ライフサイエンスコーパス: information technology

1 for many years ("the productivity paradox of information technology").

2 for the workings of mind, of culture, and of information technology.

3 optoelectronic communication technology, and information technology.

4 ea, in part through innovative use of health information technology.

5 eas relating to financing, organisation, and information technology.

6 tronics is crucial for continued progress in information technology.

7 from sensing and biomedicine to imaging and information technology.

8 e photonic circuits, bio-sensing and quantum information technology.

9 care performance goals that depend on health information technology.

10 on, research and innovation, and health care information technology.

11 ential applications in energy conversion and information technology.

12 le-photon source for applications in quantum information technology.

13 increasingly important in communication and information technology.

14 ic memory that suits modern high-performance information technology.

15 s a primary focus of public policy on health information technology.

16 synthetic DNA that could shape the future of information technology.

17 complement the efficiency benefits of health information technology.

18 kyrmions, with the potential next-generation information technology.

19 pes, magnetic resonance imaging, and quantum information technology.

20 mplementation, use, and evaluation of health information technology.

21 ractical importance in metrology and quantum information technology.

22 emes, emergency medical services, and health information technology.

23 mportant step for its application in quantum information technology.

24 gration and low energy consumption in modern information technology.

25 y solitons in broad-area lasers as pixels in information technology.

26 Motion sickness is an emerging hazard in information technologies.

27 iour with potential applications in magnetic information technologies.

28 otential applications in ferroelectric-based information technologies.

29 ds regarding health, environment, energy and information technologies.

30 tial as a host material for emerging quantum information technologies.

31 ill undoubtedly impact development of future information technologies.

32 g systems for ordering providers, and use of information technologies.

33 multidisciplinary teams and in using modern information technologies.

34 e and enantio-selective chemistry to quantum information technologies.

35 that exploits the spin degree of freedom in information technologies.

36 to harness spin waves in magnetic films for information technologies.

37 s are strong candidates for scalable quantum-information technologies.

38 ring for photonics, electronics, and quantum information technologies.

39 s and their potential applications in future information technologies.

40 velopment of chiral photonics for health and information technologies.

41 providing opportunities for next-generation information technologies.

42 itters) are known to be the heart of quantum information technologies.

43 tates is a ubiquitous requirement in quantum information technologies.

44 f triplet radical pairs as qubits in quantum information technologies.

45 ution imaging, optical computing and quantum information technologies.

46 ition metal oxides widely used in energy and information technologies.

47 romising properties for future bioelectronic information technologies.

48 is a key requirement in solid-state quantum information technologies.

49 the realization of new classical and quantum information technologies.

50 and the use of geolocalization services and information technologies.

51 heart of quantum optics and photonic quantum-information technologies.

52 perconductivity, electronics, photonics, and information technologies.

53 V nanolasers for biological applications and information technologies.

54 ransport and is an emerging hazard in visual information technologies.

55 a main contender for future energy-efficient information technologies(1,2).

56 eractions are a hallmark of advanced quantum information technologies(1-5).

57 s ranging from efficient displays to quantum information technologies(1-7).

58 is the foundation of modern electronics and information technology(1-11), and quantum materials with

59 omena with potential applications in quantum information technology(2,3).

60 of informed public participation, supportive information technologies, a skilled workforce, and adequ

61 e-nots." This will include supporting health information technology access in homes and public places

62 Information technology administrators can also host Shin

63 regenerators and optical sources for quantum information technology, all demonstrated using four-wave

64 etic state of matter lays the foundation for information technologies and for understanding of spintr

65 asses a wide range of telecommunications and information technologies and many clinical applications,

66 ing sensor systems will enable radically new information technologies and powerful new tools for scie

67 tion-leverages recent developments in health information technology and a growing health data infrast

68 ent and biomedical engineering, big data and information technology and allergic diseases and asthma

69 meaningful ways to implement and use health information technology and before a statement of the eff

70 c modalities that includes the harnessing of information technology and big data are some areas where

71 Advances in health information technology and broadband Internet connection

72 s at the SUSY points can be used for quantum information technology and can open an avenue for quantu

73 This system combines information technology and chemical reactions into a new

74 the integration of biology and medicine with information technology and computation.

75 elds that are unlocking new possibilities in information technology and diagnostics.

76 cope of nonphysician clinicians, adoption of information technology and disease management programs t

77 cal systems based on principles adopted from information technology and engineering (Andrianantoandro

78 of DNA for near-memory computing for future information technology and health analysis applications.

79 ic imaging tools of the future, aided by new information technology and image fusion/integration capa

80 d by others to combine registry resources in information technology and medicine for future collabora

81 acing with new and important domains such as information technology and molecular biology and by play

82 Younger generations have deeply embraced information technology and multitasking in their persona

83 d improvement infrastructure, lagging use of information technology and participation in the developm

84 n, enhanced visual cues, and cautious use of information technology and redundancy, all while avoidin

85 orm for the emergent many-valued non-Boolean information technology and target challenges posed by ne

86 The learning healthcare system uses health information technology and the health data infrastructur

87 placed on the individual based on the use of information technology and the latest in behavioural sci

88 Existing information technology and traditional communication res

89 nd diverse information, advances in clinical information technology and user interfaces will permit g

90 Advanced information technologies, and also an ability to use exi

91 ion of practice guidelines, effective use of information technologies, and intensive involvement by d

92 amalgam of chemistry, computer science, and information technology, and assess the wider e-Science a

93 through strong governance and coordination, information technology, and community engagement.

94 therapist) and nonclinical (administrative, information technology, and finance) roles.

95 nd formation of clinical primary care teams, information technology, and improving the supply of medi

96 e recommend leveraging strategic purchasing, information technology, and local pilots to build a prim

97 ave become promising recently in healthcare, information technology, and many other fields.

98 lts enable new applications in photonics and information technology, and may enable explorations of q

99 ancing communication training, disseminating information technology, and mitigating external factors

100 ies, detection systems, microelectronics and information technology, and will involve the expertise o

101 gy, health, environment, sustainability, and information technology applications.

102 ssipation electronic and spin responses, and information-technology applications.

103 ombining automated behavioral monitoring and information technologies are currently under development

104 ent of photonic devices and systems, on-chip information technologies are mostly limited to two-level

105 Advances in laboratory and information technologies are transforming public health

106 es and improvements in vehicle design and in information technology are necessary but not sufficient

107 nversion, solid-state lighting, sensing, and information technology are undergoing rapid development.

108 ffice of the National Coordinator for Health Information Technology at the U.S. Department of Health

109 nation, utilizing comprehensive and flexible information technology, automating biospecimen processin

110 promises a new generation of ultralow-energy information technologies, based around functional molecu

111 We tested whether a pharmacist-led, information technology-based intervention was more effec

112 Coupled with information technology, bioinformatics, knowledge manage

113 long carrier lifetime are also valuable for information technology, but fundamental challenges like

114 as the foundation for the new generation of information technology, but it is challenged by the diff

115 Differences in patient use of health information technologies by race can adversely impact eq

116 Brain-inspired computation can revolutionize information technology by introducing machines capable o

117 ave seen rapid advances in communication and information technology (C&IT), and the pervasion of the

118 lized training to support use of this health information technology can be a powerful approach to inc

119 some of the ways in which communication and information technology can be used to enhance the learni

120 Through so-called collaboratories, information technology can play an important role in add

121 mputing, sensor networks, and other advanced information technology capabilities to transform massive

122 f individuals and providers, building health information technology capacity, incorporating self-meas

123 Health care information technology changes the ecosystem of a practi

124 Substantial investments in health information technology, comparative effectiveness resear

125 anding of meaningful use criteria and health information technology concepts.

126 Bulk silicon, the bedrock of information technology, consists of the deceptively simp

127 ncluding administrator salary, training, and information technology costs.

128 of this review is to illustrate how Web 2.0 information technologies could be used to improve anesth

129 Future information technology demands ever-faster, low-loss qua

130 Information technology designed with the input of the en

131 idance to quality improvement professionals, information technology developers, educators, administra

132 Emerging research and information technology developments provide the potentia

133 w classes of electronic, energy-storage, and information-technology devices depends critically on und

134 d promising to propel their evolution in the information technology domain.

135 applications in photovoltaic solar cells and information technology due to their unique electrical an

136 ase-change storage is widely used in optical information technologies (DVD, CD-ROM and so on), and re

137 Information technology enabled our institution to rapidl

138 Precision agriculture, i.e., an (information technology)-enhanced approach to crop manage

139 lular reprogramming, tissue engineering, and information technologies, especially artificial intellig

140 However, many information technologies exhibit a complexity threshold-

141 Health information technologies facilitate the collection of ma

142 r Graduate Program, the Funai Foundation for Information Technology (FFIT), the Honjo International S

143 The 2009 Health Information Technology for Economic and Clinical Health

144 e expected prevalence in 5 years of critical information technology functionalities.

145 found their way into various types of modern information technology hardware, applications of ferroel

146 Rapid progress in information technologies has spurred the need for innova

147 The current information technology has been developed based on von N

148 The fast growth of information technology has been sustained by continuous

149 e recent transformation in communication and information technology has brought about new platforms f

150 The success of information technology has clearly demonstrated that min

151 Information technology has consistently been identified

152 The problem of nauseogenic information technology has emerged as a target for resea

153 The push for a semiconductor-based quantum information technology has renewed interest in the spin

154 Advances in computational and information technology have allowed for automated collec

155 Advances in computer information technology have contributed to the growing s

156 Advances in information technology have stimulated innovations in mo

157 Enhanced engagement using health information technology (HIT) interventions and caregiver

158 Health information technology (HIT) is perceived as an essentia

159 important applications in photonics, quantum information technologies, imaging and biosensing.

160 With ongoing developments in healthcare information technology, implementation of the latter sur

161 ons have demonstrated the efficacy of health information technologies in improving quality and effici

162 mation about the human genome and how modern information technology, in particular the internet, allo

163 urers, pharmacies, and benefit managers; (2) information technology, in which investment has occurred

164 ted oscillometric device (GE Medical Systems Information Technologies, Inc., Milwaukee, Wisconsin) fo

165 In the rapidly advanced and evolving information technology industry, adequate client engagem

166 section of chemistry, materials science, and information technology: infochemistry.

167 Concurrent advances in information technology infrastructure and mobile computi

168 After a decade of investment in health information technology infrastructure and new incentives

169 A collaboratory can be defined as an information technology infrastructure that supports coop

170 Develop a health information technology infrastructure with national stan

171 s, access to the appropriate computation and information technology infrastructure, and recruiting an

172 s expected to purchase, use, and sustain the information technology infrastructure.

173 l NHIN in 5 years given the current state of information technology infrastructure.

174 ical record builds in the setting of limited information technology infrastructure.

175 few decades, and this trend will continue as information technology infrastructures develop.

176 tal imaging platforms, an overhaul of legacy information-technology infrastructures, modification of

177 o launch CancerLinQ, a groundbreaking health information technology initiative that will provide phys

178 lian Oil and Gas Company (Eni) (5200 m(2) of Information Technology installed, 30 MW) and based on a

179 -risk patients (control) or a pharmacist-led information technology intervention (PINCER), composed o

180 CommunityRx (CRx), an information technology intervention, provides patients w

181 All other quantitative analyses of health information technology interventions effect on mortality

182 The pervasiveness of information technologies is generating an impressive amo

183 The growth of the Internet and related information technologies is inevitable and has diverse t

184 in transfusion medicine and other novel ways information technology is being applied to support patie

185 Healthcare information technology is expected to mitigate this chal

186 Information technology is intended to improve the future

187 ant underwent the following measurements: an information technology (IT) experience questionnaire, a

188 safety, better manage finances, and upgrade information technology (IT) for organ transplantation.

189 cal attention at high levels upon the use of information technology (IT) in routine clinical care in

190 to the application of telecommunication and information technology (IT) in the delivery of health an

191 ow nurses and care workers work, the role of information technology (IT) in their work and what contr

192 Barriers to uptake and compliance involved information technology (IT) logistical reasons, lack of

193 Information technology (IT) platforms have been applied

194 the 2024 American Hospital Association (AHA) Information Technology (IT) Supplement survey.

195 the government to assist POs in implementing information technology (IT) to facilitate CMP use.

196 ve spurred marked increases in use of health information technology (IT).

197 Experts consider health information technology key to improving efficiency and q

198 gs include lack of infrastructure and health information technology, lack of support staff, and incre

199 As improvements in information technology make it easier to communicate, ac

200 As information technology makes medical records more access

201 l applications of ferroelectric materials in information technology, materials science and optoelectr

202 ns in care delivery, payment structures, and information technologies may support HCT, pediatricians

203 The use of information technology may result in a safer and more ef

204 lines and, along with novel patient-centered information technologies, may help support individuals a

205 ter define the roles of home-based services, information technology, mental health care, caregiver su

206 ient-provider interventions (n = 12), health information technologies (n = 11), and health system int

207 clinical practice have serious, unmet health information technology needs.

208 oreal and that mediated by communication and information technology), new types of people-place relat

209 ts, with direct implications for stealth and information technology, non-disturbing sensors, near-fie

210 Information technology offers many potential advantages

211 Information technology offers one way to meet this chall

212 Quantum information technology offers the potential to realize u

213 ethodical evaluation of the impact of health information technology on outcomes is essential for inst

214 ol diploma or college degree, and to work in information technology or another technical occupation.

215 ents and staff, human resource requirements, information technology or infrastructure requirements, c

216 fect could lead to potential applications in information technology or spectral imaging.

217 ; 533 (5.6%) were biotechnology, health care information technology, or medical device companies; and

218 electronics and optics, and even spin-based information technology, or spintronics.

219 of this study was to develop a robotics and information technology-oriented platform that could cont

220 ng but also present opportunities for future information technology paradigms.

221 including registries and databases, emerging information technology, patient-centered and -driven cli

222 for transfer (87% agreed), developing common information technology platforms across hospitals (86% a

223 Information technology played an important role in suppo

224 We discuss lessons from information technology, predict the next generation of W

225 es is highly desirable, as modern integrated information technologies predominantly are operated with

226 uberculosis working with data scientists and information technology professionals.

227 For nascent molecular information technologies, proof-of-principle realization

228 The Act and the health information technology provisions in the American Recove

229 Quantum information technology puts stringent demands on the qua

230 ing several emerging applications in quantum information technology, quantum sensing, and quantum com

231 locality is a viable new resource in quantum information technology realized with superconducting cir

232 It also created the Health Information Technology Regional Extension Center (REC) p

233 by studying emerging trends in each of these information technology-related areas.

234 The growing field of quantum information technology requires propagation of informati

235 tial of the EMR system, significant hospital information technology resources are needed.

236 agement in health care and the use of health information technology resources in the electronic healt

237 that do not require extensive commitment of information technology resources.

238 ves, coupled with the increasing adoption of information technology, resulted in a broad geographic e

239 e longevity of pertinent infrastructure, the information technology revolution, the growth of the glo

240 with Moore's law, compose the engine of the information technology revolution, whereas complexity--t

241 h in materials could refresh and sustain the information technology revolution.

242 ce has grown tremendously due to the massive information technology revolution.

243 technology has been the driving force of the information-technology revolution.

244 ta collected include participant demographic information, technology self-efficacy, and adverse event

245 Introduction of information technology should be approached as an iterat

246 Despite a consensus that the use of health information technology should lead to more efficient, sa

247 premorbid intelligence quotient, or minimal information technology skills.

248 ment, Defence and Security, Economy, Health, Information Technology, Social Welfare, Technology), Eco

249 New information technology solutions, training programs, and

250 as spin, may enable applications in quantum information technology, spintronics and quantum sensing(

251 nurses, hospital leadership, nurse managers, information technology staff, and physical/occupational

252 face outsourcing to lower labor cost and to information technology substitutes, raising commoditizat

253 e use of TM, particularly when combined with information technologies such as electronic health recor

254 s and topological fluids, as well as quantum information technologies such as multimode photon-by-pho

255 More recently, new information technologies, such as electronic health reco

256 lus is of interest in developing devices for information technology, such as data storage and quantum

257 Health information technology, such as electronic health record

258 ten, collective intelligence is supported by information technology, such as online prediction market

259 were contacted to determine if they had the information technology support to hold the examination.

260 in settings with limited Internet access and information technology support.

261 Information technology supports a family of technologica

262 ost-effectiveness and its compatibility with information technology systems currently employed in the

263 t be available in federally regulated health information technology systems such as certified EHRs.

264 ls for reform of U.S. payment, delivery, and information technology systems to achieve this vision.

265 pread interoperability-the ability of health information technology systems to exchange information a

266 mmittee, pilot-testing interventions, use of information technology systems to provide data about fal

267 rnover of village doctors, fragmented health information technology systems, a paucity of digital dat

268 if feedback reports could be generated from information technology systems, sensitivity analyses ind

269 relevant data could be generated by existing information technology systems.

270 tion requirements; and development of health information technologies that enhance the patient-physic

271 stimated: in one year, for 1 kW of installed information technology, the estimated energy saving is 7

272 energy-efficient magnetic memory devices for information technology, the manifestation of their nontr

273 government is stimulating adoption of health information technology through meaningful use policy.

274 Most likely, advanced information technologies to disseminate papers are behin

275 Whereas other industries have used information technologies to fundamentally improve operat

276 strategies for applying cutting-edge health information technology to clinical studies.

277 ducation, and the large-scale application of information technology to education.

278 escribe current and future strategies to use information technology to improve the process of antimic

279 We explore the potential of modern information technology to lower this barrier by enabling

280 We have developed the information technology to manage and search the loci the

281 digital medicine-that is, the application of information technology to medicine-has the potential to

282 on demand and that range in application from information technology to medicine.

283 One topic of active research is information technology to support transitions of care am

284 cialty is ideally suited to apply the newest information technology to traditional needs in areas of

285 dditional current applications of healthcare information technology to transfusion medicine include c

286 Application of healthcare information technology to transfusion medicine will expa

287 on, and experiences and gaps in using health information technology tools for hypertension, were expl

288 n in the past because of the availability of information technology tools to collect and analyze data

289 s about the existing functionality of health information technology tools to support increasingly asy

290 ted specific functionality of current health information technology tools.

291 within and outside Europe, using innovative information technology tools.

292 oton interface in silicon would move quantum information technologies toward a mature semiconducting

293 ekly diet/physical activity tracking; Health Information Technology Usability Evaluation Scale, mean

294 and app engagement/usability (by the Health Information Technology Usability Evaluation Scale; range

295 motor function determined by CatWalk (Noldus Information Technology, Wageningen, The Netherlands) gai

296 ion-based racetrack memory is attractive for information technology, where skyrmions are used to stor

297 requirements of data-intensive research with information technology will enable scientists to gain re

298 provide a useful tool for developing quantum-information technologies with single electronic excitati

299 cessary to complement advancements in health information technology with high-quality team function.

300 At higher ITA or the use of information technologies, WSE is less strongly associate