ライフサイエンスコーパス: future

1 the situation is predicted to worsen in the future.

2 iring their physiological performance in the future.

3 orming policy and resource management in the future.

4 elaborated phantoms of other tissues in the future.

5 eutic strategies should be considered in the future.

6 the trend is projected to continue into the future.

7 ease mediators that might be targeted in the future.

8 p cancer patients during COVID-19 and in the future.

9 underserved populations both now and in the future.

10 ctional characterization of the niche in the future.

11 to characterize a range of plausible climate futures.

12 er-scale single-crystal hBN paves the way to future 2D electronics.

13 eneralize knowledge from the past to support future action.

14 They guide our future actions, form a scaffold for constructing the sel

15 lanation and elaboration document, may guide future analyses and reporting of RCTs.

16 sen the consequences of introductions in the future and stocked lakes may be less impacted by subsequ

17 ments even though it should only be based on future-and not past-costs and benefits.

18 rajectories in TS and carry implications for future applications aimed at predicting the clinical cou

19 Future applications could be catheters tailored to cardi

20 and neuron specific neural stimulation, with future applications in neural prosthetics, chip scale ne

21 This opens a wide range of future applications including protein-ligand interaction

22 hese preliminary results are encouraging for future applications of the dynamical statistical analysi

23 Future approaches towards the definition of refractory R

24 in clinical trials and offers direction for future approaches.

25 This suggests a future Arctic Ocean that can support higher trophic-leve

26 Droughts of the future are likely to be more frequent, severe, and longe

27 idins, that could be potentially used in the future as functional ingredient.

28 In the future, as other renewable electricity sources become mo

29 tem cells (TSCs) as an in vitro platform for future assessment of primate trophoblast development and

30 Finally, we look toward the future at strategies to better identify people at risk f

31 nder current ambient (440 ppm) and projected future atmospheric CO(2) concentrations (800 ppm).

32 The results provide a guidance for future attempts to achieve proximity screening of many-b

33 Effective prediction of future behavior with brain microstructure at birth will

34 protein functions also raise the prospect of future biocompatible devices where peptide assemblies co

35 fit of endocrine therapies to reduce risk of future breast cancer, while testing DCIS for PgR is cons

36 city of donor organs may be addressed in the future by using pigs to grow humanized organs with lower

37 an additional 5% of the ocean could increase future catch by at least 20% via spillover, generating 9

38 Future challenges, emerging treatments, and outstanding

39 g the individual to anticipate and deal with future challenges.

40 ecies and biotic communities will respond to future change.

41 Given future changes in climatic and atmospheric processes, cl

42 mportant source of uncertainty in projecting future climate and carbon (C) cycle feedbacks.

43 ns is critical for predicting the effects of future climate and land-use change on plants, pollinator

44 productivity and soil carbon dynamics under future climate change scenarios.

45 rought on gymnosperm-dominated forests under future climate change.

46 bon balance (S(net)) is important to predict future climate-carbon cycle feedbacks.

47 rom present exposure to natural hazards, and future climate-driven shifts in their distribution, freq

48 sponse of tree longevity and growth rates to future climate.

49 Most studies on the biological effects of future climatic changes rely on seasonally aggregated, c

50 stenosis using NETs may lay a groundwork for future clinical detection and improving CAD risk assessm

51 how this fundamental knowledge might inform future clinical developments.

52 Future clinical practice guidelines in this area should

53 mal longitudinal neuroimaging biomarkers for future clinical treatment trials in Alzheimer's disease

54 with non-carriers that may be considered as future clinical trial outcomes.

55 Future clinical trials are needed to confirm these findi

56 ghlight future research questions and direct future clinical trials.

57 on of previous findings and in the design of future clinical trials.

58 So far, estimates of future coastal flooding frequency focus on endpoint scen

59 matter atrophy is an early sign of potential future cognitive decline.

60 rebral Abeta and tau pathology, and predicts future cognitive decline.

61 ntitative and automated approach will enable future cohort studies to understand the microvasculature

62 Future community-level interventions should expand the c

63 stant rate-of-growth, and also fits proposed future compute-system (prediction).

64 ; (3) perceived stress; (4) consideration of future consequences; (5) glaucoma-related distress; and

65 echanisms are required in this area to avoid future control failures.

66 disease 2019 (COVID-19) and help prepare for future coronavirus outbreaks.

67 t such tradeoffs may be further amplified by future cropland expansion.

68 e whether these inflammatory markers predict future CVD events, and are possible therapeutic targets

69 d to date notwithstanding, it is likely that future DBS for memory will employ closed-loop, nuanced a

70 cruitment given forecasted temperatures over future decades.

71 tes feedback from past experiments to inform future decisions and can be generalized to other applica

72 into the Ag species dispersion will benefit future design of more efficient supported Ag catalysts.

73 etting and offer groundbreaking insight into future development of cellular immunotherapies for HPV-a

74 Future development of DHHC20 inhibitors to reduce EGFR-P

75 al acuity and radiation dose and may predict future development of radiation-induced retinal toxicity

76 Finally, we provide an outlook about the future development of synthetic 2D CCFs for electrochemi

77 r, CNA analysis may serve as a parameter for future diagnostic assays for women with breast implants

78 Finally, future directions and enabling technological advances fo

79 ithotripsy use in the coronary arteries, and future directions for adoption of the technique in percu

80 Finally, the Review highlights future directions for mNGS technology and other hypothes

81 existing anti-B-cell treatments and provide future directions for research in this area.

82 We expand this framework to future directions including the potential for connecting

83 We propose future directions to fill the gaps in knowledge we uncov

84 esity and metabolic perturbation, as well as future directions.

85 predict their dynamics and resilience under future disturbance regimes.

86 epurposing lays the groundwork to streamline future drug development efforts.

87 nform public health contingency planning for future Ebola epidemics, and help better allocate resourc

88 le-up of ART, to estimate the historical and future effect of attaining and surpassing the UNAIDS 90-

89 nd tbNadE provides also a starting point for future efforts in the development of anti-TB drugs.

90 A holistic view is required as part of future efforts to manage the krill fishery that incorpor

91 These findings will help focus future efforts to recognize and prevent DDD.

92 boost the functionality/energy-efficiency of future electronic devices and smart systems.

93 growth and have implications with regard to future engineering schemes, leading to better crop yield

94 ced by the suggested model can be applied in future epidemiological studies across Italy.

95 es in general, potentially paving the way to future etiologic therapies.

96 sion within SER to provide baseline data for future evaluations of Society initiatives.

97 The future evolution of forest biomass depends critically on

98 za transmission, we identified indicators of future evolutionary success for an emerging antigenic cl

99 tructive pulmonary disease (COPD) at risk of future exacerbations.

100 Future field trials for combinability and introgression

101 in each reproductive event at the expense of future fitness as well as more investment per offspring.

102 The cohort was assessed for subsequent future fragility fractures.

103 Model scenarios include uncertainty in future fuel prices, a hypothetical CO(2) cap, and an ext

104 parental environments alter the phenotype of future generations-can influence how organisms cope with

105 limitation, thereby improving projections of future global change impacts.

106 edit for the role it can play in stabilizing future global climate.

107 Future guidelines should aim to be compliant with intern

108 erized, despite estimates needed to identify future health priorities.

109 rements and carbon emissions associated with future household consumption, by linking Industrial Ecol

110 ults and propose a new analysis pipeline for future HTP measurements of domain-peptide interactions.

111 n and potentially delay graft destruction in future human islet transplantation studies.

112 In these Mediterranean-like regions, future hydro-climate-related impacts will be substantial

113 cs and monitoring, especially with potential future impact at the POC settings.

114 To evaluate the current and future implications of temperature changes for plant phe

115 uses that might spillover into humans in the future.IMPORTANCE The severe acute respiratory syndrome

116 responses to candidate EEHV vaccines in the future.IMPORTANCE Whether clinical illness and deaths as

117 cross trials, people take into account their future, improved performance so as to make optimal decis

118 urce, is of major importance for society and future improvements in nuclear safety.

119 at can help to protect against pandemics and future infectious threats.

120 creases in health-plan spending, a proxy for future insurance premiums.

121 g to retain from her cooperative behavior in future interactions.

122 e eating may be useful in the development of future interventions aimed at advancing the timing of fo

123 resources and evaluate the effectiveness of future inventions.

124 s process may serve as a critical target for future investigation and immunotherapeutic intervention.

125 nt further preclinical study and potentially future investigation in TNBC patients.

126 These results provide a new direction for future investigation of the diverse biological functions

127 by NPR proteins, our work paves the way for future investigation of the specific roles of these prot

128 available a highly-detailed data source for future investigation.

129 l NOTCH3 fragments are an important area for future investigation.

130 ed sites, these findings are significant for future investigations of filovirus pathogenesis and pers

131 cells for the first time, opens the path for future investigations of the biological function of meta

132 adia Basin and which has to be considered in future investigations of the global marine Si cycle.

133 This work may spark future investigations of topological states with complex

134 andidate components of this assembly, aiding future investigations on the role of basal foot across d

135 Future investigations should prospectively focus on the

136 sNet working group, defined central areas of future investigations to guide further efforts to implem

137 linicians and identify gaps in knowledge for future investigations.

138 Any future kidney stone classification system should be aime

139 m primary research that will supply data for future knowledgebases that will add value through curati

140 n of integrated predictions that may improve future learning.

141 o identify some of the gaps that could drive future lines of research, hopefully stimulating the grow

142 n epidemic has been eliminated (i.e. that no future local cases will emerge) in real time.

143 m dynamic acoustic stimuli to anticipate the future location of moving auditory targets.

144 ad generation and also inspire the design of future macrocycle screening collections.

145 mpact progression and survival outcomes of a future malignancy and warrant prospective investigation

146 These findings provide may inform future management protocols and clinical studies.

147 ovide depth-dependent seismic anisotropy for future mantle flow simulations, and call for further inv

148 itical steps toward improving predictions of future marine heatwaves and their impacts.

149 oscillators to be used as building block of future mechanical metamaterials, leading to a new class

150 Future Mendelian randomisation studies of aortic haemody

151 obal baseline available for interrogation by future microbial ecology studies.

152 These data will guide future modifications and improvements of H129-based ante

153 f AUC for assessment of NDDSs, that is, also future nanomedicines.

154 ctedly, concomitant to a poleward migration, future niche models suggest a considerable reduction of

155 re likely to impact many cancers in the near future, not only through improvements in quality of life

156 se findings offer an outcome metric to which future novel glaucoma procedures in children can be comp

157 We demonstrate that future observational and theoretical studies of terrestr

158 n insight into the prevailing trends and the future of environmental sensing, highlighting that chemo

159 ld along with exciting opportunities for the future of macrophage-based therapies in oncology are inc

160 plex infection and provide insights into the future of microbiota-based therapeutics for CDI.

161 Finally, we discuss future opportunities for next-generation cancer nanomedi

162 Our review highlights future opportunities to better understand the functional

163 rcement learning allows organisms to predict future outcomes and to update their beliefs about value

164 tribution, effectively representing multiple future outcomes simultaneously and in parallel.

165 To improve preparedness for future pandemics, we have initiated a network of nine Eu

166 rials to Ni(2+)-based compounds and offers a future pathway for optical readout of these molecules.

167 ve the best chance of benefiting current and future patients and (2) how to establish a transparent a

168 mportant information about the likelihood of future PD not captured by classical HRV metrics.

169 ection (task 2) required taking into account future performance.

170 scusses the state of the art of research and future perspectives about the role of the different subs

171 Finally, we discuss future perspectives based on emerging techniques and ins

172 to overcome before reaching the market, and future perspectives.

173 the early history of the Hawaiian plume for future plate reconstructions.

174 he southern climate, and may be relevant for future population-scale genome-wide analyses of blueberr

175 ction of prey or predator and predicts their future positions.

176 on of the CFTR mutation, demonstrating their future potential for disease modeling and therapeutic sc

177 y serve as substrates for RMCE reactions for future potential gene therapy.

178 ask force to assess the state of the art and future potential of mHealth in allergology.

179 would be a significant reduction in India's future power sector related emissions of CO(2).

180 responses to understand the invasiveness and future predatory impacts of geckos, and other invasive s

181 Future priorities include capacity building for both edu

182 , age, and number of atrophic foci predicted future progression rates with a cross-validated mean abs

183 o biodiversity will increase over time, with future projections indicating that a potentially catastr

184 Specific technological improvements for future prototype development are discussed.

185 d on single coherent rare-earth ions for the future quantum internet.

186 amics will allow us to anticipate and manage future range shifts driven by climate change.

187 where rationale is offered, which should aid future reaction development.

188 ect population replenishment and dynamics of future reef fish communities.

189 challenges for biological understanding and future requirements to overcome them.

190 Implications and potential avenues for future research and translation are discussed.

191 Directions for future research are suggested.

192 We identify future research areas to accelerate the sustainable inte

193 establish knowledge gaps and well-supported future research directions.

194 cal practice and provides the foundation for future research into the use of CT-FFR for coronary eval

195 sis with the aim of maximizing the effect of future research investment through global collaborative

196 Future research is necessary on understanding the timing

197 in both the ambient and built environments, future research on their potential toxic effects on peop

198 This scientific statement highlights future research priorities in venous thromboembolism, de

199 earch developments in this area to highlight future research questions and direct future clinical tri

200 Future research should explore whether DNA methylation c

201 ependent prospective cohorts of ED patients, future research should extend the generalizability to th

202 Future research should focus on learning more about the

203 Future research should identify reasons for these geogra

204 tapped by real-time monitoring suggest that future research should shift focus on sleep, physical/mo

205 Finally, I provide some suggestions for future research within the field and discuss whether the

206 rgely preliminary and suggest directions for future research, noting the importance of identifying th

207 eatment target and should be refined through future research, patient input, and clinical study.

208 ition, in addition to highlighting areas for future research.

209 dentify the current major knowledge gaps for future research.

210 imental studies, drug development, and other future research.

211 s and suggests several promising avenues for future research.

212 -based learning) and consider directions for future research.

213 linical care, treatment recommendations, and future research.

214 This implies that future researchers and clinicians treating patients shou

215 in primates that represent uncertainty about future rewards and propose how they guide information-se

216 othesized that the brain represents possible future rewards not as a single mean, but instead as a pr

217 retinopathy is significantly associated with future risk of CVA, MI, CHF, and death, with higher degr

218 bacteria may replace cold water taxa under a future scenario of increasing Atlantic influence, but th

219 f mangroves and other coastal wetlands under future scenarios of climate change.

220 findings present novel implications for both future scientific investigations and the autism communit

221 he increased utilization of SFE as a part of future screening workflows of microbial natural products

222 The future security of Internet of Things is a key concern i

223 xist to improve the quality and reporting of future self-care intervention research.

224 andom access to the data and also allows for future sequencing and synthesis technologies, by changin

225 s with C-peptide and stratifies subjects for future severity of C-peptide loss after 1 year.

226 tribute to formulating the best practices in future ski run constructions.

227 ntial application as information elements in future spintronic device architectures.

228 agnets is essential for their integration in future spintronics devices.

229 control, with a specific role in predicting future states given chosen actions.

230 juana use, pharmacological interactions, and future steps to provide clearer guidance regarding its c

231 These results will help to define future strategies for prophylaxis of bleeding in AHA.

232 sembl project, which forms a key part of our future strategy for dealing with the increasing quantity

233 Finally, we provide a perspective for future structural studies of some native-like nucleosome

234 approach and findings offer a framework for future studies across the spectrum of image-based diagno

235 l group for proper effect size assessment in future studies and outline various aspects of tagging th

236 Furthermore, future studies are necessary to establish the role of th

237 wth due to its large energy expenditure, and future studies are warranted.

238 CAP can also be investigated in future studies for sensitizing glioblastoma cells to TMZ

239 gliomagenesis and classification, and guide future studies for the development of novel treatments f

240 and provides the tissue mechanical basis for future studies into the role of mechanosensing in spinal

241 Future studies may reveal if the patterns here shown for

242 lopment; as well as a resource to facilitate future studies of DNA demethylation in pathogenesis and

243 eracting photons) opens up possibilities for future studies of quantum fluid physics in topological s

244 Future studies of these LMC progenitors during maintenan

245 Future studies should be designed to determine if our fi

246 Future studies should consider MSM status in gut microbi

247 Future studies should evaluate whether resuscitation aim

248 Future studies should focus on the use of un-bias patien

249 Future studies should prospectively investigate these ob

250 Future studies should seek to characterize WM abnormalit

251 Future studies should use standard, clearly defined expo

252 ay provide a useful guidance for ongoing and future studies to determine how FSIs influence the funct

253 Future studies will further elucidate the role of DSIF i

254 Future studies with this device should contribute to the

255 tion in most tissues and will be valuable in future studies.

256 ity to quantify or manipulate such priors in future studies.

257 d assumptions that could be improved upon by future studies.

258 ts such as biogeochemical processes to drive future studies.

259 l history of COVID-19 should be evaluated in future studies.

260 nvestigate CIB1 interaction with beta-HPV in future studies.

261 d treatment strategies that can be tested in future studies.

262 numerically simple system paves the way for future study of both reflexive and flexible movements of

263 roviding a formal, falsifiable framework for future study.

264 In order to prevent COVID-19 and future such pandemics, we must create the conditions tha

265 n patterns provide essential information for future surveillance, diagnosis, vaccine development, and

266 intractable and engineer cell functions for future synthetic biology applications.

267 the thermogenic program and may present as a future target for obesity therapeutics.

268 esterol-independent markers of risk and even future targets for optimizing cardiovascular health.

269 This study strongly supports future TBI development by providing a rational method to

270 X-ray crystallography, pointing the way for future terpene synthase design.

271 if effective precipitation decreases in the future, the carbon uptake capacity of boreal bogs may be

272 on conferences to a halt for the foreseeable future, the growth of virtual conferences has highlighte

273 entrations of airborne microplastics guiding future toxicological assessments.

274 receive a voucher that can be redeemed for a future transplant facilitated by the NKR.

275 scover potential risk factor and assist with future treatment and prevention.

276 progression, and heterogeneity and to target future treatments to a higher proportion of patients.

277 Finally, a reflection is made on the future trends in the research of this SET, aimed at cons

278 in need of attention when reporting PROs in future trials of haematological malignancies.

279 olds should be used for patient selection in future trials to determine if tricuspid valve interventi

280 ratification of these patients as well as in future trials to target specific subgroups of patients.

281 a analytics (including AI) with existing and future urban water infrastructure represents a significa

282 novel dynamic functional soft materials for future use in flexible devices or soft-robotic machines.

283 A perspective on the future use of live imaging technologies and overcoming t

284 Patient was asked to avoid future use of Minoxidil and was started on oral eplereno

285 on potency and chemical stability, informing future utility of ETPs in chemical and biological studie

286 s of antibodies in viral entry and can guide future vaccine design and antibody-based drug therapy.

287 t of correlates of protection that may guide future vaccine trials.

288 ng that HN13 LTA is an attractive target for future vaccine-development studies.

289 To assess the present and future value of simulation for drug discovery, we review

290 cells, which potentially may associate with future viral control.

291 nd improve overall cardiometabolic health so future viral pandemics confer less threat.

292 e mid-Pliocene adds a constraint to possible future warmer scenarios associated with differing rates

293 ovide a reference and background context for future work aiming at deciphering molecular mechanism of

294 Future work also should focus on identifying moderators

295 Future work includes developing a consensus around chara

296 requires IP6 for its activation, and may aid future work on the function of this effector during Legi

297 Future work will apply this method to in vivo data, pote

298 Future work will define the role of pMRI in predicting k

299 Future work will involve further exploring metabolomic p

300 elay discounting task and organized past and future world events on a canvas according to their repre