ライフサイエンスコーパス: analytical method

1 e analyzed using a stability indicating HPLC analytical method.

2 xposing such food frauds requires a reliable analytical method.

3 cted during development and validation of an analytical method.

4 al and requires novel study designs and data analytical methods.

5 Only five studies used optimum analytical methods.

6 ric electronic tongue (VE-tongue) coupled to analytical methods.

7 harides in studied fruits were determined by analytical methods.

8 dvantages with regard to previously reported analytical methods.

9 a feature cannot achieved by other available analytical methods.

10 nd differences in performance of alternative analytical methods.

11 to their measurement using widely practiced analytical methods.

12 ires the development of simple and effective analytical methods.

13 the need for sample preparation or laborious analytical methods.

14 ontent) was performed using state-of-the art analytical methods.

15 marily lacking validation of the appropriate analytical methods.

16 have been fully characterized using standard analytical methods.

17 epresents a challenging task for traditional analytical methods.

18 rrazi and Zalmati, were characterised by two analytical methods.

19 d limit of detection constraints of previous analytical methods.

20 s of a mAb continuously with various PAT IEX analytical methods.

21 simplicity of use with respect to classical analytical methods.

22 43)Am concentrations determined with the two analytical methods.

23 xidized lipids has been limited by available analytical methods.

24 ck of appropriate biomarkers of exposure and analytical methods.

25 human exposure by complementing traditional analytical methods.

26 trol organisms are urged to develop suitable analytical methods able to avoid food safety incidents r

27 Using this analytical method, added cholesterol and sphingomyelin,

28 stly, we provide a comprehensive overview of analytical methods and approaches to study activity and

29 Here, we develop analytical methods and evolutionary simulations based on

30 mainly due to the lack of more comprehensive analytical methods and instrumentation able to deal with

31 , genotyping, and phenotyping, and ending in analytical methods and interpretations.

32 was underscored with a wide range of further analytical methods and recycling tests.

33 aterials, proficiency testing schemes, other analytical methods and relevant references.

34 Recent developments have focused on analytical methods and statistical approaches to test si

35 (versus 4+hours for conventional laboratory analytical methods) and a cost of approximately one doll

36 Using finite-element models, supported by analytical methods, and a heuristic optimization scheme,

37 clear definitions of boom-bust, appropriate analytical methods, and careful interpretations.

38 rences of HOCs between polymers, calibrating analytical methods, and consistency checking of existing

39 he impact of metformin exposure definitions, analytical methods, and patient selection on the estimat

40 The analytical method applied was direct liquid injection in

41 ere low and below the detection limit of the analytical method applied.

42 In this study, analytical methods are applied to a coupled oscillator m

43 Different analytical methods are available to quantitatively ident

44 Advantages and limitations of both analytical methods are contrasted in the context of RIPF

45 Proper extraction and analytical methods are critical for quantification.

46 n efficiently, rapid and easy-to-use on-site analytical methods are needed.

47 der to protect allergic consumers, sensitive analytical methods are required for detect allergen trac

48 Additionally, sensitive analytical methods are required to detect small changes.

49 m unconjugated oligonucleotides, appropriate analytical methods are required to identify main cleavag

50 However, to exploit this potential, novel analytical methods are required, capable of discovering

51 Current antidoping analytical methods are tailored mainly to the targeting

52 itates the use of complementary hydrodynamic analytical methods as the only means for a complete stru

53 es, were used to assess the potential of the analytical methods as well as to find the proper approac

54 acid levels, obtained from the contemporary analytical methods, as the actual blood glutamine level

55 Additional modifications as well as new analytical methods available for MWL data have since bee

56 However, currently, there are no analytical methods available to unambiguously prove chlo

57 on the doping level is well described by an analytical method based on an electron-counting rule.

58 An analytical method based on enzymatic extraction with sub

59 This study developed an analytical method based on microwave-assisted extraction

60 Here, we introduce a new analytical method based on sedimentation velocity (SV) a

61 Analytical methods based on mass spectrometry (MS) have

62 Analytical methods based on populations with arbitrarily

63 their low volume requirements and rapidity, analytical methods based on this effect have considerabl

64 However, the current analytical methods (based on spectroscopy) for the detec

65 Driven by major scientific advances in analytical methods, biomonitoring, computation, and a ne

66 is guaranteed not only by highly performing analytical methods, but also by knowledge of metabolic p

67 e objective of this study was to validate an analytical method by LC-MS for simultaneous determinatio

68 ting of the submicrometer particles, and the analytical method can also be extended to predict the pa

69 The developed analytical method can be used for the routine monitoring

70 logy, mechanics, and motility with these new analytical methods can be useful as markers for diagnosi

71 Analytical methods can offer insights into the structure

72 To address this challenge, we introduce an analytical method capable of multiplexed steroid quantif

73 d exposure assessment, a rapid and sensitive analytical method capable of quantifying 1,4-dioxane ove

74 lting in an increased emphasis on developing analytical methods capable of detecting modifications wi

75 has prompted the development of nontargeted analytical methods capable of detecting new perfluoroalk

76 nt health has created a significant need for analytical methods capable of rapidly identifying intera

77 as water pollutants yet, due to the lack of analytical methods capable to detect them.

78 An analytical method comprising a solid phase extraction pr

79 This analytical method could therefore support the food indus

80 w that, when applied to end-sequencing data, analytical methods designed for global RNA-seq produce c

81 making it the method of choice for focusing analytical method development or fate and effect testing

82 Standard analytical methods discard such multi-mapping reads and

83 y evaluation of values, guidelines to assess analytical methods, document and data repositories and t

84 Current analytical methods, either point-of-care or centralized

85 Among other analytical methods, electrochemical approaches have been

86 100 can be used to assess the performance of analytical methods employed in the mandatory monitoring

87 l consideration, including the improved data analytical methods, environmental exposure assessment, a

88 food components come into prominence, and as analytical methods evolve, the activities of INFOODS wil

89 Moreover, our newly established analytical method exhibited good sensitivity, limit of d

90 vity to SO4 mass demonstrating that this new analytical method expands the analytical range of (35)SO

91 investigated to develop accurate and precise analytical method for (87)Sr/(86)Sr determination.

92 was to develop a simple, specific and rapid analytical method for accurate identification of calpain

93 nd finally a sensitive streamlined SRM based analytical method for allergens detection in incurred co

94 We also introduce a novel analytical method for an objective assessment of the mig

95 We present a new analytical method for analyzing large amounts of BaSO4 f

96 mass spectrometry (LC-MS/MS) is an important analytical method for characterization of post-translati

97 ds (GLs) has recently emerged as a promising analytical method for detecting protein-GL interactions

98 we address a simple, rapid and quantitative analytical method for detection of different proteins pr

99 We propose a simple, rapid analytical method for determination of 89 pesticides in

100 the new SPME probes were used to validate an analytical method for determination of banned doping sub

101 The aim of this work was to develop a new analytical method for determining five isoflavone compou

102 An ultrasensitive analytical method for direct detection of single nanopar

103 A new analytical method for direct determination of total oxyg

104 This work presents an analytical method for evaluating 15 steroid hormones in

105 In this paper a simple and rapid analytical method for free and total sulfur dioxide dete

106 Here we present a novel yet simple analytical method for highly sensitive and specific dete

107 This new analytical method for measuring active AFB1 is low in co

108 A-LC-HRMS but also as a generic quantitative analytical method for other hIgG isotypes or next genera

109 thods and provide laboratories with a simple analytical method for quantifying common microplastics i

110 We have developed a simple analytical method for quantifying the transduction of sy

111 We describe a simple analytical method for quantifying transduction under res

112 We present an analytical method for quantifying transductional differe

113 aims to employ an (18)O-isotope ratio-based analytical method for quantitative estimation of CA acti

114 holds great insterest in establishing robust analytical method for S. aureus.

115 reliable, simple, rapid and high-throughput analytical method for the detection and quantification o

116 The aim of this research was to validate an analytical method for the determination of FFAs in beer.

117 A simple, efficient and green analytical method for the determination of free nucleoti

118 A rapid and accurate analytical method for the determination of three Alterna

119 we describe a rugged, precise, and accurate analytical method for the determination of three OC meta

120 This study aimed to develop an analytical method for the determination of tryptophan an

121 a powerful and potentially widely applicable analytical method for the investigations of organic mate

122 Here we propose and demonstrate a new analytical method for the noninvasive measurement of sub

123 and validated, in order to achieve the ideal analytical method for the quantification of cholesterol

124 ermine the performance characteristics of an analytical method for the quantification of inorganic ar

125 ty of using this technique as an alternative analytical method for the quantification of total pigmen

126 A simple analytical method for the quantitative determination of

127 An analytical method for the simultaneous determination of

128 rapid, cost-effective and offers a sensitive analytical method for virus detection in water resources

129 n clarifying reaction mechanisms, developing analytical methods for both liquid and gas phases, and i

130 Currently, the available analytical methods for characterizing the products of CO

131 Analytical methods for cholesterol evaluation in foods a

132 To address this limitation, we present analytical methods for designing origami-based closed-lo

133 Analytical methods for detection and quantitation of chl

134 We have proposed two analytical methods for estimating the degree of acclimat

135 microheterogeneities that requires multiple analytical methods for full structure assessment and qua

136 als to support the validation of new routine analytical methods for iodine in foods and dietary suppl

137 e principles, merits and demerits of various analytical methods for lactate determination with specia

138 In past decades, a multitude of analytical methods for measuring antioxidant activity of

139 nalysts adopt highly sensitive and selective analytical methods for monitoring as well as assuring th

140 Due to a lack of suitable analytical methods for nitrite determination, this study

141 try and regulators require fast and reliable analytical methods for quality control.

142 Here, this study shows that analytical methods for studying bonding, based on the el

143 The surge in development of analytical methods for such data makes it crucial to dev

144 elded the development and improvement of new analytical methods for the analysis of environmental sam

145 However, required analytical methods for the simultaneous measurement of t

146 dented LOD compared with previously reported analytical methods for TNT detection.

147 resource efficient, when compared to current analytical methods for tumor-targeting drug analysis suc

148 mber of example studies, discuss appropriate analytical methods given the complex data they generate

149 A simple and sensitive analytical method has been developed employing gas chrom

150 A novel analytical method has been developed for the determinati

151 hromatography-mass spectrometer (UPLC-MS/MS) analytical method has been developed for the separation,

152 An analytical method has been developed to determine seleno

153 This new analytical method has the same efficiency of the traditi

154 The use of nonstandardized analytical methods has contributed to this lack of clari

155 The development of molecular analytical methods has enabled finer levels and more pre

156 Modern analytical methods have advantages over conventional met

157 Multiple analytical methods have been designed for the determinat

158 Quite a few analytical methods have been developed to facilitate alt

159 Several analytical methods have been proposed for analyzing Tn-S

160 proaches, study designs, and statistical and analytical methods have emerged for studying gene-enviro

161 was detected by two independent pyroelectric analytical methods: (i) periodic temperature change tech

162 eloped with the aim to standardize a nitrite analytical method in by-products from sugar industry.

163 r the development of greener high-throughput analytical methods in food analysis using solid phase mi

164 ology and (iii) to facilitate development of analytical methods in this field.

165 being used to construct biosensors and other analytical methods in various fields of science.

166 I a general introduction to biological-based analytical methods including bioassays, biosensors, MFCs

167 An introduction to biological based analytical methods, including bioassays and biosensors,

168 advances in both experimental profiling and analytical methods involving N- and O-linked glycosylati

169 This analytical method is broadly applicable to study membran

170 A novel analytical method is presented whereby Direct Analysis i

171 In the present study, a simple analytical method is proposed for determining tryptophan

172 The analytical method is selective, accurate, repeatable, li

173 While the precision of the presented analytical method is somewhat limited by the use of noni

174 gical record, the application of noninvasive analytical methods is a necessity.

175 The development of proper analytical methods is therefore essential to protect con

176 gulations, development of valid and reliable analytical methods is very much required.

177 Despite significant advances in analytical methods, it is still not possible to measure

178 The TOF-SIMS data was combined with a second analytical method, LA-ICPMS, which was used to analyze e

179 Our newly developed fentanyl vaccine and analytical methods may assist in the battle against synt

180 Here, we developed a novel analytical method, MIGWAS, to comprehensively evaluate e

181 and known or suspected detection gaps in the analytical method, most of which were related to insuffi

182 Current analytical methods mostly rely on gas chromatography (GC

183 ve oil samples was performed using different analytical methods, namely liquid chromatography (LC) co

184 eloped bioprofiling is a step forward to new analytical methods needed to inform on the true product

185 A new analytical method needs to be developed in order to gain

186 Moreover, the novel analytical method of using 2D plasmonic nanoparticle as

187 We applied novel analytical methods of plasma glucagon (sandwich ELISA an

188 Electrochemical-based analytical methods offer an effective, rapid, and simple

189 this statement, bio-sensing, as a sensitive analytical method, opens novel avenues in biological asp

190 With the developed robust analytical method, our study provided the first insight

191 Coordinated protocols and new analytical methods, particularly the use of exact sequen

192 Variability among conventional analytical methods presents challenges for comparing clo

193 The analytical method proposed allowed a high polyphenolic c

194 e microfluidic platform with a computational analytical method, Proteolytic Activity Matrix Analysis

195 Our analytical method provides a powerful means to identify

196 This new analytical method provides direct, spectroscopic detecti

197 e method simplifies the execution of digital analytical methods providing for more accessible use of

198 Most analytical methods rely on reversed-phase liquid chromat

199 tegy, HIFU-TiO2-SCX-LC-MS/MS, is the fastest analytical method reported to date for generating large-

200 Dynamic analytical methods revealed a decrease in ester and dime

201 ection of biosignatures strongly depended on analytical methods, successful with FTIR and EDX but not

202 global scale remain largely unknown, but new analytical methods such as high-resolution mass spectrom

203 Conventional single cell analytical methods, such as flow cytometry for cellular

204 man imaging spectroscopy is a nondestructive analytical method that can be a useful tool to obtain de

205 In this study, we developed a new analytical method that combines magnetic molecularly imp

206 troscopy/microspectroscopy is an established analytical method that was first used in biomedical rese

207 This places a high demand on analytical methods that afford comprehensive structural

208 This has raised the need for analytical methods that can both perform rapid sample an

209 ynamically changing systems due to a lack of analytical methods that can rapidly report free-metal co

210 The feature of our newly developed analytical methods that coupled sample pre-treatment (sa

211 Here, we describe novel analytical methods that directly quantify the stimulus-d

212 The last part covers various analytical methods that enable a thorough examination of

213 this drives signaling, we have used advanced analytical methods that enable separation of effects on

214 study should be important for developing new analytical methods that exploit the fluorophore ORF and

215 ctal organization according to six different analytical methods that included Power Spectrum, Enright

216 o investigating mycolylation rely on arduous analytical methods that occur outside the context of a w

217 creasingly being questioned, and advances in analytical methods that provide robust non-clinical data

218 The development of analytical methods that respond to the emerging need to

219 neurophysiological experimentation, enabling analytical methods that were previously unachievable usi

220 We find, using continuum analytical methods, that the point of curvature binds an

221 Here we have devised a hybrid computational-analytical method to accomplish this task, the SYStems-b

222 orange proteome but also present a reliable analytical method to assess quality and genuineness of c

223 Thus, a qualitative analytical method to detect Aspergillus flavus in food s

224 This work developed an analytical method to differentiate conventional and omeg

225 Here, using a sensitive MS-based analytical method to measure the hydrogen/deuterium exch

226 The aim of this work was to develop an analytical method to predict total anthocyanins content

227 ty of NIRS as a fast, reliable and effective analytical method to provide nutritional information of

228 ribe the development and validation of a new analytical method to quantify iodine as iodide (I(-)) us

229 to develop a rapid, sensitive, and specific analytical method to study vitamin K1 in fruits and vege

230 The development of new analytical methods to accurately quantify hydrogen perox

231 d cell culture models were combined with new analytical methods to assess the effects of small molecu

232 ncentrations, the dynamic range of available analytical methods to capture this variance is generally

233 Here we discuss analytical methods to characterize IDPM, evaluate inform

234 Next-generation sequencing and analytical methods to define clonal heterogeneity provid

235 e spectroscopy, was used in conjunction with analytical methods to define the reaction steps mediated

236 e a stepwise approach that relies heavily on analytical methods to demonstrate through a "totality of

237 lization microscopy (SMLM) with quantitative analytical methods to describe the epigenetic landscape

238 rovide a brief overview of other imaging and analytical methods to detect neurotransmitter activity,

239 Fast and efficient analytical methods to determine the concentrations of la

240 5) use a combination of modern recording and analytical methods to eavesdrop on this process.

241 s offer new possibilities for development of analytical methods to enable quantification of clinicall

242 EU regulation requires validated analytical methods to ensure the verification of complia

243 However, there is a lack of analytical methods to identify significant mediators for

244 y (FBDD) is contingent on the development of analytical methods to identify weak protein-fragment non

245 combining inferences derived from two unique analytical methods to inform decisions related to risk-b

246 scopy and cyclic voltammetry were used as an analytical methods to optimize and measure analytical pe

247 how to allocate scarce resources require new analytical methods to quantify fine-grained heterogeneit

248 interaction data necessitates development of analytical methods to recover the underlying 3D spatial

249 ng demand for rapid, sensitive, and low cost analytical methods to routinely screen antibiotic residu

250 ns with regard to RNA loading into exosomes, analytical methods to sort exosomes and their sub-popula

251 We then apply the analytical methods to the anatomical brain networks of h

252 r, as a result of the limitations of current analytical methods, until now, there has been no procedu

253 The analytical method used works accurately within the pertu

254 Current analytical methods used to quantify the penicillin G in

255 und in nature and provide an overview of the analytical methods used to quantify these effects.

256 modality and address some of the more common analytical methods used with this data.

257 We derive an analytical method using a spatial Fourier transformation

258 This simple, sensitive analytical method using ITO and SSEBS-ITO could be appli

259 This analytical method using surface-enhanced Raman spectrosc

260 Furthermore, an analytical method using ultra performance liquid chromat

261 Cross-validation with multiple analytical methods using the data of this training set i

262 A robust analytical method, using reversed phase high-performance

263 The proposed analytical method was applied for monitoring the furan c

264 For robustness, the analytical method was applied to determine the activity

265 A fast and simple analytical method was developed and characterized for th

266 An analytical method was developed and validated for the de

267 the four species, a mass spectrometry-based analytical method was developed that exploits three spec

268 The analytical method was found to measure the MIDs of 97 me

269 The analytical method was satisfactorily characterized in wh

270 The analytical method was then applied to 291 food samples f

271 In addition, an image-based analytical method was used to quantify the synaptic conn

272 The developed analytical method was validated by determining the conce

273 The analytical method was validated by the analysis of the R

274 The analytical method was validated in-house by calibration,

275 present study, a comparison of five peroxide analytical methods was performed using oxidized ghee.

276 cestral state inferring, and diversification analytical methods was used to infer the early evolution

277 nsive time-calibrated phylogenies with a new analytical method, we illustrated drastically different

278 All parameters of the validated analytical method were within AOAC and ANVISA limits.

279 Two analytical methods were applied to the GAW19: GWA using

280 and 15 min before fluorescence scanning) two analytical methods were developed/validated.

281 vitamin D2 and 25(OH)D3 and documentation of analytical methods were observed.

282 ets were used as discovery datasets and meta-analytical methods were used to assess gene effects in t

283 Rapid analytical methods were used to categorise the base cide

284 Pair-matched analytical methods were used to determine whether statis

285 tudied, including four studies using optimum analytical methods, were followed by reductions in pesti

286 atient selection and appropriate statistical analytical methods when studying medication exposure and

287 ysis of other red wine molecules or to other analytical methods where anthocyanins may interfere.

288 Furthermore we introduce a bit-by-bit analytical method which is agnostic to the specific appl

289 y spectrometry (IMS) is a fast and sensitive analytical method which operates at the atmospheric pres

290 y software) - a novel machine learning-based analytical method, which identifies, quantifies and clas

291 An analytical method, which involves a continuous spectroph

292 We use a highly sensitive analytical method, which is capable of separating over 7

293 entially, partly due to development of novel analytical methods, which are applied to a variety of MR

294 The successful application of this analytical method with almonds demonstrates its potentia

295 We combined traditional analytical methods with hydrogen/deuterium exchange mass

296 onstituents have been determined by multiple analytical methods with measurements at NIST and at the

297 By combining analytical methods with Rigorous Coupled-Wave Analysis,

298 Therefore, simple, viable and analytical methods with sufficient sensitivity can becom

299 they also highlight the importance of using analytical methods with very high spatial and mass resol

300 We used Bayesian analytical methods (with a margin of 0.07) to evaluate t