ライフサイエンスコーパス: academic medical center

1 sed in a held-out test set and then a second academic medical center.

2 The study was conducted in a single academic medical center.

3 ary 1, 1998, to April 6, 2016, at a tertiary academic medical center.

4 The study was performed at an academic medical center.

5 he N9831 trial were assessed for STILs at an academic medical center.

6 008, and February 28, 2015, at an ambulatory academic medical center.

7 graphy (SD-OCT) findings was performed at an academic medical center.

8 designated cancer center within a quaternary academic medical center.

9 ective study was performed in a single large academic medical center.

10 012) in outpatient dermatology clinics at an academic medical center.

11 acquired RCM images, performed at a tertiary academic medical center.

12 etrospective study of hospitalizations at an academic medical center.

13 ruary 2009 through November 2014 in an urban academic medical center.

14 uring the period between 1994 and 2015 at an academic medical center.

15 tiary care medical center associated with an academic medical center.

16 of Mohs micrographic surgery performed at an academic medical center.

17 e sample of 33 cases plus 1 index case in an academic medical center.

18 hat of hepatologists at a large metropolitan academic medical center.

19 ing tests than hepatologists within a single academic medical center.

20 a set of RCM images collected at a tertiary academic medical center.

21 nuary 1, 2005, and June 1, 2007, at an urban academic medical center.

22 of surgical procedures performed in a large academic medical center.

23 Cross-sectional observational study at an academic medical center.

24 care unit (ICU) patients at a tertiary care academic medical center.

25 clinical microbiology laboratory in an urban academic medical center.

26 ents undergoing nuclear stress testing at an academic medical center.

27 irst treatment strategy (ie, protocol) at an academic medical center.

28 separate hospitals of a large tertiary care academic medical center.

29 pants at an outpatient research center at an academic medical center.

30 d within a depression research program at an academic medical center.

31 two campuses (test and control) of the same academic medical center.

32 am was recently established at a tertiary US academic medical center.

33 primary care offices affiliated with a large academic medical center.

34 ith a 4-repeat tauopathy was conducted at an academic medical center.

35 s admitted to cardiac care units at an urban academic medical center.

36 spital of the University of Pennsylvania, an academic medical center.

37 nurses (n = 13) and surgeons (n = 25) at an academic medical center.

38 impact ICU care delivery and outcomes in an academic medical center.

39 The study was situated in a single academic medical center.

40 ogram in impulsive aggressive behavior at an academic medical center.

41 under resting conditions was conducted at an academic medical center.

42 , in vivo neuroimaging study conducted in an academic medical center.

43 intained cardiac arrest registry at a single academic medical center.

44 ial diagnosis of eczema were evaluated at an academic medical center.

45 SETTING Academic medical center.

46 ns of Retina and Ocular Immunology at single academic medical center.

47 2013 to January 1, 2018) to a tertiary care academic medical center.

48 ersity, Washington University, and Amsterdam Academic Medical Center.

49 appropriate stress SPECT studies in a single academic medical center.

50 y in diverse intensive care units of a large academic medical center.

51 call by a junior resident in 2017 at a major academic medical center.

52 es within the coronary care unit of a large, academic medical center.

53 al surgery residents and 497 RNs in a single academic medical center.

54 dapted for use in practice improvement at an academic medical center.

55 a specialized eating disorders clinic in an academic medical center.

56 th confirmed COVID-19 admitted to a tertiary academic medical center.

57 pidemic (>=16 years) of XDR infections at an academic medical center.

58 hour 30 minutes to 3 hours 15 minutes at an academic medical center.

59 cute care inpatient nursing units at a large academic medical center.

60 f oral FMT capsules performed at a single US academic medical center.

61 Thirty-bed neuro-ICU in an academic medical center.

62 y of Virginia Health System, a tertiary-care academic medical center.

63 ional magnetic resonance imaging study at an academic medical center.

64 Emergency department of an academic medical center.

65 ject was implemented in 3 phases at a single academic medical center.

66 A major academic medical center.

67 ceived trabeculectomy surgery with MMC in an academic medical center.

68 The neurocritical care unit at a tertiary academic medical center.

69 Medical and surgical ICUs at a 1,100-bed academic medical center.

70 y primary care physicians (PCPs) at an urban academic medical center.

71 Cohort 2: single tertiary, academic medical center.

72 Single, tertiary, academic medical center.

73 cult extension is common, were studied at an academic medical center.

74 gical, trauma, and cardiovascular ICUs of an academic medical center.

75 Six hundred fifty-six bed urban academic medical center.

76 d May 6, 2016, in a dermatology clinic in an academic medical center.

77 Academic medical center.

78 ty and mortality conference experience of an academic medical center.

79 Sixteen-bed, general ICU at a tertiary academic medical center.

80 Three adult ICUs at a large, urban, academic medical center.

81 ombined with open-label venlafaxine at seven academic medical centers.

82 anuary 1, 1998, and September 20, 2012, at 2 academic medical centers.

83 treatment of a GNB BSI were included from 3 academic medical centers.

84 s Network Pharmacogenomics project from 7 US academic medical centers.

85 severity in outpatient psychiatry clinics in academic medical centers.

86 July 1, 1986, and May 31, 2013, at 2 large, academic medical centers.

87 placebo-controlled trial conducted at three academic medical centers.

88 ritical care organizations in North American academic medical centers.

89 tients seen between 2001 and 2014 in 3 large academic medical centers.

90 ients followed up for 6 years and 8 years at academic medical centers.

91 tients with cancer were enrolled across five academic medical centers.

92 rts to be promoted to upper faculty ranks in academic medical centers.

93 onged TATs and late FCSs occur frequently at academic medical centers.

94 and their family members were recruited from academic medical centers.

95 d across a multi-institutional consortium of academic medical centers.

96 led between March 2009 and June 2012 at 7 US academic medical centers.

97 ients undergoing major noncardiac surgery at academic medical centers.

98 s, generally built around large, prestigious academic medical centers.

99 al clinics and communities affiliated with 5 academic medical centers.

100 at more than 200 participating community and academic medical centers.

101 findings may not be generalizable outside of academic medical centers.

102 h 30 surgeons from 5 subspecialties across 3 academic medical centers.

103 The majority were academic medical centers.

104 included small community hospitals and large academic medical centers.

105 eek randomized clinical trial conducted at 4 academic medical centers.

106 clinically diagnosed AH patients in four US academic medical centers.

107 BSI from 13 kindreds were identified from 6 academic medical centers.

108 Two New York City academic medical centers.

109 BC testing compared with usual care at three academic medical centers.

110 Gram-negative bacillus isolates from 3 U.S. academic medical centers (126 isolates of the Enterobact

111 Prospective cohort study in two Dutch academic medical centers (2011-2012).

112 patients with IE discharge diagnosis from an academic medical center, 2011-2017, comparing data from

113 In 12 US academic medical centers, 788 men who were 65 years or o

114 Patients with cancer treated at an academic medical center, a random national sample of onc

115 ity HealthSystem Consortium, a consortium of academic medical center affiliates.

116 ohort of HCV-infected patients managed in an academic medical center ambulatory clinic, incarcerated

117 Academic medical centers (AMCs) are presently facing eno

118 ate physician conflicts of interest, some US academic medical centers (AMCs) enacted policies restric

119 es of life-science research conducted within academic medical centers (AMCs).

120 nducted from March 1 to April 1, 2017, in an academic medical center among 4 neonates with ROP in the

121 ducted from 1982 through 2009 at a single US academic medical center among 45,432 consecutive patient

122 Prospective cohort study at 2 urban academic medical centers among patients having primary I

123 nuary 1, 2000, and December 31, 2015, at the Academic Medical Center, Amsterdam, the Netherlands.

124 e failures in the Emergency Department at an academic medical center and a community hospital.

125 a, New York, and Texas), one county, and one academic medical center and included 6,124 adults and 4,

126 ting-room teams from three institutions (one academic medical center and two community hospitals) par

127 itted to the intensive care unit at a single academic medical center and who had a valid Acute Physio

128 went isolated CABG from 2002 to 2010 at 4 US academic medical centers and 1 high-volume specialty car

129 nd June 2007 at 9 US and Canadian centers (7 academic medical centers and 2 community hospitals) prov

130 One hundred twenty academic medical centers and 299 affiliated hospitals.

131 This study is a national database review of academic medical centers and a retrospective analysis ut

132 New England health care system, including 2 academic medical centers and affiliated outpatient prima

133 Cases were recruited from academic medical centers and by informal referrals from

134 The setting included academic medical centers and clinical practices.

135 ls (as opposed to boards typically housed at academic medical centers and health care institutions) a

136 EGFR mutation testing is widespread at academic medical centers and in some locales in communit

137 e from individual physician-inventors within academic medical centers and their associated private co

138 a dearth of successful partnerships between academic medical centers and underrepresented communitie

139 t samples was performed at a quaternary care academic medical center, and a candidate somatic variant

140 addiction medicine divisions or programs in academic medical centers, and 5) making substance abuse

141 f minorities among respiratory scientists in academic medical centers, and a dearth of successful par

142 (UDP), and discuss its benefits to patients, academic medical centers, and the greater scientific com

143 te examples of Epic stewardship tools from 3 academic medical centers' ASPs, discuss limitations of t

144 an or Hispanic/Latino ancestry enrolled in 2 academic medical center-based biobanks, the TTR V122I ge

145 glaucoma drainage device implantation at an academic medical center between 2000 and 2010 were revie

146 38 patients after AIS admitted to a tertiary academic medical center between 2012 and 2014 who underw

147 trolled clinical trial performed at an urban academic medical center between April 1, 2004, and Augus

148 men aged 40-49 years who were screened at an academic medical center between January 1, 2006, and Dec

149 trial with 3-month follow-up conducted at an academic medical center between September 4, 2012, and S

150 al Quality Improvement Program (NSQIP) at an academic medical center between the first 6 months and t

151 k randomized controlled trial conducted at 3 academic medical centers between 2004 and 2009, involvin

152 for Young Children [POTS Jr]) conducted at 3 academic medical centers between 2006 and 2011, involvin

153 ive, comparative cohort study conducted at 2 academic medical centers between 2008 and 2018.

154 e, comparative cohort study conducted at two academic medical centers between 2008 and 2018.

155 rom individuals with discharges from 2 large academic medical centers between January 1, 2005, and De

156 practice networks affiliated with two large academic medical centers between March 2008 and December

157 Single academic medical center chart review of all CRMP5 IgG-po

158 (79%), while they represented only 17% at an academic medical center clinic without samples.

159 ealth Incorporated database) and, second, an academic medical center clinic without samples.

160 s can be conducted as multisite consortia of academic medical centers, combinations of smaller ongoin

161 ional magnetic resonance imaging study in an academic medical center compared resting-state functiona

162 nical cohort study at a large multispecialty academic medical center comparing costs of robotically a

163 Surgeons from 4 academic medical centers covered by a common malpractice

164 The FPSC is a benchmarking tool for academic medical centers created from revenue data colle

165 At the academic medical center, critical failures included (1)

166 f renal recovery and survival using a large, academic medical center database of critically ill patie

167 ployees with LTBI at time of hire at a large academic medical center during a 10-year period.

168 primary care at practices affiliated with 2 academic medical centers during 2000 to 2005.

169 oved study was performed at a tertiary care, academic medical center ED with approximately 60 000 ann

170 were obtained for patient encounters at all academic medical center EDs affiliated with the Vizient

171 tify risk factors by a case-control study, 2 academic medical centers enrolled 89 cases and 164 trans

172 Participants: Clinical sequencing study at 4 academic medical centers enrolling patients between Sept

173 The study was approved by the Academic Medical Center Ethics Committee and the Great O

174 ent room for 3-hour periods at an acute care academic medical center for over a 2 year period.

175 ents meeting two of four SIRS criteria at an academic medical center for whom plasma was obtained wit

176 alyze electronic medical record data from an academic medical center from 1994 to 2013, with a median

177 nal positron emission tomography study at an academic medical center from 1999 through 2009.

178 fied repeatedly and consistently at a single academic medical center from 2001 through 2017.

179 fied repeatedly and consistently at a single academic medical center from 2001-2017.

180 ive to clinical monitoring (1:1 ratio) in an academic medical center from April 2007 to July 2010.

181 ogical symptoms underwent evaluation at a US academic medical center from August 21, 2017, to June 8,

182 of suspected acute appendicitis at a single academic medical center from January 2006 to December 20

183 dermatology outpatient practice of an urban academic medical center from March 1 to October 1, 2011.

184 wards after surgical procedures at an urban academic medical center from November, 2008 to January,

185 servational study was conducted at five U.S. academic medical centers from 1978 to 2009.

186 coronary artery disease were identified at 2 academic medical centers from 2009 to 2012.

187 randomized clinical trial conducted at 2 US academic medical centers from December 2009 to March 201

188 ordings from 4772 critically ill adults in 3 academic medical centers from February 2013 to September

189 erence, and preventable complications for an academic medical center has not been reported.

190 d over the last decade, the number of large, academic medical centers has increased; in turn, there h

191 The patient was admitted to an academic medical center hospital.

192 rom a prospective cohort enrolled at another academic medical center ICU for whom plasma was obtained

193 Academic medical center implementation of policies regul

194 study, which recruited ICU patients from the Academic Medical Center in Amsterdam and the University

195 The study was performed at the Academic Medical Center in Amsterdam from June 2011 thro

196 9 (Berne), through December 31, 2014, to the Academic Medical Center in Amsterdam, the Netherlands, o

197 r intracerebral hemorrhage in a large, urban academic medical center in Boston, Massachusetts from Ju

198 atients who were admitted to a large, urban, academic medical center in Boston, Massachusetts, from J

199 Two Intensive Care Units in a large Academic Medical Center in California.

200 Single academic medical center in Nashville, TN.

201 l performed at 2 hospitals within a tertiary academic medical center in New York City from October 20

202 ational cohort study of adult patients at an academic medical center in New York City who had S. aure

203 one county (Marion County, Indiana); and one academic medical center in Philadelphia, Pennsylvania.

204 cted from May 1, 2010, to May 1, 2013, in an academic medical center in Pittsburgh; data analysis was

205 rmed COVID-19 cases in adults admitted to an academic medical center in Seattle, Washington, between

206 ort of critically ill subjects at a tertiary academic medical center in Tennessee.

207 re and medical-surgical units within a large academic medical center in the United States participate

208 a retrospective study performed at a single academic medical center in the United States.

209 c medical and surgical inpatient units of an academic medical center in the western United States.

210 een June 10, 2004, and April 2, 2013, at 142 academic medical centers in 15 countries in North and So

211 fourteen different residency programs at two academic medical centers in August 2018.

212 The study was performed in academic medical centers in Australia, Canada, France, a

213 ascular, craniotomy, and spinal surgery at 2 academic medical centers in Baltimore, MD.

214 rrals to nPEP programs from 2 large EDs at 2 academic medical centers in Boston, Massachusetts.

215 uited from March 2010 to September 2014 from academic medical centers in Boston, Massachusetts; New Y

216 ions among individuals with AA presenting to academic medical centers in Boston.

217 Three ICUs in two academic medical centers in Canada and the United States

218 ed between July 2012 and September 2014 at 6 academic medical centers in Canada.

219 s to organ transplantation was restricted to academic medical centers in more developed, low tubercul

220 Their experience demonstrates that academic medical centers in proximity to natural disaste

221 een 1 January 2000 and 31 December 2011 at 2 academic medical centers in Seattle, Washington.

222 Patients initiating therapy in eight academic medical centers in the Centers for AIDS Researc

223 (n = 198) at 2 universities affiliated with academic medical centers in the United States (Step-Up S

224 ted between April 2010 and October 2015 at 2 academic medical centers in the United States (Universit

225 e practice patterns of eye care providers at academic medical centers in the United States (US) with

226 January 1, 1995, to December 31, 2011, at 9 academic medical centers in the United States and the Un

227 icipants aged 72 to 96 years, conducted in 6 academic medical centers in the United States between 20

228 y the Asthma Clinical Research Network at 10 academic medical centers in the United States for 9 mont

229 electronic surveillance was conducted at two academic medical centers in the United States with the o

230 led, double-blinded study was performed in 6 academic medical centers in the United States.

231 ge phase 2 biomarker case-control study in 7 academic medical centers in the United States.

232 ouble-blinded, placebo-controlled trial at 9 academic medical centers in the United States.

233 2 placebo-controlled, randomized trials at 2 academic medical centers in the United States: CaDDM (Ca

234 feeding trial conducted in research units in academic medical centers, in which 163 overweight adults

235 itudinal observational study performed in an academic medical center included 247 CN participants fro

236 report of a 47-year-old woman admitted to an academic medical center intensive care unit with coma, h

237 We used data from a large tertiary academic medical center involving 197,961 admissions and

238 Academic medical centers issued a mean of 49 press relea

239 Academic medical center longitudinal natural history stu

240 To do so, academic medical centers must address 2 key research iss

241 ivors were from the Emma Children's Hospital/Academic Medical Center (n = 1,349), the National Wilms

242 January 2010 and June 2014 at a single urban academic medical center (Northwestern Memorial Hospital,

243 t chairs overseeing a clinical enterprise in academic medical centers now must add financial and qual

244 ogy and Gastroenterology & Hepatology of the Academic Medical Center of Amsterdam are responsible for

245 AND PARTICIPANTS Retrospective review at an academic medical center of EEG recordings, medical recor

246 American College of Cardiology titled, "The Academic Medical Center of the Future," we propose a ser

247 d in the special technique laboratory of the Academic Medical Center of the University of Amsterdam.

248 Prospective cohort study in 2 large academic medical centers of 566 patients who were 70 yea

249 November 1, 2010, to December 6, 2015, at 6 academic medical centers of the Porphyrias Consortium of

250 Press releases from academic medical centers often promote research that has

251 ndications, a colonoscopy will follow at the Academic Medical Center or at the Flevohospital.

252 s who are male, practice owners, employed in academic medical centers, or earn a greater proportion o

253 1, 2009, and December 31, 2010, at an urban academic medical center participated in the study.

254 retrospective cohort study used data from 7 academic medical centers participating in the National S

255 vice companies, 18 of 363 MCCs received 26%, academic medical centers received 21%, and disease-targe

256 ving 6 healthy adults who were treated at an academic medical center research laboratory.

257 Children were recruited from an academic medical center research unit.

258 process steps at the community hospital and academic medical center, respectively.

259 (MDs): one in a rural setting and one in an academic medical center setting and one group of NPs and

260 with breast cancer previously treated in an academic medical center setting between 2009 and 2012 fo

261 ritical care organizations in North American academic medical centers showed that the governance mode

262 In a single academic medical center study, implementation of a tele-

263 re-and-after, quasi-experimental study in an academic medical center that was implementing the bar-co

264 cardiovascular) on 2 campuses of an 834-bed academic medical center that was performed from April 26

265 observational cohort study at a large urban academic medical center (the Columbia University SAH Out

266 Among top-ranked academic medical centers, the existence and content of o

267 A UDP can be important for patients, academic medical centers, the scientific community, and

268 to develop stroke services at community and academic medical centers throughout the United States.

269 external risk factors was implemented at an academic medical center to improve outcomes in PWID with

270 ients admitted to intensive care units at an academic medical center to investigate whether higher ur

271 1 January 2008 and 31 December 2011 at 5 US academic medical centers to determine the number of sing

272 conducted at 118 United States community and academic medical centers to evaluate the rates of and re

273 lidation cohort, n = 196) was conducted at 2 academic medical centers to validate predictors of adver

274 d 2-arm noninferiority trial conducted at an academic medical center, University of California, San D

275 om February 1, 2011, to April 15, 2012, at 3 academic medical centers: University Hospitals Case Medi

276 trospective cohort study was conducted at 40 academic medical centers using a discharge database to i

277 ional analysis of OLP and LLP performed in 9 academic medical centers was undertaken.

278 ted for syncope from 1996 through 1998 at an academic medical center, we documented causes, clinical

279 undergoing percutaneous breast biopsy in an academic medical center were recruited to participate in

280 and September 2012 by a single surgeon at an academic medical center were reviewed.

281 Retrospective data from 4 academic medical centers were aggregated; 431 patients w

282 survival data of PDAC patients treated at 7 academic medical centers were analyzed.

283 ent (SCOPE) program, 46 surgeons within 4 US academic medical centers were assigned 1:1 into coach/co

284 Over a 35-year period, women physicians in academic medical centers were less likely than men to be

285 test study, patients with AMS from PLCs at 2 academic medical centers were recruited from June 1, 200

286 > or = 3 days to the SICU of a large, urban, academic medical center, where fluconazole prophylaxis h

287 On average, there were six ICUs per academic medical center with a mean of four ICUs under c

288 We sought to determine how residents in an academic medical center with a required bundled consent

289 OC (stages I-IV) between 1998 and 2012 at an academic medical center with gynecologic and breast canc

290 ly complex patients at a large tertiary-care academic medical center with recurring bacteremias cause

291 A phase 2 clinical trial conducted at 2 academic medical centers with 42 patients who had inoper

292 pitalized patients discharged on OPAT from 2 academic medical centers with a dedicated OPAT clinic fo

293 s who died in intensive care units (ICUs) of academic medical centers with active severe sepsis to ch

294 Neurocritical care units at two academic medical centers with dedicated neurocritical ca

295 Pilot randomized clinical trial at 3 academic medical centers with mental health clinicians t

296 8, 2008, to September 18, 2009, at an urban academic medical center, with the collected data analyze

297 G PET/CT reports in a European tertiary-care academic medical center without financial incentives for

298 various clinical reasons at a tertiary-care academic medical center without financial incentives for

299 (approximately $465 nationally vs $200 at an academic medical center without samples).

300 cribed per office visit nationally and at an academic medical center without samples.