ライフサイエンスコーパス: resource allocation

1 ompetition between seeds or facilitate equal resource allocation.

2 e delivery, preventive health practices, and resource allocation.

3 patient counseling, discharge planning, and resource allocation.

4 nd extrinsic signals governing materno-fetal resource allocation.

5 synthesis, which profoundly affects cellular resource allocation.

6 uch evaluation is important for planning and resource allocation.

7 disease evolution as well as for healthcare resource allocation.

8 subsequent disturbances in modality-specific resource allocation.

9 erived benefit from surveillance and medical resource allocation.

10 mework in planning workforce development and resource allocation.

11 is may have future negative consequences for resource allocation.

12 ired in order to improve prognostication and resource allocation.

13 ons of new strategies in decisions regarding resource allocation.

14 linical management guidelines, and to inform resource allocation.

15 implications for emergency medical services resource allocation.

16 ant on a population level for monitoring and resource allocation.

17 competition, thereby benefiting system-wide resource allocation.

18 rch investments to redress any inequities in resource allocation.

19 ration, patient compliance, and more optimal resource allocation.

20 d improve treatment monitoring by optimizing resource allocation.

21 ey can serve more patients with the existing resource allocation.

22 re expected than official estimates used for resource allocation.

23 hould stimulate review of current policy and resource allocation.

24 imize virus detection and ensure appropriate resource allocation.

25 from predicting disease spread to optimizing resource allocation.

26 tional decisions regarding clinical care and resource allocation.

27 rces for program development, marketing, and resource allocation.

28 ation studies and will facilitate genotyping resource allocation.

29 ogy and could affect healthcare planning and resource allocation.

30 makers can use this information for improved resource allocation.

31 sult of unplanned, irrational scheduling and resource allocation.

32 fully considered when making decisions about resource allocation.

33 ant for guiding clinical decision-making and resource allocation.

34 pattern suggests it plays a central role in resource allocation.

35 utcomes without consideration for associated resource allocation.

36 ant for perioperative planning and effective resource allocation.

37 ds is crucial for public health planning and resource allocation.

38 rs to make informed decision for the medical resource allocation.

39 equate classification accuracy without undue resource allocation.

40 tside of the ED can help facilitate improved resource allocation.

41 luence of an addictive behavior on household resource allocation.

42 ient care and improve efficiency of clinical resource allocation.

43 encounters that influence social groups and resource allocation.

44 hcare for diagnosis, risk stratification and resource allocation.

45 zed disease severity is crucial for advanced resource allocation.

46 integration on the efficiency of enterprise resource allocation.

47 x to guide patient management processing and resource allocation.

48 etic factors such as parental conflicts over resource allocation.

49 FA in CSCs may lead to racial disparities in resource allocation.

50 s has been postulated as a method to improve resource allocation.

51 can help guide social distancing and testing resource allocation.

52 e spread and to predict their trajectory for resource allocation.

53 dvanced breast cancer is crucial for guiding resource allocation.

54 s important regarding patient management and resource allocation.

55 nce is essential for timely intervention and resource allocation.

56 ture trials, individualised patient care and resource allocation.

57 ysiological limitations and by trade-offs in resource allocation.

58 nation of variables to maximize accuracy and resource allocation.

59 memory load, the CDA flexibly tracks memory resource allocation.

60 g tracheostomy to aid in decision-making and resource allocation.

61 mation can be highly beneficial for accurate resource allocation.

62 rstone to health policymaking, planning, and resource allocation.

63 cations for hospital staffing, training, and resource allocation.

64 their importance for healthcare planning and resource allocation.

65 ents early would improve treatment plans and resource allocation.

66 MA (n = 214) to address the plants' vertical resource allocations.

67 h-level policy discussions around budget and resource allocations.

68 ical decisions about clinical operations and resource allocations.

69 tical for public health decisions on medical resources allocations.

70 ally overlooked in conservation planning and resource allocation [3].

71 Thus, rhythms can act as cues for flexible resource allocation according to the goal relevance of e

72 significantly affected plant performance and resource allocation across all seven metrics examined.

73 rapid evolution of parent-of-origin-specific resource allocation alleles coincident with HSI within a

74 - particularly with respect to longevity and resource allocation along an axis from annual to perenni

75 t to alter energetic budgets and potentially resource allocation among photosynthetic processes in P.

76 Optimal technical schemes for water resources allocation among different users are obtained.

77 s low-income population has implications for resource allocation and access to subspecialty care.

78 ng the relative balance between variation in resource allocation and acquisition, and the role of beh

79 ement is vital for both optimal postdisaster resource allocation and calculation of measures of publi

80 Both have substantial ramifications on resource allocation and care access under a new care par

81 important drug class against concerns about resource allocation and care complexity presents a subst

82 However, it is unclear how resource allocation and cell-to-cell variation jointly s

83 serve as the basis for additional studies of resource allocation and consumption in the future.

84 Data to better understand resource allocation and financial planning are lacking.

85 rgely be met by government through increased resource allocation and financial protection measures (r

86 ntly coordinate developmental decisions with resource allocation and growth.

87 stratify prospective clinical trials, guide resource allocation and inform therapeutic options.

88 Addressing these issues requires resource allocation and inter-professional collaboration

89 the spatiotemporal resolutions necessary for resource allocation and intervention evaluation are lack

90 y provides new insights into phloem-mediated resource allocation and its effects on plant root system

91 ements may still have important benefits for resource allocation and outcomes such as patient quality

92 etic and lung transplant units in optimizing resource allocation and patient outcomes.

93 decade to elucidate the relationship between resource allocation and phenotypic patterns of microorga

94 have additional implications for theories of resource allocation and plant senescence.

95 ition, we review the pertinent literature on resource allocation and rationing in intensive care unit

96 of new triage pathways may assist in better resource allocation and shorter time to care.

97 ommunity setting which can be used to assess resource allocation and staff training.

98 sponsibilities, confidentiality and privacy, resource allocation and stewardship, the obligation of h

99 ey disease, infection mitigation strategies, resource allocation and support systems for the nephrolo

100 tal health ED revisits is needed for optimal resource allocation and targeting of prevention efforts.

101 rvention coverage in the population to guide resource allocation and to assess progress towards elimi

102 s of neonatal health provide information for resource allocation and to evaluate progress.

103 imicrobial resistance (AMR) is essential for resource allocation and to inform AMR action plans at na

104 readmission is required to effectively plan resource allocation and to plan interventions to reduce

105 Rapid and accurate tests can improve resource allocations and improve patient care.

106 termine the treatment effect and appropriate resource allocations and move closer to achieving the gl

107 tance in areas as diverse as disease spread, resource allocation, and emergency response.

108 mpetition, case distribution among partners, resource allocation, and geographic market saturation.

109 lysis of potential innovative interventions, resource allocation, and health care budgeting, and publ

110 resource mobilisation, pooling, channelling, resource allocation, and implementation-and integrated t

111 o enhance clinical decision-making, optimise resource allocation, and improve patient outcomes in the

112 to our understanding of mating behaviors and resource allocation, and may provide insights useful for

113 ts showed that this effect did not depend on resource allocation, and occurred even when prime and ta

114 prioritized some patients with cancer during resource allocation, and one-fourth categorically exclud

115 uld reiterate the need to strengthen action, resource allocation, and policy development for NCDs.

116 n predictions, enhancing route optimization, resource allocation, and policy formulation.

117 pread are crucial for situational awareness, resource allocation, and public health decision-making.

118 alth-related decisions about priority areas, resource allocation, and the effectiveness of prevention

119 key components for surveillance planning and resource allocation, and this work provides a valuable s

120 nimizing resource competition and optimizing resource allocation are both critically important for ac

121 n pollution exposure, built environment, and resource allocation are intertwined to shape the health

122 artition, which integrates earlier models of resource allocation, as a framework to examine the devia

123 count the numbers of families and determine resource allocation, (b) the needs of children and respo

124 nder nutrient-limited conditions, we studied resource allocation between cellular and secreted compon

125 ons, which are often driven by trade-offs in resource allocation between energetically costly immunit

126 oritization is believed to reflect shifts in resource allocation between large-scale brain networks t

127 as used to measure differences in nationwide resource allocation between racial and ethnic groups.

128 ce of strong selection due to a trade-off in resource allocation between reproductive activity and in

129 lity gradient relied primarily on changes in resource allocation between sapwood and leaf area and in

130 erm relationship seems strongly regulated by resource allocation between symbiotic partners, suggesti

131 atriot diploid embryo impacts the process of resource allocation between these two sexually produced

132 ffecting mortality and inherent tradeoffs in resource allocation between viability traits and other f

133 the genus Drosophila and describe an inverse resource allocation between vision and olfaction, which

134 We argue that disparate resource allocations between species may partially expla

135 electrophysiological correlates of flexible resource allocation by manipulating the distribution of

136 early 2000s owing to a lack of attention and resource allocation by scientists, funding bodies and th

137 method and frequency, primarily to optimize resource allocation by targeting screening towards indiv

138 Mathematically, the dynamical process of resource allocation can be modeled as minority games.

139 A simple model of proteomic resource allocation can quantitatively account for all o

140 Significant cortical thinning and neural resource allocation changes emerge during adolescence; h

141 ality; vii) public researcher request; viii) resource allocation committee distribution request revie

142 In addition to resource allocation conflicts among multiple traits, fun

143 efence, including developmental constraints, resource allocation costs, multi-functionality of defenc

144 d complement more specific analyses to guide resource allocation, data collection, and programme plan

145 on by policy makers and decision makers when resource allocation decisions are made about school nurs

146 in certain areas is a critical component of resource allocation decisions in research laboratories,

147 These differences may inform resource allocation decisions in these states.

148 Our results show that the geographic resource allocation decisions made at the beginning of a

149 Few empirical studies have examined dynamic resource allocation decisions systematically.

150 s across the United States must make complex resource allocation decisions to manage wildfires using

151 level, the effects of thermal environment on resource allocation decisions varied between the fast- a

152 developed to guide CEAs that inform societal resource allocation decisions, and the content of these

153 ssential to guide public health planning and resource allocation decisions, particularly in resource-

154 ectiveness studies relating to URE to assist resource allocation decisions.

155 resent on admission, can inform clinical and resource allocation decisions.

156 istributive justice will be needed to inform resource allocation decisions.

157 ingly turn to economic analyses to help make resource allocation decisions.

158 owever, few data are available to guide such resource allocation decisions.

159 nd mathematical models used to inform health-resource allocation decisions.

160 st-generation antipsychotics is critical for resource-allocation decisions.

161 The heterogeneity in resource allocation did not seem to match epidemiologica

162 re also involved in group decision-making on resource allocation distributions under conditions of un

163 proliferation phenotypes, which implies that resource allocation during development and at the cellul

164 Tradeoffs affect resource allocation during development and result in fit

165 ds (GFT) to assist in risk communication and resource allocation during epidemics.

166 owth by using a simple mathematical model of resource allocation during ontogeny.

167 casional stimulant users exhibit inefficient resource allocation during the execution of reinforced c

168 ores could be utilized to enhance triage and resource allocation during the ultra-early phase of resu

169 owever, spontaneous evolution of the complex resource allocation dynamics can lead to undesirable her

170 Spontaneous evolution of the resource allocation dynamics, however, often leads to a

171 ssues in response to heat stress to modulate resource allocation dynamics.

172 Our results can help guide decisions toward resource allocation (e.g., genotyping and phenotyping) i

173 Resource allocation for all modalities is directly depen

174 hanges with respect to hospital staffing and resource allocation for an influx of patients.

175 to optimize current screening guidelines and resource allocation for equitable LCS implementation and

176 of burden, combined with decision-making and resource allocation for interventions against AMR.

177 policy makers in making decisions related to resource allocation for interventions to reduce severe m

178 ith MS, which has important implications for resource allocation for MS in the UK.

179 uable evidence to inform long-term strategic resource allocation for patients previously infected wit

180 is required, SaFETy shows potential to guide resource allocation for prevention of firearm violence.

181 ds and challenges of wildfire management and resource allocation for suppression and mitigation effor

182 htened debate will inform decision making on resource allocation for this important and growing segme

183 Enhanced clinical vigilance and tailored resource allocation for transferred LGIB patients are ne

184 nary dynamics between genome composition and resource allocation for translation, transcription, and

185 cal applications, particularly to prioritize resource allocation for upgrade of hierarchical and dist

186 tions of this work for research, policy, and resource allocation for vaccine development and delivery

187 More generally, these findings support a resource-allocation framework in which individual differ

188 inoculation with Bgh, suggesting a shift in resource allocation from growth to defence.

189 ite this, numerous barriers exist, including resource allocation, health care funding, health care in

190 ing the most-studied phenomenon arising from resource allocation, i.e. the overflow metabolism, have

191 , are extending service delivery, optimising resource allocation, improving client engagement, and st

192 ialogue on the health policy implications of resource allocation in cancer care.

193 ied design principle, namely that of optimal resource allocation in cellular sensing.

194 Its use can increase safety and resource allocation in emergency departments.

195 and MSVI have implications for planning and resource allocation in eye care.

196 sity interventions are essential for guiding resource allocation in health care settings.

197 are increasingly used to aid decisions about resource allocation in healthcare; this practice is slow

198 parts to climate highlight the complexity of resource allocation in multi-stemmed plants.

199 This may inform resource allocation in other areas of medicine.

200 ave implications for quality improvement and resource allocation in stroke care.

201 use could improve both patient outcomes and resource allocation in such an event.

202 Aphid feeding causes changes in resource allocation in the host, resulting in an increas

203 ironmental rhythms potently drive predictive resource allocation in time, typically leading to percep

204 xamine the influence of prior information on resource allocation in working memory.

205 ompared screening strategies and alternative resource allocations in a validated Markov model.

206 These challenges include an imbalance in resource allocation, inadequate physical access to high-

207 We investigated between-group differences in resource allocation index (RAI) (a measure of SN-centere

208 t this system obeys the principle of optimal resource allocation, indicating a selective pressure for

209 ' This paper suggests that exceptionalism in resource allocation is a fragile, short-term solution.

210 esults suggest that manipulation of cellular resource allocation is a key control parameter for synth

211 Decision making on resource allocation is not transparent, and full economi

212 house confirm that, under phosphorus stress, resource allocation is shifted from secondary to primary

213 scalable fashion, for population health and resource allocation, is constrained by limitations of cu

214 Coordinated resource allocation justifies the framework of optimalit

215 ductivity of enterprises by optimizing their resource allocation level.

216 gramming model is proposed for optimal water resources allocation management.

217 st that impaired prioritization of cognitive resource allocation may contribute to the early cognitiv

218 The resource allocation model posits that the trade-off aris

219 Based on a resource allocation model, we designed experiments to te

220 Chure and Cremer advance a resource-allocation model, which they derive from first

221 p appropriate strategies, staff training and resource allocation models to improve the quality of hea

222 Extensively validated resource allocation models, such as genome-scale models

223 ient preferences, clinician preferences, and resource allocation must be addressed.

224 of enterprises and improve the efficiency of resource allocation of enterprises overall.

225 ed soil microbiomes affected performance and resource allocation of three native plant species, and i

226 In the face of finite resources, allocations of research and health-care fundi

227 investigate the effects of optimal time and resource allocation on age patterns of fertility and mor

228 ic value should not be the only argument for resource allocation--other organisational, ethical, and

229 Variations in resource allocation partially account for outcome differ

230 viable mitigation strategies and optimizing resource allocation, patient outcomes could be substanti

231 of critical illness, could optimize hospital resource allocation, predict responsiveness to treatment

232 for infections during crisis; aid effective resource allocation; prepare humanitarian surgical staff

233 ere provides insight into the time-dependent resource allocation problem of phototrophic diurnal grow

234 ocess and solve the resulting time-dependent resource allocation problem using constraint-based analy

235 igate the evolution of equitable offers as a resource allocation problem when reproduction is constra

236 SA, FedMP, and H-DDPG, MEC-AI HetFL improves resource allocation, quality score, and learning accurac

237 This resource allocation question (which we refer to as VaccI

238 ge 6, punishment was already biased: Selfish resource allocations received more punishment when they

239 tive convened three expert panels to develop resource allocation recommendations for supportive and p

240 fore May 20, 2020, that included health care resource allocation recommendations.

241 This study provides a useful resource allocation reference to the community as long-r

242 ristics, donation clinical processes, health resource allocation, research and education, and remuner

243 progression with benefits for patient care, resource allocation, research classifications and clinic

244 Planning for ESRD resource allocation should allow for substantial continu

245 hmark their activities to ensure responsible resource allocation so that cardiologists of the future

246 OVID-19 prompted rapid development of scarce resource allocation (SRA) policies to be implemented if

247 p two mathematical models to investigate how resource allocation strategies evolve at both population

248 these data inform much needed investment and resource allocation strategies in tuberculosis endemic s

249 he emergence of subpopulations with distinct resource allocation strategies, remains largely unknown.

250 bance-prone forests, which contained diverse resource allocation strategies.

251 g two species-specific parameters describing resource allocation strategies: tolerance of resource li

252 A lean resource allocation strategy can reduce the impact of su

253 investment in these reserves is an important resource allocation strategy underlying the growth-survi

254 y in risk stratification but also in guiding resource allocation, such as identifying patients who ma

255 ent with the existence of body part-specific resource allocation switching.

256 Resource allocation takes place in various types of real

257 se between partners who accepted or rejected resource allocations that were either strongly advantage

258 y models of floral longevity are grounded in resource allocation theory and propose that selection ac

259 concepts like tradeoff curves and strategic resource allocation theory to analyze metabolic adaptati

260 This study reinforces the application of resource allocation theory to floral display trait evolu

261 Our prediction, based on resource allocation theory, was that predator removal wo

262 n seem at odds with economic concepts around resource allocation, this article explains the situation

263 Optimal resource allocation through task shifting is economicall

264 stics should be considered when planning for resource allocation to achieve equitable patient care.

265 to adapt its phenotype and optimize maternal resource allocation to fetal growth during late pregnanc

266 GFs during pregnancy in regulating placental resource allocation to fetal growth is important for ide

267 owth factors (IGFs) in controlling placental resource allocation to fetal growth, particularly in res

268 he mountain carbon balance and corresponding resource allocation to lower elevations.

269 k done may affect both morale and subsequent resource allocation to medical researchers.

270 y may stem from conflict between parents for resource allocation to offspring.

271 This study compared resource allocation to patients who eventually die in ne

272 ponse to heat stress in a manner to optimize resource allocation to pollinated fruits with developing

273 gs using a genome-scale model suggested that resource allocation to reactive oxygen species (ROS) mit

274 sts are critical for planning more equitable resource allocation to reduce health inequalities; howev

275 od if the focused approach is used to tailor resource allocation to reflect patterns in local epidemi

276 Age-related changes in maternal resource allocation to reproduction do not drive changes

277 Better food and resource allocation to the autonomous region contributed

278 l studies of life history aim to account for resource allocation to the different components of fitne

279 otype, which can lead to changes in maternal resource allocation to the fetus.

280 reproductive timing and may help to optimize resource allocation to the next generation.

281 , and there was little evidence of different resource allocation to the two flower types.

282 As efforts and resource allocation toward prevention and treatment of C

283 By 24 h, resource allocation toward roots returned to control lev

284 esistance have shifted from ideas of optimal resource allocation towards a more eclectic set of theor

285 and metabolic pathways, supporting increased resource allocation towards building and maintaining a h

286 tween-host transmission and therefore face a resource allocation trade-off between maintaining the cu

287 extent to which variation in such traits and resource allocation trade-offs is a result of adaptation

288 s strategy wherein the optimal resolution of resource allocation trade-offs is essential to survival.

289 etween display traits, including fundamental resource-allocation trade-offs and their interactions wi

290 y and growth, based on functional traits and resource-allocation trade-offs, to show how environmenta

291 se results provide a direct elucidation of a resource allocation tradeoff between growth rate and ROS

292 To improve resource allocation, virtual medical retina clinics were

293 ificant impact of experienced task demand on resource allocation, we conclude that Kurzban et al.'s o

294 Based on this invariance and balanced resource allocation, we explain why the total cell size

295 also guide decisions regarding personnel and resource allocation when considering timing of nonelecti

296 ls cannot capture an important constraint on resource allocation, which is competition between differ

297 t mathematical modelling tools incorporating resource allocation will facilitate the circuit-host des

298 an College of Surgeons (ACS) to align trauma resource allocation with regional needs.

299 nd the potential importance of plasticity in resource allocation, with plants investing in the constr

300 Resource allocation within trees is a zero-sum game.