ライフサイエンスコーパス: stewardship

1 of-care AST and strengthen global antibiotic stewardship.

2 proved clinical management and antimicrobial stewardship.

3 cations for infection control and antibiotic stewardship.

4 ip Group (ARLG) in the area of antibacterial stewardship.

5 il ARGs can be reduced by prudent antibiotic stewardship.

6 hat are integral to successful antimicrobial stewardship.

7 stablishing a goal for outpatient antibiotic stewardship.

8 hogens and an integral part of antimicrobial stewardship.

9 ices that increase responsible environmental stewardship.

10 -based healthcare providers in antimicrobial stewardship.

11 have the potential to enhance antimicrobial stewardship.

12 ion gains, and contribute to future global P stewardship.

13 rocess measures as metrics for antimicrobial stewardship.

14 sts to contribute to effective antimicrobial stewardship.

15 accountability for key elements of care and stewardship.

16 optimal therapy is one goal of antimicrobial stewardship.

17 ient care, health care costs, and antibiotic stewardship.

18 opriate use of antibiotics and antimicrobial stewardship.

19 linical outcomes of outpatient antimicrobial stewardship.

20 ion control, surveillance, and antimicrobial stewardship.

21 agnostic data, enabling better antimicrobial stewardship.

22 s, environmental cleaning, and antimicrobial stewardship.

23 nts and would promote responsible antibiotic stewardship.

24 f stay, and costs and with better antibiotic stewardship.

25 ection prevention measures and antimicrobial stewardship.

26 en advocated as a useful tool for antibiotic stewardship.

27 ces of inaction, and the need for antibiotic stewardship.

28 r individual patient outcomes and antibiotic stewardship.

29 global science-business initiative for ocean stewardship.

30 rough infection prevention and antimicrobial stewardship.

31 not in alignment with prudent antimicrobial stewardship.

32 dhere to the FAIR guiding principles of data stewardship.

33 95% CI 0.23-3.48, p=0.025) during antibiotic stewardship.

34 <0.0001) in the community, during antibiotic stewardship.

35 The panel voted on (1) antibiotic stewardship (7 of 8 panelists); (2) reduction of other p

36 al use can be achieved through antimicrobial stewardship--a coordinated set of strategies designed to

37 ptions of preparation for most antimicrobial stewardship activities according to the students' school

38 inpatient admissions evaluates these nursing stewardship activities and analyzes the potential benefi

39 We propose potential solutions that tailor stewardship activities to the needs of the facility and

40 ion phase, during which a survey of baseline stewardship activities was done.

41 zations are already engaged in antimicrobial stewardship activities.

42 e fewer resources and less effort than other stewardship activities; however, they are applicable to

43 iene, environmental cleaning, and antibiotic stewardship); advanced infection control practices (ie,

44 As the science of antimicrobial stewardship advances, it is essential that well-conducte

45 surveillance, and promotion of antimicrobial stewardship align with the goals of public health to pre

46 s, mentoring programmes, and social media in stewardship all played a role.

47 real-time, pharmacist-driven, antimicrobial stewardship (AMS) intervention on patient outcomes.

48 tic allergy testing (AAT) into antimicrobial stewardship (AMS) programs (AAT-AMS) is not widespread.

49 faceted approach that includes antimicrobial stewardship and active surveillance is needed to prevent

50 However, diagnostic stewardship and antimicrobial stewardship are necessary

51 minireview outlines the roles of diagnostic stewardship and antimicrobial stewardship in the impleme

52 d in part by the increasing saliency of data stewardship and data sharing.

53 the phenomena that will underpin both global stewardship and future technologies in energy calls for

54 Careful attention to antimicrobial stewardship and infection control practices is essential

55 ings underscore the importance of antibiotic stewardship and infection control programs to prevent th

56 e assessed the effect of national antibiotic stewardship and infection prevention and control program

57 sed by gram-positive bacteria, antimicrobial stewardship and infection prevention, and diagnostics.

58 These finding have implications on the stewardship and long-term management of contaminated wet

59 s have important implications for antibiotic stewardship and public health policies and, in particula

60 environmental policy to foster environmental stewardship and public participation, crucial prerequisi

61 Choosing Wisely(R) is a medical stewardship and quality improvement initiative led by th

62 s have important implications for antibiotic stewardship and should be considered as new policies for

63 ch share systems lead to improved ecological stewardship and status of exploited populations.

64 s and emphasize the importance of antibiotic stewardship and surveillance.

65 provements in diagnostic testing, antibiotic stewardship, and drug pipelines.

66 ents improve patient outcomes, antimicrobial stewardship, and length of hospital stay.

67 ntibiotic and possibly proton pump inhibitor stewardship, and prescribing prophylactic vancomycin and

68 Data management plans, stewardship, and sharing, impart distinctive technical,

69 d hospital leadership support for antibiotic stewardship appears to drive the establishment of ASPs.

70 on of ENM risks, and fostering a "bottom-up" stewardship approach to the responsible management of ri

71 out sufficient resources to incorporate both stewardship approaches.

72 improved patient outcomes and antimicrobial stewardship are anticipated.

73 mes in men with NGU and better antimicrobial stewardship are likely to arise from the introduction of

74 er, diagnostic stewardship and antimicrobial stewardship are necessary to ensure that these technolog

75 immediate global action to improve ecosystem stewardship as a major solution to climate change.

76 eter care and maintenance, and antimicrobial stewardship as well as promoting patient safety culture,

77 Antimicrobial stewardship (AS) programs are effective in improving cli

78 to provide alternative approaches to perform stewardship at healthcare facilities with limited resour

79 usly evaluate the impact of an antimicrobial stewardship audit-and-feedback intervention, via a stepp

80 ure identification panel (BCID) coupled with stewardship-based education on interpretation.

81 As antimicrobial stewardship becomes a mandatory aspect of healthcare in

82 hcare providers have the potential to expand stewardship, both to augment existing centralized ASPs a

83 An antibiotic self-stewardship bundle to implement the CDC's suggested time

84 sectors have been inconsistent at antibiotic stewardship, but it is unclear which sector has most inf

85 evalence density decreased during antibiotic stewardship by 54% (mean reduction 0.60 per 1000 OBDs, 0

86 rapid testing plays a role in antimicrobial stewardship by getting patients on targeted therapy fast

87 ative specimens and to improve antimicrobial stewardship by not giving antimicrobials to patients wit

88 Antimicrobial stewardship can be made more credible by refocusing the

89 Antibiotic stewardship combined with infection prevention comprises

90 a demand for courses in data analysis, data stewardship, computing fundamentals, etc., a need that u

91 tems would support government leadership and stewardship, constrain the influence of private sector a

92 und that concessions certified by the Forest Stewardship Council (FSC, N = 3), when compared with non

93 eraged to foster transnational environmental stewardship, critical to advancing global sustainability

94 industry-sponsored electronic antimicrobial stewardship data collection and analysis tool (AS-DCAT).

95 We conclude that greater stewardship, data, and-possibly-regulation are needed to

96 uge potential for facilitating antimicrobial stewardship efforts by directing providers to preferred

97 improved patient care, utility in targeting stewardship efforts, and feasibility in hospitals with e

98 "out of the box" functionalities to optimize stewardship efforts, there are many potential utilities

99 harmacists are key partners in antimicrobial stewardship efforts, yet their degree of education on an

100 Small hospitals need to become a focus of stewardship efforts.

101 Addition of antimicrobial stewardship enhanced antimicrobial de-escalation.

102 lights a path toward sustainable antibiotics stewardship for outpatients with ARI.

103 trol measures and also improve antimicrobial stewardship for patients is required.

104 f emerging importance, such as antimicrobial stewardship, global health, infection control, and the m

105 ch of the national attention with regards to stewardship has focused on primary care providers, there

106 Antibiotic stewardship in concert with improved diagnostic methods

107 Implementing effective antimicrobial stewardship in long-term care facilities (LTCFs) is asso

108 tcomes indicate that effective antimicrobial stewardship in long-term care is supported by incorporat

109 informative for treatment and antimicrobial stewardship in patients at risk for VAP.

110 mprove clinical management and antimicrobial stewardship in patients with less frequent Gram-negative

111 for further research specific to antibiotic stewardship in surgical care.

112 d, second, whether it improves antimicrobial stewardship in the era of increasing numbers of urinary

113 of diagnostic stewardship and antimicrobial stewardship in the implementation of rapid molecular inf

114 consultants play central roles in antibiotic stewardship, infection control, and quality improvement,

115 laboration towards excellence in collections stewardship, information access and sharing and responsi

116 Univariate analyses were used to assess stewardship infrastructure and practices by facility cha

117 Choosing Wisely((R)) is a medical stewardship initiative led by the American Board of Inte

118 diseases (ID) consultation and antimicrobial stewardship intervention have been shown to improve the

119 ies evaluating rapid diagnostic testing plus stewardship intervention have consistently demonstrated

120 s for CAUTI might be an important antibiotic stewardship intervention in hospitals.

121 examined the effect of a national antibiotic stewardship intervention limiting the use of 4C antibiot

122 ction pressures during a national antibiotic stewardship intervention predicted large and sustained r

123 A mixed persuasive-restrictive 4C antibiotic stewardship intervention was initiated in all population

124 Without active notification or antimicrobial stewardship intervention, a pre- and postimpact analysis

125 at our institution and was decreased with a stewardship intervention.

126 e and after implementation of MALDI-TOF plus stewardship intervention.

127 These data can inform the design of stewardship interventions and the selection of viral tes

128 he optimal approach to conducting antibiotic stewardship interventions has not been defined.

129 gen identification integrated with real-time stewardship interventions improved timely organism ident

130 implementation and measurement of antibiotic stewardship interventions in inpatient populations inclu

131 control of overall MDRO burden will require stewardship interventions that take into account both pr

132 ibiotic prescribing, implementing antibiotic stewardship interventions, obtaining financial resources

133 biotic misuse and could inform antimicrobial stewardship interventions.

134 psis were selected as targets for antibiotic stewardship interventions.

135 d innovative new approaches to environmental stewardship, involving diverse stakeholders.

136 nnecessary use of antifungals via antifungal stewardship is critical to limit multidrug resistance em

137 Antibiotic stewardship is important in controlling resistance, adve

138 Antimicrobial stewardship is needed to ensure prompt appropriate clini

139 Diagnostic stewardship is needed to implement appropriate tests for

140 s of evolution, and one suggesting that such stewardship is now our responsibility.

141 Antimicrobial stewardship is pivotal to improving patient outcomes, re

142 Antibacterial stewardship is the coordinated effort to improve the app

143 Developing these capabilities for microbial stewardship is timely given the global health burden of

144 ged from a summit that brought together data stewardship leaders across stakeholder groups.

145 improved infection control and antimicrobial stewardship may help reduce the incidence of C difficile

146 tem should deliver in four functional areas: stewardship, mobilisation of financial resources, direct

147 We recommend that antibiotic stewardship models need to evolve from infection special

148 The stewardship of a domestic health system in the 21st cent

149 External stewardship of antibiotic use may be particularly necess

150 tions, such strategies require some external stewardship of antibiotic use to be maximally effective.

151 broad multicenter collaboration and careful stewardship of biorepository specimens.

152 tient management and the appropriate use and stewardship of clinical resources, as well as developmen

153 rposes of data release, and facilitates good stewardship of confidential data balanced with maximum u

154 s and diagnostic tests through to antibiotic stewardship of currently available drugs via surveillanc

155 lly received little specific training in the stewardship of health care resources and minimal feedbac

156 Better stewardship of land is needed to achieve the Paris Clima

157 rs, provide new insights regarding long-term stewardship of radiocesium in waste repositories and con

158 author proposes that cost-consciousness and stewardship of resources be elevated by the ACGME and th

159 on residents' understanding of the need for stewardship of resources or for practicing in a cost-con

160 t waiting list and raise questions about the stewardship of scarce resources.

161 h adaptive strategies, which include careful stewardship of sediments and reductions in human-induced

162 ient records and the approach of ASCO toward stewardship of the information.

163 scientific activities to better equip us for stewardship of the processes of evolution, and one sugge

164 Wise stewardship of the resources upon which we depend is cri

165 eded to inform next steps in the responsible stewardship of this process, from the perspective of tra

166 as significant implication for the long-term stewardship of U-contaminated wetlands.

167 This work has implications for the stewardship of uranium-contaminated groundwater, with th

168 id testing in combination with antimicrobial stewardship on patient outcomes.

169 udit and feedback strategy for antimicrobial stewardship on the basis of a range of improvement scien

170 sion persists about the specific set of land stewardship options available and their mitigation poten

171 conducted a survey to compare antimicrobial stewardship outcomes considered to be most important wit

172 Antimicrobial stewardship participants must collaborate with administr

173 le and animals, great emphasis on antibiotic stewardship, performance incentives, optimal use of newe

174 anism identification and dedicating pharmacy stewardship personnel time on the total hospital costs.

175 menting MALDI-TOF and of dedicating pharmacy stewardship personnel time to interventions, the total h

176 test results were faxed to the antimicrobial stewardship pharmacist by noon each day in order to eval

177 However, to harness the stewardship potential of the EMR system, significant hos

178 utilities that can be developed to assist in stewardship practice.

179 Antibiotic Stewardship Programs, we analyzed stewardship practices as reported in the 2015 National H

180 igene BC-GN; Nanosphere) while antimicrobial stewardship practices remained constant.

181 arn, act globally, and share best antibiotic stewardship practices.

182 on guidelines that follow the antimicrobial stewardship principle.

183 Antibiotic stewardship principles such as the restriction of antibi

184 ting (BLAST) is recommended by antimicrobial stewardship program (ASP) guidelines, yet few studies ha

185 benefit of the combination of antimicrobial stewardship program (ASP) intervention and rapid diagnos

186 lture microarray assay with an antimicrobial stewardship program (ASP) intervention was evaluated in

187 valuating standard care (STD), antimicrobial stewardship program (ASP), environmental cleaning (ENV),

188 A new antimicrobial stewardship program can be overwhelmed at the breadth of

189 Our stewardship program found that staged and systematic int

190 ribe legislative requirements, antimicrobial stewardship program infrastructure, strategies and outco

191 rrent metrics, and integrating antimicrobial stewardship program initiatives into institutional quali

192 tant requirement for an effective antibiotic stewardship program is the ability to measure appropriat

193 f a unique in-person pediatric antimicrobial stewardship program was associated with a significant in

194 This education-based antimicrobial stewardship program was effective in decreasing the inci

195 results in conjunction with an antimicrobial stewardship program was more impactful in improving trea

196 f this study is to describe an Antimicrobial Stewardship Program's evaluation of minocycline for the

197 sessed the effectiveness of an antimicrobial stewardship programme aiming to reduce inappropriate ant

198 e implemented and assessed the antimicrobial stewardship programme between Oct 1, 2009, and Sept 30,

199 ssess the implementation of an antimicrobial stewardship programme in a setting with limited infectio

200 An effective antifungal stewardship programme is essential to control drug resis

201 The antimicrobial stewardship programme led to a reduction in mean antibio

202 returns through pharmacist-led antimicrobial stewardship programmes and by focusing on basic interven

203 The available data on antimicrobial stewardship programmes in Africa are scarce.

204 guidelines, antibiotic formulary, antibiotic stewardship programmes, public health interventions, inf

205 vely affect local and national antimicrobial stewardship programmes.

206 es it a worthwhile addition to antimicrobial stewardship programmes.

207 trated that the combination of antimicrobial stewardship programs (ASP) and rapid organism identifica

208 ction and monitoring tools for antimicrobial stewardship programs (ASP) that consider real-world data

209 ower with mRDT in studies with antimicrobial stewardship programs (ASPs) (OR, 0.64; 95% CI, .51-.79),

210 Antimicrobial stewardship programs (ASPs) are a key national initiativ

211 Antimicrobial stewardship programs (ASPs) are an increasingly common i

212 Antimicrobial stewardship programs (ASPs) are established means for in

213 Though antimicrobial stewardship programs (ASPs) are in place for patient saf

214 As the workload of antimicrobial stewardship programs (ASPs) continues to increase, ASPs

215 The proven benefits of antibiotic stewardship programs (ASPs) for optimizing antibiotic us

216 Antimicrobial stewardship programs (ASPs) have made headway in improvi

217 Antibiotic stewardship programs (ASPs) improve antibiotic prescribi

218 ld experience from established antimicrobial stewardship programs (ASPs) on how institutions can comp

219 for implementing and operating antimicrobial stewardship programs (ASPs) or defined in the medical li

220 Antimicrobial stewardship programs (ASPs) positively impact patient ca

221 l to enable all clinicians and antimicrobial stewardship programs (ASPs) to more efficiently review p

222 istance and Clostridium difficile Antibiotic stewardship programs (ASPs) will be important in this ef

223 s requires partnership between antimicrobial stewardship programs and the microbiology laboratory, in

224 ill allow the establishment of antimicrobial stewardship programs as essential components of the pres

225 , particularly given the new requirement for stewardship programs by the Centers for Medicare and Med

226 re are encouraging examples of antimicrobial stewardship programs from different parts of the world;

227 Antimicrobial stewardship programs have been effective for inpatients,

228 Antibiotic stewardship programs have been playing an increasingly i

229 Antimicrobial stewardship programs have been shown to help reduce the

230 ciated with the implementation of successful stewardship programs in LTCFs.

231 Antibiotic stewardship programs may take the form of management tea

232 Antimicrobial stewardship programs provide an organized way to impleme

233 This study demonstrates that antimicrobial stewardship programs support, and do not compete with, i

234 The selected QIs can be used in antibiotic stewardship programs to determine for which aspects of a

235 fords a unique opportunity for antimicrobial stewardship programs to expand their value for hospital

236 ests provide opportunities for antimicrobial stewardship programs to improve antimicrobial use and cl

237 s address the best approaches for antibiotic stewardship programs to influence the optimal use of ant

238 institutions have implemented antimicrobial stewardship programs to promote appropriate use of antim

239 ontrol practices; establishing antimicrobial stewardship programs within hospital, community, and agr

240 marizes Core Elements of Hospital Antibiotic Stewardship Programs, a recently released CDC document f

241 When combined with antibiotic stewardship programs, these approaches improve clinical

242 ntion's Core Elements of Hospital Antibiotic Stewardship Programs, we analyzed stewardship practices

243 ng appropriate antibiotic use via antibiotic stewardship programs.

244 microbiology laboratories and antimicrobial stewardship programs.

245 oils should be scrutinized as part of future stewardship programs.

246 o justify the effectiveness of antimicrobial stewardship programs.

247 e advocated the development of antimicrobial stewardship programs.

248 y improvement interventions in antimicrobial stewardship programs.

249 s for implementing effective, automated test stewardship protocols.

250 ression "low-hanging fruit," in reference to stewardship, refers to selecting the most obtainable tar

251 tical industry with a focus on antimicrobial stewardship research initiatives is a necessary step tow

252 receiving monthly education on antimicrobial stewardship, resident physicians adjusted patients' anti

253 Implementing MALDI-TOF plus stewardship review and intervention decreased mortality

254 Among patients meeting stewardship review criteria, the intervention was associ

255 cies and confusion regarding advocacy versus stewardship roles were consistently identified as barrie

256 ts to control C difficile through antibiotic stewardship should account for ribotype distributions an

257 Antimicrobial stewardship should be a central component of C difficile

258 o mitigate their ill effects; and antibiotic stewardship should be a part of every surgeons' practice

259 ients, and strict adherence to antimicrobial stewardship standards could help reduce this serious bac

260 TJC antimicrobial stewardship standards demonstrate actions being taken at

261 sion (TJC) recently issued new antimicrobial stewardship standards, consisting of 8 elements of perfo

262 We aimed to inform antibiotic stewardship strategies in a level 3 neonatal intensive c

263 officials on appropriate local antimicrobial stewardship strategies to attain the common goal of redu

264 feedback of antimicrobials, and supplemental stewardship strategies.

265 ng, pragmatic interventions on antimicrobial stewardship targeting providers and caregivers substanti

266 al intensive care unit can inform high-yield stewardship targets tailored to the individual centre.

267 ime-of-flight (MALDI-TOF) with antimicrobial stewardship team (AST) intervention has the potential fo

268 ct of MALDI-TOF with real-time antimicrobial stewardship team (AST) review and intervention on antimi

269 of antimicrobial orders by an antimicrobial stewardship team (rmPCR/AS, n = 212).

270 n describe the approach of the antimicrobial stewardship team at the Detroit Medical Center (DMC) for

271 ll hospitals when constructing an antibiotic stewardship team, obtaining appropriate metrics of antib

272 n addition to exploring the effectiveness of stewardship techniques in community hospitals, the ARLG

273 y provide stronger incentives for ecological stewardship than conventional fisheries management.

274 tutional initiatives) will enable the robust stewardship that is needed to address the current crisis

275 tiality and privacy, resource allocation and stewardship, the obligation of health plans to foster an

276 ental basis for the concept of antimicrobial stewardship, the topic of this minireview.

277 developed different approaches to antibiotic stewardship-the USA, South Africa, Colombia, Australia,

278 Pharmacy students perceive antimicrobial stewardship to be an important healthcare issue and desi

279 MS) in conjunction with active antimicrobial stewardship to determine if implementation is indeed wor

280 o reduce NAP1 prevalence, such as antibiotic stewardship to reduce fluoroquinolone use, might reduce

281 Interventions included antibiotic stewardship to restrict use of so-called 4C (cephalospor

282 the organizational ethos of limited funding "stewardship" to produce meaningful patient care.

283 ween ASPs and the EMR, cite examples of Epic stewardship tools from 3 academic medical centers' ASPs,

284 During antibiotic stewardship, use of 4C and macrolide antibiotics fell by

285 ternalities, and fostering of leadership and stewardship) versus country-specific aid.

286 Published guidelines and antimicrobial stewardship were used in all patients.

287 ZO shortage and the importance of antibiotic stewardship when mitigating drug shortages.

288 An essential participant in antimicrobial stewardship who has been unrecognized and underutilized

289 Antimicrobial stewardship will be essential to preserve the activity o

290 research, but leadership and health systems stewardship within LMICs are critical factors that will