural and built environment at high northern latitudes.

91 automated systems being introduced into our built environments (buildings, roads, vehicles, etc.), w

92 political conditions not just segregate our built environment but may also leave a lasting mark on t

93 ation can be well captured from the observed built environment by remote sensing.

94 The built environment can affect health behaviours, but long

95 change between occupants and surfaces in the built environment can augment thermal comfort.

96 The built environment can influence human health, but the av

97 Urban form-the structure of the built environment-can influence physical activity, yet l

98 tensively and systematically measured campus built environments (CBE) and their impact on street walk

99 These social, economic, and built-environment changes altered the American hazardsca

100 This study examined neighborhood built environment characteristics (fast-food restaurant

101 Here we aimed to analyse built environment characteristics and their associations

102 iman et al. present longitudinal analyses of built environment characteristics as predictors of neigh

103 Here, we evaluated the association of built environment characteristics at the sub-city -inter

104 Findings demonstrate robustness challenges; built environment characteristics inferred from GSV labe

105 Neighborhood built environment characteristics may encourage physical

106 01-2003), the authors examined the effect of built environment characteristics on mobility disability

107 Overall, built environment characteristics that may increase walk

108 Built environment characteristics were assessed by using

109 We examined the association of walkable built environment characteristics with body mass index (

110 Associations between built environment characteristics, separately and combin

111 The Microbes in the Built Environment Collection showcases recent research i

112 Despite its ubiquitous presence in the built environment, concrete's molecular-level properties

113 g the UK Biobank cohort data to identify key built environment correlates of COPD.

114 urbanicity on risk of fall suggests that the built environment could be associated with fall risk.

115 s, and the characteristics of one's home and built environment could play a prominent role in an indi

116 Machine vision-enabled assessment of the built environment could potentially offer a more precise

117 ons include policies to improve the food and built environments, cross-cutting actions (such as leade

118 of localized demographic, socioeconomic, and built-environment density characteristics on infection r

119 from materials, to components, to assets and built environments), digital transformation solutions, d

120 iving conditions within the neighborhood and built environment directly determine access to resources

121 Residential neighborhood disadvantage score (built environment disadvantage, criminal injustice, educ

122 Studies on built environment disparities are usually limited to mea

123 work by involving the '4D' quantification of built environment (diversity, design, density and distan

124 ators, mostly mapped to the neighborhood and built environment domain, were included.

125 was used to summarise this evaluation across built environment domains.

126 size, severity, frequency, and spread in the built environment due to climate change, resulting in th

127 Similarly, physical conditions of the built environment (e.g., increased housing vacancies and

128 t declining socio-economic conditions of the built environment (e.g., poverty, low income, unemployme

129 s targeting domains, such as neighborhood or built environment, economic stability, and education acc

130 are defined by a wide range of factors (eg, built environment, economic stability, education level,

131 gn, including the need to define a "healthy" built environment exposome and how to control it.

132 understanding of the factors that shape the built environment exposome and its influence on human we

133 approximately 90% of their time indoors, the built environment exposome merits particular attention.

134 monly rely on urban composition measures for built environment exposure assessment.

135 Among all built environment exposure variables, household density

136 and generated new hypotheses for a number of built-environment exposures.

137 r km(2)), adjusting for activity-influencing built environment factors and individual covariates.

138 ntial to identify environmental triggers and built environment factors associated with rescue inhaler

139 y, the prevalence of CHD was associated with built environment factors derived from GSV through deep

140 fy the impacts of environmental triggers and built environment factors on asthma short-acting broncho

141 aluate the influence of spatially correlated built environment factors on these associations.

142 lyses to identify environmental triggers and built environment factors that are associated with asthm

143 Other activity-influencing built environment factors were measured in terms of dens

144 ter adjusting for other spatially correlated built environment factors, suggesting that alternative p

145 For individual built environment factors, their levels did not differ s

146 after further adjusting other non-redundant built environment factors.

147 ween baseline levels of and a change in each built environment feature and a change in the frequency

148 udy contributes new evidence to suggest that built environment features around homes and workplaces m

149 rvational study examined the associations of built environment features around the home and workplace

150 Aside from vegetation, these same built environment features around the home were also ass

151 ctivity significantly mediates the impact of built environment features by census tract, intervention

152 Built environment features extracted from GSI using mach

153 Built environment features extracted from GSV using deep

154 In this study, integrating AI-derived built environment features from geospatial imagery was a

155 tudy develops a set of algorithms to extract built environment features from Google aerial and street

156 k models were trained to extract traffic and built environment features from images.

157 It has been well-known that built environment features influence the risk of chronic

158 Community built environment features recorded in photographs, incl

159 at risk for living in areas with substandard built environment features that are linked to cardiovasc

160 Some built environment features were associated with a lower

161 reases in leisure walking, but no changes in built environment features were associated with leisure

162 Built environment features were extracted from satellite

163 of CHD, stroke, and CKD based on image-based built environment features.

164 bility in promoting inclusive and accessible built environments for neurodiversity.

165 leveraged to extract latent features of the built environment from the purely visual representation

166 with far-reaching impacts on the natural and built environments, FSM simulations provide crucial info

167 n of these compounds in both the ambient and built environments, future research on their potential t

168 Built environments greatly influence microbiome exposure

169 including indoor and outdoor air pollutants, built environment, green spaces, tobacco smoking, and bi

170 objects that were horizontal surfaces in the built environment had higher microbial diversity as comp

171 Large scale, pragmatic evaluation of built environment has been limited owing to scarce data

172 Climate, air pollution, and the built environment have long been recognized to influence

173 The bacteria that colonize humans and our built environments have the potential to influence our h

174 senting important domains of the residential built environment: housing damage, property disorder, se

175 tionship), (4) system improvements (process; built environment; human resources; zero-tolerance polic

176 ial inclusivity, population density) and the built environment (i.e. contact with nature) using multi

177 Neighborhood or built environment (ie, adverse social support) was indep

178 alysis to test various hypotheses on how the built environment impacts community mental health outcom

179 st evidence supporting the importance of the built environment in directly improving health-enhancing

180 ight the role of activity inequality and the built environment in improving physical activity and hea

181 decades; however, the potential role of the built environment in mitigating these trends is unclear.

182 munity on plastic debris, rivals that of the built environment in spanning multiple biomes on Earth.

183 Research on the effects of the built environment in the pathway from impairment to disa

184 previous research regarding the role of the built environment in the promotion of walking for travel

185 trated a clear dichotomy between natural and built environments in the selection of exposure settings

186 Characteristics of the built environment, including access to unhealthy food ou

187 ution from high-resolution surfaces; (2) the built environment, including green, blue, and gray space

188 found to be associated with features of the built environment, including the proportion of parks (re

189 The ICU built environment-including the presence of windows-has

190 tivities influence the air we breathe in the built environment, increasing the health risk associated

191 -estimated association between image-derived built environment indicators and census tract (neighborh

192 is cross-sectional study was conducted using built environment indicators derived from 164 million Go

193 Moreover, the built environment indicators partially mediated the asso

194 Five built environment indices (housing damage, property diso

195 nt transmission in key settings, such as the built environment (infection control).

196 over 100 countries, and purported to inform built environment interventions (e.g., adding sidewalks)

197 Evidence suggests that built environment interventions offer one such approach.

198 it is challenging to prioritize appropriate built-environment interventions.

199 mal perception-related parameters within the built environment is crucial for ensuring occupant comfo

200 Predicting damage to the built environment is essential in understanding and deve

201 ontinue to grow globally, characterizing the built environment is essential to understanding human po

202 The scale of wildfire impacts to the built environment is growing and will likely continue un

203 The microbiota of the built environment is linked to usage, materials and, per

204 Densification of the built environment is thus a key contemporary urban plann

205 ace habitation provides unique challenges in built environments isolated from Earth.

206 In the built environment literature, it has long been argued th

207 Adjusting the built environment may be a pathway to influence percepti

208 urther evidence that certain features of the built environment may be important in the design of neig

209 The built environment may influence exposures to these risk

210 These findings suggest that built environment may not play a significant role in whe

211 Satellite image-based assessment of the built environment may provide a rapid scalable integrati

212 Walkable built environments may prevent excess weight gain.

213 usted with the design and engineering of the built environment, may offer real breakthroughs for the

214 imate change and the expansion of the global built environment mean that the intensification of urban

215 ere used to assess associations between each built environment measure and biomarkers of EVA, adjusti

216 Time-varying built environment measures (measures of population densi

217 t Village and compared physical activity and built environment measures with these data in control pa

218 l (n = 128) exposures include air pollution, built environment, meteorology, natural spaces, traffic,

219 Built environment metrics of residential greenness were

220 Among the built environment metrics, urbanicity was associated wit

221 In both natural and built environments, microbes on occasions manifest in sp

222 However, indoor and built environment microbiomes are extremely complex poly

223 earch challenges inherent in integrating the built environment microbiomes with the early-life gut mi

224 ats, we find that, as with human microbiota, built environment microbiota also align naturally along

225 The built environment might be associated with development o

226 ssign residential exposure to factors of the built environment: Moderate Resolution Imaging Spectrora

227 It suggests that decentralized built environments (non-clustered economies and populati

228 ctural racism evaluated included housing and built environment, occupation and employment, health car

229 76 sites spanning the range of land uses and built environments of the city; each site was visited fr

230 The built environments of the East are more complex and cont

231 Built environments of urban and rural areas are very dif

232 Improving the built environment on its own might be insufficient to in

233 However, the effect of the built environment on leukocyte mtDNA copy number has not

234 cating an interaction between the social and built environment on loneliness.

235 the effects of this exogenous change in the built environment on violence.

236 ding to a negative energy balance, the dense built environment, pervasive food marketing, and the inc

237 Review, we explore the microbial ecology of built environments - places where humans spend most of t

238 The indoor built environment plays a critical role in our overall w

239 The built environment plays a crucial role in urban health t

240 Built environment plays an important role in development

241 Built environment plays an important role in the develop

242 Emergency evacuations in built environments pose significant challenges for indiv

243 by volatile organic compounds (VOCs) in the built environment presents a threat to human health.

244 (such as redlining) create inequities in the built environment, producing racially and ethnically seg

245 substantial MDR pathogen burdens in hospital built-environments, provide evidence for spatiotemporal-

246 ionship between seven indices of residential built environment quality and adverse reproductive outco

247 Built environment quality was measured by independent ob

248 tigating if-and to what extent-neighbourhood built environments recover at scale has been difficult b

249 and to bridges over the sea, safety-critical built environments require periodic inspections for dete

250 licies and interventions to create equitable built environment resources.

251 pacts are a ubiquitous form of damage to the built environment resulting from armed conflicts.

252 ndition compared to viewing scenes depicting built environments (RMSSD; 50.0 +/- 31.3 vs 34.8 +/- 14.

253 We investigated the built environment's association with air pollution and p

254 rates the wildland's characteristics and the built environment's features.

255 iven neuroscience approach to understand the built environment's impact on occupant cognitive functio

256 itan areas, suggesting a mixed effect of the built environment's physical conditions on community men

257 method presents a novel way of assessing the built environment's potential effect on health.

258 s four nonconventional land-cover types: the built environment, salt-affected land, contaminated land

259 An integrated built environment score (ie, a minimum of 0 and a maximu

260 The mean integrated built environment score was higher in high-income countr

261 The integrated built environment score was significantly associated wit

262 s, separately and combined in the integrated built environment score, and obesity (ie, a BMI >30kg/m(

263 ucation access and quality, neighborhood and built environment, social and community context, and hea

264 associations between a component of the ICU built environment, specifically the presence or absence

265 dence of effectiveness to recommend combined built environment strategies.

266 the features revealed certain health-related built environment such as roads, highways, and railroads

267 rconnections among different elements of the built environment, such as buildings and urban road segm

268 Aspects of the built environment, such as the walkability of a city, ar

269 important to identify characteristics of the built environment that are beneficial to human health.

270 s to identify modifiable risk factors in the built environment that have been shown to influence fung

271 Built environments that are more walkable have the poten

272 guages; (4) housing characteristics; and (5) built environment-that were further used to assess the i

273 Characteristics of the built environment (the home and the work/study addresses

274 to characterize the microbial ecology of the built environment, the metabolic mechanisms underpinning

275 y control the materials and chemistry of the built environment to positively influence the microbial

276 ngs use data on how occupants respond to the built environment to proactively make occupant-centric a

277 trace organic contaminants (TrOCs) from the built environment to the aquatic environment.

278 Modifying existing built environments to make them more walkable may reduce

279 s of modulating microbial communities within built environments to promote health.

280 ase prevalence was associated with GSI-based built environment using convolutional neural networks.

281 n summary, our results suggest that selected built environment variables (e.g. population density and

282 of of concept for examining the influence of built environment variables on the trajectory of health

283 Built environment variables were derived around addresse

284 CRF models), and all other home or workplace built environment variables.

285 ment, which exposed individuals to differing built environments, we find that increases (decreases) i

286 ural design on people's visual experience of built environments, we know little about its neural repr

287 However, as more complexity is introduced to built environments, we must reassess the accuracy of glo

288 AI-enhanced satellite images of the built environment were linked to MACE risk, independentl

289 Data on the built environment were obtained from the RAND Corporatio

290 often referred to in the literature as the 'built environment' which encompasses the entire range of

291 the interaction between the wildland and the built environment, which is necessary for predicting str

292 e of chemistry and microbiology in the space-built environment will guide long-term efforts to mainta

293 llution exposure, and characteristics of the built environment with childhood obesity risk.

294 sociation between multiple components of the built environment with leukocyte mtDNA copy number among

295 hnic composition, and the association of the built environment with neighborhood racial composition a

296 investigate the association of neighborhood built environment with trends in the amount of walking b

297 The association of neighborhood built environment with walking activity has received gro

298 lysis was used to examine the association of built environment with walking behavior.

299 tic variations in socioeconomic networks and built environments with city size provides a link betwee

300 on system was used to derive measures of the built environment within a quarter-mile (0.4 km) and hal