ライフサイエンスコーパス: calibration curve

1 ectrometry-based assay utilising a universal calibration curve.

2 use of calibrants, internal standards, or a calibration curve.

3 two alcohols without a priori knowledge of a calibration curve.

4 d dose to the blood agreed with our in vitro calibration curve.

5 nts of sunitib, as determined by an averaged calibration curve.

6 ioxidant, allowing for the construction of a calibration curve.

7 rformed well, as assessed by the c-index and calibration curve.

8 recombinant galectin-3 protein to generate a calibration curve.

9 lculated "by difference" from the scattering calibration curve.

10 analytical chemistry to select the adequate calibration curve.

11 selection of the adequate model used as the calibration curve.

12 ed, species-specific specimens for forming a calibration curve.

13 y of the target molecule against an external calibration curve.

14 e nanopore geometry and size or generating a calibration curve.

15 the ISCC instantly without using an external calibration curve.

16 ssessed by concordance index (c-index) and a calibration curve.

17 f the peak maximum) leading to any number of calibration curves.

18 which eliminated the need for predetermined calibration curves.

19 allows for quantitative assessments based on calibration curves.

20 tal analysis stage, requiring matrix-matched calibration curves.

21 coside and kaempferol) were quantified using calibration curves.

22 erted into concentration values by preloaded calibration curves.

23 alth Index by increasing the accuracy of the calibration curves.

24 luated using concordance index (C-index) and calibration curves.

25 hin the 2 x 2 array were monitored to create calibration curves.

26 based on isotopic ratios and do not involve calibration curves.

27 ly-Leu-Pro-Gly-Lys was selected to construct calibration curves.

28 an internal standard combined with external calibration curves.

29 s allowing the establishment of architecture calibration curves.

30 residues to be quantified, based on solvent calibration curves (154 residues using UPLC-MS/MS and 71

31 The qualified calibration curve (accuracy within 8% and 2% for measuri

32 G-quadruplex TBA aptasensor with good linear calibration curve, accuracy, precision, and recovery was

33 For all analytes, neat standard calibration curves, after correction for matrix effect w

34 rane surface area of the sample added, and a calibration curve allows for the quantification of a var

35 n ranging from 1-6g/L (yielding R(2)=0.98 in calibration curves) along with aPTT from frequency and d

36 Method validation showed linearity of calibration curves (alpha = 0.05).

37 nd validation cohorts as reflected by smooth calibration curves analyses and a root mean square error

38 guidelines, in conjunction with an empirical calibration curve and a machine learning-based adaptive

39 ment between such an experimental, empirical calibration curve and a synthetically generated one, on

40 ntext of uncertainty in the radiocarbon date calibration curve and archaeological sampling.

41 eptide IGNIS kit which establishes a 6-point calibration curve and determines the biomarker concentra

42 need of preparation of multisample external calibration curve and dilution of study samples.

43 approaches of one-sample multipoint external calibration curve and isotope sample dilution were evalu

44 this work, a one-sample multipoint external calibration curve and isotope sample dilution, both usin

45 on extraction efficiency, as well as linear calibration curve and limit of detection.

46 39)Ar ages for refining both the radiocarbon calibration curve and the Late Pleistocene time-scale at

47 ips were recognized between the slope of the calibration curve and the number of double bonds of the

48 ned spectrophotometrically using an external calibration curve and values determined using a standard

49 The impact of the chemical reaction on the calibration curves and apparent selectivity of ISE is di

50 Preparation of multisample external calibration curves and dilution of study samples are cri

51 We used pure MMC (Medisca Inc) to generate calibration curves and sulfanilamide as an internal stan

52 ons were found between the intercepts of the calibration curves and the sum of ACN + DB of sn-2 fatty

53 NaCl (0.025-3.5%) were used to construct the calibration curves and to determine the detection limits

54 commercial HMO standards were used to create calibration curves and were used to determine a universa

55 tion of free hemoglobin, based on a built-in calibration curve, and reports the patient's hemolysis l

56 Discrimination using Kaplan-Meier curves, calibration curves, and bootstrap cross-validation revea

57 P-MS response factors were determined though calibration curves, and isotope dilution analysis was us

58 tion of the dye/aptamer complex, appropriate calibration curves, and the set of equations.

59 Also, sensor calibration curves are impacted by the transducer choice

60 Calibration curves are linear up to 10-15mg/L Cu.

61 cases where authentic matrices for external calibration curves are not available.

62 ades of successful practice by employing one calibration curve as an approximation for different regi

63 The results showed that Ti calibration curve at 390.11nm provides successful determ

64 the low deviation and high stability of the calibration curves at different concentrations and betwe

65 We show calibration curves at the femtomolar level for cobalt, n

66 In analysis of cell culture media, linear calibration curves based on SEC-FD peak height versus sE

67 fferent volumes (5 to 25 muL) to construct a calibration curve between the blood volume and the exten

68 anions allow us to construct a semiempirical calibration curve between the changes in the nu(C identi

69 Calibration curves bracketing the Threshold Limit Value

70 t rely on calibrants, internal standards, or calibration curves but, rather, leverages the relationsh

71 he reaction was used for the construction of calibration curves by use of reference solutions.

72 A stable and reproducible calibration curve can be easily built with a detection r

73 This one-sample multipoint external calibration curve can be used in the same way as the tra

74 The calibration curve can clearly differentiate varying biom

75 This calibration curve can now be used to date human archeolo

76 e atomic number of reference materials via a calibration curve can reveal valuable information on the

77 To bypass the problem of nonlinearity of calibration curve caused by the nature of antigen-antibo

78 ygen concentration at the mitochondria using calibration curves collected at 37 degrees C for the pep

79 cellent linearity was observed over standard calibration curve concentration ranges of 3 orders of ma

80 k/m) of 1.14 mug L(-1) was obtained from the calibration curve constructed in the range of 4-450 mug

81 Multiple reaction monitoring assays, calibration curve construction, and regression analysis

82 The chromatic aberration calibration curve converted these depths into peak emiss

83 determined using repeatability, recovery and calibration curves data for each pesticide.

84 n the range of 1-500 muM DA, with two linear calibration curve, detection limit of 0.22 muM DA, and s

85 s used as the quantification signal, and the calibration curve displayed a detection limit of 2.57 pM

86 The quantification was based on calibration curves drawn using synthesised purified pept

87 The calibration curve exhibited a linear range between 0.02

88 The calibration curves exhibited linear relationship between

89 e quantitative measurement when conventional calibration curve fails to provide accurate estimation o

90 The calibration curves fitted well.

91 Following affinity capture, we generated calibration curves (five-parameter logistic fit p < 0.05

92 e to the blood and compared with an in vitro calibration curve for (131)I and (177)Lu established pre

93 The calibration curve for chlorpyriphos and prophenofos was

94 ive colorimetric assay tests and establish a calibration curve for detection of glucose and nitrite.

95 ent concentrations to be used as an internal calibration curve for each endogenous peptide.

96 ndreds of samples and cannot use an external calibration curve for each sample.

97 overlapping clusters were imaged to create a calibration curve for estimating RyR number based on rec

98 The calibration curve for GLB was linear at 300 nm.

99 Under optimized condition the calibration curve for PSA concentration was linear up to

100 way as the traditional multisample external calibration curve for quantitative LC-MS/MS-based bioana

101 A calibration curve for S(2-) ion estimation has been cons

102 g data allowing the construction of a linear calibration curve for the analysis in the relevant range

103 the dissociation phase and leads to a linear calibration curve for the concentrations over the tested

104 The calibration curve for the detection of As(3+) had a dyna

105 al standard into the plasma sample, a linear calibration curve for the drugs was obtained from the li

106 Under the optimal conditions, a linear calibration curve for the solid phase extraction method

107 Under optimized conditions, the calibration curve for urea was linear over the concentra

108 The calibration curve for VEGF165 determination was linear o

109 Furthermore, calibration curves for each analyte were constructed and

110 including the necessity to generate separate calibration curves for each biomarker.

111 gue peptides to generate internal multipoint calibration curves for each individual sample and to acc

112 In this workflow, calibration curves for every metabolic feature are first

113 This allows creating individual internal calibration curves for every MSI pixel.

114 Temperature dependence of calibration curves for HMDSO, OMTSO and PDMSO was small

115 his normalization method enables creation of calibration curves for measurement of absolute protein c

116 The good linearity of the calibration curves for PBS and lysate solutions at low S

117 The immunoassay was utilized to produce calibration curves for quantifying alpha-l-fucosidase co

118 This is the first time that calibration curves for the ABC type TGs are reported.

119 the protein-nanoparticle conjugates using a calibration curve from the CD spectra.

120 The calibration curve from the FET sensor arrays showed good

121 Linearity of calibration curves from 5.0 to 25 ng muL(-1), 25 to 250

122 correlated to composition through the use of calibration curves from standard samples.

123 quantitation to be achieved with an external calibration curve generated from standards containing th

124 The calibration curve had a linear relationship with y = 0.0

125 A calibration curve has been established from 0.01 to 0.1

126 ric acid concentration is known and separate calibration curves have been made for all possible acid

127 detection limit reached 9.3 ag L(-1) with a calibration curve having a working range from 10(-1) to

128 To eliminate the need for using standards or calibration curves, herein we present a coulometric mass

129 rix sample, a one-sample multipoint external calibration curve in an authentic matrix can be establis

130 eptide isotopologues for generating external calibration curves in plasma.

131 ne separation within <3 min, defining linear calibration curves in the range of 0.10-5.0 mmol L(-1).

132 Linear calibration curves in the range of 10-125muM were obtain

133 The PSA calibrants used to create calibration curves in these assays are typically purifie

134 mammals (including human) were added to the calibration curve, indicating the importance of using we

135 ematic investigation, it could be shown that calibration curves injected a few days after or before t

136 The new radiocarbon calibration curve (IntCal20) allows us to calculate the

137 A calibration curve is constructed using SBA samples with

138 Importantly, the pH calibration curve is independent of the probe concentrat

139 versus log canalyte (x-axis) potentiometric calibration curve is not linear.

140 The slope of the calibration curve is preserved after the short-circuit t

141 A family of calibration curves is first generated by measurements of

142 The use of internal multipoint calibration curves is well-suited for the generation of

143 quantified via either SAM or MSD or simply a calibration curve, is of great importance for the constr

144 minated with a previously reported in-sample calibration curve (ISCC) approach using multiple isotopo

145 antibody immunocapture followed by in-sample calibration curve (ISCC) strategy with multiple isotopol

146 A novel methodology of in-sample calibration curves (ISCC) using multiple isotopologue re

147 enolics was achieved in 25 min with standard calibration curves linear over the concentration range f

148 Further, we generated calibration curves (linear regressions, all p < 0.0001,

149 Calibration curves, linking the diffusion coefficient of

150 sample quantity needed for ELISA (a 10 point calibration curve measured in triplicate required 36 muL

151 g, Ca, Na and K) through LIBS was done using calibration curve method in which all calibration curve

152 s per plate run, in the standard addition or calibration curve mode, respectively.

153 rformances such as, for example, R(2) of the calibration curve of 0.98 and 0.99 for proteins and smal

154 A calibration curve of a mixture of 17 dansyl-labeled amin

155 Finally, a reliable calibration curve of ABCB1 was obtained with an experime

156 The calibration curve of ammonium is linear in the concentra

157 The calibration curve of butyrylcholinesterase obtained in b

158 pore geometry and size characterization or a calibration curve of concentration standards are often r

159 column resulted in a baseline separation, a calibration curve of excellent linearity and a low limit

160 Acquity HSS T3 C18 column, with an external calibration curve of excellent linearity, and a low limi

161 A calibration curve of fluorescent intensity as a function

162 The line of best fit through the calibration curve of integrated signal versus mass is th

163 Under the optimized conditions, the calibration curve of ketamine at buffer solution (pH 12)

164 The calibration curve of lactose using optimized parameters

165 ological range 6.5-7.6 to construct a linear calibration curve of log(CEST104 ppm/CEST64 ppm) versus

166 For the calibration curve of monacolin K (lactone form), a linea

167 (-7) % sodium dodecyl sulfate and pH 7.9), a calibration curve of quantification (R(2) = 0.90) was ob

168 Unlike a FET sensor, the calibration curve of the BJT sensor is independent of ap

169 The calibration curve of the chMB for detecting single base

170 Based on a linear calibration curve of the SERS characteristic peak intens

171 Calibration curves of %B/B0 vs. OTA concentration in PBS

172 The calibration curves of dependence of the biosensor system

173 Linear calibration curves of ee versus CD responses for each am

174 Furthermore, calibration curves of higher quality are obtained, dynam

175 r, field and temperature dependence of pO(2) calibration curves of HMDSO, octamethyltrisiloxane (OMTS

176 ,app), obtained from the creatinine and urea calibration curves, of 0.163 mM for creatinine deaminase

177 ion approach implemented in PredRet and fits calibration curves on predicted retention times instead

178 No calibration curves or measurements of compound masses/al

179 entified and quantitated on the basis of the calibration curve over the range of low ppm to over 100

180 the need for authentic matrices for external calibration curves, overcame the matrix effects, and val

181 strated by comparing the slope values of the calibration curves (p < 0.05, from a t-test).

182 While multisample external calibration curve preparation using authentic matrices c

183 Using a conventional calibration curve, quantitative simultaneous measurement

184 a detection limit of 6x10(-12) M target DNA (calibration curve r(2)=0.98).

185 ug kg(-1), were used to build the analytical calibration curve (r=0.996).

186 d is simple, fast (<12.0min), present linear calibration curves (r(2)=0.995), and relative standard d

187 mples having concentrations within the assay calibration curve range, less abundant MIRM channels (is

188 We calculated MMC concentration using a calibration curve (range, 0.3-0.5 mg/mL) generated by di

189 Linear calibration curve ranges in aqueous solution were 0.02-1

190 layed good figures of merits with analytical calibration curve ranging from 1 to 120 mug L(-1) for co

191 xtraction steps, the method yielded a linear calibration curve ranging from 1.0 to 500mugL(-1) with a

192 correlation coefficient of r(2) > 0.998) for calibration curves ranging from 100 fg/muL to 1000 pg/mu

193 Calibration curves relating the area ratios of MRM signa

194 Calibration curves relating the signal intensity to the

195 mL(-1) and 0.005-100ngmL(-1) for DPV and EIS calibration curves, respectively.

196 eties) were used to construct multiple-point calibration curves, resulting in accurate and precise qu

197 selectivity, accuracy, precision, recovery, calibration curve, sensitivity, reproducibility, and sta

198 The calibration curves show that signal intensity at 2845-31

199 bones such as bison, whale, llama, etc., the calibration curve showed a slower rate of racemization w

200 Calibration curves showed adequate calibration (judged b

201 lly invasive esophagectomy (C-index, 0.542); calibration curves showed general underestimation.

202 Both matrix-matched calibration curves showed good linearity (R(2) = 0.99) w

203 The matrix match calibration curves showed good linearity (r0.994) over a

204 Under optimum conditions, the calibration curves showed high levels of linearity (R(2)

205 The calibration curves showed linearity in the concentration

206 The calibration curves showed perfect linearity in water and

207 Calibration curves showed that Acute Physiology and Chro

208 using calibration curve method in which all calibration curve shows good linearity (r>0.95).

209 the relative standard deviation (RSD) of the calibration curve slope (n=12), for inter-day and intra-

210 ieved over a wide concentration range with a calibration curve spanning 7 orders of magnitude and LOD

211 With a calibration curve taking into account the CCS dependence

212 Glutamate quantification is achieved by a calibration curve that is based on measurements of gluta

213 isting methods requiring carefully developed calibration curves that must be redeveloped for each ana

214 ELAC) for the white light source to generate calibration curves that relate the image grayscales to m

215 With the use of a calibration curve, the amount of POPA generated during t

216 Without the need for using external calibration curves, this novel MIRM-ISCC-LC-MS/MS method

217 dices, delineate the necessity of creating a calibration curve to adjust the given NTA particle numbe

218 and correlate the measurement with a phantom calibration curve to measure in vivo sodium.

219 A calibration curve to predict gravimetric water content f

220 ed to the mass of released MFs by creating a calibration curve to quantify the amounts of MFs release

221 ment tool was demonstrated by establishing a calibration curve to relate % HbA1c, a useful value for

222 subsequently analyzed for the generation of calibration curves to quantify unknown tissue section sa

223 Peak quality assessment and calibration curves using GC-qMS and GCxGC-qMS/FID docume

224 t impact on the concentrations reported with calibration curves using incorrect weighting factors as

225 The calibration curve was built using C1Inh standard (thresh

226 be 2.2 mug/mL and a nonlinear quadratic fit calibration curve was constructed for histidine over the

227 A calibration curve was constructed on the basis of the su

228 A calibration curve was created by measuring the reaction

229 A standard calibration curve was created using serial dilutions of

230 A linear calibration curve was established after log/log transfor

231 The calibration curve was established between 1x10(1) and 1x

232 A five-parameter logistic regression calibration curve was established between fluorescence a

233 utions with different scavenging capacity, a calibration curve was established between the color deca

234 A calibration curve was established for viscosity as a fun

235 The calibration curve was found linear over a wide linear dy

236 in the rhizosphere of experimental plants, a calibration curve was generated that gave the nitrate co

237 Under the optimized conditions, the obtained calibration curve was highly linear in the range of 1-25

238 A calibration curve was linear from 0.1 to 15 g L(-1) for

239 The calibration curve was linear in the concentration ranges

240 The calibration curve was linear in the range 0.5-10mgl(-1).

241 In optimal conditions, the calibration curve was linear in the range 5.0-500 ng g(-

242 The calibration curve was linear in the range of 0.02-4.0 mu

243 The calibration curve was linear over the range of 5-1000 ng

244 The calibration curve was linear within the range of 4.0-175

245 directly injected in the LC setup; a linear calibration curve was obtained between peak area and ana

246 The calibration curve was obtained by differential pulse vol

247 er optimum experimental conditions, a linear calibration curve was obtained by differential pulse vol

248 calibration, and partial least square (PLS) calibration curve was obtained by evaluating the whole s

249 Calibration curve was obtained by following Ti emissions

250 A calibration curve was obtained by plotting the intensity

251 A linear calibration curve was obtained from 0.040 to 1.30molL(-1

252 In this work, calibration curve was obtained from the decrease of DPV

253 A calibration curve was obtained with a linear range of 0.

254 g sensor response, were optimized and then a calibration curve was plotted.

255 A calibration curve was prepared with a dilution series of

256 process efficiency, accuracy, precision, and calibration curve was underscored by calculations perfor

257 The calibration curve was used to accurately measure the per

258 The calibration curve was used to estimate the blood volume

259 f quantification (LOQs) and linearity of the calibration curve were documented under (i) optimized IC

260 alculated limits of detection (LOD) based on calibration curves were 1.42, 1.00, and 1.34 ng/mL, resp

261 The calibration curves were built as a function of the inten

262 Matrix-matched calibration curves were established and limits of quanti

263 Matrix-matched calibration curves were established for both methods usi

264 The oxidase-modified nanorods and their calibration curves were finally used to determine substr

265 The calibration curves were found to be linear in the range

266 Calibration curves were generated and R(2)>0.99 was foun

267 Calibration curves were generated in dyed hair matrixes

268 The calibration curves were generated to assess the sensitiv

269 During method validation, calibration curves were linear (r>/=0.99), within a rang

270 Calibration curves were linear (R(2)0.991) within a wide

271 The calibration curves were linear at the tested ranges (R=0

272 Calibration curves were linear between 0.01 and 1.61 mM

273 Standard calibration curves were linear for all analytes with cor

274 The calibration curves were linear for the concentration ran

275 The calibration curves were linear in the range of 20-300 ng

276 Using the optimized sandwich bioassay, calibration curves were made with series of IFX concentr

277 Linear calibration curves were obtained for all analytes from 5

278 Linear calibration curves were obtained for analyte concentrati

279 Linear calibration curves were obtained in the concentration ra

280 theoretical treatment presented here, linear calibration curves were obtained in the exhaustive detec

281 Calibration curves were obtained with partial least squa

282 Two calibration curves were prepared from the data obtained

283 ition of the various proteomes, if dedicated calibration curves were previously generated.

284 Protamine calibration curves were recorded at physiological concen

285 External calibration curves were used for direct analysis of the

286 Matrix matched calibration curves were used to determine Fusarium toxin

287 The calibration curves were used to evaluate the sensor's mu

288 The calibration curves were used to quantify the activity al

289 The calibration curve which was plotted by the variation of

290 A linear calibration curve with a lower detection limit of 22 nM

291 e buffer and spiked serum samples provided a calibration curve with R(2) values of 0.97 (n=27) and 0.

292 orbic acid concentration, producing a linear calibration curve with time as the dependent variable.

293 paration of poly(8:2 FTAC-co-HDA) standards, calibration curves with coefficient of determinations (R

294 e spiked in aCSF is approximately 1 muM, and calibration curves with internal standards can achieve a

295 t weighting factors for linear and quadratic calibration curves with least-squares regression algorit

296 he method produced the expected shape of the calibration curves with limits of detection of 0.6 and 5

297 Each approach yielded linear calibration curves with R(2) values between 0.98-0.99 fo

298 other quantitative analysis techniques using calibration curves with weighted least-squares regressio

299 nverted to concentrations of product using a calibration curve, with a detection limit of 1.2 muM of

300 to 40 ka BP is a new feature of the IntCal20 calibration curve, with far-reaching impacts for scienti

301 The linearity of the calibration curves yielded the R(2)0.9993.