ライフサイエンスコーパス: instrumentation

1 eign-body infections (arthroplasty or spinal instrumentation).

2 cal turnaround times has influenced chemical instrumentation.

3 which is applicable with less sophisticated instrumentation.

4 s not require major modification of standard instrumentation.

5 easible within the confines of commercial CE instrumentation.

6 are continuously monitored with geophysical instrumentation.

7 ts at the signal zone without any additional instrumentation.

8 iating online monitoring and process control instrumentation.

9 ion down to the micromolar range on standard instrumentation.

10 ire harsh reaction conditions and/or complex instrumentation.

11 t without the need for glasses or additional instrumentation.

12 nd for baseline calibration of spectroscopic instrumentation.

13 re easily achievable with commonly available instrumentation.

14 equire many reagents and expensive and bulky instrumentation.

15 res that are unresolved on lower performance instrumentation.

16 e to the complex anatomy and poor access for instrumentation.

17 ing careful sample preparation with improved instrumentation.

18 s of existing sample preparation methods and instrumentation.

19 pharmaceuticals using readily available SFC instrumentation.

20 o increase the scope and applicability of GC instrumentation.

21 ging mode from other modes based on standard instrumentation.

22 not feasible with any commercially available instrumentation.

23 ture that vary in analysis time and required instrumentation.

24 me consuming and require the use of advanced instrumentation.

25 ion microscopy in whole cells using standard instrumentation.

26 e high value addition to existing analytical instrumentation.

27 emented that allow miniaturized and portable instrumentation.

28 ithout the requirement of high mass accuracy instrumentation.

29 he reported impedance values of the benchtop instrumentation.

30 itive detection, long coherences, and simple instrumentation.

31 ample and reagent consumption by inexpensive instrumentation.

32 ed to formulation, process, environment, and instrumentation.

33 py method, which relies on remarkably simple instrumentation.

34 e evaluated its performance for a simplified instrumentation.

35 data can be collected using high-throughput instrumentation.

36 tive analyses of capping levels with minimal instrumentation.

37 ls but has required very large and expensive instrumentation.

38 case required conversion to 23- or 25-gauge instrumentation.

39 d Doppler lidar now provides virtually ideal instrumentation.

40 chieved through modification of the existing instrumentation.

41 ing that which can be achieved with benchtop instrumentation.

42 lable, and low-cost with no need for complex instrumentation.

43 ahigh-pressure liquid chromatography (UHPLC) instrumentation.

44 ring, medical imaging, aerospace and nuclear instrumentation.

45 ple preparation, and/or the need for complex instrumentation.

46 n ions leaching from glass components of the instrumentation.

47 visual detection of E. coli O157:H7 without instrumentation.

48 use of recently developed, state-of-the-art instrumentation.

49 s and reproducibility comparable to standard instrumentation.

50 ss laboratories with distinct chromatography instrumentation.

51 neous electron transfer kinetics with simple instrumentation.

52 y of Pb reporting limits according to modern instrumentation.

53 y significant vision enhancing and restoring instrumentation.

54 oupled to the ecology of eDNA and the 2G ESP instrumentation.

55 , and compatibility with standard microscopy instrumentation.

56 s prevented by impractical and expensive THz instrumentation.

57 iven the current capabilities of autosampler instrumentation.

58 evelopment of ever more sensitive and robust instrumentation.

59 es, considering the rapid development of new instrumentations.

60 d handling, skilled personnel, and expensive instrumentations.

61 LC x LC and of 5 times with respect to HPLC instrumentation (40 compared with 80 and 200 min, respec

62 e Association for the Advancement of Medical Instrumentation (AAMI) standard for non-invasive blood p

63 re a robust approach for sample preparation, instrumentation, acquisition parameters and data process

64 Aside from mass spectrometer instrumentation advancement, a single-tube-based high-th

65 ermore, we show that chemical modifications, instrumentation advances and nanopore engineering offer

66 This novel instrumentation aims to investigate weight bearing stand

67 Due to the capabilities of modern analytical instrumentation, analytical laboratories that focus on t

68 can potentially reduce the complexity of the instrumentation and allow the development of user-friend

69 We used confocal and lattice light sheet instrumentation and an imaging informatics pipeline of f

70 f multifault ruptures, as revealed by modern instrumentation and analysis techniques, poses a formida

71 five (or seven to nine if using complicated instrumentation and analysis).

72 However, advances in instrumentation and application of activation methods ca

73 niques are time-consuming, require expensive instrumentation and are labour-intensive.

74 Recent advancements in life-science instrumentation and automation enable entirely new modes

75 completely independent from the rest of the instrumentation and can be adapted to any gas chromatogr

76 -150 kDa) has been investigated using modern instrumentation and column formats.

77 Improvements in instrumentation and computational capabilities, together

78 With targeted effort directed towards instrumentation and computing advances, ARU could be use

79 XAS method and describe the progress in the instrumentation and data analysis approaches undertaken

80 Recent developments in Raman spectroscopy instrumentation and data processing algorithms have led

81 single protein per slide or require complex instrumentation and expertise while only staining isolat

82 Practical considerations with instrumentation and geometry limit the number of availab

83 In recent years, better instrumentation and greater computing power have enabled

84 explained, in part, by advances in surgical instrumentation and imaging methods to detect retinal di

85 graphy (HSGC) method which requires modified instrumentation and ionic liquid stationary phases was d

86 cale because it does not require any bespoke instrumentation and is easy to use.

87 ign choices such as the donor-acceptor pair, instrumentation and labeling chemistries; selecting cont

88 n microarray requires expensive, specialized instrumentation and labor-intensive assay and image proc

89 Today, however, automated instrumentation and large-scale data acquisition are gen

90 Despite substantial developments in both instrumentation and methodology, MSI of tissue samples a

91 m the perspective of both the development of instrumentation and methods and the breadth of measureme

92 Advances in MS instrumentation and MS/MS methods have greatly enhanced

93 General instrumentation and recent developments to achieve two-

94 rapidly increasing on account of advances in instrumentation and sample-processing protocols.

95 es in high resolution mass spectrometry (MS) instrumentation and semi-automated software have led to

96 (analysis time <=15 min), requires low-cost instrumentation and sensor chips, and is also potentiall

97 Advancements in both instrumentation and software, as well as in key biophysi

98 iable results often require large, expensive instrumentation and specially trained staff.

99 Surgical instrumentation and technique advancements have implicat

100 need for the development of next generation instrumentation and technologies utilizing entangled qua

101 With the development of modern instrumentation and technologies, mass spectrometry base

102 s still very fractured, as the nature of the instrumentation and the information produced by the plat

103 ion due to the requirements of sophisticated instrumentation and trained personnel.

104 Near-term fetal sheep underwent surgical instrumentation and were studied from 127 to 134 d gesta

105 ies without access to the precision printing instrumentation and will be useful for antibody screenin

106 depend on the performance of the analytical instrumentation and would drastically benefit from impro

107 es of flow cytometry with low-cost, portable instrumentation, and a simple and rapid assay workflow.

108 asy-to-manufacture, do not require expensive instrumentation, and allow creation of lower micron-size

109 , they are time consuming, require expensive instrumentation, and are limited to small tissue volumes

110 s were characterized using real-time in situ instrumentation, and collected on quartz fiber filters f

111 cal separation techniques, mass spectrometry instrumentation, and data processing platforms continue

112 e large amounts of RNA material, specialized instrumentation, and high read counts to accurately inte

113 les down to 5 viral copies, requires minimal instrumentation, and is highly scalable and inexpensive.

114 nal and stationary monitors, time-integrated instrumentation, and multiple analytical methods.

115 providing the requisite mentoring, access to instrumentation, and state-of-the-art facilities.

116 riate technical competency, fully functional instrumentation, and suitable reagents to perform accura

117 r method does not require highly specialized instrumentation, and thus can be adapted for use in almo

118 ality control of ddPCR systems, consumables, instrumentation, and workflow.

119 ability, and the requirement for specialized instrumentation are among the various reasons for delaye

120 t future developments in dedicated brain PET instrumentation are briefly discussed.

121 igital signals produced by modern analytical instrumentation are convolved by the corresponding IRFs,

122 samples from 5 s up to 48 h without complex instrumentation are discussed.

123 o improve patient care, but the reagents and instrumentation are expensive.

124 ology, metabolic engineering, and analytical instrumentation are improving the production, manipulati

125 ombination of meteorological radar and lidar instrumentation at a site in Oklahoma, USA, to take a ne

126 strong agreement across similarly configured instrumentation (average RSD of 0.82 +/- 0.73%), and sys

127 In addition, the simplicity of the readout instrumentation based on optical imaging and the impleme

128 samples in six laboratories using different instrumentation but a common protocol (the AbsoluteIDQ p

129 od does not require any expensive analytical instrumentation but can achieve higher sensitivity and t

130 catalyzed by the availability of commercial instrumentation capable of carrying out such analyses.

131 Improved instrumentation capable of determining the size and shap

132 enzyme-carbon composite pellets, and sensor instrumentation circuits.

133 th the ease of use of today's commercial DLS instrumentation comes an inherent danger of misinterpret

134 ration of genomic data with high-tech animal instrumentation comes as a natural progression of tradit

135 We describe the sensor and its associated instrumentation, compare the performance of several type

136 trometry (MS/MS) and is thus associated with instrumentation complexity, lengthy analysis time, and l

137 With the advances in instrumentation, computational and mathematical techniqu

138 e obtained with TSI's GEMMA and our improved instrumentation confirms that one critical limitation is

139 The instrumentation consists of one particle-into-liquid sam

140 rapidly emerging field with new advances in instrumentation, data acquisition and data analysis.

141 n sample preparation protocols but different instrumentation, data processing software, and database.

142 ics protocols, including sample preparation, instrumentation, data processing, etc., is critical for

143 ecently a microfabricated device with modest instrumentation demonstrated all-optical hyperpolarizati

144 Here, we review the theory, instrumentation details, acquisition principles, and app

145 Hardware and software modifications during instrumentation development can dramatically affect the

146 sights which have been central to analytical instrumentation development, improvement, and utilizatio

147 d of high-level expertise and poor access to instrumentation due to high cost.

148 o recent exposure to disruptive intrauterine instrumentation (e.g., hysteroscopy).

149 chniques are used for standardization of NIR-instrumentation, enabling the use of one model on severa

150 processors eliminates potentially cumbersome instrumentation engineering challenges and is compatible

151 entially harmful compounds without expensive instrumentation, entrapment of environmentally hazardous

152 isms for atomization of fluids from rotatory instrumentation exist, but parameters can be controlled

153 ive synthesis, high selectivity, inexpensive instrumentation, fast signal transduction, and low limit

154 their cavity round trip period, calling for instrumentation featuring both high temporal and spectra

155 odology with state of the art drug discovery instrumentation (FLIPR Tetra) and used selective tool co

156 aging is presented, including techniques and instrumentation, followed by a discussion of potential c

157 ion are not well-understood due to a lack of instrumentation for combined and real-time monitoring of

158 se microscopy, or bulky/expensive chemo-stat instrumentation for dynamic measurement and control of b

159 g is widely used in the design of scientific instrumentation for manipulating charged particles, for

160 Advanced instrumentation for measurement of reactive trace gases,

161 wine (80.0 +/- 6.0 kg) underwent anesthesia, instrumentation for monitoring, and splenectomy.

162 also demonstrate the use of hand-held Raman instrumentation for NRS and EC-SERS, showing that Raman

163 nd can be readily interfaced with electronic instrumentation for portability.

164 Instrumentation for probing this interface is limited.

165 mples) that uses only commercially available instrumentation for sample processing and analysis.

166 The following section discusses instrumentation for signal readout in resource-limited s

167 Here we describe the development of instrumentation for the analysis of serum that is able t

168 A novel suite of instrumentation for the characterisation of materials he

169 In this review, instrumentation for the two in situ/operando techniques

170 Design of both sensor arrays and instrumentation for their analysis are discussed.

171 approaches that still require bulky external instrumentation for their operation.

172 e for the development of novel space science instrumentation for use in hot space environments and ex

173 planted using the Prolate system console and instrumentation from Addition Technology Inc (Chicago, I

174 aging and Bioengineering (NIBIB), NIH Shared Instrumentation Grant Program.

175 and Translational Science Award); NIH Shared Instrumentation Grants S10RR0227552, S10OD020025, and S1

176 of the difficulty involved in reconfiguring instrumentation hardware and data analysis software algo

177 The technological development of LC-MS instrumentation has led to significant improvements of p

178 l tools without requirement of sophisticated instrumentation have become attractive, although their a

179 of results, high costs, and vulnerability of instrumentation have been barriers to broad uptake outsi

180 ove forward, advances in sample handling and instrumentation have enabled the investigation of intact

181 While advances in instrumentation have improved figures of merit, acquirin

182 e performance and availability of commercial instrumentation have made ion mobility-mass spectrometry

183 Recent advances in X-ray instrumentation have made it possible to measure the spe

184 Recent advances in instrumentation have moved analytical ultracentrifugatio

185 t methodologies and the growth of commercial instrumentation have outpaced the development of rapid,

186 alytes and easily incorporated into portable instrumentation, holding great promise in a myriad of cl

187 rapid sample analysis with relatively simple instrumentation; however, Raman spectroscopy is an inher

188 scription (RT-qPCR) typically involves bulky instrumentation in centralized laboratories and an assay

189 ncement algorithm as well as noise reduction instrumentation in NMR systems.

190 he unique Jonathan Amy Facility for Chemical Instrumentation in the Department of Chemistry at Purdue

191 Sparse seismic instrumentation in the oceans limits our understanding o

192 ques evaluated used modern mass spectrometer instrumentation including thermal ionization mass spectr

193 thesizing intraoperative, environmental, and instrumentation information, along with devices tailored

194 icles remains challenging, requiring complex instrumentation involving extensive sample preparation m

195 Recent advances in biological techniques and instrumentation involving nanomaterials, surface plasmon

196 ds predating direct observations with modern instrumentation is based on geological and archaeologica

197 cles and this problem is magnified when such instrumentation is coupled with ion trap mass spectromet

198 Experimental design of the instrumentation is described here and an example data se

199 ilation, the photon pair detected by the PET instrumentation is emitted from a location that is diffe

200 zation of specimens in this size range, this instrumentation is not yet fully automated and can prese

201 ive techniques, the availability of suitable instrumentation is often a bottleneck in reliable mycoto

202 monstrate that a reduction of the supporting instrumentation is possible without a significant decrea

203 Low-cost CE instrumentation is quickly expanding, but low-cost, open

204 Modern ion mobility instrumentation is typically operated above the low fiel

205 rn commercial capillary electrophoresis (CE) instrumentation is well equipped to meet the precision f

206 point-of-care and at home with minimal or no instrumentation, it is necessary to streamline unit oper

207 mass cytometry, providing an overview of the instrumentation, its present capabilities, and methods o

208 , however, antioxidant assays require costly instrumentations, laboratory setups, and reagents, and t

209 tware to process the data generated from new instrumentation lags behind.

210 We found that NIR spectra from different instrumentation largely shared the same underlying struc

211 tography techniques that require complicated instrumentation (lasers, objectives and precise alignmen

212 with real-time data from reaction monitoring instrumentation (like UV-vis, FTIR, Raman, and 2D NMR be

213 out the need for complex time-gated decoding instrumentation.Luminescent materials that are capable o

214 h the use of low-cost disposable vessels and instrumentation, make MIC-DV suitable to be used for res

215 h as sample details (species, tissues, etc), instrumentation (mass spectrometer, sequencer), keywords

216 pedicle screw placement is a common form of instrumentation method in the lower cervical, thoracic,

217 Here we report a simple instrumentation method to improve the performance of ESI

218 hastic (1)H-ENDOR experiments using improved instrumentation, Mims (2)H ENDOR, and a recently develop

219 Instrumentation must maximize spatial resolution, throug

220 tial shortage of supplies, expertise, and/or instrumentation necessary to detect the virus by quantit

221 confined to laboratory settings, due to the instrumentation necessary to serially generate, control,

222 interference and high costs due to accessory instrumentation need to be addressed before the full pot

223 TMD materials, we identify future analytical instrumentation needs.

224 e applications since poorly handled samples, instrumentation noise features, or even molecular tamper

225 significant advance for the XFMS method: the instrumentation of a liquid injection jet to deliver con

226 Minireview, we introduce the principles and instrumentation of SPRM.

227 ing nature and/or the need for sophisticated instrumentation of those methods limit their on-site app

228 Recent development in instrumentation, optics and manufacturing approaches has

229 techniques are used, avoiding cost-intensive instrumentation or clean room facilities.

230 ion without preprocessing devices, auxiliary instrumentation or control systems is still highly desir

231 abolite ions, requiring high resolving power instrumentation or derivatization to circumvent this iss

232 teps are all at room temperature, require no instrumentation or equipment, and can be carried out by

233 nce (ECL) research is the need for dedicated instrumentation or highly customized cells to achieve re

234 specimen manipulation without any dedicated instrumentation or specialized training by the operator

235 their rollout, as access to state-of-the-art instrumentation or the need for years of hands-on experi

236 l low-throughput analysis with sophisticated instrumentation, or offer the potential for higher throu

237 a confocal ultrasound setup controlled by an instrumentation platform and a PC programmed feedback co

238 for a more robust, straightforward, and safe instrumentation platform, permitting implementation of A

239 high sensitivity, selectivity, simplicity of instrumentation, portability, and low cost of the total

240 hout the need for electrophoretic or complex instrumentations, preservation of cytoarchitectural deta

241 Subsequent advances in instrumentation, probe design, and methods significantly

242 are addressed, as well as several troubling instrumentation problems that may prevent the acquisitio

243 d on-site, in duplicate, using hand-portable instrumentation, reasonably repeatable results were achi

244 polarizations and the need for sophisticated instrumentation render conventional nuclear magnetic res

245 icient mixing, aggregation, and the advanced instrumentation required for effective actuation.

246 Our demonstration relaxes the instrumentation requirement for microcomb repetition rat

247 However, sophisticated instrumentation requirements for precise alignment of op

248 r open-source, portable, and budget-friendly instrumentation requiring high sensitivity.

249 lation can be effective but entails arterial instrumentation risk.

250 s, emphasizing the equally critical roles of instrumentation, sample preparation, and photophysics, a

251 ith established and upcoming technologies of instrumentation, sample pretreatment, and data analysis

252 of energy materials remains a challenge for instrumentation science.

253 effects of TEA hamper mass spectrometry (MS) instrumentation sensitivity and HFIP can affect the robu

254 ication to fast ET kinetic study with simple instrumentation should be useful in studies of particle

255 ative microfluidic device and its associated instrumentation should help to streamline and simplify c

256 implementation of moving parts increased the instrumentation size and complexity and limited the pote

257 s rather than the introduction of additional instrumentation, smartphone-based digital phenotyping pr

258 and ESI single quadrupole mass spectrometry instrumentation spectra with improved molecular identifi

259 le was also used to diagnose issues with IMS instrumentation such as intermittent losses of pixel dat

260 est session half using force-plate actometer instrumentation suggest that conditional UBC13 knockout

261 The fluctuations were not due to the instrumentation system, or to any other of the known sou

262 The Teledyne Advanced Pollution Instrumentation (TAPI) model 602 Beta(Plus) particulate

263 lely on standard electrical characterisation instrumentation that is accessible in most electronics l

264 DI) mass spectrometry imaging (MSI) requires instrumentation that is capable of high mass resolving p

265 e need for bulky, costly and complex optical instrumentation that require measurements to be performe

266 r determination of cortisol levels relies on instrumentation that requires extensive sample preparati

267 recent improvements in column technology and instrumentation, there remains an urgent need for creati

268 essengers and protein analytes with standard instrumentation, thereby simplifying workflows in studie

269 With improved instrumentation, this capability scales to spaceborne ap

270 be easily obtained with modern computerized instrumentation, this is not the case for D and t(+).

271 system incorporates a microfluidic chip and instrumentation to accomplish universal PCR amplificatio

272 With the availability of portable instrumentation to accurately detect biological warfare

273 We validated the use of the new instrumentation to both coherent anti-Stokes scattering

274 xity in cell biology, but there is a lack of instrumentation to exploit their potential for automated

275 er plates with commonly available laboratory instrumentation to facilitate assay automation.

276 To assess the contribution of instrumentation to larger scale fluctuation scaling, we

277 lysis, and highly automated goniometer-based instrumentation to map and rapidly position individual c

278 e buffers, and the necessity for specialized instrumentation to preserve weak interactions under nati

279 sible platform without sophisticated optical instrumentation to realize label-free surface plasmon re

280 ctice, particularly in experiments that push instrumentation to the limit and generate low fragmentat

281 tools, tumour modelling systems and precise instrumentation together with important advances in gene

282 n Fourier transform mass spectrometry (FTMS) instrumentation, top-down proteomics (TDP) is currently

283 The simplicity of the instrumentation used and the low cost of each single dev

284 Moreover, we will review current instrumentation used to quantify factors affecting prote

285 hotoresponses, detailed illustrations of all instrumentation used, and demonstrations of optically co

286 ing the coolant parameters on heating during instrumentation was considered.

287 tandem and time-of-flight mass spectrometric instrumentation was performed for mass spectrometric ass

288 oroidial ion trap mass spectrometry (GC-TMS) instrumentation was shown to push detection limits for t

289 ple, versatile, and does not require special instrumentation, we envision its broad application in a

290 Instead of using external instrumentation, we present an all-in-one approach for t

291 nly rely on optical measurements and complex instrumentation which limit their applicability in resou

292 lipid analysis with minimal requirement for instrumentation, which could be widely applied in lipido

293 nmental samples often required sophisticated instrumentation, which restrains the accessibility and p

294 e, the current advancement in technology and instrumentation will certainly provide better insights i

295 anges in digestion procedure and advances in instrumentations will not significantly affect the assay

296 ted with spray production from rotary dental instrumentation with particular focus on what are curren

297 detection of mechanical curvature, enabling instrumentation with simpler geometry.

298 ation of compact and non-invasive diagnostic instrumentation, with both bedside and intra-operative o

299 nimals (sham group) underwent anesthesia and instrumentation without cardiac arrest.

300 ing substrate with step edges using standard instrumentation without combination of another method fo