ライフサイエンスコーパス: decision making

1 related to cognitive processing (non-verbal decision making).

2 en biologics to inform clinical practice and decision making.

3 position posing challenges for public health decision making.

4 d 5) their usefulness in guiding therapeutic decision making.

5 able rewards to influence reward seeking and decision making.

6 linking neural remodeling with outcome-based decision making.

7 neural processes during successive stages of decision making.

8 rostate cancer treatment could inform shared decision making.

9 warded is a critical aspect of goal-directed decision making.

10 disruptions in both emotional processing and decision making.

11 striatum, and other structures implicated in decision making.

12 opriate, and to provide guidance on clinical decision making.

13 essive indecisiveness that hinders efficient decision making.

14 aemia, could also be considered in treatment decision making.

15 ities is of paramount importance in adaptive decision making.

16 rease the information available for clinical decision making.

17 tacognition) is a crucial aspect of adaptive decision making.

18 nce of perseverative behaviors and a lack of decision making.

19 alth disorders, often related to value-based decision making.

20 nding our understanding of the role of V1 in decision making.

21 ion) differs between first- and second-order decision making.

22 memories are critical for context-dependent decision making.

23 ve received extensive study for insight into decision making.

24 cal and mathematical cognition, but also for decision making.

25 al practice and inform patient and clinician decision making.

26 olonies balance speed/accuracy trade-offs in decision making.

27 tterns that will hopefully improve physician decision making.

28 n and temozolomide and to influence clinical decision making.

29 f the output of an ML model, allowing better decision making.

30 ettings for the purposes of internal program decision making.

31 ians to use these devices for prompt medical decision making.

32 ort to implement in the interest of informed decision making.

33 tentially providing assistance with clinical decision making.

34 uence daily behaviors, and encourage healthy decision making.

35 Estrus cycle phase did not affect decision making.

36 grams used in isolation are insufficient for decision making.

37 effect on either metacognition or perceptual decision making.

38 nges for diagnosis, treatments, and clinical decision making.

39 tion for differential sensory processing and decision making.

40 titude to violence, social independence, and decision making.

41 omized clinical trials to guide practitioner decision making.

42 h that from the recent past to guide ongoing decision making.

43 can be applied during building design to aid decision making.

44 timuli, thus driving motivated behaviors and decision making.

45 , and thus may offer guidance in therapeutic decision making.

46 drenaline, on loss aversion during financial decision making.

47 rdiovascular system are central for clinical decision making.

48 ey social and contextual drivers of temporal decision making.

49 which can have significant implications for decision making.

50 ocesses that are dissociated from perceptual decision-making.

51 urse predictions that can support regulatory decision-making.

52 on of food is a fundamental component of our decision-making.

53 settings using a recognised model of shared decision-making.

54 us risk of AKI is needed to improve clinical decision-making.

55 imitation to joint water and land management decision-making.

56 stable value processing in MDD during risky decision-making.

57 rmal subjective evaluation of choices during decision-making.

58 the bias in representation has an impact on decision-making.

59 investigating the use of mental maps during decision-making.

60 infecting phages contribute less to cellular decision-making.

61 not precise enough to guide initial clinical decision-making.

62 potential role in guiding overall treatment decision-making.

63 d bone loss threshold values for therapeutic decision-making.

64 s according to their reliability for optimal decision-making.

65 and (iv) involvement of community leaders in decision-making.

66 s in shaping long-standing economic views of decision-making.

67 the cost for some applications in regulatory decision-making.

68 humans is considered as optimal, "rational" decision-making.

69 understood in order to optimize data-driven decision-making.

70 e role of observational research in clinical decision making: (1) improve the quality of electronic h

71 ch VS information processing could influence decision making, a function thought to occur primarily i

72 (2) Two GFR thresholds are used for decision-making: a high threshold (>/=90 ml/min per 1.73

73 Our predictions will assist in decision-making about surveillance and preventive measur

74 ptide signaling in C. elegans enhances their decision-making accuracy and expands their behavioral re

75 Decision-making accuracy typically increases through col

76 practices, and in patients' participation in decision-making, adequacy of pain management, pain sever

77 This finding supports clinical decision making and application of biomarkers in daily p

78 rgeons Predicted Risk of Mortality score for decision making and assessment of early outcome in patie

79 ation to a wide variety of core phenomena in decision making and challenge the idea that preferences

80 e investigated model-based versus model-free decision making and its neural correlates as well as alc

81 verexercising) that may originate in altered decision making and learning.

82 een attentional mechanisms, uncertainty, and decision making and may assist the advance of approaches

83 n may lead to actions aimed at more rational decision making and may contribute to lowering healthcar

84 C plays a causal role specifically in visual decision making and may support sensory aspects of the d

85 x (OFC) both make important contributions to decision making and other cognitive processes.

86 Yet the effect of sleep deprivation (SD) on decision making and performance is often underestimated

87 rocardiogram (ECG), facilitating health care decision making and reducing costs.

88 ime to increase the signal-to-noise ratio in decision making and working memory tasks.

89 These findings suggest problems with decision-making and information integration in MDD patie

90 nd better facilitate healthcare planning and decision-making and public health measures to prevent an

91 the development of interventions that target decision-making and reward systems differently to modera

92 es is hypothesized to be heavily involved in decision-making and selective visual attention.

93 robust functionality, for example, cell-fate decision-making and signal transduction, through multipl

94 best incorporate genomic testing in clinical decision-making and subsequent treatment recommendations

95 L composite model that could guide treatment decision-making and trial design in AML.

96 (LRTCs) in cortex, which are supportive for decision-making and working memory tasks.

97 ionable molecular alterations, the effect on decision making, and identification of alterations assoc

98 ontext are important for perception, memory, decision making, and other cognitive processes.

99 y more complex behaviors including learning, decision making, and social interactions.

100 behavior), good data are not enough for good decision-making, and health workers are important agents

101 pose To determine the demographic, clinical, decision-making, and quality-of-life factors that are as

102 t to which other drivers, uncertainties, and decision making are incorporated.

103 in the group in whom challenges in clinical decision making are most prevalent.

104 e neural mechanisms underlying this aberrant decision making are unknown.

105 ates and residual risks provided for patient decision-making are impacted if using self-reported ethn

106 nts, absolute changes and impact on clinical decision-making are marginal.

107 cuit mechanisms underlying history-dependent decision-making are poorly understood.

108 ontext effects to spatial context effects in decision making as well as spatial and temporal context

109 ANCE STATEMENT: Many theories of value-based decision making assume that people first assess the attr

110 stic is aversive pruning, in which potential decision-making avenues are curtailed at immediate negat

111 b involvement in sleep control, reward-based decision making, avoidance of punishment, and responses

112 substantial evidence for clinical and policy decision making because self-guided iCBT can be consider

113 ortex-wide Ca(2+) imaging in mice performing decision-making behavior and identify a global cortical

114 ognitive training with respect to changes in decision-making behavior or brain response, or for cogni

115 array of sensory information and facilitate decision-making behaviors in C. elegans.

116 n-clinical factors (NCFs) influence clinical decision making but are rarely considered.

117 l information through the VS during critical decision making by dampening competing information from

118 This review article seeks to aid clinical decision making by providing an overview of available da

119 We studied non-motor decision making by recording intraoperative STN and pref

120 The general features of this collective decision-making by a group of simple yes/no units reveal

121 for food reward and were assessed for risky decision-making by pairing increased levels of food rewa

122 ient's illness is relevant and important for decision-making by surrogates for chronically critically

123 evolutionary and causal aspects of parental decision making, by suggesting that selective infanticid

124 the underlying neural mechanisms regulating decision-making circuits that drive competing behaviors.

125 ment of breast cancer have made the clinical decision-making context much more complex.

126 both arms received standardized therapeutic decision-making, continuous positive airway pressure (CP

127 rgeon communication by shifting the focus of decision-making conversations from an isolated surgical

128 orkshops were that neuroscientific models of decision making could provide a strong rationale for pre

129 s showed that explorative motor learning and decision-making could be modelled as the (approximately)

130 Successful decision making critically involves metacognitive proces

131 s impairment was accompanied by a perceptual decision making deficit whereby motion-related evidence

132 uals with the disorder and may lead to their decision-making deficits and excessive worry about every

133 s on choice behavior in a rat model of risky decision making, depending on the phase in which inhibit

134 exchange within a recognised model of shared decision-making do not adequately fit with patient/nurse

135 are sufficient to cause a specific change in decision making, dubbed 'pessimism', whereby corticoster

136 nge surgeon communication and promote shared decision making during high-stakes surgical decisions.

137 ementation of on-line IEX will enable faster decision making during process development and could pot

138 ch basic negative Pavlovian influences guide decision-making during planning, with implications for d

139 alize massive multiomics data in therapeutic decision making, enabling widespread implementation of p

140 ty of the developed method for modeling cell decision making errors under normal and abnormal conditi

141 iduals who will die in the next year informs decision making for advanced treatments and hospice.

142 for cider production will allow for informed decision making for both apple producers and cider maker

143 integration of epidemiological modeling and decision making for policy.

144 We recommend individualized decision making for surveillance breast imaging in older

145 f principles of personalized medicine and in decision making for targeted therapy of these tumors.

146 roach that includes clinician-patient shared decision making for the use of pharmacologic and nonphar

147 Such insight might be useful in the clinical decision making for those who apply emicizumab in their

148 tion process, this tool can support clinical decision making for treatment duration.

149 describe why a shared approach to treatment decision-making for asthma has the potential to be an ef

150 for the parents and audiologists supporting decision-making for hearing aid fitting and CI referral.

151 and subsequently engaged in a well-validated decision-making game that measures aggressive behavior i

152 Regardless of the decision-making group, nearly all patients wanted the me

153 ty or clinical effectiveness; hence, medical decision making has grown in complexity.

154 fying brain areas that play a causal role in decision making has proved challenging.

155 GNIFICANCE STATEMENT The field of perceptual decision making has shown that the sensory system integr

156 The study of decision-making has mainly focused on isolated decisions

157 oral effects of value biases in sensorimotor decision making have been widely studied, little is know

158 attempters have been found to be impaired in decision-making; however, their specific biases in evalu

159 egation between metacognitive and perceptual decision making impairments.

160 We conclude that the flexibility of decision-making implies that the strategies are genuinel

161 relates of feedback learning and value-based decision making in 36 female patients with AN and 36 age

162 ions, there is little data to guide clinical decision making in cases with double mutations.

163 to identify computational impairments during decision making in generalized anxiety disorder.

164 and have been validated for use in clinical decision making in malignant diseases, along with servin

165 We also examined the time-course of decision making in other, related tasks and report condi

166 peutic drug monitoring (TDM) aid therapeutic decision making in patients with inflammatory bowel dise

167 This information would be valuable for decision making in patients with unilateral breast cance

168 sment of susceptibility to complex diseases, decision making in precision medicine, and gaining insig

169 tal circuit dysregulation drives maladaptive decision making in psychopathy, supporting the notion th

170 pen challenges, for understanding perceptual decision making in rodents, monkeys, and humans.

171 challenging conversations to promote shared decision making in the acute setting.

172 Previous work on perceptual decision making in the sensorimotor system has shown pop

173 Decision making in these patients requires consideration

174 d cardiogenic shock and may help therapeutic decision making in these patients.

175 d transparency for optimization, design, and decision making in WM.

176 Here, we investigate human decision-making in a gambling task in which the informat

177 We assessed patient decision-making in a LIC with a cash-based health care e

178 ribute to deficits in behavioral control and decision-making in adults who abused alcohol during adol

179 emental diagnostic value but guides clinical decision-making in an unsalutary fashion.

180 behavior and self-reported self-reliance for decision-making in other social contexts correlated.

181 ng planning, with implications for disrupted decision-making in psychiatric disorders.

182 t clinical practice, and promote value-based decision-making in the cancer drug market.

183 Decision-making in the real world presents the challenge

184 of costs and benefits resembling non-optimal decision-making in which choices of high-cost/high-rewar

185 duals' valuation of potential rewards during decision-making, independent from reward experience.

186 addressing such problems include multisector decision-making, institutions that enable management to

187 nd explain how they would incorporate shared decision making into clinical practice.

188 Value-based decision-making involves an assessment of the value of i

189 egative outcomes to adaptively guide dynamic decision making is a new behavioral mechanism by which M

190 Shared decision making is critical to achieve value-concordant

191 Decision making is limited by a lack of clear prospectiv

192 Shared decision making is needed to support decisions about bre

193 We first demonstrate that intertemporal decision making is prone to the attraction effect in hum

194 The evidential basis for disease management decision making is provided by data relating to risk fac

195 Perceptual decision making is the process by which animals detect,

196 However, clinical decision-making is confounded by the fact that although

197 While collective decision-making is recognised as a significant contribut

198 y this bias manifests itself in learning and decision-making is unclear.

199 ile serotonin has been linked to value-based decision-making, its role in learning is less clear, wit

200 the pubertal transition and is implicated in decision making, learning, and psychopathology.

201 commonly attributed to noise in the brain's decision-making machinery.

202 However, excess caution in decision making may also lead to better performance in s

203 In addicted patients, decision making may also strongly depend upon drug-assoc

204 ore complex topics, including intraoperative decision making (mean, 9.70 vs 2.77 instances per hour,

205 nse ratio approach (Cmax/AC50), analogous to decision-making methods for clinical drug-drug interacti

206 as in a coral reef with a class of dynamical decision-making models to reveal that reef fish use info

207 These decision-making needs, in turn, require mission-oriented

208 e training influences neural activity during decision-making; nor did we find effects of cognitive tr

209 ral principle guiding intersubject trade-off decision making observed in our study is best described

210 T Current theories suggest that the impaired decision-making observed in individuals who chronically

211 questionnaire in an ophthalmologist-dominant decision-making (ODM), shared decision-making (SDM) and

212 This analysis is intended to support decision making on the size of future fellowships in ped

213 Here we discuss how decision-making organizes experiences according to an in

214 general for both communication and clinical decision making over the 4-week course.

215 re provide only limited guidance in clinical decision making owing to heterogeneity and scarcity.

216 at manual tracking utilises such slow serial decision making pathways up to several times per second.

217 d decision-making (SDM) and patient-dominant decision-making (PDM) style.

218 ve, AUROC2), but had no impact on perceptual decision making performance.

219 I for threshold crossing during the critical decision-making period.

220 cations and advocacy; (2) informing national decision-making, planning, and implementation; and (3) i

221 hood that their health information or shared decision-making preferences would be met.

222 yond data transfer to smart preliminary data decision-making prior to full acquisition.

223 ce is thought to be intimately linked to the decision making process as confidence ratings are tightl

224 Modeling can fill gaps in the decision making process by using available data to provi

225 be offered to patients as part of the shared decision making process.

226 with shared structure) could streamline the decision-making process and may allow for a better integ

227 cholera vaccine, and show the details of the decision-making process and timeline.

228 e identified as influencing the reproductive decision-making process in women living with HIV: 'Socio

229 Routine integration of FFR into the decision-making process of ACS patients with obstructive

230 rintensities, are of major importance in the decision-making process to focus the diagnosis among the

231 ducational attainment wanted to delegate the decision-making process to the ophthalmologist.

232 ian and patients are actively engaged in the decision-making process, including information exchange;

233 r study suggests that during the end-of-life decision-making process, nurses' feelings toward their p

234 hese cells offer a window into the cell fate decision-making process.

235 ies are essential to facilitate this complex decision-making process.

236 ated to patients during the shared treatment decision-making process.

237 hich are critical in clinical and regulatory decision-making process.

238 role of the attending ophthalmologist in the decision-making processes before treating diabetic retin

239 nce and a value-based decision; (2) improved decision-making processes defined as feeling informed, d

240 m health technology assessment, and to guide decision-making processes for health authorities.

241 rs, we find significantly more errors in the decision-making processes triggered by asynchronous audi

242 ain concerning the information-gathering and decision-making processes used during encounters.

243 nal and biochemical analyses to characterize decision-making processes, assessed by probabilistic rev

244 layed abnormal orbitofrontal cortex-mediated decision-making processes, resulting in a novel reward-s

245 re extensive and detailed guidance regarding decision making provided both in the text and in the upd

246 mic outbreak can lead to rapid and efficient decision making, provided that the uncertainty affects p

247 ussion about CPM, satisfaction with surgical decision making, receipt of second surgical opinion, and

248 infections, hopefully facilitating clinical decision making regarding further investigations and the

249 ould optimize long-term follow-up and modify decision-making regarding the discontinuation of oral an

250 The analysis can help inform decision making related to investment decisions and CO2

251 adaptive plasticity underlying dysfunctional decision-making related to neuropsychiatric conditions.

252 w the brain processes cigarette cost-benefit decision making remains largely unknown.

253 Decision-making requires choosing from treatments on the

254 to support donor candidates in well informed decision-making requires grounding in perspectives of co

255 ary for contingent learning and value-guided decision-making, respectively.SIGNIFICANCE STATEMENT The

256 During perceptual decision-making, responses in the middle temporal (MT) a

257 ogist-dominant decision-making (ODM), shared decision-making (SDM) and patient-dominant decision-maki

258 Shared decision-making (SDM) requires that both physician and p

259 neurons, even during active wakefulness and decision making.SIGNIFICANCE STATEMENT A neuron's membra

260 ice between two options during reward-guided decision-making.SIGNIFICANCE STATEMENT Current theories

261 rch projects, and develops students' ethical decision-making skills.

262 We characterized decision-making strategies using a task in which mice se

263 hopathologies characterized by dysfunctional decision-making, such as addiction and pathological gamb

264 engagement, the development of new clinical decision-making support tools, and the validation of cli

265 studies have identified the brain-reward and decision-making systems that are involved in the respons

266 ferent contributions of different memory and decision-making systems thought to contribute even to si

267 we recorded OFC neurons in rats performing a decision making task while suppressing activity in a key

268 rning by using parameters estimated from the decision-making task and the separate motor noise measur

269 tasks and could apply more generally to any decision-making task for which the minority of group mem

270 We used a financial decision-making task in a high-risk community-based samp

271 re as rats performed a complex reward-guided decision-making task in which predicted reward value was

272 ted the treatments' influence on a financial decision-making task measuring loss aversion and risk at

273 ing an explorative motor learning task and a decision-making task which had a similar underlying stru

274 dy, six human subjects performed a financial decision-making task while we recorded local field poten

275 or area/dorsal anterior cingulate during the decision-making task.

276 uring performance of a complex reward-guided decision-making task.

277 nation with pattern-based neuroimaging and a decision-making task.

278 inson's disease patients during a perceptual decision-making task; STN low-frequency oscillatory (LFO

279 onkeys' trial-by-trial choices in perceptual decision-making tasks.

280 uring performance of the following validated decision-making tasks: delay discounting (choices betwee

281 Continued refinement of decision-making techniques is warranted to improve patie

282 lore preventative risk assessment and policy decision-making that incorporates cancer biology, enviro

283 he representation of reward- and value-based decision making, through interactions with the ventral s

284 ed by a shift from goal-directed to habitual decision making, thus facilitating automatic drug intake

285 These results can aid in decision-making to limit the spread of rumors.

286 terium compatibility models is proposed as a decision making tool and first estimation to select comp

287 ke hours, prohibiting its use as a real-time decision-making tool as well as using valuable resources

288 To our knowledge, this is the first clinical decision-making tool that generates personalized forecas

289 pproaches play an important role in clinical decision making, treatment guidelines, and health policy

290 s implicate heightened negative valuation in decision-making under risk, and impaired emotion regulat

291 s shed light on the mechanisms that underpin decision-making under uncertainty, and suggest new appro

292 in healthy controls, a region implicated in decision-making under uncertainty.

293 We assessed sex differences in decision making using the rat version of the Iowa gambli

294 greater need to enforce evidence-led medical decision-making using available health care data.

295 ty related to choice values is important for decision-making we conducted an additional lesion experi

296 These MA-induced changes in decision making were similar to those observed in rats f

297 or agents and thiopurines to inform clinical decision making when applying TDM in a reactive setting.

298 dic sampling is associated with sensorimotor decision making within specific frontal, striatal and pa

299 inear transformations represent serial motor decision making within the sensorimotor feedback loop in

300 duals must accomplish complex navigation and decision making without succumbing to distractions and u