ライフサイエンスコーパス: multiparameter

1 Our multiparameter analyses provide unique insights into the

2 ues of k(c) reported in the literature for a multiparameter analysis (log(k(c)/M(-1) s(-1)) = (10.22

3 eservation must be carefully controlled; (e) multiparameter analysis is useful in clinical assays of

4 th a simple 2D hydrodynamic focusing for the multiparameter analysis of apoptosis and DNA ploidy anal

5 Multiparameter analysis of apoptosis in relation to cell

6 immune response phenotypes by combinatorial, multiparameter analysis of autoantibodies and autoreacti

7 tion of IL-10-producing human B-regs using a multiparameter analysis of B cell phenotype, function, a

8 Multiparameter analysis of BRCA1 and nucleolin in relati

9 he feasibility of using the muFCM system for multiparameter analysis of caspase activation and dissip

10 Flow cytometry provides highly sensitive multiparameter analysis of cells and particles but has b

11 Flow cytometry allows high-content, multiparameter analysis of single cells, making it a pro

12 In this study, we present a novel, multiparameter analysis of TCR-coupled signaling and fun

13 rs, along with imaging techniques for static multiparameter analysis or dynamic in vivo tracking.

14 phylogenetic analysis methods were used in a multiparameter analysis to determine the history and anc

15 Multiparameter antidonor immunity was also assessed seri

16 The multiparameter approach to classification adopted by the

17 We used a multiparameter approach, including fluorescence-activate

18 Using a multiparameter approach, we prospectively identified, so

19 stablished an assay based on flow cytometric multiparameter assay assessing expression of CD161 along

20 rofluidic cell pairing, on-chip culture, and multiparameter assays, and allows recovery of desired ce

21 , cathepsin D, cyclin E, proteomics, certain multiparameter assays, detection of bone marrow micromet

22 This multiparameter assessment indicated that phenotypes were

23 The use of multiparameter assessment of response and PSA level as a

24 It currently includes databases of multiparameter cardiopulmonary, neural, and other biomed

25 Text information analysis and a multiparameter cellular localization predictive tool wer

26 3 nm core size) in a single cell with tandem multiparameter cellular phenotyping.

27 Here, we demonstrate how a multiparameter classification approach can be used to ch

28 -108; P=0.02) of patients misclassified by a multiparameter clinical model, including age, sex, and a

29 ing (structure- and ligand-based design) and multiparameter compound selection.

30 alternative, we describe herein an automated multiparameter data optimization analysis strategy where

31 Hormone signaling is often pulsatile, and multiparameter deconvolution procedures have long been u

32 a viable alternative to conventional FCM for multiparameter detection of programmed cell death.

33 lop an imaging platform with versatility for multiparameter electrophysiological mapping of cardiac p

34 The Catalan multiparameter equation is used in the interpretation of

35 he established linear solvation energy (LSE) multiparameter equations of Kamlet-Taft and the improved

36 For several relevant instances, this multiparameter estimation problem can be effectively res

37 Multiparameter experimental and computational methods th

38 Complicated, multiparameter experiments were thus possible despite th

39 nephrectomy specimens was quantitated using multiparameter FACS analyses.

40 In this study, we used multiparameter FACS analysis to examine expression of CL

41 Multiparameter FACS analysis was used to examine relativ

42 tent of mixed-chimerism was determined using multiparameter FACS analysis.

43 pe effect (k(H)(2)(O)/k(D)(2)(O) = 1.0), and multiparameter fitting of the kinetic data establish tha

44 ular composition of 51 meningioma samples by multiparameter flow cytometric (MFC) immunophenotyping a

45 Extensive multiparameter flow cytometric analyses were performed o

46 Multiparameter flow cytometric analysis also indicates t

47 d function of transgenic anti-Gal B cells by multiparameter flow cytometric analysis and ELISA.

48 To address this, we combined multiparameter flow cytometric analysis and T-cell subpo

49 Multiparameter flow cytometric analysis indicates that 5

50 Multiparameter flow cytometric analysis of bone marrow c

51 Fluidigm BioMark and multiparameter flow cytometric analysis of HIV-specific

52 a marker of early apoptosis and suggest that multiparameter flow cytometric analysis of intracellular

53 two modular protocols for immunostaining and multiparameter flow cytometric analysis of major human a

54 We describe the multiparameter flow cytometric analysis of the relations

55 Multiparameter flow cytometric analysis of toxin-treated

56 Multiparameter flow cytometric analysis was used to asse

57 Multiparameter flow cytometric analysis was used to char

58 ade to express the transgene, as assessed by multiparameter flow cytometric analysis.

59 say combining immunomagnetic enrichment with multiparameter flow cytometric and immunocytochemical an

60 IV+ subjects using a novel, highly efficient multiparameter flow cytometric assay that detects the ra

61 nd LRP in younger AML patients, we developed multiparameter flow cytometric assays to quantify expres

62 Consequently, we developed a rapid multiparameter flow cytometric CBU potency assay that en

63 fusion gene transcripts or breakpoints, and multiparameter flow cytometric immunophenotyping.

64 By multiparameter flow cytometric measurements of cell reco

65 hether measuring chemotherapy sensitivity by multiparameter flow cytometric minimal residual disease

66 of 96 healthy adult subjects using targeted multiparameter flow cytometric profiling of NK cell phen

67 Studies in this report, which use combined multiparameter flow cytometric sorting and enzyme-linked

68 We used a multiparameter flow cytometric technique to functionally

69 MRD monitoring by multiparameter flow cytometry (MFC) and real-time quanti

70 cation of more objective methodology such as multiparameter flow cytometry (MFC) has highlighted the

71 Multiparameter flow cytometry (MFC) has the potential to

72 udied for immunophenotypic classification by multiparameter flow cytometry (MFC) in a central laborat

73 There have also been significant advances in multiparameter flow cytometry (MFC) to detect MRD, with

74 Multiparameter flow cytometry (MFC) was used to assess M

75 medullary plasmacytoma (EMP; n = 29) through multiparameter flow cytometry (MFC) would unravel the pr

76 sing bacterial display peptide libraries and multiparameter flow cytometry (MPFC).

77 es of BK viral replication were evaluated by multiparameter flow cytometry after stimulation by overl

78 Multiparameter flow cytometry analysis shows that a larg

79 his method with the gold-standard MRD assays multiparameter flow cytometry and allele-specific oligon

80 Multiparameter flow cytometry and automated image analys

81 of minimal residual disease (MRD), including multiparameter flow cytometry and polymerase chain react

82 ally in the bone marrow and blood using both multiparameter flow cytometry and semi-quantitative DNA

83 We used multiparameter flow cytometry and viable cell sorts from

84 B (CALGB) protocols were immunophenotyped by multiparameter flow cytometry as part of a prospective i

85 A multiparameter flow cytometry assay assessing T-cell res

86 We set up a multiparameter flow cytometry assay to distinguish CD14(

87 ) and persistent minimal residual disease by multiparameter flow cytometry at day +100 after HDT/ASCT

88 cytochemical protein detection combined with multiparameter flow cytometry further demonstrate that t

89 Multiparameter flow cytometry has also been used to iden

90 n index of bone marrow plasma cells (PCs) by multiparameter flow cytometry in 595 newly diagnosed tra

91 Multiparameter flow cytometry is used to characterize im

92 We performed multiparameter flow cytometry on freshly isolated metast

93 n the context of filarial infection, we used multiparameter flow cytometry on PBMCs from 25 microfila

94 M and a high proliferation index assessed by multiparameter flow cytometry remain as independent prog

95 tional assessment of HIV-specific T cells by multiparameter flow cytometry revealed that polyfunction

96 Here, using multiparameter flow cytometry to assess the immune respo

97 We used multiparameter flow cytometry to characterize leukocyte

98 We used multiparameter flow cytometry to characterize leukocyte

99 pha in the outcome of HCV infection, we used multiparameter flow cytometry to characterize patients w

100 We used multiparameter flow cytometry to characterize the qualit

101 We used multiparameter flow cytometry to characterize the type o

102 ressed in AML such as Wilms' tumor gene, and multiparameter flow cytometry to detect leukemia-associa

103 ) with that in healthy children (n=20) using multiparameter flow cytometry to detect markers of T cel

104 The purpose of this study was to use multiparameter flow cytometry to detect occult marrow di

105 emented set of serological reagents, we used multiparameter flow cytometry to directly quantify the f

106 We used multiparameter flow cytometry to evaluate pro- and antia

107 ied mononuclear cells (MNC) were screened by multiparameter flow cytometry to identify MSC, which wer

108 We used multiparameter flow cytometry to measure the distributio

109 mplexes, we have developed a method based on multiparameter flow cytometry to monitor both occupancy

110 eting CD4 and CD8 T cells were quantified by multiparameter flow cytometry to test the hypothesis tha

111 biomarkers of approximately 300 proteins by multiparameter flow cytometry using multiple aneuploid m

112 DS-related cytomegalovirus retinitis (CMVR), multiparameter flow cytometry was used to characterize C

113 Multiparameter flow cytometry was used to delineate the

114 Therefore, multiparameter flow cytometry was used to identify and c

115 Multiparameter flow cytometry was used to identify monon

116 (+)CD8(+)CD16(+/-)CD56(+/-)CD57(+)) shown by multiparameter flow cytometry, and clonal T-cell recepto

117 CR, for intracellular cytokine expression by multiparameter flow cytometry, and for ex vivo productio

118 Lin-Thy+ stem cell contents were measured by multiparameter flow cytometry, and myeloma cells were qu

119 We combined robotics, multiparameter flow cytometry, and real-time quantitativ

120 hen compared with Fil(+)A(-) Moreover, using multiparameter flow cytometry, filarial parasite Ag indu

121 icular T helper (Tfh) and plasma cells using multiparameter flow cytometry, flow antibody binding, an

122 es, which demonstrate that persistent MRD by multiparameter flow cytometry, polymerase chain reaction

123 magnetic bead-based enrichment and advanced multiparameter flow cytometry, populations as small as f

124 in the NK cell compartment longitudinally by multiparameter flow cytometry, starting in acute HIV-1 i

125 Using multiparameter flow cytometry, we determined that the ce

126 Utilizing multiparameter flow cytometry, we have defined a subset

127 Using bacterial display and multiparameter flow cytometry, we have developed a novel

128 Using multiparameter flow cytometry, we monitored phospho-prot

129 Using multiparameter flow cytometry, we studied KLRG1 expressi

130 This finding plus improvements in multiparameter flow cytometry, which has the potential a

131 hly active antiretroviral therapy, by use of multiparameter flow cytometry.

132 before and after expansion was determined by multiparameter flow cytometry.

133 n, the gammadelta T cells were quantified by multiparameter flow cytometry.

134 ion, fluorescence in situ hybridization, and multiparameter flow cytometry.

135 Apoptosis was measured by multiparameter flow cytometry.

136 recovery, and MRD was determined by 10-color multiparameter flow cytometry.

137 compatibility complex class I tetramers, and multiparameter flow cytometry.

138 We performed multiparameter flow-cytometric analyses of GC B cells at

139 A multiparameter flow-cytometric analysis shows that lidoc

140 ubpopulations of complex cell populations by multiparameter flow-cytometric analysis.

141 Here, we used second-generation 8-color multiparameter-flow cytometry (MFC) to monitor MRD in 16

142 ciated immunophenotypes were investigated by multiparameter flowcytometry capable of detecting one le

143 solated from lymphoid organs and purified by multiparameter fluorescence activated cell sorting.

144 Our multiparameter fluorescence analysis allowed us to gain

145 Here we combine single-molecule multiparameter fluorescence detection and molecular dyna

146 rster resonance energy transfer (smFRET) and multiparameter fluorescence detection, which allows us t

147 Live cell imaging employing multiparameter fluorescence image spectroscopy (MFIS) us

148 ite killing were investigated by mutational, Multiparameter Fluorescence Image Spectroscopy, and live

149 wGFP thus provides an additional channel for multiparameter fluorescence lifetime imaging microscopy

150 nzyme-linked immunosorbent assay (ELISA) and multiparameter fluorescence-activated cell sorting (FACS

151 Multiparameter fluorescence-activated cell sorting for o

152 We used a high-content multiparameter fluorescence-based cellular assay for MT

153 asminogen activator inhibitor 1, and certain multiparameter gene expression assays.

154 We use multiparameter geophysical and geochemical data to show

155 a chemical complementation assay linked with multiparameter high content cellular screening.

156 n, we developed a novel analysis protocol of multiparameter high-speed cell imaging in flow.

157 versity of fluorescent proteins, crucial for multiparameter imaging, is based mainly on chemical dive

158 ified in the blood of patients studied using multiparameter immunofluorescence analyses.

159 and patient outcomes were extracted from the Multiparameter Intelligent Monitoring in Intensive Care

160 anuary, 2001, to December, 2008, we used the Multiparameter Intelligent Monitoring in Intensive Care

161 ing medical intervention using data from the Multiparameter Intelligent Monitoring in Intensive Care

162 A novel T cell library assay that affords multiparameter interrogation of rare Ag-reactive CD4(+)

163 The learning from multiparameter lead optimization and strategies to avoid

164 experimentally detected molecules based on a multiparameter match without need for additional analyse

165 e-molecule FRET imaging, providing real-time multiparameter measurements of complex molecular process

166 y that these differences may be reflected by multiparameter measurements of the blood.

167 Such multiparameter measurements of the in vivo microenvironm

168 th retrospective chart review and predictive multiparameter models developed with stepwise linear reg

169 croscopic parameters, both in physics and in multiparameter models in other areas of science.

170 e have shown that the collective behavior of multiparameter models is most often sloppy: insensitive

171 vation energy relationships (LSERs) or other multiparameter models of retention.

172 This model has potential for simultaneous multiparameter monitoring and testing of therapies that

173 Here, by using a multiparameter monitoring system, we show that Pi contro

174 his study describes a novel application of a multiparameter MRI analysis algorithm, the Eigenimage (E

175 Multiparameter MRI measures of T(2), T(1), T(1) in the p

176 Several multiparameter neuromechanical models have reproduced th

177 e outcome prediction based on Gleason sum or multiparameter nomogram.

178 tification, while structure-based design and multiparameter optimization enabled the development of c

179 Following a multiparameter optimization of a key aryl ring of the pr

180 Multiparameter optimization of a series of 5-((4-aminopy

181 Drug discovery is a multiparameter optimization process in which the goal of

182 as lower cLogP, high central nervous system multiparameter optimization scores, and high sp(3) chara

183 e a versatile high-impact design element for multiparameter optimization, wherein >/=10-, 100-, or 10

184 In this study, we used a multiparameter phosflow approach to analyze the phosphor

185 horseradish peroxidase using single-molecule multiparameter photon time-stamping spectroscopy with me

186 There is a critical need for high-speed multiparameter photophysical measurements of large libra

187 vity of the prioritization of compounds to a multiparameter profile of property criteria.

188 tonic sensor capable of highly sensitive and multiparameter profiling of biomarkers.

189 A multiparameter quality monitoring of three separate comm

190 Here, we have proposed a multiparameter quantitative and qualitative approach to

191 Multiparameter readouts from ligands labeled separately

192 We optimised multiparameter readouts to study emerging therapeutic cy

193 A multiparameter scoring system that uses three gray-scale

194 In this investigation, we used a multiparameter selection strategy, combining the in vivo

195 In this study, we used multiparameter sensor measurements to relate assimilator

196 Multiparameter sequential blood sample analysis was also

197 an emerging technology for high-dimensional multiparameter single cell analysis that overcomes many

198 sented here provides the tools necessary for multiparameter single cell analysis which will be critic

199 Using multiparameter single-cell analysis techniques, we explo

200 We used multiparameter single-cell detection methods to investig

201 ach that identifies a disease phenotype from multiparameter single-cell measurements, which is based

202 Using multiparameter single-cell sorting, one in 20 fetal bone

203 To interpret the multiparameter, single-cell MIC measurements, we adapted

204 This hypothesis is supported by multiparameter solvent effect factor analyses utilizing

205 A multiparameter sort of MOLT-4-contaminated human testicu

206 cent proteins, step-wise photobleaching, and multiparameter spectroscopy, allows pigment-specific spe

207 Using this multiparameter structural approach, we can distinguish t

208 rdles linked to HE treatment, we conducted a multiparameter study using classical physicochemical cha

209 ese responses is difficult in multicellular, multiparameter systems.

210 almost continuously, creating high-frequency multiparameter time series and raising the question of h