ライフサイエンスコーパス: reference material

1 onfirmed by analysis of rice flour certified reference material.

2 curacy was further confirmed using certified reference material.

3 ciency (E) of the system with the WHO SP3-08 reference material.

4 n) phases, as compared to the as-homogenized reference material.

5 libration or calibration against a certified reference material.

6 Formosa firethorn was used as reference material.

7 5,238)U(16)O2 species in a uranium certified reference material.

8 of Standards and Technology silicon standard reference material.

9 evaluated using naturally contaminated wheat reference material.

10 ed method was checked by analyzing certified reference material.

11 procedure was verified by analysing standard reference material.

12 analysing of SRM Apple Leaves 1515 certified reference material.

13 erial is homogeneous for use as a laboratory reference material.

14 ing concerns, making them ideal for use as a reference material.

15 ved via measurements on a mercury-containing reference material.

16 nother cylinder, which then stores the final reference material.

17 ethod was validated by analysing a certified reference material.

18 d the certified values of two serum standard reference materials.

19 r and black tea samples as well as certified reference materials.

20 od was verified by the analysis of certified reference materials.

21 control procedures, proficiency testing, and reference materials.

22 analytes in some dairy samples and certified reference materials.

23 tical microscopy or through calibration with reference materials.

24 ce metals in some honey samples and standard reference materials.

25 tion and mass calibration using NIST gold NP reference materials.

26 from the LC-MS/MS analysis of six NIST urine reference materials.

27 controlled by the analysis of two certified reference materials.

28 er and NIST SRM 1573a Tomato leaves standard reference materials.

29 ions can be tested prior to experiments with reference materials.

30 h-purity copper was developed using standard reference materials.

31 ional supplement samples and three certified reference materials.

32 d compared their spectra with those of eight reference materials.

33 r and CystC with assays traceable to primary reference materials.

34 robe mass spectrometry, on U(3)O(8) isotopic reference materials.

35 the food sample matrix using leaf certified reference materials.

36 on byproducts without commercially available reference materials.

37 eneity and stability studies of nucleic acid reference materials.

38 ed in literature for MPI-DING and USGS glass reference materials.

39 raries experimentally by analyzing authentic reference materials.

40 of the method was provided by using standard reference materials.

41 Results on Standard Reference Material 1849a were well in agreement with cer

42 ixtures was achieved using the NIST Standard Reference Material 1950 Metabolites in Human Plasma.

43 ely 200 metabolites for each of three pooled reference materials (220 metabolites for Qstd3, 211 meta

44 ndards and Technology Peanut Butter Standard Reference Material 2387 contained 11,275 mug/g Ara h 1,

45 ndards and Technology Peanut Butter Standard Reference Material 2387.

46 ay for nine As-contaminated soils and 1 NIST reference material (2710a).

47 hod was demonstrated on a well-characterized reference material, 56 nm AuNPs with a transport efficie

48 asuring the concentration of a NIST Standard Reference Material 927e (bovine serum albumin), a high-p

49 Our approach was evaluated using as reference material a biologically produced sample contai

50 Due to the lack of certified reference materials, a methodological comparison between

51 The As, Hg and Pb analysis results of the reference materials agreed with the certified values.

52 duces bias that cannot be corrected by using reference materials alone.

53 alidation measurements on thick multielement reference material and a stratified system are presented

54 Trueness was assessed using a reference material and by comparison of the results obta

55 against GBW 07604 (Poplar leaves) certified reference material and by the recovery test.

56 n was checked by analyzing an AFM1 certified reference material and different milk samples spiked wit

57 r-infrared (NIR)-emitting Egyptian blue as a reference material and in combination with optical fiber

58 ) and accurate (recoveries using a certified reference material and spiked blanks: 90-102%; for spike

59 spectrometric techniques using the certified reference material and the determined values were in goo

60 s estimated by the analysis of two certified reference materials and also by spike recoveries.

61 validated using soil and sediment certified reference materials and also using real samples by compa

62 ancing the state of the art in high accuracy reference materials and for baseline calibration of spec

63 , based on 3 measurement sessions) for glass reference materials and micrometeorites, respectively.

64 Using a wide array of reference materials and proficiency test samples, the me

65 ex samples, including certified and standard reference materials and samples from several QA/QC studi

66 ation of nickel and cobalt ions in certified reference materials and some food samples.

67 ty was further confirmed through analyses of reference materials and spike analyses of real seawater

68 ethod was validated by applying to certified reference materials and successfully applied for the pre

69 will be invaluable for the certification of reference materials and the provision of reference value

70 A set of fifteen certified reference materials and three real vegetal samples were

71 cy was assessed by analysis of SRM (Standard Reference Material) and recovery experiments after spiki

72 e use of well-controlled fabrics, unreactive reference materials, and a life-cycle based experimental

73 s optimised and the validated using standard reference materials, and certified values were found to

74 c case and analysis, which include the data, reference materials, and contextual information, (B) fac

75 luding lake water, seawater, simulated water reference materials, and tap water.

76 he analysis were evaluated using two oilseed reference materials, and the results were in agreement w

77 cation for the measurement of IAEA certified reference materials, and through participation in a nati

78 In addition, ENM-free reference materials are needed since many processes not

79 Reference materials are useful for the quality control o

80 concentrations reported from a NIST standard reference material as an interlaboratory method validati

81 ethod accuracy was confirmed using certified reference material as well as comparison with the corres

82 ing the mycotoxin determination in certified reference material as well as excellent quantitative rec

83 terization, and working principle of the new reference material BAM-F012 are presented, and possible

84 al study, and analysis of certified E2 serum reference materials BCR-576, BCR-577, and BCR-578.

85 proved by analysis of bovine milk certified reference material (BCR(R)-492).

86 essfully verified by analyzing two certified reference materials (BCR-482 Lichen and SPS-WW1 Batch 11

87 thod was confirmed by analyzing the standard reference materials (BCR-482 Licken and SRM 1573a Tomato

88 o verify the method' accuracy, two certified reference materials, BCR(R) 414 Plankton & IRMM-804 Rice

89 of human Tg quantified were (1) the primary reference material BCR457-a native protein purified from

90 is work, a homogeneity study of a corn flour reference material candidate for inorganic analysis is p

91 The detection of these metal ions in several reference materials (CASS-4, SLEW-3, 1640a, and 1643f) v

92 however, all international chlorine isotope reference materials (chloride and perchlorate salts) fal

93 a DNA reference material (NMI NA008 High GC reference material) comprising a challenging methylated

94 seven test items used in this exercise were reference materials covering a broad range of matrices:

95 We report that the certified reference material CRM 7405-a (Hijiki) is a rich source

96 surement, precision, accuracy, and certified reference material (CRM) analysis using optimized experi

97 developed and evaluated through a certified reference material (CRM) and beer samples.

98 of Ag, Cd, Hg, Pb, Tl, and Zn in a certified reference material (CRM) of Lobster hepatopancreas (TORT

99 Certified reference material (CRM) Rice Flour SRM 1568b (NIST) was

100 ons in single-wall carbon nanotube certified reference material (CRM) SWCNT-1.

101 s in meat and to obtain a suitable Certified Reference Material (CRM) to achieve this task.

102 er the validation by analysis of a certified reference material (CRM), the method was successfully ap

103 erence values to a mushroom powder Certified Reference Material (CRM).

104 standard solutions, rather than by certified reference material (CRM).

105 Certified reference materials (CRM) DOLT-4 (Dogfish Liver) and TOR

106 topic ratios in particles of three certified reference materials (CRM) of uranium, CRM U030a, CRM U50

107 k of efficient digestion steps and certified reference materials (CRM).

108 e method was verified by analyzing certified reference materials (CRMs) and performing recovery exper

109 B186), and groundwater (ERM-CA615) certified reference materials (CRMs) and recoveries of Cd from wat

110 Certified reference materials (CRMs) are required to guarantee the

111 concentration in primary calibrant certified reference materials (CRMs), both lambda and the partitio

112 Accuracy was evaluated using certified reference materials (CRMs), spiked samples, and pyrohydr

113 dation was verified by analysis of certified reference materials (CRMs).

114 od is validated by the analysis of certified reference materials (CRMs).

115 ccessfully verified by analysis of Certified Reference Material CTA-FFA-1 (Fine Fly Ash) and six natu

116 Using ZnO as reference material, different chemical environments for

117 y of the method was verified using certified reference material DOLT-3 and ERM-BB186.

118 was evaluated using dogfish liver certified reference material (DOLT-3 NRC) for trace metals.

119 y was evaluated by the analysis of certified reference materials (DORM-2 and TORT-2) after MIC digest

120 d was validated by analysis of two certified reference materials (DORM-3 and DORM-4) with good recove

121 fluorescence is uniformly distributed in the reference material (e.g., many solutes in thermodynamic

122 By using isotopic reference materials, each measured isotopic abundance va

123 ethod was verified by means of the Certified Reference Material EDF-2525 and good results in terms of

124 method was confirmed by analyzing certified reference material ERM BC-211 (rice powder).

125 id phase with the (202)Hg enriched certified reference material ERM-AE640 and measurements of the mer

126 WFD), a project for the production of a fish reference material (ERM-CE100) certified for its content

127 based controls and two certified human serum reference materials (ERM-DA252a and ERM-DA253a) were ana

128 soline sample and validated with a certified-reference-material (ERM-EF213) gasoline.

129 the labeled value for the undiluted standard reference material evaluated.

130 A certified reference material, five freeze-dried samples and three

131 erve as both a starting point and a complete reference material for determining the composition of PO

132 We propose bionanoparticles as a candidate reference material for determining the mobility of nanop

133 homogeneity and stability requirements of a reference material for microanalytical methods applied i

134 e suitability of the produced particles as a reference material for microanalytical methods, in parti

135 eposits worldwide, a suitable matrix-matched reference material for Os analysis does not exist.

136 n of NIST 8505 can serve as a matrix-matched reference material for Os analysis.

137 sed on orange juice composition, was used as reference material for studying SB behavior.

138 racy was confirmed by analysis of a standard reference material for wheat flour (NIST 1567a), which h

139 Microbial communities occurring in reference materials for artificial barriers (e.g., bento

140 tic method was developed to prepare purified reference materials for each positional isomer of flubro

141 Consequently, ligand-free colloids are ideal reference materials for evaluating the effects of surfac

142 validated through measurements of certified reference material from 10(-7) to 10(-9) and then throug

143 The reference materials from this study are a resource for o

144 eneous, flux-free glass beads of geochemical reference materials (GRMs), uranium ores, and uranium or

145 that overlap with the volcanic and plutonic reference materials (> 800 degrees C), whereas ~20%, mai

146 s of a glyphosate-tolerant soybean certified reference material, GTS 40-3-2, were used to develop the

147 Commutability of reference material has been shown to be necessary if suc

148 Although international reference materials have been available for years, the s

149 ts to better understand the commutability of reference materials have been made.

150 These reference materials have subsequently found utility in t

151 present as minor impurities in the zero air reference material, have been accurately quantified usin

152 d was tested by the analysis of the standard reference material (human urine NIST 2669), and the meth

153 al vinaigrettes, dressing salad and in-house reference materials (i-HRM) using two different Partial

154 method was validated by the analysis of the Reference Material IAEA 443 and was applied to groundwat

155 nalysis of (99)Tc in samples of the seawater reference material IAEA-443, a peat bog lake, and ground

156 as validated using the international isotope reference materials IAEA-S-1, IAEA-S-2, and IAEA-S-3.

157 method was validated by analysis of standard reference materials (IAEA-375, IAEA-330, and IAEA-385) a

158 ed that resulted in a homogeneous and stable reference material in the form of a wet paste.

159 derstand and characterize the performance of reference materials in different assays, it remains uncl

160 r vitamin and mineral content with certified reference materials in qualified laboratories.

161 A comparison with other reference materials in use for testing the performance o

162 Protection Agency (EPA) 552.2 CRM (certified reference material) in pure water and in three different

163 ed by successful determination of bromine in reference materials, including IRMM (BCR-611) low level

164 The results of analysis of the certified reference material (INCT-TL-1 tea sample) was found to b

165 The results of analysis of the certified reference material (INCT-TL-1) are in good agreement wit

166 Emission spectra of the isotopic standard reference material IRMM-199, comprising about one-third

167 A proper reference material is crucial for accurate measurement o

168 e study results confirmed that NA008 High GC reference material is fit for the purpose of being used

169 Whenever a CystC-assay traceable to primary reference materials is performed and when a true measure

170 unclear how the commutability performance of reference materials is related to intra- and interassay

171 Commutability of reference materials is required to ensure that traceabil

172 consistent set of isotopically characterized reference materials is used.

173 The use of noncommutable reference materials leads to inaccurate results.

174 The NISTmAb is a well-characterized reference material made widely available to facilitate t

175 ertified values of three different Certified Reference Materials (marine sediment SRM 1944, fish tiss

176 n National Research Council Canada certified reference material MOOS-3 seawater, in good agreement wi

177 d was further verified against two certified reference materials namely NCS ZC73029 and NIES No 10-b.

178 To assess the method accuracy, two plasma reference materials, namely, BCR-637 and SRM1950, for wh

179 , a chicken meat containing AgNPs (candidate reference material Nanolyse 14) has been used as a model

180 10 pg of New Brunswick Laboratory certified reference material (NBL CRM) 128 from an 8 M HNO3 matrix

181 proposed method was verified using certified reference material (NCS ZC85006 Tomato).

182 s confirmed by the analysis of the certified reference materials (NCS ZC73032 Celery, CRM025-050 meta

183 4% for Br and I were obtained by analysis of reference material NIST 8435.

184 The reference material NIST 8505 is homogeneous with respect

185 he obtained oxygen values of the APC and the reference material NIST SRM 1632d were compared to data

186 ur HBr solutions, the international standard reference material NIST SRM 977 (delta(81)BrSMOB = -0.65

187 ts for fortified infant formula, a certified reference material (NIST 1869), confirmed the trueness o

188 s successfully validated by analyzing a soil reference material (NIST 2710a) and a sediment sample.

189 cy was evaluated using milk powder certified reference material (NIST 8435) with good agreements for

190 The results were validated using a certified reference material (NIST SRM 1643e) and groundwater samp

191 stitute of Standards and Technology Standard Reference Material (NIST SRM) 2779 Gulf of Mexico crude

192 d was evaluated by the analysis of certified reference materials (NIST 1567a Wheat Flour and NIST 157

193 hod was confirmed with analyses of certified reference materials (NIST SRM 1515 Apple leaves, IAEA 33

194 uracy of the method verified using certified reference materials (NIST-SRM-1946).

195 firmed by analyzing the rice flour certified reference material, NIST 1568a.

196 he development and characterization of a DNA reference material (NMI NA008 High GC reference material

197 P demonstrated high agreement with certified reference materials (no significant bias to BCR576, 577,

198 ples of bottled drinking water and certified reference materials, NRC CASS-5 (nearshore seawater) and

199 The accuracy was confirmed with a certified reference material of apple leaves (NIST 1515).

200 thod was confirmed through the analysis of a reference material of human blood serum, by the spike an

201 n/recovery tests and analysis of a certified reference material of skimmed powdered milk (ERM-BD150)

202 The accuracy was confirmed with standard reference material of spinach leaves (NIST, 1570a) and s

203 the repeat analyses of several international reference materials of basaltic composition for (87)Sr/(

204 n of the method was evaluated using standard reference materials of bovine liver and bovine muscle.

205 6 mug/kg were demonstrated by analyzing AuNP reference materials of different sizes (e.g., 10, 30, an

206 d was confirmed by the analysis of certified reference materials of different types and by comparativ

207 contributor to the uncertainty in preparing reference materials of high impact greenhouse gases, lim

208 e accuracy was confirmed using the certified reference materials of oyster tissue (NIST 1566b) and mu

209 ue assignment of (24R),25(OH)2D3 in Standard Reference Materials of Vitamin D Metabolites in Human Se

210 standards, thus avoiding the need to use NP reference materials or other, not always thoroughly char

211 ds was achieved through analysis of standard reference material, Oyster Tissue (NIST 1566b) and Tea (

212 uptake data from the Fab fragment of NISTmAb reference material (PDB: 5K8A ) from 15 laboratories.

213 tion (dPCR) is increasingly being adopted by reference material producers and metrology institutes fo

214 to confirm their suitability as a basis for reference material production.

215 ds of analysis and critical steps, available reference materials, proficiency testing schemes, other

216 plied by corroded iron compared to the inert reference material (PVC).

217 method was checked by analysing a certified reference material; results were in agreement with the q

218 evaluated by recovery tests, by analysis of reference material (RM) and by comparison of the results

219 ility assessment of an orange juice in-house reference material (RM) for vitamin C analysis in fruits

220 ards and Technology (NIST) gold nanoparticle reference materials (RM 8012 and RM 8013) were employed.

221 of GC-Cr/HTC-IRMS was validated with organic reference materials (RM) in comparison with online EA-Cr

222 gluten-free foods is hampered by the lack of reference materials (RM).

223 tification of the existing suite of relevant reference materials (RM).

224 solution considered for characterization as reference materials (RMs) for specific applications.

225 is article we report on the progress towards reference materials (RMs) for Staphylococcal enterotoxin

226 sor measuring instrument and need the use of reference materials (RMs) for training.

227 The use of reference materials (RMs) is critical for validating and

228 he proposed method was evaluated using eight reference materials (RMs).

229 ability for both international standards and reference materials run by continuous flow versus an ele

230 parallel analysis of bovine liver certified reference material samples (BCR-185R) doped with 10 mug/

231 easured in selenium-enriched yeast-certified reference material SELM-1, natural selenomethionine samp

232 ted flame retardants (EBFRs) in the standard reference material serum (SRM 1958, NIST).

233 re was validated by the analysis of standard reference materials, since the obtained data were in clo

234 method was checked by analysis of certified reference materials (SLRS-4 Riverine water and NIST SRM

235 dure was verified by analysing the certified reference materials, SPS-WW2 Batch 108 wastewater level

236 ermination of As, Hg and Pb in NIST standard reference materials SRM 1547 Peach Leaves and SRM 1573a

237 water samples and validated using certified reference materials SRM 1570A (spinach leaves) with sati

238 racy was confirmed by analysing the standard reference material (SRM 1577 b).

239 thod was confirmed by analyzing the standard reference material (SRM 1640a) and spiked real samples.

240 s and Technology (NIST) new protein standard reference material (SRM 8671) is becoming the benchmark

241 was validated using a bovine blood standard reference material (SRM 966, Level 2).

242 Standard Reference Material (SRM) 1649b Urban Dust was characteri

243 ese mixtures, which constitute NIST Standard Reference Material (SRM) 1720 Northern Continental Air,

244 stitute of Standards and Technology Standard Reference Material (SRM) 1950, "Metabolites in Frozen Hu

245 value assignment of total sulfur in Standard Reference Material (SRM) 2682c Subbituminous Coal (nomin

246 and Technology (NIST) has developed Standard Reference Material (SRM) 972a Vitamin D Metabolites in F

247 A new tobacco filler Standard Reference Material (SRM) has been issued by the National

248 organic contaminants in house dust standard reference material (SRM).

249 Several certified reference materials (SRM 1568a, SRM 1570a, CRM 7503-a, B

250 NIST Standard Reference Materials (SRM) 3257 Catechin Calibration Solu

251 cted and quantified in a house dust standard reference material, SRM 2585, demonstrating their enviro

252 rovided for commercial materials or Standard Reference Materials (SRMs) from the National Institute o

253 rn and southern hemispheres as NIST standard reference materials (SRMs).

254 Appropriate controls, reference materials, statistics and informatics are requ

255 ories is still high due to the lack of basic reference material targeted at the scientific community.

256 Following validation with certified reference material, the method was successfully applied

257 tio distribution measured in a homogeneous U reference material, the ratios in the enriched pellet fo

258 In contrast to the previous reference material, three of the four levels of SRM 972a

259 d methodology was validated with a certified reference material TMDA-64.2.

260 Recovery studies were performed, certified reference material (TMDA-61) was used to test the accura

261 study, conducted using blinded NA008 High GC reference material to assess reproducibility among seven

262 The method was also applied to standard reference material to check the accuracy of the method.

263 sponse was calibrated to an inorganic carbon reference material to determine oxidation efficiencies w

264 pressure broadening effects when using these reference materials to calibrate instruments based on op

265 eference measurement procedures and Standard Reference Materials to support the validation of new rou

266 Zn was assessed by the analysis of certified reference materials Tort-3 (Lobster hepatopancreas), ERM

267 The method was applied to certified reference materials (TORT-2 and DORM-2) and commercializ

268 With the goal of providing a human genomic reference material traceably certified for mass concentr

269 ations were also performed using a certified reference material (UME CRM 1202 Elements in Hazelnut).

270 buted to both the PCR method, as well as the reference material used for quantitation.

271 ic ages of four distinct plutonium-certified reference materials varying in chemical form, isotopic c

272 its relation to the average atomic number of reference materials via a calibration curve can reveal v

273 mining the concentration of U in a certified reference material, viz., NIST SRM 1640a natural water,

274 Normalization to a reference material was crucial for the semi-quantitative

275 tional Institute of Standards and Technology reference materials was performed with the developed met

276 5-hydroxyvitamin D3), calibrated to standard reference materials, was used to predict LC-MS/MS-equiva

277 Using this protocol and reference materials, we demonstrated the accurate detect

278 Standard reference materials were analyzed for validation of meth

279 fication of both sediment and fish certified reference materials were directly compared between the A

280 nal physician or endorsed, readily available reference materials were ideal methods for information e

281 obtained for Seronorm blood serum and urine reference materials were in excellent agreement with the

282 Individual precise chain length oligomers as reference materials were obtained by a stepwise approach

283 515 Apple leaves and GBW-07605 Tea certified reference materials were used to confirm the accuracy of

284 Certified reference materials were utilized to find out the accura

285 The cuvette-shaped reference material which shows a characteristic emission

286 ons for the preparation of high accuracy gas reference materials which underpin a broad range of requ

287 racy was evaluated by analysis of a standard reference material, which agreed with certified values (

288 ld be introduced when preparing in vitro DNA reference materials, which could limit their utility as

289 The development of certified reference materials whose values are traceable to higher

290 e of uranium particles coming from certified reference material with a (235)U abundance ranging from

291 technology was validated to produce the DNA reference material with a certified reference value expr

292 ave produced a commutable synthetic zero air reference material with an oxygen, nitrogen, and argon m

293 tope values (delta(37)Cl(SMOC)) for measured reference material with known isotope composition, inclu

294 The method used was applied to various reference materials with inorganic and organic matrices

295 n accuracy profile approach, using certified reference materials with iodine contents ranging from 0.

296 braries constructed by analysis of authentic reference materials with limited commercial availability

297 is development allows for preparation of gas reference materials with unprecedented uncertainties bey

298 lity of results was tested by analysing fish reference materials within the participation in European

299 lysis), only 13% of the AgNPs present in the reference material would reach the intestine wall.

300 d in the analysis of a certified human serum reference material yielding excellent accuracy (E(r) <=