ライフサイエンスコーパス: microbiological

1 data show consistent factors to infer on the microbiological action on the sensory quality of coffee

2 As the results of the microbiological analyses exclude inferiority, the conven

3 we use concurrent physical, biochemical and microbiological analyses to show that mature biocrusts c

4 Microbiological analyses were performed on saliva and su

5 Based on metagenomics and microbiological analyses, it was found that, in mixed in

6 Using a suite of geochemical and microbiological analyses, we measured the impact of sedi

7 microbial communities, followed by targeted microbiological analyses.

8 opment of culture-independent techniques for microbiological analysis has uncovered the previously un

9 Rapid microbiological analysis is required for prompt treatmen

10 From the microbiological analysis, comparing the refined rye and

11 user-friendly, cost-effective and real-time microbiological analysis.

12 (2) cohort study to assess patient risk; (3) microbiological and aerobiological investigations of hea

13 Statistical analyses were used to determine microbiological and antibiotic susceptibility trends.

14 oaches offered limited beneficial effects on microbiological and biochemical parameters over quadrant

15 h ultrasonic debridement (FMUD) on clinical, microbiological and biochemical parameters with conventi

16 sites were compared to the standard-of-care microbiological and biochemical techniques, fluorescence

17 Combined microbiological and biophysical approaches have revealed

18 sical methods, in silico molecular modeling, microbiological and cellular assays, and animal models,

19 Microbiological and chemical characteristics of white br

20 wetlands, but knowledge about iron impact on microbiological and chemical transformations during wast

21 wetlands but knowledge about iron impact on microbiological and chemical transformations during wast

22 compared with pivmecillinam, and no superior microbiological and clinical effectiveness compared with

23 Microbiological and clinical information from culture-po

24 tertiary reference center with comprehensive microbiological and clinical monitoring performed at bas

25 d further probing will answer exciting basic microbiological and clinically relevant questions.

26 y of FujiLAM compared with AlereLAM, against microbiological and composite reference standards (inclu

27 ximate composition, anti-nutritional factor, microbiological and functional properties of lupin flour

28 Complementary microbiological and imaging evaluations on both plankton

29 , within-host ecosystem model to explore the microbiological and immunological conditions that govern

30 sis is inducible in humans and to define the microbiological and immunological features of presymptom

31 esults emphasize on the value of integrating microbiological and immunological findings to unravel co

32 Microbiological and latex agglutination techniques were

33 ts, and applicability for diverse downstream microbiological and molecular analyses.

34 dly increasing; however most of the existing microbiological and molecular detection methods are time

35 theory epidemiological studies, through the microbiological and molecular eras.

36 0MPa) has great potential for technological, microbiological and nutritional aspects of fluid process

37 ife habitats with moderate occurrence, their microbiological and physicochemical characterization lag

38 The MRPPC was shown to have microbiological and physicochemical stability through tw

39 shoot extract, and their physical, chemical, microbiological and sensorial characteristics were evalu

40 Clinical, microbiological and treatment data was collected in this

41 We analyzed demographic, microbiological, and clinical data from 100 patients inc

42 Using biochemical, microbiological, and human cell editing experiments, we

43 ncentration of viable cells of lactobacilli, microbiological, and organoleptic characteristics were m

44 Patient-related, microbiological, and outcomes data were abstracted from

45 We analyzed clinical, microbiological, and sequencing data for 451 patients an

46 rs capable of inhibiting the presentation of microbiological antigens by donor dendritic cells late a

47 A combination of traditional microbiological approaches with genomic-based physiologi

48 been difficult to quantify using traditional microbiological approaches.

49 mato (Solanum lycopersicum) accessions using microbiological assay (MA) and by LC-MS.

50 were analyzed by two LC-MS/MS methods and a microbiological assay (MA).

51 tandardized but imprecise and time-consuming microbiological assay in the future.

52 Combining RT-qPCR with microbiological assays (colony and surface pellicle morp

53 t level (CAL), bleeding on probing (BOP) and microbiological assays (PCR) were evaluated before and a

54 Microbiological assays coupled with molecular modeling i

55 ghtforward bioanalytical tool, especially if microbiological assays were taken into account.

56 te could affect the incidence or severity of microbiological attack on exposed timber and have signif

57 However, the clinical and microbiological benefits obtained up to 2 years post-tre

58 93.9% (46/49) of microbiological bile cultures revealed a positive microb

59 Using a combination of microbiological, biochemical, single-molecule fluorescen

60 ces across a gamut of disciplines - not just microbiological - but encompassing genomics, genetics, o

61 Ciprofloxacin showed superior microbiological, but not clinical, effectiveness compare

62 measurements are accompanied by conventional microbiological challenge tests, as well as morphologica

63 rmation of nucleotides, biogenic amines, and microbiological changes affect the quality and shelf lif

64 nsider a complementary alternative: that the microbiological changes induced by many perturbations ar

65 the sampled sites revealed its own distinct microbiological character, in both species and number of

66 on-farm fermentation on physico-chemical and microbiological characteristics and levels of methylxant

67 biogenic amine and free amino acid content, microbiological characteristics and proximate chemical p

68 We describe the clinical and microbiological characteristics of CDI among hospitalize

69 time, the clinical presentation of IGASI and microbiological characteristics of GAS strains have chan

70 Sampled sites furnished specific microbiological characteristics which reflected room fun

71 s to better define the relationships between microbiological characteristics, disease status, and tre

72 were associated with different clinical and microbiological characteristics.

73 uded 411 cases of rheumatic fever, for which microbiological characterization identified 73 different

74 period of 4 weeks between disease onset and microbiological characterization.

75 't affect the normal ripening changes in the microbiological, chemical and textural properties of Ras

76 epared bionanocomposite on weight losses and microbiological, chemical, and physical characteristics

77 istently negative group had a higher rate of microbiological clearance in the first follow-up blood c

78 in was associated with improved survival and microbiological clearance in VRE-BSI.

79 outcomes included 30-day mortality, time to microbiological clearance, and creatine phosphokinase (C

80 were associated with significantly improved microbiological clearance.

81 to the development of strategies to control microbiological communities that impact animal and plant

82 monary TB (EPTB) remains challenging because microbiological confirmation is often not possible.

83 Rationale: Microbiological confirmation of pulmonary tuberculosis i

84 However, phenotypic and microbiological confirmatory testing raises concerns reg

85 life of food by protecting from chemical and microbiological contaminants and enables foods to be tra

86 Turbidity has been used as an indicator of microbiological contamination of drinking water in time-

87 t been evaluated for their ability to remove microbiological contamination.

88 Despite microbiological control, this syndrome causes significan

89 Microbiological counts (probiotic count, survival after

90 The microbiological counts of the fermented LFs were general

91 Microbiological culture and/or molecular tests were perf

92 and Haemophilus influenzae was performed by microbiological culture and/or polymerase chain reaction

93 GI/GII), and adenovirus compared to those of microbiological culture and/or real-time PCR.

94 t will or should be done with the additional microbiological culture data.

95 Standard microbiological culture may fail to identify unusual or

96 residual disinfectant, but the conventional microbiological culture methods currently used target on

97 Concordance of cfDNA with standard microbiological culture of contemporaneously collected p

98 nsidered a sterile organ for decades because microbiological culture techniques had shown negative re

99 us) was performed by rapid diagnostic tests, microbiological culture, and/or polymerase chain reactio

100 r genotypes that would not be detected using microbiological culture.

101 collected and tested for Vibrio cholerae by microbiological culture.

102 The current method of diagnosis relies on microbiological culture; however, awaiting culture resul

103 Diagnosis was made in all cases by positive microbiological cultures after 3, 4, 7, and 12 days.

104 Microbiological cultures were collected prior to and dur

105 When the results of other microbiological cultures were included, microbial pathog

106 antibiotic resistance in digestive and nasal microbiological cultures.

107 The primary outcome of the trial was microbiological cure at 24 hours on repeat culture.

108 rse clinical outcome than those who achieved microbiological cure at 6 days in the Mycotic Ulcer Trea

109 There was no difference in proportions with microbiological cure between azithromycin 1.5g and 1g: 6

110 The endpoint was microbiological cure by a negative nucleic acid amplific

111 Fosfomycin-trometamol resulted in microbiological cure in 25%, 28%, and 100% of ASB, lower

112 In 341 rectal infections, microbiological cure in azithromycin-treated women was 7

113 ys) on selection of macrolide resistance and microbiological cure in men with Mycoplasma genitalium u

114 The primary outcome of the trial was microbiological cure on 3-day repeat culture analysis.

115 Secondary outcomes included microbiological cure on 7-day repeat culture analysis; 3

116 Early microbiological cure on culture is a predictor of clinic

117 Microbiological cure was determined for men with M. geni

118 within 14 days and severe clinical failure, microbiological cure, relapse, recurrence, and acquired

119 thresholds using historical prescribing and microbiological data from five populations in Europe.

120 g-resistant TB clustering risk using routine microbiological data from KwaZulu-Natal, South Africa.

121 Associations of patient and microbiological data were assessed using the Chi-2 test

122 Differences between groups for the microbiological data were determined using principal coo

123 Based on microbiological data, shelf life of beef was 5-6days for

124 However, by analysis of patient and microbiological data, subgroups for highly effective car

125 sharing of epidemiological, trace-back, and microbiological data.

126 nfectious diseases enable expedited accurate microbiological diagnoses.

127 ve than targeted PCR, with both assisting in microbiological diagnosis but uncommonly enabling antimi

128 Rapid microbiological diagnosis ensures appropriate antimicrob

129 Molecular diagnostics provided a supportive microbiological diagnosis for 21 patients and a new diag

130 re not treated with antibiotics, and lack of microbiological diagnosis for BSI.

131 The frequent lack of a microbiological diagnosis in community-acquired pneumoni

132 se chain reaction (PCR) and targeted PCR aid microbiological diagnosis in culture-negative clinical s

133 culture and qPCR) can be used as a method of microbiological diagnosis in hospitalized adults with LR

134 Microbiological diagnosis of pediatric pulmonary tubercu

135 sue samples is the current gold standard for microbiological diagnosis of prosthetic joint infections

136 ortunity for more accurate and comprehensive microbiological diagnosis.

137 In contrast to the microbiological diagnostic standard, where the pathogen

138 545 Shigella isolates were performed at the Microbiological Diagnostic Unit Public Health Laboratory

139 wing recent integration of ADX: conventional microbiological diagnostics with and without antimicrobi

140 ion sequencing may provide novel data on the microbiological diversity of the skin.

141 Microbiological DSTs for PZA have been restricted by tec

142 this study was to evaluate the clinical and microbiological effect of adjunctive PAD in the treatmen

143 We therefore compared compliance and microbiological efficacy between both hand hygiene techn

144 esses the current breadth of biochemical and microbiological efforts to preserve the future of the be

145 common and is caused by a disruption of the microbiological environment in the lower genital tract.

146 ting that it does not depend on a particular microbiological environment.

147 Microbiological equivalence was demonstrated for bedaqui

148 %]); and (2) combined symptomatic resolution/microbiological eradication at test of cure (TOC): 280 o

149 Microbiological eradication at TOC (European Medicines A

150 s and/or intraocular lens were submitted for microbiological evaluation in all cases.

151 nting and culture, islet quality evaluation, microbiological evaluation, and release criteria of the

152 mentioned RCT were selected for clinical and microbiological evaluation.

153 teen NHPs remained free of clinical signs or microbiological evidence of active TB following infectio

154 d pulmonary tuberculosis (PTB) patients lack microbiological evidence of Mycobacterium tuberculosis,

155 sease, and they remained without clinical or microbiological evidence of persistent bacilli, suggesti

156 ected patients with negative M. tuberculosis microbiological evidence.

157 On days 0, 4, 8, 12, and 16, we performed microbiological examination (colony forming units, [CFU]

158 ntacts through clinical, radiographical, and microbiological examinations for 2 years.

159 ion; the need for rescue treatment on day 8; microbiological failure (ie, blood cultures positive for

160 e initial E. faecium blood isolate predicted microbiological failure of daptomycin therapy, suggestin

161 otics was demonstrated for clinical failure, microbiological failure, or adverse events.

162 chain fatty acids (SCFAs) and the associated microbiological features.

163 data were analyzed by linear regression and microbiological findings by Friedman and Dunn tests (alp

164 flammation was accompanied by a shift in the microbiological flora toward those species associated wi

165 airy calves has an appreciable environmental microbiological footprint.

166 mpounds with technological, sensorial and/or microbiological functionalities.

167 terborne diseases through the integration of microbiological, genomic, epidemiological, climatic, and

168 owth of microorganisms and no differences in microbiological growth or biogenic amine formation were

169 ed-onset endophthalmitis should benefit from microbiological identification in vitreous samples by co

170 ntified as Ochrobactrum anthropi by standard microbiological identification systems.

171 he diagnosis of infection with SARS-CoV-2 is microbiological, imaging techniques play an important ro

172 Microbiological infections account for up to 20% of the

173 Of 207 patients enrolled, 183 were in the microbiological intent-to-treat population (~21% IC).

174 it (25-31 days from start of therapy) in the microbiological intent-to-treat population using a NI ma

175 For the microbiological intent-to-treat population, the rates of

176 on culture at test of cure, assessed in the microbiological intention-to-treat (mITT) population, wh

177 Outer membrane lipid alterations of current microbiological interest, such as lipid structures found

178 l perforation in 2016 and performed enhanced microbiological investigations (blood and tissue culture

179 Initial microbiological investigations were negative.

180 d demonstrating noninferiority in ECR in the microbiological ITT population (micro-ITT) and determina

181 tial choice of antibiotic is guided by local microbiological knowledge and by subsequent positive cul

182 nd it can be used as a pre-screening tool in microbiological laboratories.

183 WGS of MRSA isolates sent to a regional microbiological laboratory was performed as part of a 12

184 Microbiological (lactic acid bacteria and probiotic Lact

185 Microbiological (Lactococcus lactis and Lactobacillus ac

186 the relative concentrations of the following microbiological markers: bacterial endotoxin, 3-hydroxy

187 Microbiological measurements, chemical water quality dat

188 among MSM were characterized using standard microbiological methods and whole-genome sequencing.

189 selective medium and testing by conventional microbiological methods followed by PCR testing; (ii) se

190 associated with, environmental factors, and microbiological methods quantitatively impact spore inac

191 placed stool cultures and other conventional microbiological methods with the FilmArray(R) Gastrointe

192 Organisms were identified by conventional microbiological methods, and antimicrobial susceptibilit

193 methods are based on different technologies, microbiological methods, immunological methods or physic

194 We also identified multiple active microbiological networks that tracked specific gradients

195 Microbiological NJSA case ascertainment underestimates c

196 In both methods, namely the sensor-based and microbiological one, a tailing effect has been observed.

197 pplications in antimicrobial design and as a microbiological or biotechnological tool.

198 as in use, and if so whether it was based on microbiological or clinical risk factors and how these w

199 l radiologic findings add weight to negative microbiological or serological tests.

200 ted mortality (HR 0.78, 95%CI: 0.46-1.34) or microbiological outcomes in univariate or multivariate r

201 The impact of shuttling for microbiological outcomes of in vivo infections is diffic

202 cts of smoking on clinical, biochemical, and microbiological outcomes of non-surgical periodontal tre

203 icant difference in mortality, clinical, and microbiological outcomes or adverse events was demonstra

204 , but there was no statistical difference in microbiological outcomes when stratified based on hypert

205 CB did not result in a significant change in microbiological outcomes.

206 The following clinical and microbiological parameters were assessed: clinical attac

207 Physicochemical and microbiological parameters, biogenic amines, fatty acids

208 considering chemical, ecotoxicological, and microbiological parameters.

209 r Treatment Technologies serves to benchmark microbiological performance of existing and novel techno

210 Microbiological persistence in patients with MAC-LD is n

211 Microbiological persistence of MAC-LD was defined as MAC

212 tudy was to determine the differences in the microbiological, physical-chemical, aromatic and phenoli

213 Microbiological, physicochemical and chemical properties

214 effect of storage under refrigeration on the microbiological, physicochemical, and chemical changes o

215 From a microbiological point of view, the Mild heat treatment w

216 hould be partnered with increasing access to microbiological point-of-care testing.

217 Inclusion criteria were microbiological positive AK cases seen at Moorfields Eye

218 entirely new modes of human interaction with microbiological processes and corresponding applications

219 ming foams could have adverse impacts on the microbiological processes used for the bioremediation of

220 We characterize the incidence, risk factors, microbiological profile and outcomes of PVE from the PAR

221 Relevant changes in clinical and microbiological profile included older patients with mor

222 This study was carried out to determine the microbiological profile of corneal ulcer cases diagnosed

223 To report the incidence, microbiological profile, graft survival, and determining

224 The metabolites content and the microbiological profiles were significantly different be

225 structural biology, biochemical testing, and microbiological profiling to identify broad-spectrum inh

226 study was to analyze the physicochemical and microbiological properties, as well as the bioactive com

227 Changes in sensorial, chemical and microbiological qualities of kefirs fortified with black

228 d samples were analysed for changes in their microbiological quality, TVB-N, biogenic amine content,

229 rt and Ultra against culture and a composite microbiological reference standard (any positive result)

230 Applying a microbiological reference standard for assessment of sen

231 Using the microbiological reference standard, the estimated sensit

232 Using a microbiological reference standard, the specificity of S

233 Against a composite microbiological reference, sensitivities were 72% (58 to

234 f mortality, persistent bacteremia at day 5, microbiological relapse, and microbiological treatment f

235 prevent the emergence of mmpT5 variants and microbiological relapse.

236 at days 2 and 5; acute kidney injury (AKI); microbiological relapse; microbiological treatment failu

237 plications of this in terms of the future of microbiological research.

238 ncomycin based on end points of clinical and microbiological resolution or clinical resolution alone.

239 m intracellulare lung disease had an initial microbiological response and then relapsed.

240 To assess the clinical and microbiological responses of amoxicillin + metronidazole

241 Timely availability of microbiological results from positive blood cultures is

242 ive tuberculosis but with negative pre-entry microbiological results were at increased risk of tuberc

243 nly meant to guide management while awaiting microbiological results, not intended as a community-bas

244 According to microbiological results, we constructed 2 groups: negati

245 The chemical composition, microbiological risk and acceptance of the selected brea

246 s novel and reveals gaps in understanding of microbiological risks associated with postharvest practi

247 logical processes with the aim of preserving microbiological safety and extending shelf-life.

248 ral and advanced glycation end products) and microbiological safety and sensory tests of the biscuits

249 AP), quality (CIELAB colour parameters), and microbiological safety of a new isotonic drink made of l

250 reas in two Chinese provinces, evaluated the microbiological safety of drinking water and associated

251 Thermal treatment preserves the microbiological safety of milk, but also induces Maillar

252 to increase the content of isoflavonoids and microbiological safety.

253 las involves high temperature processing for microbiological safety.

254 The microbiological sampling was undertaken alongside a hous

255 Although there were differences in the microbiological screening methods employed, the individu

256 ly used worldwide to sample human mucosa for microbiological screening with culture methods.

257 (63%) had an IAP policy; 35 of 60 (58%) used microbiological screening, 25 of 60 (42%) used clinical

258 Coverage varied considerably; for microbiological screening, median coverage was 80% (rang

259 To examine the impact of UAVs on microbiological specimens, blood and sputum culture spec

260 ge soft drinks and its antioxidant activity, microbiological stability and color changes were estimat

261 counts were below 10(6) CFU/mL, showing good microbiological stability.

262 In this Review, we discuss how recent microbiological, structural, genetic and immunological s

263 tractive in disease screening and diagnosis, microbiological studies and forensic and environmental i

264 assays used in disease screening/diagnosis, microbiological studies, and forensic/environmental inve

265 basis of numerous ongoing technological and microbiological studies.

266 Both treatment groups displayed similar microbiological success and safety profiles.

267 We linked clinical and microbiological surveillance for IPD among admissions of

268 ns associated with CO2 injections based on a microbiological survey of a basaltic CCS site.

269 Samples were analyzed using microbiological (survival rates), morphological (electro

270 nmental processes, such as precipitation, to microbiological systems and food processing, but the mic

271 synergy between Fe(0) abiotic reactions and microbiological TCE and ClO(4)(-) reductions is poorly u

272 ation of aged-Fe(0) synergistically promoted microbiological TCE dechlorination to ethene while achie

273 ry (MALDI-TOF), microscopy (SEM, Raman), and microbiological techniques (CFU, OD(600), ATP-levels).

274 imulated lacustrine environment via standard microbiological techniques and in the simulated mudstone

275 Novel microbiological techniques and omics analyses have led t

276 ial pathogens were identified using standard microbiological techniques and serovars of S. enterica w

277 Innovative studies that use quantitative microbiological techniques are needed to accurately asse

278 Current evidence comes from standard microbiological techniques in studies focused on a time-

279 he method was validated against conventional microbiological techniques such as the use of optical de

280 cus, and H. influenzae was confirmed through microbiological techniques.

281 sensor measurements are correlated with the microbiological test routines.

282 designated as having non-TB were negative by microbiological testing and were not initiated on anti-T

283 the sepsis alert more often than all of the microbiological testing combined (169 aetiological deter

284 limited settings, many clinics lack same-day microbiological testing for active tuberculosis (TB).

285 jor regulations and cGMP practices governing microbiological testing in the biopharmaceutical industr

286 and 96% specificity relative to conventional microbiological testing of CSF in identifying the causat

287 ng two sequencing platforms in comparison to microbiological testing using culture, 16S bacterial PCR

288 Microbiological testing, including interpretation of ant

289 hold of cases and controls were obtained for microbiological testing.

290 In addition to the clinical features, microbiological tests (direct examination and cultures o

291 Outcomes and measurements: microbiological tests of intraocular samples included ba

292 admitted to hospital with pneumonia who had microbiological tests taken within 24 h of presentation.

293 pert MTB/RIF Ultra (Ultra) compared to other microbiological tests using respiratory samples from Uga

294 remia at day 5, microbiological relapse, and microbiological treatment failure.

295 idney injury (AKI); microbiological relapse; microbiological treatment failure; and duration of intra

296 the continuation phase appear to have worse microbiological treatment outcomes when compared with da

297 trained personnel in laboratories performing microbiological water quality assessment.

298 ae that are not detected as part of standard microbiological water quality testing.

299 lyomavirus (BKPyV), an emerging indicator of microbiological water quality, by a quantum dot-based MB

300 OutcomeMeasures: Diagnostic procedures, microbiological yield, and visual outcomes.