コーパス検索結果 (1語後でソート)
通し番号をクリックするとPubMedの該当ページを表示します
1 em ("unnecessary, excessive, and inefficient resource utilization").
2 setting, avoiding unnecessary exposures and resource utilization.
3 associated with significant improvements in resource utilization.
4 characteristics, postoperative outcomes, and resource utilization.
5 ficant morbidity, mortality, and health care resource utilization.
6 assessments of medical illnesses as well as resource utilization.
7 sts were calculated for all-cause healthcare resource utilization.
8 variation with implications for outcomes and resource utilization.
9 med to evaluate differences in mortality and resource utilization.
10 C and sepsis are predictors of mortality and resource utilization.
11 f cardiopulmonary resuscitation, and greater resource utilization.
12 ansmission and propagation, and (6) hospital resource utilization.
13 Thirty-day mortality and costs reflecting resource utilization.
14 ling a first-principles approach to optimize resource utilization.
15 ainty, diagnostic ability, and treatment and resource utilization.
16 d attributable to intrinsic growth rates and resource utilization.
17 ten requires the evolution of differences in resource utilization.
18 he impact of standardization on outcomes and resource utilization.
19 ely to suffer cardiac arrest and inefficient resource utilization.
20 ic bypass (LRYGB) should be 1 day to improve resource utilization.
21 mon driver of both in hospital mortality and resource utilization.
22 evaluation of chest pain reduces healthcare resource utilization.
23 h pretransplantation and posttransplantation resource utilization.
24 1 (during the Tc-99m shortage) on downstream resource utilization.
25 iagnostic accuracy, clinical management, and resource utilization.
26 o face significant morbidity, mortality, and resource utilization.
27 ion in HF may optimize clinical outcomes and resource utilization.
28 vent rates, recidivism rates, and downstream resource utilization.
29 rea of health costs, cost-effectiveness, and resource utilization.
30 uch as safety, waste management, and uranium resource utilization.
31 r greater competitive ability and more rapid resource utilization.
32 th improved decision-making quality and less resource utilization.
33 ch may improve pediatric intensive care unit resource utilization.
34 groups for differences in downstream medical resource utilization.
35 lacement, pneumothorax, death, and radiology resource utilization.
36 cute care facilities or about the associated resource utilization.
37 are-management strategy on medical costs and resource utilization.
38 ance to this subset of patients may optimize resource utilization.
39 are needed to limit their impact on overall resource utilization.
40 alleviated by the inclusion of tradeoffs in resource utilization.
41 consequence and does not result in increased resource utilization.
42 ghted Hospital Days scale (WHD-94) to assess resource utilization.
43 intervention studies to reduce their greater resource utilization.
44 (MPM0-III) but not the model for predicting resource utilization.
45 t rGNR infections are associated with higher resource utilization.
46 -CPB renal injury on operational outcome and resource utilization.
47 of monitoring strategies, and critical care resource utilization.
48 e impact of obesity on surgical practice and resource utilization.
49 implications for health policy and surgical resource utilization.
50 ndividual cases and the efficiency of health resource utilization.
51 le in balancing photosynthetic activity with resource utilization.
52 l of enhancing patient care while optimizing resource utilization.
53 y outcomes included 30-day complications and resource utilization.
54 of postoperative outcomes and post-discharge resource utilization.
55 ity of illness are associated with increased resource utilization.
56 er DDLT including superior outcomes and less resource utilization.
57 as recovery times, complications, costs, and resource utilization.
58 ith higher in-hospital mortality and greater resource utilization.
59 ospheric water which is relevant for in-situ-resource utilization.
60 inimize radiation exposure and optimize cost/resource utilization.
61 and have contributed to enhanced health-care resource utilization.
62 Adopting a two-tier approach improves resource utilization.
63 iated with decreased mortality and lower ICU resource utilization.
64 lower quality of life, higher mortality, and resource utilization.
65 ell as decreased ICU and post-ICU healthcare resource utilization.
66 families regarding goals of care and optimal resource utilization.
67 Among 4,074 ICU survivors, 45% had increased resource utilization.
68 in-hospital mortality, temporal trends, and resource utilization.
69 ocedural costs were estimated using measured resource utilization.
70 act of this practice on patient outcomes and resource utilization.
71 rcutaneous LVAD), in-hospital mortality, and resource utilization.
72 No change in care plan concordance or resource utilization.
73 e strategy for global warming mitigation and resource utilization.
74 egies to provide quality care while reducing resource utilization.
75 gnificant mortality and increased healthcare resource utilization.
76 oviders and contribute to inefficient health resource utilization.
77 ts on postoperative complications and health resource utilization.
78 possible aspect of complete Martian in-situ resource utilization.
79 ner satisfaction, care plan concordance, and resource utilization.
80 ral and immunosuppressive complications, and resources utilization.
81 -luminal fecalith] on complication rates and resource utilization after controlling for patient and h
83 ssociated with a change in mortality rate or resource utilization, although small nonsignificant tren
86 A goal of this pragmatic design is to limit resource utilization and also to test an intervention th
99 This study aims to describe the healthcare resource utilization and costs of managing renal posttra
103 e respiratory distress syndrome and hospital resource utilization and discharge disposition among sur
105 tor-led team debriefing, which could improve resource utilization and feasibility of team-based simul
107 Our analysis aids in defining apheresis resource utilization and helps in risk stratification of
108 lights the molecular underpinnings of diatom resource utilization and how cooccurring diatoms adjust
109 source of variability in intensive care unit resource utilization and if accurately predicted and com
110 ment and patients who receive it could guide resource utilization and improve treatment initiation an
112 ether there are racial/ethnic differences in resource utilization and inpatient mortality in patients
113 ent is not achieved at the cost of increased resource utilization and is associated with an increased
114 ealth care resources and minimal feedback on resource utilization and its effect on the cost of care.
116 asons for offer decline may help to optimize resource utilization and maximize transplant opportuniti
117 h effects similar to those of usual care for resource utilization and may improve physiologic goal at
119 as prolonged mechanical ventilation patient resource utilization and overall in-hospital mortality.
120 dmissions to an ICU are associated with high resource utilization and personal cost to the patient.
121 f this tool may decrease rapid response team resource utilization and provide a better opportunity to
123 while simultaneously sustaining appropriate resource utilization and reducing unnecessary healthcare
124 e prolonged mechanical ventilation have high resource utilization and relatively poor outcomes, espec
125 a medication treatment; and (2) estimate the resource utilization and short-term costs associated wit
126 olders conduct risk evaluation and to inform resource utilization and strategic decision-making.
128 n development as well as optimized microbial resource utilization and survival in a fluctuating, freq
129 mpact of an ICU admission on an individual's resource utilization and survivorship trajectory in the
132 illness after sepsis exhibit high healthcare resource utilization and ultimately suffer dismal long-t
134 eived burden and quality of life, healthcare resources utilization and costs, surgical referral rate,
136 patient and hospitalization characteristics, resource utilization, and associated outcomes, among mod
137 It is important to compare outcomes, study resource utilization, and attempt to risk stratify patie
138 al allografts with respect to complications, resource utilization, and cost from day -14 to 90 days a
140 alth status, depression, medications, health resource utilization, and current employment status.
141 tion of evidence-based therapies, healthcare resource utilization, and expenditures among those with
143 d with higher in-hospital mortality, greater resource utilization, and fewer discharges to home.
144 gher incidence of cardiac arrest, had higher resource utilization, and had higher proportion of patie
145 ng, site of death, health care satisfaction, resource utilization, and health care expenditures.
147 potential to improve conditioning, decrease resource utilization, and lead to better outcomes in pat
148 erial biomarker profiles, clinical outcomes, resource utilization, and long-term physical performance
149 inistered, 24-hour urine output, measures of resource utilization, and mortality did not significantl
150 verity score, head abbreviated injury scale, resource utilization, and mortality than unhelmeted pati
152 ght to evaluate the 15-year national trends, resource utilization, and outcomes of single and multipl
156 ly to be reasonable by current standards for resource utilization, and that either colonoscopy every
157 Significant variation exists in practice, resource utilization, and treatment-related cost associa
159 c Core Scale scores (P < 0.05), while health resource utilization appeared similar between groups.
160 o donors or recipients, but also health-care resource utilization as the intensity of cases in certai
161 insights allow for more effective healthcare resource utilization, as defined from patient, healthcar
162 e population undergoing surgical evaluation, resource utilization, as reflected by operative interven
163 depression, cognitive function, health care resource utilization, as well as blood and urine specime
164 these factors can affect waitlist mortality, resource utilization, as well as posttransplant complica
166 dy data on safety and efficacy as well as on resource utilization associated with each adverse drug r
167 d operative efficiencies may further improve resource utilization associated with laparoscopic colect
169 x (BMI) (in kilograms per square meter), and resource utilization band (RUB) (a measure of expected h
172 diatoms, indicating apparent differences in resource utilization capacity that may prevent direct co
175 ous disease specialists decreases healthcare resource utilization compared with delayed referrals.
176 ive laparotomy, subsequent surgical details, resource utilization, complications, and mortality.
177 ision analysis was used to estimate expected resource utilization costs of three alternative implanta
178 Post hoc analysis of efficacy, safety, and resource utilization data at 1-year follow-up from the D
180 condary analysis using efficacy, safety, and resource utilization data through 2 years of follow-up a
181 on, illness severity, organ dysfunction, and resource utilization data were collected daily during PI
182 Illness severity, organ dysfunction, and resource utilization data were collected during PICU adm
186 ce = 0.0253 days, 95% CI: 0.0225-0.0282) and resource utilization determined by costs per day were gr
187 cit codes; age, illness severity scores, and resource utilization did not differ between groups.
192 che complementarity), but a lack of study on resource utilization efficiency, a link between resource
193 measures: statin and ASA use, (3) healthcare resource utilization: emergency room visits and hospital
194 llected data on all clinical and health care resource utilization endpoints through this follow-up pe
195 -dependent tradeoff between reproduction and resource utilization entails an inherent resonance that
196 th high mortality, morbidity, and healthcare resource utilization especially among older patients.
197 ease translational efficiency and streamline resource utilization, especially in an academic setting.
198 ) production rate of the Mars Oxygen In Situ Resource Utilization Experiment (MOXIE) from NASA's Mars
199 ity, guild structure, resource partitioning, resource utilization, facultative niche exploitation, ex
201 s than intravenous diuretics, reduces 90-day resource utilization for HF, and is an effective alterna
202 a significant number of EGD, thus improving resource utilization for HIV-related compensated advance
203 ng algorithms and can do this with practical resource utilization for large scale networks that exist
204 Defining the cost-effectiveness of increased resource utilization for novel antiviral therapies and l
206 a significant number of EGDs, thus improving resource utilization for PLWH with compensated advanced
207 no-scan group, balanced by lower and higher resource utilization for subjects with normal CAC scans
209 sease, CMV DNAemia, death, other infections, resource utilization, ganciclovir resistance, quality of
210 searchers are often seeking ways to maximize resource utilization given a set of SNP-based gene-mappi
211 is treatment on adverse outcomes, healthcare resource utilization (HCRU), and healthcare costs are un
212 ction has a significant long-term healthcare-resource utilization impact across gestational ages for
213 nd sustainability; and to understand related resource utilization implications to inform policymakers
215 d its associated mortality and critical care resource utilization in a large, state-wide population-b
216 re, timeliness of referral and consultation, resource utilization in clinical practice, comparative e
218 taffing to improve both patient outcomes and resource utilization in intensive care units (ICUs).
219 s associated with improved outcomes and less resource utilization in mixed medical and surgical ICUs.
220 ill patients, but its impact on outcomes and resource utilization in older patients with suspected in
221 ing strategies but also clinical benefit and resource utilization in order to identify optimal platel
222 ed to improve outcomes and/or reduce medical resource utilization in patients with heart failure, dia
224 dels may improve patient outcomes and health resource utilization in specialized cardiac surgical ICU
226 (CRF) profile on healthcare expenditure and resource utilization in the United States among those wi
227 d work/school days lost; reducing healthcare resource utilizations, in particular hospitalizations, h
229 n ICU admission is associated with increased resource utilization including hospital readmissions, wi
230 We analyzed differences in early mortality, resource utilization including intensive care unit (ICU)
231 also independently associated with increased resource utilization, including longer cumulative length
232 In addition, these patients had greater resource utilization, increased postoperative complicati
236 and clopidogrel copayments on cardiovascular resource utilization, major coronary events, and insurer
237 group mortality risk (p < 0.001), and lower resource utilization measures compared with those withou
240 poral distribution of bacteria was used in a resource utilization model to map the conditions under w
242 rity and location, type of intervention, and resource utilization, nephrologists and surgeons had 59%
243 m measures designed to capture all unplanned resource utilization, not just those to index hospitals,
244 ut the incidence, prevalence, mortality, and resource utilization of digestive and liver diseases in
245 has been a paucity of data on the healthcare resource utilization of infectious disease-related compl
246 rges per patient fell over time, the overall resource utilization of prolonged mechanical ventilation
247 study was designed to assess the effects on resource utilization of routine coronary computed tomogr
248 res, and guide allotment of limited clinical resources, utilization of preventive interventions, and
249 outpatient vs office-based laboratory), and resource utilization (operating room use, anesthesia use
252 posal based on MDRI architecture in terms of resource utilization, path blocking probability, network
253 cesses of care among patients with increased resource utilization post-TAVR as compared with pre-TAVR
254 luate the effect of quetiapine on mortality, resource utilization, post-intensive care unit cognition
255 evolution based on global transcription and resource utilization profiles, with L seeming to encroac
256 ng cancers) and symptoms, along with data on resource utilization, quality of life, impairments to wo
258 stics, posttransplant events, and healthcare resource utilization related to these posttransplant eve
259 purpose of this investigation is to measure resource utilization required for procurement of transpl
261 calculate their own composite morbidity and resource utilization scores that estimate NICU CQI profi
265 plicative rather than an additive effect for resource utilization since these measures were highly sk
266 racteristics, we observed different hospital resource utilization; some values differed greatly, with
267 ies seen in the SICU and impacts measures of resource utilization such as length of stay and duration
268 Hospital-acquired severe sepsis had greater resource utilization than both healthcare-associated sev
269 as associated with both higher mortality and resource utilization than community-acquired severe seps
270 d "rationing" to describe all limitations on resource utilization that result from human choice, the
271 on the impact of fluconazole prophylaxis on resource utilization, the distribution of non-albicans s
272 s an important determinant of posttransplant resource utilization; therefore, standardized measuremen
273 growing health care costs can improve their resource utilization through peer management of testing
274 orts-related ocular trauma may be useful for resource utilization, training, and prevention efforts.
275 nts and health care workers; and 3) to limit resource utilization under conditions of constraint.
276 ltered cell survival, perhaps by redirecting resource utilization under nutrient-limiting conditions.
277 (ESRD) after liver transplantation (LT) and resource utilization using a data linkage between the Sc
281 tus, comorbidities, medications, and medical resource utilization) was applied to estimate the hazard
282 ip, communication, contingency planning, and resource utilization were addressed by the nontechnical
283 rm and stroke free survival, restenosis, and resource utilization were analyzed by univariate and mul
285 erative complications, major infections, and resource utilization were comparable between groups.
288 Overall, surgery-related complications and resource utilization were increased in the ABO-incompati
289 ugh small nonsignificant trends toward lower resource utilization were present in the PAC group.
291 of cost-effective pathways to lower overall resource utilization while improving outcomes in CABG pa
292 allozyme polymorphisms through differential resource utilization will be sporadic and ephemeral in r
293 epwise increase in in-hospital mortality and resource utilization with each additional organ failure.
296 group involving greatly expanded energy and resource utilization, with consequent influence on globa
300 sociated with reduced hospital mortality and resource utilization without changes in readmission rate