ライフサイエンスコーパス: ward

1 egory was "challenges of working on COVID-19 wards".

2 ] or was <8.5 g per deciliter in the non-ICU ward).

3 hemoglobin<8.5 g/dl on the nonintensive care ward).

4 23.7% to 37.8% in ICUs and 12.8% to 23.7% in wards).

5 n programme for vaccination in a haematology ward.

6 itors, and staff working on and visiting the ward.

7 er potential cluster in the haemato-oncology ward.

8 patients with type 2 diabetes in the general ward.

9 are support workers for the realities of the ward.

10 d adults with type 2 diabetes in the general ward.

11 each postoperative vital set measured on the ward.

12 y and safety of patient care on the surgical ward.

13 nical ventilation till discharge to the main ward.

14 d adults with type 2 diabetes in the general ward.

15 Hospital, Guinea-Bissau's largest maternity ward.

16 thin 3 days of transfer from ICU to hospital ward.

17 equivalent of a complete shift per week per ward.

18 IIRs) in the ICU and 27 AIIRs in the general ward.

19 ith the total number of neonates on the same ward.

20 ings: operating room, outpatient clinic, and ward.

21 t mediated by clinical leadership within the ward.

22 istant variants in a network of 357 hospital wards.

23 ions of transmission in the haemato-oncology wards.

24 black, and 23%-29% were admitted to surgical wards.

25 ere positioned among patients in psychiatric wards.

26 om two care of older people general hospital wards.

27 perience and who were working in the general wards.

28 identify high-risk patients on the hospital wards.

29 infection were discovered on two independent wards.

30 en the procedure was performed on unfamiliar wards.

31 ects patient care in older people's hospital wards.

32 or quality of interactions, between the two wards.

33 lustering by elder care physicians and their wards.

34 could affect patient care in older people's wards.

35 tification of critically ill patients on the wards.

36 ng areas, emergency departments, or hospital wards.

37 ation of noninvasive ventilation in ordinary wards.

38 f clinical decision making in acute hospital wards.

39 care units, and 9% were from other hospital wards.

40 h de-escalation and escalation compared with wards.

41 andover is still not very common in hospital wards.

42 during the red reflex screening at neonatal wards.

43 gns monitoring system on medical or surgical wards.

44 patients with HIV-1 at admission to medical wards.

45 ng enrolled and registered nurses in general wards.

46 herapeutic engagement on acute mental health wards; 2) map factors that influence engagement to the T

47 shift affects patient care in older people's wards; 2) To explore how length of day shift affects the

48 On average across wards, 72% of shifts were long.

49 taff and patients/families on older people's wards A mixed method case study.

50 inics, and adult non-critical care inpatient wards accounted for 26.4% (95% CI, 25.0%-27.7%), 23.8% (

51 care were noted including: ward leadership, ward acuity, use of temporary staff and their characteri

52 The Data come from wards administrative records and the analysis is perform

53 department (emergency department vs surgical ward admission, -47 min; p< 0.001) had shorter times to

54 s who had been discharged from the maternity ward after delivery were invited to participate in the s

55 study of adult patients hospitalized on the wards after surgical procedures at an urban academic med

56 imarily mixed gender but included single sex wards also (2 female-only and 1 male-only in each group)

57 atients regardless of designating a specific ward an ICU.

58 s are common after ICU discharge to hospital ward and are associated with ICU readmission, increased

59 A new study by Ward and colleagues (Curr.

60 atric intensive care units, one female acute ward and one male acute ward in three UK Mental Health N

61 g inpatients, initial VLs were comparable in ward and PICU patients, and preceded the peak CDSS.

62 Patient casemix, staff demographics, ward and time variables are included as controls.

63 re, as soon as they arrived in the inpatient ward and until hospital discharge.

64 Participants were followed up in hospital wards and at 3 and 6 months after ICU discharge.

65 , active surveillance involved 130 pediatric wards and microbiology departments throughout France.

66 agnostic yields were obtained from inpatient wards and nutrition centres.

67 their hospital stay by daily registration of wards and patient rooms.

68 Equipment layout on wards and patient vein prominence were identified as the

69 Moving patients between wards and prescribing high levels of antibiotics increas

70 rsistence of clones within distinct hospital wards and the spread of clones between wards, especially

71 ex transmission routes that spanned numerous wards and years, extending beyond the detection of conve

72 ds (total n = 144 beds, mean = 20.1 beds per ward) and control wards (total n = 147 beds, mean = 21.0

73 locked, partly locked, open, and day clinic wards) and hospital type (ie, hospitals with and without

74 rmed in three of the 27 AIIRs in the general ward, and detects SARS-CoV-2 PCR-positive particles of s

75 and treating patients in specialized stroke wards-are widely applicable.

76 rating theater, critical care, and inpatient ward areas) or no defined pathway (incomplete or no segr

77 as 51.7% (595/1151) and 75.9% (1151/1516) on wards assigned to the 3-step technique, respectively, as

78 d to 12.7% (116/915) and 65.0% (915/1407) on wards assigned to the 6-step technique (P < .001).

79 volved in an outbreak linked to a clinic and ward associated with diabetic patient care.

80 Patients present on the ward at 0800 h on the day of the survey and who were not

81 cruited from the acute psychiatric inpatient ward at Hospital Rey Juan Carlos (Madrid, Spain).

82 Seven ICU and 30 non-ICU wards at a 1,300-bed academic hospital in the United Sta

83 Patients were recruited from general wards at Addenbrooke's Hospital, Cambridge, UK.

84 e conducted a 6-month survey on 2 hematology wards at Addenbrooke's Hospital, Cambridge, United Kingd

85 we reviewed the registries in the paediatric wards at six hospitals from 2009 to 2014 and abstracted

86 ctors contributing to safety on the surgical ward BACKGROUND:: There is a variation in the quality an

87 20 ward-based clinical staff.

88 32 plausible transmission events, including ward-based contamination (66%) or direct donor-recipient

89 sponse team review represent the majority of ward-based ICU admissions, are more chronically and acut

90 bed" priority for other services," and "high ward bed occupancy." Participants perceived that strain

91 nsecutive adult patients admitted to medical wards between March-June 2013 were enrolled; sputum spec

92 tients discharged alive from ICU to hospital wards between September 2009 and February 2010.

93 ng volume compared to patients on the normal ward, but a significantly larger volume of high-density

94 dicting severe adverse events (ICU transfer, ward cardiac arrest, or ward death) in the postoperative

95 ratings of quality of end-of-life care than ward care.

96 ts that truly benefit from ICU compared with ward care; second, clinicians misinterpreting the goals

97 OR and ward case-log informed epidemiological and patient outco

98 y staff, out-of-hours reduction in services, ward cleanliness, and features of layout.

99 The cost-effectiveness of ward closure decreases as the efficacy of the interventi

100 The efficacy of ward closure is critical from a cost-effectiveness persp

101 Ward closure leads to higher costs but reduces the numbe

102 Ward closure may be cost-effective, particularly if targ

103 Unsupervised Ward clustering enhanced by similarity profile analysis

104 In addition, phenotyping using hierarchical Ward clustering was performed to characterize high-risk

105 uate noninvasive ventilation efficacy in the wards compared with ICU.

106 a stressful and dynamic acute mental health ward context.

107 patients and nurses has not been explored in ward contexts.

108 g 8h day shifts for 6 months while the other ward continued with 12h day shifts.

109 Deploying antimicrobial surfaces in hospital wards could reduce the role environmental surfaces play

110 as ranged from 51 to 106 h of on-site labour ward cover per week.

111 are not providing dedicated, on-site labour ward cover.

112 men who delivered at times of on-site labour ward cover.

113 These routinized ward cultures typically triggered further patient resist

114 vents (ICU transfer, ward cardiac arrest, or ward death) in the postoperative period using the area u

115 e living with dementia within acute hospital wards despite the prevalence of dementia in adult hospit

116 tudy of staff caring for older inpatients at ward, divisional or organisational-level in three acute

117 It is likely that a majority of patients and wards do not need to rely on contact precautions for pre

118 This pole-ward drift is facilitated by anterograde delivery of sec

119 outbreak to three patients admitted to adult wards during a 4-month period preceding the NICU outbrea

120 7 patients could be acquired from 2 surgical wards during the two 12-month periods, 1896 patients in

121 pital wards and the spread of clones between wards, especially in areas of intense turnover.

122 cell membrane-derived vesicles called blebs, Ward et al. visualize intermediates of the HIV-cell memb

123 adverse incidents and work pressures on the ward, even with support, took precedence and influenced

124 more sub-tropical, i.e. made dryer via pole-ward expanding subtropical subsidence.

125 old and dense, it sinks to generate a tropic-ward flow on the ocean floor of the Pacific, Atlantic an

126 ed the 3MR, and 16 elder care physicians (26 wards) followed standard procedures.

127 tilation and was discharged to the pulmonary ward, followed by complete recovery.

128 Patients were admitted to the ward for bed rest in anticipation of surgery and were po

129 The patient was admitted to the geriatric ward for observation, and routine blood and urine tests

130 hospitals (16%) reported having no inpatient ward for patients after surgery.

131 Site 1 had a ward for patients with dementia that would address their

132 59 Dutch nursing home wards for long-term care.

133 SETTINGS: Low and medium secure wards for men and women with mental disorder in three se

134 in the emergency department (ED) or hospital wards from November 2008 until January 2016 were include

135 Thirty-six wards (geographical areas) in the 2 districts were rando

136 ted with steroids, those hospitalized in the ward had higher VLs than infants requiring PICU care (P

137 ns monitoring system on medical and surgical wards has the potential to reduce time to detect deterio

138 ts suggest high MRSA pathogenicity in dental wards highlighting the need for more efficient surveilla

139 arning system with paging functionality on 2 wards hosting patients recovering from highly complex su

140 and demonstrates the capability of the back-ward imaging by reducing motion aberrations.

141 0 mm Hg, and plan for treatment in a general ward in 10 tertiary and secondary hospitals in Switzerla

142 surgical, six medical and one rehabilitation ward in a large teaching hospital in the United Kingdom.

143 Patients were admitted to the ward in anticipation of surgery.

144 ts, one female acute ward and one male acute ward in three UK Mental Health NHS Trusts.

145 ervation of escalation scenarios on surgical wards in 2 hospitals.

146 s-sectional study was performed in pediatric wards in 56 US and Canadian hospitals in the Pediatric R

147 S: The study was based on two older people's wards in an acute hospital in England.

148 racture (n = 245) were taken from Orthopedic wards in one medical center (n = 131) and one district h

149 atients at risk are often admitted to locked wards in psychiatric hospitals to prevent absconding, su

150 was significantly lower on the intervention wards in the adoption phase (6.62 events/1000 bed-days,

151 response team calls occurring on the general wards in the American Heart Association Get With The Gui

152 SETTING(S): Six acute mental health wards in the same geographical area of a large mental he

153 Ten acute geriatric medical wards in two hospitals.

154 University setting, four medical wards in two hospitals.

155 o the 100 most deprived of the 881 electoral wards in Wales.

156 psychogeriatric, somatic, or rehabilitation wards, in the thirteen participating nursing homes.

157 SETTINGS: Five in-patient wards including three male psychiatric intensive care un

158 Aggression in psychiatric wards is a continuing matter of concern for both patient

159 having sufficient nursing staff on hospital wards is critical for patient safety, and sustained inte

160 t aim to reduce failure to rescue in general wards is only effective if frontline nurses can recogniz

161 e of nurse staffing levels in acute hospital wards is widely recognised but evidence for tools to det

162 uidelines on safe staffing in acute hospital wards issued by the influential body that sets standards

163 ld affect patient care were noted including: ward leadership, ward acuity, use of temporary staff and

164 Senior surgeons are often absent from the ward, leaving junior staff to make complex medical decis

165 ents exposed to asymptomatic carriers at the ward level (odds ratio for infection if exposed to carri

166 between organizational social capital at the ward level and work-home conflict at the level of indivi

167 We found that ward-level antibiotic consumption volume had a stronger

168 remains the primary risk factor for CDI but ward-level antibiotic use, antibiotic exposure of the pr

169 future improvements in patient safety at the ward-level.

170 A donor with a plausible ward link was found for 81 CDI cases (40%) using WGS wit

171 ergency Department (ED), or general hospital ward locations, who are in a high-risk category with inc

172 period, interviews with eight nurses and the ward manager for each ward were conducted.

173 of time; infrequent provision; attitudes of ward managers to additional support workforce training,

174 The timetabled rounds of the ward (mealtimes, medication rounds, planned personal car

175 ategorized based on admission to the general ward (moderate) or the pediatric ICU (severe).

176 Ward movement and typing data were combined to identify

177 After training, ward nurses and physicians administered the intervention

178 red interviews with hospital staff, 150 h of ward observations and informal conversations with staff,

179 vivors followed up in the infectious disease ward of Conakry, Forecariah, and Nzerekore as of May 201

180 led trial was done in the general paediatric ward of Salima District Hospital, Malawi.

181 ization data were collected at the pediatric ward of the National Hospital.

182 The study was conducted within four medical wards of an acute care university hospital in urban Swit

183 conducted in cancer care clinics, in-patient wards of five tertiary care hospitals in Cyprus, Finland

184 faces and the average household income in 77 wards of London.

185 mplementation of the policy in the inpatient wards of South London and Maudsley National Health Servi

186 t birth from the neonatal unit and postnatal wards of the Royal Women's Hospital, Melbourne, Australi

187 d from patients hospitalized among different wards of the University Hospital Campus Bio-Medico.

188 s noxious heat, signal adverse conditions to ward off harm.

189 d of immune cells that patrol the barrier to ward off harmful agents and aid in tissue repair.

190 No state acting alone can ward off health threats that span borders, requiring int

191 to provide short-term benefit to the host to ward off infection, but impact on quality of life, and w

192 f innate and adaptive mechanisms not only to ward off pathogens but also to prevent malignant transfo

193 d thus have a sophisticated immune system to ward off these threats, which otherwise can have devasta

194 nt of their selfishness, thereby potentially warding off threats to their moral self-image.

195 All wards offered pharmacological and psychosocial intervent

196 harged from an inpatient psychiatric unit or ward on or after their 15th birthday, which took place d

197 He was transferred to the general ward on the eighth day with stable hemodynamic status an

198 type (ie, hospitals with and without locked wards) on suicide, suicide attempts, and absconding (wit

199 k; n = 2089) at discharge from the maternity ward or at first contact with the health center.

200 ad high sensitivity after admission to a KMC ward or corner and could be considered for further asses

201 ytes was performed in patients upon hospital ward or intensive care unit admission and in healthy con

202 administration and transfer to the postnatal ward or other clinical area.

203 Most tests (67.6%) were ordered in hospital wards or intensive care units.

204 We matched 60 intervention clusters (wards or villages) with a social franchisee to 120 compa

205 um (patients who were admitted to a hospital ward), or intensive care unit (ICU) stratum (patients wh

206 the ICU from the emergency department, other wards, or directly from out of hospital were included.

207 ally been used to confirm or refute hospital/ward outbreaks of methicillin-resistant Staphylococcus a

208 obstetricians ("consultants") on the labour ward outside normal hours may lead to worse outcomes amo

209 erioration detection of patients on surgical wards outside the ICU may be improved by introducing an

210 ose condition deteriorates while they are in wards (outside the intensive care unit [ICU]) have consi

211 ould be reduced by 40% on the implementation wards over a six-month period.

212 on were compared with those on seven control wards over three study phases (baseline, implementation

213 exposures, operative delivery, and neonatal ward patient density.

214 erstanding of how antibiotic use and between-ward patient transfers (or connectivity) impact populati

215 ilures diagnoses codes compared with general ward patients (22.4% vs. 15.8%).

216 In Australia and New Zealand, hospital ward patients admitted to ICU following rapid response t

217 logy that allows the continuous recording of ward patients' vital signs, supporting nurses by measuri

218 timely treatment of clinically deteriorating ward patients.

219 recognize clinical deterioration in general ward patients.

220 ssion or unexpected mortality among surgical ward patients.

221 from two cohorts of emergency department and ward patients.

222 Nineteen elder care physicians (33 wards) performed the 3MR, and 16 elder care physicians (

223 ICU and ward physician predictions at the time of ICU discharge

224 inked to patient characteristics and ICU and ward physician surveys collected during the larger prosp

225 ay and death and are not predicted by ICU or ward physicians.

226 In wards, PICC-related complications occurred in 15.3% of p

227 ables on the first day of orientation before ward placement (i.e., at baseline): quantity and quality

228 work (on the first day of orientation before ward placement, at 6 weeks after starting work, and at 6

229 Among 552 patients admitted to the ward postsurgery, 68 (12.3%) developed at least one grad

230 0.05) and a shorter duration of time on the ward prior to readmission (16.6 vs 23.6 hr; p = 0.05).

231 ong 97,181 unplanned ICU admissions from the ward, prior rapid response team review occurred in 55,08

232 rs from 590 Rohingya hamlets and eight urban wards provided hamlet-level data on the extent, nature,

233 scenarios projected northward and headwater-ward range contraction and drastic declines in habitat s

234 Restraint rates on seven wards receiving the REsTRAIN YOURSELF intervention were

235 ervational study in its Medicine and Surgery wards, recording patient data and obtaining contemporane

236 ly to be greatest in the context of hospital ward rounds and larger, multidisciplinary team meetings,

237 The involvement of family members in the ward rounds is a novel but under-researched family-cente

238 ICU) or moderate (maintained in the general ward) RSV disease at 5 to 9 days after enrollment.

239 iscrimination through Euclidian distance and Ward's algorithm.

240 Our approach apply Ward's method for the selection of initial conditions, o

241 ; and for their views of what a well-staffed ward/service would look like.

242 with RSV-positive bronchiolitis nursed in a ward setting or ventilated in intensive care produced la

243 e short incubation period in the respiratory ward setting.

244 patients and nurses in surgical and medical ward settings using a recognised model of shared decisio

245 ately fit with patient/nurse interactions in ward settings.

246 age reduction of restraint by 22%, with some wards showing a reduction of 60% and others less so (8%)

247 +/FT+ or TS+/FT- patient and shared the same ward simultaneously or within 28 days.

248 d the existence of substantial diversity and ward-specific microevolution within the population.

249 in the control group was masked to patients, ward staff, and investigators.

250 Participants, ward staff, and outcome assessors were masked to randomi

251 care afforded by different models of labour ward staffing.

252 alising the provision and availability of on-ward support; and training and IT support provided on a

253 notifications of critical conditions to the ward surgeon.

254 emic occurred more often on general medicine wards than in intensive care units (46% versus 33%; 19%

255 analyzers are not available at all clinical wards, the implementation of a protein-corrected sodium

256 Across all implementation wards there was an average reduction of restraint by 22%

257 omposite endpoint of escalation of care from ward to intensive care unit (ICU), new requirement for m

258 We randomly assigned 12 wards to either the 3-step technique or the conventional

259 e randomized to the CHW intervention, and 24 wards to the standard of care.

260 re Assistants) from three inpatient dementia wards took part in qualitative interviews which were the

261 The intervention wards (total n = 144 beds, mean = 20.1 beds per ward) an

262 beds, mean = 20.1 beds per ward) and control wards (total n = 147 beds, mean = 21.0 beds per ward) we

263 uring an entire season and to investigate in-ward transmission at a large, acute-care hospital.

264 We found that the in-ward transmission of InfA occurs frequently and that HCA

265 in transmissibility, and showed that within-ward transmission was insufficient to maintain endemicit

266 d another 10 pairs of strains, supporting in-ward transmission.

267 llowed for causal inference on the effect of ward type (ie, locked, partly locked, open, and day clin

268 The association between ward type and study phase was statistically significant.

269 which each cluster was a village (rural) or ward (urban).

270 We found that when wards use exclusively long shifts rather than a mixture,

271 ern operated on most days and wards, with no wards using all short shifts.

272 Rather than a clear distinction between wards using short and long shifts, we found that a mixed

273 ficity, we screened for CRO in two high-risk wards using the direct MAC plate method, recorded ZDs fo

274 was defined by level of care (outpatients vs ward vs pediatric intensive care unit [PICU]), and a cli

275 symptomatic and whether closure of a bay or ward was needed.

276 One ward was piloting two, overlapping 8h day shifts for 6 m

277 min/1.73 m2; the corresponding percentage in wards was 19.3% (CI, 18.8% to 19.9%).

278 Noninvasive ventilation applied in ordinary wards was effective, with long-term outcomes not differe

279 h eight nurses and the ward manager for each ward were conducted.

280 a period of four months, the nurses on each ward were provided with similar feedback on quality meas

281 almost tripled and dedicated COVID-19 cohort wards were established, elective care was postponed and

282 from non-critical care surgical and medical wards were randomly assigned (1:1) using a computer-gene

283 Eligible patients on participating wards were randomly selected for observation.

284 However, women in intervention wards were significantly less likely to report having de

285 Two acute care wards were targeted from all eligible acute wards within

286 ds (total n = 147 beds, mean = 21.0 beds per ward) were primarily mixed gender but included single se

287 rom pre-hospital life as well as life on the wards - where they could spend long periods of time with

288 The difficulties in staffing a ward with an 8h day shift pattern, in a hospital that ha

289 r-year-old boy was admitted to the emergency ward with pain in the right thoracoabdominal region, whi

290 Employees on wards with greater social capital reported significantly

291 after spending considerable time on the same wards with other M. abscessus-positive patients.

292 to the presence of consultants on the labour ward, with the possible exception of a reduced rate of s

293 at a mixed pattern operated on most days and wards, with no wards using all short shifts.

294 ive for InfA that were collected at the same wards within 7 days were chosen for whole-genome sequenc

295 The setting is six inpatient wards within a large mental health hospital in England w

296 wards were targeted from all eligible acute wards within each site in negotiation with each Trust.

297 linked to nurses-in-charge's reports from 81 wards within four English hospitals across 1 year (2017)

298 Four surgical wards within three different acute teaching-hospital set

299 bCPAP treatment in a paediatric ward without daily physician supervision did not reduce

300 tly have sepsis than those admitted from the ward without rapid response team review.