ライフサイエンスコーパス: biomedical research

1 table step in experimental design of current biomedical research.

2 being produced and stored as a byproduct of biomedical research.

3 ost widely studied nonhuman primate (NHP) in biomedical research.

4 , or medication remains a central problem in biomedical research.

5 s a major mainstay of current biological and biomedical research.

6 onhuman primates (NHP) are useful models for biomedical research.

7 es has been propelled to the center stage of biomedical research.

8 ve frequently pushed the frontiers of modern biomedical research.

9 cell profiling studies by mass cytometry in biomedical research.

10 s still a grossly underutilized resource for biomedical research.

11 ecome a popular method in bioinformatics and biomedical research.

12 trinsic cellular processes in biological and biomedical research.

13 roblems currently undermines public trust in biomedical research.

14 important roles in clinical diagnostics and biomedical research.

15 n, RNAi, or Cas9-based methods is central to biomedical research.

16 h-quality images for molecular imaging-based biomedical research.

17 K562 is widely used in biomedical research.

18 ications ranging from quantum computation to biomedical research.

19 ated cell lines continues to be a problem in biomedical research.

20 s of DNA within living cells is essential in biomedical research.

21 t have been historically underrepresented in biomedical research.

22 nnotation standards and to promote basic and biomedical research.

23 lar DNA traps are now the focus of intensive biomedical research.

24 eployment within the Novartis Institutes for BioMedical Research.

25 important pharmaceutical objective in recent biomedical research.

26 o study gene function, from basic biology to biomedical research.

27 eating a bottleneck for their application in biomedical research.

28 data is a key component of advancing modern biomedical research.

29 nsform the use of rodent models in basic and biomedical research.

30 e food control, environmental monitoring and biomedical research.

31 ase the robustness of scientific findings in biomedical research.

32 system is widely used in genome editing for biomedical research.

33 ribed enhancers, with broad applicability to biomedical research.

34 t technologies are widely employed in modern biomedical research.

35 of reproducibility is a prominent problem in biomedical research.

36 f downstream analyses to further advances in biomedical research.

37 cells and stem cell lines are widely used in biomedical research.

38 nities to address long standing questions in biomedical research.

39 can be extensively applied in biological and biomedical research.

40 , renewed strategies for vector control, and biomedical research.

41 alytical chemistry in the context of current biomedical research.

42 ficient mice have been used predominantly in biomedical research.

43 of pigs in both agricultural production and biomedical research.

44 ology play a critical role in bioscience and biomedical research.

45 idual cells and have an increasing impact on biomedical research.

46 particles, thus offering new applications in biomedical research.

47 ivery tools for therapeutic applications and biomedical research.

48 bute billions of dollars annually to support biomedical research.

49 ential components of experimental designs in biomedical research.

50 nome-editing applications has revolutionized biomedical research.

51 Healthy volunteers are crucial for biomedical research.

52 , reproducibility, and open science in basic biomedical research.

53 luciferase-luciferin pairs is widely used in biomedical research.

54 dditional image analysis applications across biomedical research.

55 rly in vivo, provides an invaluable tool for biomedical research.

56 res that have become increasingly popular in biomedical research.

57 molecular specificity is highly desirable in biomedical research.

58 al samples, which is useful to many areas of biomedical research.

59 have been sequenced, contributing deeply to biomedical research.

60 manner is of great interest in the field of biomedical research.

61 philosophy that will accompany and supervise biomedical research.

62 increasingly being applied in many fields of biomedical research.

63 tools from the human proteome to facilitate biomedical research.

64 e of ethylbenzene, a compound of interest in biomedical research.

65 a species that has been used extensively in biomedical research.

66 ng programmable nucleases has revolutionized biomedical research.

67 their kicks by solving puzzles that advance biomedical research.

68 miRNAs and diseases is a critical problem in biomedical research.

69 e techniques have transformed biological and biomedical research.

70 fications in model animals are essential for biomedical research.

71 These animals may prove useful for biomedical research.

72 r drug candidates is an ongoing challenge in biomedical research.

73 ed to the routine application of PRSs across biomedical research.

74 increase the utility of poly(orthoesters) in biomedical research.

75 ential for many fields of optoelectronic and biomedical research.

76 lights the vital role IMS can play in modern biomedical research.

77 mammalian cells represent important goals of biomedical research.

78 of omics data and lead to a new paradigm for biomedical research.

79 lopment and progression is a central goal of biomedical research.

80 of all the laboratory animal species used in biomedical research.

81 ts of aging is increasingly important within biomedical research.

82 o has been one of the major animal models in biomedical research.

83 the major vertebrate model organisms used in biomedical research.

84 dical texts provide valuable information for biomedical research.

85 rsatile scaffolds with wide applicability in biomedical research.

86 ion site of transgenic mouse strains used in biomedical research.

87 and feasibility of implementing CRISPR BE in biomedical research.

88 tools will facilitate further biological and biomedical research.

89 n high-throughput experiments is crucial for biomedical research.

90 ion and quality improvement in translational biomedical research.

91 f the most active and controversial areas of biomedical research.

92 mputation, which will be helpful for related biomedical researches.

93 Unprecedented basic and clinical biomedical research advances over the past 4 decades hav

94 ok at biological matrices, in particular for biomedical research, although there is still a lot of de

95 experiments are increasingly commonplace in biomedical research and add layers of complexity to expe

96 despite the importance of these animals for biomedical research and agriculture.

97 uld have a significant impact in fundamental biomedical research and clinical applications.

98 intelligence (AI) is increasingly applied to biomedical research and clinical decisions, developing u

99 arities through data-driven, algorithm-based biomedical research and clinical decisions.

100 s with focusing on the future application in biomedical research and clinical diagnosis.

101 ith modern optical microscopy and almost all biomedical research and clinical workflows.

102 TANCE Animal models are crucial in advancing biomedical research and defining the pathogenesis of hum

103 ful and easy-to-use tool for applications in biomedical research and diagnostic medicine, at minimal

104 es in the field of thiol-reactive probes for biomedical research and diagnostics, emphasizing the nee

105 led to its widespread adoption, accelerating biomedical research and discovery in human cells and mod

106 inding to antibodies, which are critical for biomedical research and disease diagnosis and treatment.

107 y (PET) is an important imaging modality for biomedical research and drug development.

108 and distinct model systems to revolutionize biomedical research and drug discovery by recapitulating

109 ng animals has become a pivotal technique in biomedical research and gene therapy.

110 The COVID-19 pandemic has broadly impacted biomedical research and health care.

111 in the United States in order to accelerate biomedical research and improve health.

112 and size can have important implications in biomedical research and in engineering applications such

113 This greatly facilitates the applications of biomedical research and knowledge discovery.

114 Antibodies are key tools in biomedical research and medicine.

115 most widely used human cancer cell lines in biomedical research and one of the main cell lines of EN

116 o exploit the use of KGs for applications in biomedical research and other domains.

117 widespread use for toxicological screening, biomedical research and pharmaceutical studies, to date

118 hod can be widely applied in biochemical and biomedical research and provide insights into elucidatin

119 f carcinogenicity has become a main focus of biomedical research and regulatory toxicology.

120 cale data analysis in many fields, including biomedical research and systems biology.

121 Pluripotent stem cells have broad utility in biomedical research and their molecular regulation has t

122 avenue for drug delivery in a broad range of biomedical research and therapeutic applications.

123 ted to supporting the safety of the nation's biomedical research and training environments.

124 iting in eukaryotes has revolutionized basic biomedical research and translational sciences.

125 ortant roles in manufacturing industries and biomedical research, and influence humans through their

126 easingly used for synthesis of evidence from biomedical research, and often include an assessment of

127 xecutive Director at Novartis Institutes for BioMedical Research, and Pere Santamaria, Professor of I

128 prioritizing and accelerating investments in biomedical research; and growing a diverse, culturally c

129 for next generation selective biosensing for biomedical research applications.

130 While biomedical research applies cellular in vitro methods to

131 lenges of these systems in basic and applied biomedical research are presented and discussed.

132 Although the majority of proteins used for biomedical research are produced using living systems su

133 ssion under NIR laser radiation are the main biomedical research areas involving BiNPs that have open

134 s are an ideal animal model for a variety of biomedical research areas such as cancer, virology, circ

135 BioReader (Biomedical Research Article Distiller) is trained by upl

136 Interest in text mining full-text biomedical research articles is growing.

137 lysis of a comprehensive corpus of published biomedical research articles, we measure whether the NIH

138 Fluorescent proteins have revolutionized biomedical research as they are easy to use for protein

139 exploration of human disease pathogenesis in biomedical research, as well as for the development of t

140 n for transplantation, transfusion and basic biomedical research, as well as technological applicatio

141 e antigen discovery is of great interest for biomedical research both for isolation of rare cell popu

142 ed drug delivery remains at the forefront of biomedical research but remains a challenge to date.

143 SMLM) has become a powerful imaging tool for biomedical research, but it is mostly available in imagi

144 PR-Cas genome engineering has revolutionized biomedical research by enabling targeted genome modifica

145 uencing (NGS) techniques are revolutionizing biomedical research by providing powerful methods for ge

146 ational Institute for Health Research (NIHR) Biomedical Research Centre (BRC) at South London and Mau

147 al Marsden and Institute for Cancer Research Biomedical Research Centre and is coordinated by the Med

148 also supported and partly funded by UCLH/UCL Biomedical Research Centre and The Royal Marsden and Ins

149 National Institute for Health Research Biomedical Research Centre at Guy's and St Thomas' Natio

150 ational Institute for Health Research (NIHR) Biomedical Research Centre at King's College London.

151 arch (NIHR) Biomedical Research Centre, NIHR Biomedical Research Centre at South London and Maudsley

152 tion, National Institute for Health Research Biomedical Research Centre at the University Hospitals B

153 itute of Health Research in part through the Biomedical Research Centre at University College London

154 (NIHR) School of Primary Care Research, NIHR Biomedical Research Centre Oxford, NHS England.

155 NIHR Imperial Biomedical Research Centre, as part of the NIHR Health I

156 ational Institute for Health Research Oxford Biomedical Research Centre, Association of British Neuro

157 omedical Research Centre, NIHR Oxford Health Biomedical Research Centre, British Medical Association

158 e London Hospitals/University College London Biomedical Research Centre, Danish Innovation Foundation

159 llege National Institutes of Health Research Biomedical Research Centre, Foundation for Innovative Ne

160 Research University College London Hospitals Biomedical Research Centre, Health Data Research UK.

161 ence, National Institute for Health Research Biomedical Research Centre, NHS England.

162 ational Institute for Health Research (NIHR) Biomedical Research Centre, NIHR Biomedical Research Cen

163 Wellcome Trust, NIHR Oxford Biomedical Research Centre, NIHR Oxford Health Biomedica

164 idemic Preparedness Innovations, NIHR Oxford Biomedical Research Centre, Thames Valley and South Midl

165 tute for Health Research (NIHR), NIHR Oxford Biomedical Research Centre, Thames Valley and South Midl

166 Or, Brava and Telles Foundation, NIHR Oxford Biomedical Research Centre, Thames Valley and South Midl

167 ational Institute for Health Research Oxford Biomedical Research Centre, UK Medical Research Council,

168 For affiliation 4, "NIHR Birmingham Biomedical Research Centre, University Hospitals Birming

169 onal Institute for Health Research Cambridge Biomedical Research Centre, Wellcome Trust, and European

170 nd Imperial College London, Imperial College Biomedical Research Centre, Wellcome Trust, and Rosetree

171 Institute for Health Research Oxford Health Biomedical Research Centre.

172 in Respiratory Infections and NIHR Imperial Biomedical Research Centre.

173 ational Institute for Health Research Oxford Biomedical Research Centre.

174 onal Institute of Health Research Nottingham Biomedical Research Centre.

175 ational Institute for Health Research Oxford Biomedical Research Centre.

176 titute for Health Research, Imperial College Biomedical Research Centre.

177 Institute of Health and Research Manchester Biomedical Research Centre.

178 om five collaborating hospitals hosting NIHR Biomedical Research Centres in the UK (all tertiary cent

179 cknowledgements, "NIHR Oxford and Birmingham Biomedical Research Centres" and "the Department of Heal

180 " were incorrectly presented as "NIHR Oxford Biomedical Research Centres" and "the Department of Heal

181 d the National Institute for Health Research Biomedical Research Centres.

182 stable toward proteolysis are of interest in biomedical research, chemical biology, and biomimetic ma

183 d papers into three disciplinary categories (biomedical research, clinical medicine, and public healt

184 sing quality and quantity of imaging data in biomedical research comes the demand for computational m

185 offers a platform in which the chemistry and biomedical research communities can access a comprehensi

186 espite great interest from the chemistry and biomedical research communities.

187 ings deserve much broader recognition by the biomedical research community and are highlighted here,

188 Here, we describe how members of the biomedical research community can use GDV and the relate

189 APAatlas will help the biomedical research community elucidate the functions an

190 four erroneous beliefs that may prevent the biomedical research community from recognizing the need

191 n steadily since they were introduced to the biomedical research community in the late 1970s, and we

192 It has been a widely held notion within the biomedical research community that the reliable modulati

193 , and the new tools will greatly benefit the biomedical research community.

194 arrower in scope than the services governing biomedical research, comparison to existing internet-bas

195 n effort to ameliorate this devastation, the biomedical research complex has allocated billions of do

196 In the field of biomedical research, deconvolution analysis is applied t

197 s that make them uniquely suited for certain biomedical research, diagnostic and therapeutic applicat

198 ty research needs across the prostate cancer biomedical research domain, Movember conducted a landsca

199 ssue models of varying forms for therapeutic biomedical research, drug discovery, and disease modelin

200 of dendrimers, have immense applications in biomedical research due to their biological origin.

201 Detecting such genes is important in biomedical research, e.g. when identifying genes respons

202 It is critical to continue biomedical research efforts to address this pandemic, an

203 10 years have had a transformative effect on biomedical research, enabling the profiling and analysis

204 hways to new materials that are important in biomedical research, energy generation and storage, aero

205 The biomedical research enterprise depends on the fair and o

206 been raised about the sustainability of the biomedical research enterprise in the United States.

207 , and reduce illness and disability," the US biomedical research enterprise must directly confront th

208 forces and improve the sustainability of the biomedical research enterprise.

209 uals for a broader expanse of careers in the biomedical research enterprise.

210 roscopy and tomography techniques applied to biomedical research, especially the study on organism-le

211 ed variability hypothesis'); historically in biomedical research, females have been excluded for this

212 Bayesian networks have been broadly used in biomedical research fields, including disease risk asses

213 s of protein synthesis in the biological and biomedical research fields.

214 ards applications in healthcare, fundamental biomedical research, food safety and environmental monit

215 The rat is an important model organism in biomedical research for studying human disease mechanism

216 fish is fast becoming a species of choice in biomedical research for the investigation of functional

217 e, the project leaders are Despina Sanoudou (Biomedical Research Foundation of the Academy of Athens)

218 This article highlights biomedical research goals for the development of critica

219 This article highlights the biomedical research goals of providing the critical tool

220 This article highlights biomedical research goals providing critical tools neces

221 Biomedical research has a reproducibility problem since

222 As biomedical research has evolved over the past century, t

223 ty of CRISPR-Cas endonucleases as a tool for biomedical research has led to diverse applications in g

224 storically, murine models of inflammation in biomedical research have been shown to minimally correla

225 nslational processes for technology-oriented biomedical research have led to some prominent and frequ

226 Recent advances in biomedical research have made massive amount of transcri

227 h decisions to restrict species diversity in biomedical research have not been data-driven and increa

228 The pig is recognized as a valuable model in biomedical research in addition to its agricultural impo

229 ngineered, characterized and used to advance biomedical research in Alzheimer disease (AD).

230 ng (HTS) is a vital automation technology in biomedical research in both industry and academia.

231 l Line stores and distributes cell lines for biomedical research in China.

232 The field is needed to advance cutting-edge biomedical research in domains in which the benefits to

233 nt annotation methods in order to facilitate biomedical research in epigenomics.

234 However, biomedical research in ferrets has been hindered by the

235 As biomedical research increasingly relies on computational

236 nal Primate Research Center (SNPRC) at Texas Biomedical Research Institute has maintained a large cap

237 and the model generated will greatly enhance biomedical research involving lineage tracing, the evalu

238 Improving the reproducibility of biomedical research is a major challenge.

239 Biomedical research is also focused on using these nanop

240 distinction between basic and translational biomedical research is an anachronism.

241 Biomedical research is at a critical juncture, with an a

242 The thesis presented here is that biomedical research is based on the trusted exchange of

243 Biomedical research is becoming increasingly data driven

244 Although data collected from biomedical research is expanding at an almost exponentia

245 affecting biomedical science, at a time when biomedical research is most sorely needed on multiple fr

246 ng contrast agents and their significance in biomedical research is presented.

247 A cornerstone of modern biomedical research is the use of animal models to study

248 A fundamental challenge of modern biomedical research is understanding how diseases that a

249 ntrinsically disordered proteins and current biomedical research, it contends that some results are i

250 sed metabolomics becomes more widely used in biomedical research, it is important to revisit existing

251 to the proper training of undergraduates in biomedical research laboratories.

252 e an important species for diverse fields of biomedical research, may be useful for developing human-

253 d functions in a variety of fields including biomedical research, medicinal chemistry, materials scie

254 today's environment of shrinking budgets for biomedical research, minimizing regulatory burden-partic

255 ogies offer new options for developing novel biomedical research models and for gene and stem cell ba

256 ning material derived from animal studies in biomedical research more visible and accessible to the s

257 creening deck at the Novartis Institutes for BioMedical Research (NIBR).

258 Mechanistic molecular studies in biomedical research often discover important genes that

259 However, biomedical research often involves analysis of time-to-e

260 hese may be used as a xeno-free platform for biomedical research or cell therapy.

261 hed analytical method that was first used in biomedical research over 20 years ago.

262 In biomedical research, participants are key among those st

263 ADCs is emerging as one of the frontiers in biomedical research, particularly in the area of cancer

264 omics platform will be broadly applicable in biomedical research, particularly where clinical specime

265 pient males that could be used as a tool for biomedical research, preservation of endangered species,

266 A refocused, dedicated, and intensive biomedical research program is needed targeting developm

267 A refocused, dedicated, and intensive biomedical research program is needed that targets the d

268 e reform while recognizing the importance of biomedical research, providers, and healthcare delivery

269 promote understanding of a host of important biomedical research questions for which hamsters are an

270 ith implications for many different areas of biomedical research, ranging from tumor evolution to dru

271 Biomedical research relies on the fast and accurate prof

272 Clinical and biomedical research seeks single-cell quantification to

273 But for biomedical research, sex remains largely under-reported

274 Biomedical research studies have generated large multi-o

275 Many biomedical research studies use captive animals to model

276 olymer-based nanodiscs are valuable tools in biomedical research that can offer a detergent-free solu

277 itis elegans is a valuable model organism in biomedical research that has led to major discoveries in

278 tion (NIH-OCC), a public access database for biomedical research that is made freely available to the

279 gration of genomics into almost all areas of biomedical research, the adoption of genomics into mains

280 Despite decades of clinical and biomedical research, the pathogenesis of sepsis and its

281 In addition to its applications in biomedical research, the rapid readout of our platform w

282 rical overrepresentation of male subjects in biomedical research, the US National Institutes of Healt

283 recently attracted considerable interest in biomedical research, there are currently few methods for

284 the increasing necessity of animal models in biomedical research, there is a vital need to harmonise

285 ealth issue and there is a critical need for biomedical research to develop effective and easily depl

286 It is increasingly common in biomedical research to have case-control (binary) respon

287 There is a continued desire in biomedical research to reduce the number and duration of

288 h-dimensional data are routinely employed in biomedical research to visualize, interpret and communic

289 am with the major goal of culture change for biomedical research training and training that prepares

290 Biomedical research training has undergone considerable

291 ast two decades have ushered in a new era of biomedical research, turning it into an information-rich

292 Biomedical research typically involves longitudinal stud

293 were processed at the Liberian Institute for Biomedical Research using a targeted-enrichment sequenci

294 use are critical for clinical management and biomedical research, which require advanced tools with a

295 has greatly advanced optical microscopy for biomedical research with superior sensitivity, resolutio

296 several applications of these nanoprobes for biomedical research, with a focus on intraoperative canc

297 The UK Biobank is a unique resource for biomedical research, with extensive phenotypic and genet

298 s system (CNS) has moved to the forefront of biomedical research, with the discovery that these two p

299 Antibodies are a key resource in biomedical research yet there are no community-accepted

300 es and cell types are extensively studied in biomedical research yielding to a significant amount of