ライフサイエンスコーパス: lab

1 D(neg)) patients subjected to around 700,000 lab tests cumulatively across 194 assays.

2 The protocolized POD 1 lab tests obtained as part of the postoperative order se

3 nd diffusion, independent of scale, using 1D lab-scale experiments enables prediction of long-term bu

4 cobalt phosphide (CoP) catalyst from 1 cm(2) lab-scale experiments to a commercial-scale 86 cm(2) pol

5 tigen testing, and who had at least 15 of 20 lab results within the window period, our model predicte

6 ccuracy in distinguishing between over 1,300 labs.

7 g in exhibition swine, resulting in over 450 lab-confirmed zoonotic infections since 2010.

8 times differed less than 7% (n = 3) across a lab-built system interfaced to mass spectrometry and a c

9 rules, based on our current experiences as a lab group adapting to crisis.

10 oil (VOO) processing, which was tested at a lab-scale pilot plant to evaluate its impact on the phys

11 ly, these findings are observed using both a lab-adapted and transmitted/founder strain of HIV.

12 uld help experimental scientists to design a lab experiment for further exploration of detail dynamic

13 We developed a lab-on-a-chip platform consisting of: (i) tandem-repeat

14 work do not require a physical presence in a lab and can be accomplished remotely.

15 on, e.g. for the experimental modelling in a lab of natural processes.

16 rotein samples (Gl-L and Gd-L) isolated in a lab scale from glandless and common glanded cottonseed m

17 this research, a new design of channels in a lab-on-a-chip device with flat electromembrane extractio

18 f the photothermal biosensing principle in a lab-on-a-chip format.

19 applied in portable analytical devices in a lab-on-a-chip format.

20 l data of Dunaliella viridis cultivated in a lab-scale photobioreactor (PBR) under various light (low

21 Some of these compounds were also found in a lab-scale preparation of cookies supplemented with the s

22 Robusta green coffee beans were roasted in a lab-scale roaster for different times in order to achiev

23 quality (<5.0 mg N L(-1)), was achieved in a lab-scale upflow membrane biofilm reactor (MBfR) by coup

24 This analytical concept is integrated into a lab-on-a-chip microfluidic cell that allows for a high s

25 What can researchers do to make a lab more resilient in the face of such exterior forces?

26 rm for Epilepsy Modelling In Vitro (MEMO), a lab-on-chip device, in which three hPSC-derived networks

27 t bacteria impaired arboviral infection of a lab-adapted Aedes aegypti mosquito strain.

28 e PR proteins and reduce haze formation on a lab scale, however the effect on wine sensory properties

29 We report a lab-on-a-chip immunosesnor for quantification of the inf

30 We report a lab-on-fiber nanoprobe with dual high-Q Rayleigh anomaly

31 When running a lab we do not think about calamities, since they are rar

32 cribe the joy of teaching methods, running a lab, and being a solo female.

33 tives of this study were to (1) build/test a lab-scale platform for screening of microbial VOCs and (

34 Starting your own academic lab is a wonderful opportunity to impact science through

35 d distributed by a diverse group of academic labs, multi-institution consortia and contract research

36 cal for comparison of untargeted data across labs.

37 biological groups, were inconsistent across labs.

38 gene, mcr-9, using a portable and affordable lab-on-a-chip (LoC) platform, offering a promising alter

39 es in bilaterians, which comprise almost all lab model animals.

40 both the nation-state-of-origin and ancestor labs, forming the foundation of an integrated attributio

41 tra-Poisson variation at aliquot, batch, and lab levels.

42 prediction accuracy of diagnostic codes and lab test imputations compared to the state-of-art method

43 jection analyzers, microfluidic devices, and lab-on-a-chip systems.

44 Combined field and lab results show that the photoautotroph community is an

45 in microseparation techniques like HPLC and lab-on-a-chip devices.

46 In four experiments, online and lab-based participants competed with a rival for influen

47 it from changes in both journal policies and lab practices that encourage mentored co-review and disc

48 the MS(2) analysis of ambient OA samples and lab-generated biogenic SOAs points to specific SOA precu

49 ored the prevalence of Sf-RV in its wild and lab-grown populations, as well as its ability to be depo

50 the field or resource-limited hospitals and labs to provide insightful assessments for research and

51 el, and this can be easily reproduced by any lab.

52 n collector is a tremendous resource for any lab that employs prep-HPLC methods.

53 ed software for sharing information, such as lab collections or genomic sequencing datasets.

54 Electrochemical biosensors and associated lab-on-a-chip devices are the analytical system of choic

55 e microbiology of such engineered systems at lab and field scales, little attention has been given to

56 There is a need for scalable automated lab-on-chip systems incorporating precise hemodynamic co

57 ion medicine, we propose a novel paper-based lab-on-a-chip to deliver a cost-effective and easy to us

58 ency (UHF) surface-acoustic-wave (SAW) based lab-on-chip (LoC).

59 y of superresolution microscopy data between labs.

60 Between-lab variation increased extra-Poisson variation to 3.4-f

61 mical biosystem in a pipette tip, namely bio-lab-on-a-tip.

62 h optimized experimental parameters, the bio-lab-on-a-tip is able to detect glucose linearly up to 10

63 coming increasingly widespread in biological labs.

64 field-selected larvae from India and in both lab-selected strains.

65 larvae from India was also detected in both lab-selected strains.

66 of absolute spectra ion intensities in both labs were less than 30%.

67 tood) production and analysis of WGS data by labs and agencies worldwide, thus improving outbreak res

68 Acoustic measures can be used by labs to describe USVs and compare data between groups, a

69 ative framework, we found that A. cahirinus, lab M. musculus, and wild M. musculus were primarily noc

70 Cath lab activation within 20 minutes across a geographically

71 nd the United States were stratified by cath lab activation time (first hospital arrival to cath lab

72 ity were independent factors of delayed cath lab activation.

73 Catheterization laboratory (cath lab) activation time is a newly available process measur

74 Median cath lab activation time was 26 minutes, with a delayed activ

75 Timely cath lab activation patients had shorter door-in door-out tim

76 ivation time (first hospital arrival to cath lab activation within [timely] or beyond 20 minutes [del

77 implemented in the pediatric catheterization labs of the C3PO-QI institutions.

78 ning pipeline that uses all uncurated chart, lab, and output events for prediction of in-hospital mor

79 omising for constructing microfluidic chips (lab-on-a-paper) for diagnostics and drug delivery for bi

80 o those produced by same assay in a clinical lab, where the RT-qPCR assay exhibited multiple invalid

81 endocrine, inflammatory and routine clinical lab markers, computerized neurocognitive testing, and sy

82 ace and technical requirements, few clinical labs specialize in DoSM compared to oncology.

83 ventually it will be implemented in clinical labs.

84 d clinical laboratory measurements (clinical labs) from blood plasma across several thousand mostly h

85 A variety of clinical labs have used molecular epidemiology to investigate tra

86 intellectual growth, such as journal clubs, lab meetings, and philosophy of science retreats.

87 analyzed by 2 blinded experts in a core CMR lab.

88 We do this by combining lab work and DFT calculations.

89 mputation time) and scalable to more complex lab-on-a-chip systems.

90 Mice were placed into comprehensive lab animal monitoring system (CLAMS) chambers throughout

91 We conducted lab manipulations and field measurements to test the eff

92 coming some of the drawbacks of conventional lab-based techniques.

93 ant and Animal products, dietary counseling, lab assessments, microbiome assessments (16S), and anthr

94 The PLEIADES device goes beyond the current lab-on-chip approaches that still require bulky external

95 we discovered that an independently derived, lab-selected Cry2Ab-resistant pink bollworm strain from

96 latform has been installed in NHS diagnostic labs, increasing testing capacity by 1000 samples per da

97 replicates, 57 were sequenced in 2 different labs, 87 underwent multiple library analyses, and 16 had

98 assess z-line architecture across different labs and experiments.

99 which students and scientists from different labs were asked to evolve Escherichia coli or Saccharomy

100 rings from five human experts from different labs, essentially duplicating human capability.

101 ene relationships across data from different labs, varying conditions and divergent species, to denoi

102 in billing code assignment, diagnosis-driven lab tests, and heterogeneous data types.

103 HIV+ participants and one HIV- control; each lab tested blinded batches of three frozen and one fresh

104 The multiplexable organic electronic lab-on-chip provides a statistically solid, reliable, an

105 We exposed lab raised beagles to varying densities of uninfected co

106 ient samples irrespective of DNA extraction, lab and sequencing protocols.

107 of a natural and a laboratory-in-the-field (lab-in-the-field) experiment in which we exploit data co

108 s of trust across a national survey and five lab experiments.

109 beams (Gaussian, focused and collimated) for lab-on-chip applications of Infrared, Raman and fluoresc

110 eceived much interest in the past decade for lab-on-a-chip applications, primarily preconcentration o

111 e monitoring and early-warning detection for lab and on-site applications.

112 achieves specific immunosensing purposes for lab-on-fiber technology.

113 g., oxygen-to-carbon ratio) are reported for lab and field studies.

114 The centrifuge is the gold standard for lab-based sample processing.

115 rn resulting in a steep entrance barrier for labs who are interested in high-throughput variant calli

116 This novel label-free 'lab on a disc' (LoaD) platform can successfully detect e

117 rs required to implement photochemistry from lab to scale.

118 rted to emerge, will aid the transition from lab-scale research to next-generation practical batterie

119 Her lab showed that differentiated T(H)1 and T(H)2 cells, wh

120 To assess how lab-scale incubation datasets inform model projections o

121 al and feasible for most preclinical imaging labs.

122 project turned them into a 'real' immunology lab!

123 defenses and their evolution in an important lab model.

124 to sexual maturity) makes it an impractical lab model and has prevented it widespread use in researc

125 In lab-scale experiments, STG showed pH-dependent removal k

126 1D silicon surfaces has many applications in lab-on-a-chip, micro/nano-fluidic devices, roll-to-roll

127 that increasing pCO(2) from 0.3 to 8 bar in lab-scale batch reactors decreased the maximum substrate

128 The (3)He enrichment relative to (4)He in lab air, expressed as the ratio R and normalized to the

129 phytomyxids in their plant and algal host in lab and field material.

130 if well-known features of motor learning in lab-based experiments generalize to a real-world task.

131 Here, we use experimental manipulations in lab-created networks to investigate how the temporal dyn

132 on to progeny worms during serial passage in lab colonies.

133 in response to high pressure is reported in lab animals and associated with pathological changes.

134 iencing a renaissance as a superreductant in lab-scale reductions driven by light, both for the degra

135 They are widely used in lab-on-chip devices for the manipulation, trapping, sepa

136 vel microRNA biosensors that have utility in lab-based biosensing and potential for disease diagnosti

137 se has been hindered by lack of realistic in-lab threat paradigms.

138 low optimization methods that reduced the in-lab TAT for GAS NAAT.

139 We incorporate lab-derived toxicity data for a common parasitoid, the b

140 reduced costs due to the need for increased lab replicates while maintaining high quality estimates.

141 uld not be supported here in two independent labs.

142 4 pesticides and analysed in two independent labs; a high correlation for the results with the R(2) o

143 o two batches and analyzed in two individual labs for untargeted GC-MS metabolomic profiling.

144 ity with a cyclotron on site and an industry lab purchasing [(18)F]fluoride from an outside vendor),

145 : (i) viral Tat proteins, (ii) an innovative lab-evolved TAR-binding protein, and (iii) an ultrahigh-

146 39 algorithms created by 77 machine-learning labs, who participated in the International Skin Imaging

147 o infer from its genetic sequence its likely lab of origin.

148 ere has been no analysis that directly links lab-scale experimental performance to capital and operat

149 ple preparation or purification step in many lab-on-a-chip diagnostic devices.

150 es, imposing considerable challenges to many labs.

151 that SmedTV is prevalent in S. mediterranea lab colonies, though without causing evident disease.

152 li-responsive materials and the microfluidic lab-on-a-chip technology, we also present the stimuli-re

153 ted microfluidic platform using microfluidic lab-on-a-disc (LOAD).

154 Time-integrated measurements from mobile lab visits to fixed-site monitors reveal modest correlat

155 effects have emerged across numerous models, labs, and disciplines.

156 extractions as part of a portable molecular lab setup.

157 To efficiently serve the multidisciplinary lab scientists with varied therapeutic portfolio researc

158 My lab has been studying aging and longevity regulation sin

159 My lab has focused on CYP2B enzymes using X-ray crystallogr

160 eye disease, glaucoma, and 10 years ago, my lab set out to develop a deeper understanding of myocili

161 ated glucose transporter, was identified, my lab observed that it was downregulated in adipocytes but

162 first describe what we have discovered in my lab so far.

163 ize the strategies that helped transition my lab from its infant shoes to a mature research environme

164 ics can be applied routinely in neurobiology labs to gain insights into normal and pathophysiological

165 euwland et al., eLife 7, e33468 (2018); nine labs, one experiment, and 2.6e4 observations].

166 No lab team can be prepared for something like a pandemic s

167 We report a novel lab-on-a-chip device integrating a multigate electrolyte

168 diamond appearing on the world market is now lab-grown.

169 while decreasing the application barrier of lab-on-chip systems.

170 lable data on the issue (~ 40,827 records of lab-analyzed field data from Japan, Russia, Vietnam, Mon

171 In a series of lab experiments (N = 767), acetaminophen reduced the inf

172 re, we present four co-crystal structures of lab-evolved TAR-binding proteins (TBPs) in complex with

173 However, the translation of lab-based innovation toward clinical use calls for furth

174 on the chip and promotes the versatility of lab-on-a-chip devices.

175 The number of labs now using iPSCs to generate photoreceptor, retinal

176 The shuttering of labs across nations during the COVID-19 pandemic created

177 hlamydia and gonorrhea were defined based on lab results in the electronic health record.

178 Initial estimates based on lab-scale electrochemical AOP treatment indicated that,

179 ce research tools are being used in hands-on labs.

180 d-selected populations from India and in one lab-selected strain from the United States (Bt4-R2).

181 h extant data from two followup studies (one lab, three experiments, and 1.2e4 observations).

182 behavioral tests currently used in humans or lab animals.

183 o integrate their data with those from other labs on a widely-used community browser platform with st

184 Our lab and others have previously shown that vIL-6 can indu

185 Our lab has developed a bioluminescence resonance energy tra

186 Our lab has developed a new series of self-immolative MR age

187 Our lab has focused on understanding the mechanisms underlyi

188 Our lab previously demonstrated that chronic cadmium exposur

189 Our lab recently identified the peptide epitope sequences on

190 Our lab recently uncovered that "tonic signals", which pass

191 Our lab shows that PEG-20k is an effective non-sanguineous,

192 In fact, our lab has built a tool that utilizes DNA methylation signa

193 However, recent work from our lab (Moehring et al., 2018) and others (Baumbauer et al.

194 Previous work from our lab has shown that TLR2 recognizes CDT to induce inflamm

195 Data from our lab implicate autoimmunity to the RNA binding protein (R

196 es, alcohols, organic acids) designed in our lab and then on various food matrices (wine, chicken, ch

197 Previous work in our lab has identified Kallikrein-8 (KLK8) as a potential ca

198 -resistant Staphylococcus aureus DNA) in our lab's "MD NAAT" platform, even in biplexed isothermal st

199 ta from a cell lysate study performed in our lab, (2) data from an interactome study performed in our

200 a from an interactome study performed in our lab, (3) a publicly available extracellular vesicles dat

201 In our lab, a stripline NMR detector has been developed, which

202 Using standards synthesized in our lab, four TX transformation products (GM: 34.8 ng/g) wer

203 plet microfluidic technique developed in our lab, Sorting by Interfacial Tension (SIFT), to isolate c

204 Indeed, our lab has identified a number of brain epigenetic alterati

205 ased in participant with SCA compared to our lab normal values (mean 0.44 +/- 0.08 vs 0.26 +/- 0.02,

206 Immunogenicity studies in our labs have shown that a Th1-biased seroconversion to both

207 g to establish an FPOP platform in their own lab but also for those willing to incorporate FPOP as an

208 prepared and employed by each participating lab following the same protocol.

209 or match very closely with the standard path-lab tests while detecting unknown level of amylase in se

210 The existence of a new phototrophic lab strain allows researchers to compare the GSR across

211 the complexity of an organism's physiology, lab-on-a-chip platforms provide a suitable primary model

212 uld we adjust in 'normal' times that promote lab success, and increase the chances that the lab will

213 The proposed lab-on-fiber nanoprobes will pave the way for realizing

214 describes these key numbers for prototypical lab-adapted strains of the human influenza A virus.

215 , the other (n=167) using conventional rapid lab-based assay.

216 sing is an attractive approach for realizing lab-on-fiber nanoprobes.

217 Recently, labs have applied whole-genome sequencing (WGS) to inves

218 yet this is studied mostly in reductionistic lab-based experiments.

219 d significant complexities related to remote lab management and ongoing research.

220 Traditional training protocols require lab personnel to move the animals between home cages and

221 ctioning and productive member of a research lab.

222 nt and intellectual challenges of a research lab.

223 ptical trapping technology from the research lab to the field.

224 urther, our rules can be useful for research labs generally and can help foster a more flexible and i

225 ology is transitioning quickly from research labs to clinical settings.

226 a choice condition where a low-value reward (lab chow) was freely available as an alternative to pres

227 Routine lab data regarding the secondary causes of portal vein t

228 GBq; range, 2.8-3.7 GBq); afterward, safety lab tests, prostate-specific antigen (PSA) response, and

229 In this work, a new, highly sensitive lab on a chip (LOC) immunoassay has been designed, devel

230 sured using four different QVOAs at separate labs, estimating assay precision and the effect of froze

231 hat facilitate data sharing among sequencing labs can help to address this challenge.

232 such as COVID-19, which has led to shuttered labs around the globe.

233 s developed using 5,070 images from a single lab, and tested on an uncurated set of 13,537 images fro

234 uires well-equipped laboratories and skilled lab personnel.

235 animal cohorts from three independent sleep labs, and achieved average agreement rates of 99%, 98%,

236 the era of the COVID19 epidemic, when sleep labs were closed and most studies were home based.

237 tudy containing consecutively selected sleep-lab subjects underwent full polysomnography.

238 For small labs and individual researchers, however, storage and tr

239 ess and finance; engineering and technology; lab sciences, environmental health, and biomedical scien

240 gh aeration inhibited the NOB in a long-term lab-scale reactor.

241 n uncurated set of 13,537 images from 3 test labs, using whole slide scanners manufactured by 3 diffe

242 collaboration with an NHS diagnostic testing lab, we report the performance of the overall workflow a

243 (RT-qPCR) assay performed in a state testing lab, and superior to those produced by same assay in a c

244 ny other types of crises can also arise that labs may have to weather during their lifetime.

245 The lab's first research paper appeared in the Journal of Ne

246 The lab-made molecularly imprinted polymers (MIP), selective

247 The lab-made Si(PGDMS) sorbent was physicochemically and mor

248 This study encompassed the lab-scale fermentation of cocoa beans in 300-g heaps und

249 that you can use your forced exile from the lab to produce better future experiments by dissecting y

250 pire bats (Desmodus rotundus) moved from the lab to the wild.

251 ng complex patterns of covariation (e.g. the lab-derived avGFP lineage).

252 echnology that was recently developed in the lab (Technology Readiness Level 4).

253 phototropic response of cry1 mutants in the lab and in response to natural canopies depends on PHYTO

254 sistance at inhibitory concentrations in the lab and in the clinic.

255 iability and recovery of EOS bacteria in the lab by diminishing oxygen toxicity.

256 nitoring kit showing how efficiencies in the lab can be gained with very little experimental and mone

257 ed by sulfate-reducing bacteria grown in the lab in the presence of a hydrocarbon source, as well as

258 gold standard behavioral measurements in the lab or clinic and the large-scale, high frequency assess

259 participant samples than is possible in the lab, the uncontrolled online environment has prohibited

260 In the lab, this often takes the form of multiple searches for

261 cells taken from a patient and grown in the lab, to probe tumor heterogeneity, with potentially thou

262 on-going thoughts people experienced in the lab.

263 ial environments over long timescales in the lab.

264 fiers have been proposed and realized in the lab.

265 the wild and heterologous expression in the lab.

266 ful when pathogens cannot be cultured in the lab.

267 eting possibilities of implementation of the lab-on-chip devices has been discussed.

268 te the implementation of dPCR outside of the lab.

269 them, and often cannot be shared outside the lab due to medical regulations.

270 b success, and increase the chances that the lab will stay on its trajectory?

271 ss)], and placed on ice for transport to the lab for centrifugation.

272 ments you're planning for your return to the lab.

273 s annotated reproducibly, independent of the labs.

274 ntists being physically separated from their labs.

275 valuable given the associated costs of these lab tests.

276 In this lab-scale study, we present the temperature swing adsorp

277 ent of DMF have pushed the barriers of this "lab-on-chip" technology.

278 ology provides an additional set of tools to labs interested in studying the physiological function o

279 252 patients were identified with 8205 total lab test values.

280 uld be a promising substitute of traditional lab-based techniques for the detection and quantificatio

281 Two lab-based experiments were designed to examine the effec

282 The two labs used the same silylation sample preparation protoco

283 ty effects have primarily been studied using lab experiments for specific attributes, and the financi

284 crofluidics can be hybridized into versatile lab-on-chip devices.

285 cleaning verification, it is mostly done via lab-based quality control techniques.

286 Current wet lab techniques used for this purpose, such as gene knock

287 etting, imputation helps avoid costs for wet lab-based HLA typing and thus renders association analys

288 ces, including one that was validated by wet-lab experiments.

289 rank the endpoints for testing and guide wet-lab experiments.

290 idation of results via easy, inexpensive wet-lab methods.

291 challenging and time-consuming for most wet-lab biologists.

292 man papillomaviruses (PVs) from targeted wet-lab approaches has traditionally used PCR-based methods

293 not) to be quantitatively similar to the wet-lab validation targets, which are elevated plasma ALT va

294 As high-throughput wet-lab settings are often costly and face various challenge

295 combining dynamic oral bioaccessibility with lab-on-valve (LOV)-based sorptive microextraction is her

296 Combined with lab tests, these features constitute the first-line diag

297 Household contacts with lab-confirmed SARS-CoV-2 infection reported mild symptom

298 Infection with lab and clinical strains engendered cytotoxic amyloids t

299 onsecutively by non-random sampling PWH with lab-confirmed COVID-19, diagnosed at their facilities be

300 In previous work, lab-scale reactors designed to study microbial Fe(II) ox