ライフサイエンスコーパス: infection control

1 key settings, such as the built environment (infection control).

2 nts who had never received treatment for HCV infection (controls).

3 essive drugs and antimicrobial approaches to infection control.

4 ing cyst production an attractive target for infection control.

5 and subpopulations, and the effectiveness of infection control.

6 t of T-cell immunity and resultant long-term infection control.

7 sion of K. pneumoniae in support of hospital infection control.

8 s public health crisis exposed major gaps in infection control.

9 tending beyond the detection of conventional infection control.

10 and, in the setting of outbreaks, suboptimal infection control.

11 hancing this defense offers a way to improve infection control.

12 spread of resistant bacteria is critical to infection control.

13 rovide evidence for WGS as an instrument for infection control.

14 ian decision-making on patient treatment and infection control.

15 ergillosis, indicating their contribution to infection control.

16 ciated risk factors in addition to inpatient infection control.

17 mpact of unit-level interventions to improve infection control.

18 plemented as regular screening for effective infection control.

19 across cell membranes might be critical for infection control.

20 d virulence genes, are crucial for effective infection control.

21 ng in an antiviral state that is critical to infection control.

22 opment, treatment outcome and mortality, and infection control.

23 ng pathogens is critical in patient care and infection control.

24 ve been proposed for more extensive usage in infection control.

25 (Flu) is critical for patient management and infection control.

26 aceae have become a substantial challenge to infection control.

27 ae (CRE) is crucial for proper treatment and infection control.

28 dmission, discharge criteria, and nosocomial infection control.

29 al networks, with potential implications for infection control.

30 , suggesting a contribution of caspase-11 in infection control.

31 alternatives but lack durability or inherent infection control.

32 reakpoints, is crucial for clinical care and infection control.

33 which might have deleterious consequences on infection control.

34 able treatment regimens and take appropriate infection control actions rather than prescribing empiri

35 ction of TB is essential to inform immediate infection control actions to minimize transmission risk.

36 multiplex PCR may help hospitals to improve infection control activities.

37 This should be taken into consideration in infection control and antibiotic management decisions.

38 sms that can inform patient care, as well as infection control and antibiotic stewardship measures.

39 VSEfs), which has important implications for infection control and antibiotic stewardship.

40 accounted for, which suggests that improved infection control and antimicrobial stewardship may help

41 ontaining organisms can significantly impact infection control and clinical practices, as well as the

42 They participate in infection control and debris removal to initiate healing

43 Infection control and decontamination protocols for this

44 These contaminants impact hospital infection control and epidemiology, prompting quantitati

45 f group A Streptococcus (GAS) is crucial for infection control and epidemiology.

46 common, they represent a major challenge for infection control and hospital epidemiology.

47 le within healthcare facilities could inform infection control and patient management.

48 Current approaches to infection control and prevention have not been adequate

49 nemase-producing isolates for epidemiologic, infection control and prevention, and therapeutic purpos

50 e data can provide evidence to better inform infection control and public health practice.

51 toward CPE bloodstream infections and assist infection control and public health surveillance.

52 from Southern India highlight challenges of infection control and rapid diagnosis of resistant tuber

53 Although infection control and supportive therapies will remain t

54 Infection control and surveillance practices were also a

55 ing the early SARS-CoV-2 pandemic, impacting infection control and treatment decisions, but were rapi

56 ed the value of WGS as a tool for day-to-day infection control and, for some pathogens, as a primary

57 In the acute infection, control and SCI rats developed acute cystitis

58 ould be possible through improved nutrition, infection control, and accident prevention.

59 ld help to improve clinical decision making, infection control, and epidemiological surveillance.

60 sting for HIV and vice versa, but financial, infection control, and logistical barriers remain.

61 orm public health policy and guide clinical, infection control, and occupational health decisions.

62 s are critical for ID patient care, hospital infection control, and public health responses.

63 lay central roles in antibiotic stewardship, infection control, and quality improvement, particularly

64 as antimicrobial stewardship, global health, infection control, and the microbiome, were addressed at

65 host cells, with important consequences for infection, control, and pathogenesis.

66 ly needed to guide epidemiological measures, infection control, antiviral treatment, and vaccine rese

67 A proactive infection control approach is essential in burn units.

68 Our model suggests that without increased infection control approaches, CRE would become endemic i

69 Widespread testing and infection control are key to help prevent COVID-19 morbi

70 health measures and scrupulous attention to infection control are required to prevent additional MER

71 rate diagnosis of influenza is important for infection control, as well as for patient management.

72 rn Illinois, including a case-control study, infection control assessment, and collection of environm

73 n key components identified: organisation of infection control at the hospital level; bed occupancy,

74 tive infection risk factors and adherence to infection control best practice metrics had no impact on

75 Infection control best practices were monitored perioper

76 he triad of tissue engineering would require infection control, biomaterials, and stem cells.

77 Identified infection control breaches during AMBG included shared u

78 e to influenza A virus (IAV) participates in infection control but contributes to disease severity.

79 Subsidies for infection control by public health authorities could enc

80 ponse, complement-mediated inflammation, and infection controlled by neutrophils, T(H)17 cells, B cel

81 ked with the first few years of the national infection control campaign, but rates have been static s

82 inked with the first few years of a national infection control campaign, but rates have since been st

83 in the decade following implementation of an infection control campaign.

84 he decade that followed implementation of an infection control campaign.

85 ed key roles for these lysosomal pathways in infection control, cell death, inflammation, cancer, neu

86 related sepsis remains an important hospital infection control challenge.

87 how the tool may be used when products with infection control claims are recommended in guidelines o

88 anning progressed, simultaneously focused on infection control, clinical operational challenges, ICU

89 These findings are important to inform infection control, contact tracing, and community mitiga

90 age in settings where patient management and infection control decisions need to be made rapidly.

91 n of this phenotype for proper treatment and infection control decisions requires that these coagulas

92 work flow and will expedite therapeutic and infection control decisions.

93 ug-resistant tuberculosis in the 1990s, poor infection control, delayed diagnosis, and a high HIV pre

94 s, diagnosis, clinical features, management, infection control, development of new therapeutics and v

95 ness by reducing demand through vaccination, infection control, diagnostics, public education, incent

96 Infection control, early surgical debridement, and antib

97 no specific control measures, facility-level infection control efforts (uncoordinated control measure

98 ce programs and has the potential to support infection control efforts against this pathogen.

99 Enhanced infection control efforts are unlikely to account for su

100 Strengthening infection control efforts in hospitals is crucial for co

101 Improving infection control efforts is thought to be a contributin

102 integration of certain hospital factors into infection control efforts may help reduce MDRO infection

103 biology laboratory is being asked to support infection control efforts through the early identificati

104 ce in MRSA isolates is important to hospital infection control efforts, relevant to patient outcomes

105 g in delays that complicate patient care and infection control efforts.

106 ng carbapenemase genes could greatly benefit infection control efforts.

107 infections, and similarly adversely impacts infection control epidemiologic investigations.

108 ovide strain-related information relevant to infection control epidemiology and disease prognosis.

109 Further improvements in blood safety and infection control, expansion or creation of PWID harm re

110 Infection control for hospital pathogens such as methici

111 This case questions whether current infection control guidelines are sufficient for Q fever-

112 ble isolation chamber, which conforms to CDC infection control guidelines, was found to be feasible w

113 -generated MDSCs before or after ocular HSV1 infection controlled herpetic stromal keratitis lesions.

114 Institutions can implement hospital infection control (HIC) measures to reduce the impact of

115 es a second paradigm shift, from the classic infection control hierarchy to a novel, decentralized ap

116 a vaccine among those at heightened risk of infection, controlled human infection studies seem to be

117 dentify patients colonized with C. auris and infection-control (IC) assessments and provided ongoing

118 will have therapeutic, epidemiological, and infection control implications.

119 ion of effective strategies for tuberculosis infection control, improved understanding of where trans

120 Multiple infection control improvements led to the reduced incide

121 e in neutrophil migration and, consequently, infection control in diabetic mice with mild sepsis (MS)

122 ticular challenge for clinical treatment and infection control in healthcare settings.

123 organisms in patients with cystic fibrosis, infection control in hospital and outpatient settings is

124 to become an increasingly valuable tool for infection control in the near future.

125 ts, highlighting a specific need for careful infection control in these patients.

126 S aureus infection control in vivo and IL-1beta release from cell

127 rols in whole blood and with non-TB cerebral infection controls in CSF.

128 Appropriate infection control, including performing laser or electro

129 In response, Israel established a national infection control infrastructure.

130 sis of CDI is paramount to achieve immediate infection control initiation, triaging, and isolation, a

131 While infection control initiatives have stemmed the rising pr

132 results show the importance of prioritising infection control interventions (eg, prospective molecul

133 Our findings should inform future infection control interventions and encourage the applic

134 Infection control interventions included strict hand hyg

135 e that SARS-CoV-2 is airborne indicates that infection control interventions must go beyond contact a

136 this could direct early and highly targeted infection control interventions to prevent ongoing sprea

137 ence surveys for colonization and additional infection control interventions were implemented at the

138 If additional infection-control interventions are assumed to lead to a

139 andard culture-based approaches utilized for infection control investigations.

140 andard culture-based approaches utilized for infection control investigations.

141 Infection control is a complex task that spans people, p

142 Infection control is a major determinant of guided tissu

143 Aggressive multifaceted horizontal infection control is an effective strategy for reducing

144 Therefore, infection control is critical for wound care.

145 Infection control is especially critical, given that mos

146 reatment options and associated clinical and infection control issues.

147 apid carbapenemase detection is critical for infection control management.

148 This readily implementable infection control measure may result in decreased infect

149 y that would allow for the implementation of infection control measures and also improve antimicrobia

150 Infection control measures and an appreciation of the co

151 agnosis is required for initiation of timely infection control measures and appropriate adjustment of

152 nt transmission can be prevented with strict infection control measures and equipment cleaning.

153 nically in outbreak investigations to inform infection control measures and to determine appropriate

154 l for point-of-care testing so that adequate infection control measures can be initiated promptly.

155 This article describes infection control measures developed to strengthen the h

156 Infection control measures for air travel need to be und

157 Infection control measures have played a major role in l

158 port, complemented by universal tuberculosis infection control measures in healthcare facilities.

159 , population mobility patterns, adherence to infection control measures in hospital settings, and hos

160 ight the importance of implementing adequate infection control measures in outpatient settings, espec

161 Special infection control measures may be warranted.

162 MERS-CoV, how to make a diagnosis, and what infection control measures need to be instituted when a

163 empirical evidence for the effectiveness of infection control measures on aircraft and at borders.

164 by universal implementation of tuberculosis infection control measures should be prioritized.

165 ysis reinforces the need to take appropriate infection control measures to prevent COVID-19 spread in

166 ht the potential value of tailoring hospital infection control measures to specific pathogen subtypes

167 int effectiveness of several known influenza infection control measures used in general hospitals, we

168 reatment initiation, culture conversion, and infection control measures were compared to a time perio

169 a high-dependency unit (HDU) where standard infection control measures were in place.

170 ic in our study population and that improved infection control measures will be needed to reduce hosp

171 ccessful, including reinforcement of general infection control measures, alongside chemical disinfect

172 uration of infectiousness, implementation of infection control measures, and active screening of mult

173 INTERPRETATION: In the presence of standard infection control measures, health-care workers were inf

174 In the presence of standard infection control measures, health-care workers were inf

175 revention of transmission requires stringent infection control measures, making C. auris a potential

176 Alongside infection control measures, removal of key antibiotic se

177 ng during clinical care is important so that infection control measures, such as Contact Precautions,

178 To support infection control measures, there is an urgent need for

179 tals in a region coordinate surveillance and infection control measures.

180 of treatment beds introduced alongside other infection control measures.

181 t management and effective implementation of infection control measures.

182 fungal development and the implementation of infection control measures.

183 Surveillance and infection-control measures are critical to a global publ

184 Even modestly effective infection-control measures may lead to a substantial red

185 During the third year, these additional infection-control measures would be applied in facilitie

186 a quality-improvement directive to intensify infection-control measures, extremely drug-resistant (XD

187 Compared with infection controls, mice treated with anti-PD-1 and anti

188 nd the paucity of new drugs in the pipeline, infection control must be our primary defence for now.

189 In 2008, The Israeli National Center for Infection Control (NCIC) initiated a coordinated, compre

190 and 1 ambulatory surgery center in the Duke Infection Control Outreach Network.

191 ded community hospitals enrolled in the Duke Infection Control Outreach Network.

192 Further attention to infection control, patient crowding, and carriage survei

193 h hospitals over 1 year (2013-14) to compare infection control performance.

194 hip programmes, public health interventions, infection control policies, and antimicrobial developmen

195 ssus is critically important in directing an infection control policy for the management of risk in C

196 hese findings provide important insights for infection control practice and signpost areas for interv

197 aning, and antibiotic stewardship); advanced infection control practices (ie, active surveillance, ch

198 For years, the Healthcare Infection Control Practices Advisory Committee (HICPAC)

199 HAI surveillance definitions.The Healthcare Infection Control Practices Advisory Committee, a federa

200 t the importance of adherence to appropriate infection control practices and disinfection strategies.

201 g TBIC measures, and the impact of stigma on infection control practices and implementation.

202 Training improved health-care workers' (HCW) infection control practices and personal protective equi

203 Classical infection control practices are only partially effective

204 atients combined with effective multifaceted infection control practices can reduce the transmission

205 gic malignancy unit, which followed the same infection control practices except for the mask policy.

206 Infection control practices for methicillin-resistant St

207 hospitals regularly used several fundamental infection control practices for MRSA and MDR-AB (ie, con

208 Strict infection control practices have been implemented for he

209 f MRSA colonization or infection facilitates infection control practices that are effective at limiti

210 arriers to end-of-life care arose because of infection control practices that mandated visiting restr

211 he extent to which hospital characteristics, infection control practices, and compliance with prevent

212 ine surveillance for most IFIs, adherence to infection control practices, and health-care provider aw

213 rgeted for RSV prevention strategies such as infection control practices, immunoprophylaxis, and futu

214 One Health" strategy, fully resourcing basic infection control practices, not performing universal sc

215 We evaluated infection control practices, performed a GAS carriage st

216 In concert with routine infection control practices, the average MB found for th

217 urveillance), promoted better adherence with infection control practices.

218 epidemiological investigations and influence infection control practices.

219 ded valuable information that will influence infection control practices.

220 on at 2 transfer hospitals having acceptable infection control practices.

221 treatment, culture conversion, and improved infection control practices.

222 al SSI risk factors and adherence to current infection control practices.

223 cility licensing inspections that scrutinize infection control practices.

224 biotic regimens, intensive care measures and infection control practices.

225 d rapid and accurate data that could support infection control practices.

226 no identifiable breaches in reprocessing or infection control practices.

227 contact tracing, and enforcement of hospital infection control practices.

228 es has important implications for optimizing infection control practices; establishing antimicrobial

229 be preventable through adherence to current infection control practices; however, the etiology of wo

230 Ultimately, infection control practitioners and clinical microbiolog

231 terest for infectious disease physicians and infection control practitioners are research questions r

232 Strict infection control precautions and a well-prepared hospit

233 ared P. aeruginosa strains, strict universal infection control precautions, and hospital design and v

234 uncohorted patients; monitoring adherence to infection control precautions, including unwavering atte

235 potential to direct appropriate therapy and infection control precautions.

236 d for accelerated institution of appropriate infection control precautions.

237 Public health and infection control prevention and surveillance efforts in

238 Public health and infection control prevention efforts should consider MSS

239 ine the routes of spread so that appropriate infection-control procedures can be implemented.

240 s that could jeopardize the effectiveness of infection-control procedures.

241 With an influx of novel infection control products and growing use of these prod

242 In our hospital with an established infection control program designed to contain transmissi

243 ed skin integrity in residents, a suboptimal infection control program, and lack of awareness of infe

244 rticularly if successful hospital-based MRSA infection control programmes are maintained.

245 These results suggest that community infection control programmes targeting transmission of C

246 should be a central component of C difficile infection control programmes.

247 ectal colonization with CPO, which can guide infection control programs to limit the spread of these

248 the importance of antibiotic stewardship and infection control programs to prevent this disease in ch

249 ignificant pathogens is generally useful for infection control programs, specific data supporting use

250 immunization against HBV, blood safety, and infection-control programs have greatly reduced the burd

251 The institution of infection control protocols is predicated on the early l

252 rall by initiating appropriate treatment and infection control protocols sooner and by possibly reduc

253 a-lactamases (ESBLs) for epidemiological and infection control purposes and also for the potential of

254 he following interventions: blood safety and infection control, PWID harm reduction, offering of DAAs

255 1) reeducation of ICU personnel on issues of infection control related to external cerebral ventricul

256 Performing infection control risk assessments and implementing the

257 le understanding of different laboratory and infection control risks needs rapid implementation.

258 ard transmission is affected by standards of infection control, sanitation, access to clean water, ac

259 Despite improvement in infection control, SSIs remain a common cause of morbidi

260 mary information on outbreaks is provided by infection control staff at hospitals and includes questi

261 alyzed at the Department of Microbiology and Infection Control, Statens Serum Institut, Copenhagen, D

262 nt difference in trends preimplementation of infection control strategies (annual decrease of 8.0%; 9

263 CUs over a 10-year period, during which time infection control strategies (care bundles) were impleme

264 provide a means of deriving new insights and infection control strategies based on the dynamics of th

265 ds before as well as after implementation of infection control strategies can be facilitated using da

266 We evaluated whether horizontal infection control strategies could decrease the prevalen

267 Implementation of infection control strategies in PICU captured through a

268 ons, enhanced community and outpatient-based infection control strategies may be needed to prevent CA

269 utility of laboratory screening and various infection control strategies, and the available laborato

270 ing the need for more efficient surveillance/infection control strategies.

271 tion, and inform appropriate therapeutic and infection control strategies.

272 associated with timing of implementation of infection control strategies.

273 epidemic transmission models used to design infection control strategies.

274 can help optimize antibiotic stewardship and infection control strategies.

275 ottleneck is crucial to developing effective infection control strategies.

276 Infection-control strategies focused solely on symptomat

277 e oral antibiotic prophylaxis is a potential infection control strategy, but its effectiveness withou

278 Infection control studies often rely on infection endpoi

279 tibiotic resistant organisms are intensified infection control, surveillance, and antimicrobial stewa

280 Continuous vigilance and strengthening of infection control systems will shape the capacity to pre

281 ing, delayed diagnosis, and the breakdown of infection control systems.

282 oportion of new cases, both groups should be infection control targets.

283 uberculosis infection; however, tuberculosis infection control (TBIC) measures are often poorly imple

284 The hospital infection-control team identified 12 infants colonised w

285 cing to validate and expand findings from an infection-control team who assessed the outbreak through

286 mNGS constitutes a powerful resource to help infection control teams understand, prevent, and respond

287 se preliminary findings may be of benefit to infection control teams.

288 ay not be completely preventable by standard infection-control techniques.

289 Although disinfection is key to infection control, the colonization patterns and resisto

290 s such as bedside and research staff safety, infection control, the informed consent model, protocol

291 ines were driven by improvements in hospital infection control, then transmitted (secondary) cases sh

292 use of rapid detection of BI/NAP1/027 as an infection control tool are still awaited.

293 Use of PPE and infection control training are associated with decreased

294 Infection control training was associated with decreased

295 ldren participating in the Early Pseudomonas Infection Control trial who received standardized therap

296 f transmission were not self-sustaining when infection control was implemented, but that R in the abs

297 portance of fluoroquinolone restriction over infection control was shown by significant declines in i

298 We also demonstrated that the impaired infection control we observed in the absence of MyD88 co

299 st radiographs might be useful for triage or infection control within a hospital setting, but prior r

300 and IL-10 concentrations is essential to Mtb infection control, within a single granuloma, with minim