戻る
「早戻しボタン」を押すと検索画面に戻ります。

今後説明を表示しない

[OK]

コーパス検索結果 (1語後でソート)

通し番号をクリックするとPubMedの該当ページを表示します
1 cal graders (masked to clinical features and microbiology).
2 e commonly used for kinetic analysis in food microbiology.
3 ntinue to play an important role in clinical microbiology.
4 sification and nomenclature permeates modern microbiology.
5  light-dependent phenomenon for the field of microbiology.
6  functional evolution and other subfields of microbiology.
7 dy can be applied to other areas of clinical microbiology.
8 tion in NHP models of human pharmacology and microbiology.
9 ate total laboratory automation for clinical microbiology.
10 among laboratorians in the field of clinical microbiology.
11 ta from existing legacy text in the field of microbiology.
12 y, biomaterials engineering, and traditional microbiology.
13  of the currently used approaches in medical microbiology.
14 y graduation from college, I took courses in microbiology.
15 on desert soil organic oxidant chemistry and microbiology.
16 nt one of the earliest taxonomic criteria in microbiology.
17  1 day represents a step change for clinical microbiology.
18 g a new vision for the central importance of microbiology.
19 (resonance SIRM) of studies in environmental microbiology.
20 n metagenomics methods that have transformed microbiology.
21 s opened many new avenues of research within microbiology.
22 bation represents an essential challenge for microbiology.
23 ea that escape routine detection in clinical microbiology.
24 ting and to evaluate its effects on clinical microbiology.
25  technologies are transforming public health microbiology.
26 vances have changed the practice of clinical microbiology.
27 V range, which have not yet been explored in microbiology.
28 lications that have emerged, with a focus on microbiology.
29 al investigations of thermophilic composting microbiology.
30 aper by Li et al. in this issue of Molecular Microbiology adds Cupriavidus FisR to an expanding reper
31 System, and now is Vice President for Global Microbiology Affairs at bioMerieux, Durham, NC, wrote th
32 e, meta-omics approaches have revolutionized microbiology, allowing for a cultivation-free assessment
33 pproaches have been used to assess CF airway microbiology, although the role that these methods will
34 g and then reporting the results of clinical microbiology analyses must be in place.
35                              Wound infection microbiology analysis and resistance patterns.
36          We analyzed electronically captured microbiology and antibiotic use data from a network of U
37     However, the relationship between airway microbiology and asthma phenotype is poorly understood.
38 ul for researchers interested in comparative microbiology and benefit the microbiome/metagenomic comm
39 ill have widespread applicability in systems microbiology and bioengineering.
40 oach with knowledge from fields ranging from microbiology and chemical separations to biochemistry an
41 we reviewed the literature starting with the microbiology and ending with the bioprocess engineering
42                   The interplay of sourdough microbiology and generated volatile compounds that defin
43 communities and supports research from basic microbiology and immunology to therapeutic development i
44 is approach may find diverse applications in microbiology and in biomedical and forensic studies of h
45 specimens were analyzed at the Department of Microbiology and Infection Control, Statens Serum Instit
46            In 2011 and 2012, the Division of Microbiology and Infectious Diseases at the National Ins
47 19th century, a major focus of the fields of microbiology and infectious diseases has been to seek di
48               In April 2015, the Division of Microbiology and Infectious Diseases of the National Ins
49 nslational Science (CCTS), the Laboratory of Microbiology and Infectious Diseases, and Clinical Direc
50 e relationship between CFTR activity, airway microbiology and inflammation, and lung function in subj
51 t, Nate Ledeboer, Medical Director, Clinical Microbiology and Molecular Diagnostics, Dynacare Laborat
52 ion of intraocular fluids using conventional microbiology and molecular techniques, including assessm
53 enome sequencing is revolutionizing clinical microbiology and our understanding of infectious disease
54                               The chemistry, microbiology and physical properties of saline groundwat
55 iscussion has been steered by members of the microbiology and policy communities, additional input fr
56                                     Clinical microbiology and public health laboratories are beginnin
57 ce profiles of bacterial strains in hospital microbiology and public health settings.
58 us sp. can be of importance to both clinical microbiology and the food and probiotic supplement indus
59 s able to abandon work in pure chemistry and microbiology and to take up research in entomology only
60       James Dunn, who is Director of Medical Microbiology and Virology at Texas Children's Hospital,
61 mpared to qPCR, its applications in clinical microbiology, and considerations for implementation of t
62                       Using enzyme kinetics, microbiology, and crystal structures of the complexes, w
63 , and collected tissues for histomorphology, microbiology, and gene expression studies.
64      Emerging tools in analytical chemistry, microbiology, and informatics are breaking down the barr
65  to compare temporal trends in IE incidence, microbiology, and outcomes before and after the change i
66 de a historical background on the discovery, microbiology, and recognition of M. genitalium as a path
67 overies stimulated interest in (per)chlorate microbiology, and the application of advanced approaches
68 Society of America, the American Society for Microbiology, and the Pan American Society for Clinical
69  and force nanoscopy techniques available in microbiology, and we highlight some outstanding question
70  metabolomic analyses together with in vitro microbiology approaches and whole-genome sequencing of M
71 1D mutation; however, effects on respiratory microbiology are largely unknown.
72 eit selective isolation methods used in food microbiology are not suited for its detection.
73 following the manual of American Society for Microbiology (ASM) and their antibiotic susceptibility t
74          As part of the American Society for Microbiology (ASM) Evidence-Based Laboratory Medicine Pr
75 ntinue to work with the American Society for Microbiology (ASM) in meeting the future challenges face
76 r sensitivity than traditional culture-based microbiology assays.
77 ratories suggest the necessity for continued microbiology-based understanding of biosafety practices,
78     In this issue of the Journal of Clinical Microbiology, Bautista-Lopez et al. provide characteriza
79 rainees from multiple disciplines, including microbiology, bioinformatics, endocrinology, metabolism,
80 pectrum of problems, including environmental microbiology, biomedical research, and various industria
81           It was once the best rapid test in microbiology, but it is no longer trusted by many clinic
82 ur can help to address important problems in microbiology by explaining observed differences in pheno
83 ic clustering and can contribute to clinical microbiology by genomotyping for outbreak management and
84 ntial morbidity and mortality worldwide, but microbiology capacity and surveillance limitations have
85 er to make them more visible to the clinical microbiology community, to identify their limitations, a
86             In 2016, the American Academy of Microbiology convened a colloquium to examine point-of-c
87      We disseminated a 38-question survey to microbiology course directors and curriculum deans at 14
88                                  Preclinical microbiology course directors report significant challen
89 nting internal medicine, emergency medicine, microbiology, critical care, surgery, epidemiology, phar
90       Given recent major advances in medical microbiology, curricular changes will likely be needed.
91           Perioperative variables as well as microbiology data for intraoperative bile and postoperat
92 in decided to compare the empirical clinical microbiology data from our institution with estimates an
93 ans group streptococcal detection using PHIS microbiology data had high sensitivity (92.3%) and PPV (
94   However, this decision is rarely guided by microbiology data pertinent to PD, particularly in patie
95         The high sensitivity and PPV of PHIS microbiology data suggest that using external data sourc
96 Health Information System (PHIS) billing and microbiology data were compared with chart data.
97                              Compared to the microbiology data, RISA profiles clustered into two grou
98                                              Microbiology database records were retrospectively revie
99 er understand temporal trends and sources of microbiology delivered to taps, these treatment plants a
100 cle in this issue of the Journal of Clinical Microbiology demonstrates the use of publicly available
101 y used for diagnosis were recovered from the microbiology department and then underwent antifungal se
102 with natamycin alone were retrieved from the microbiology department.
103                              For traditional microbiology departments, opportunities for improvement
104 les in this issue of the Journal of Clinical Microbiology describe the breadth of application of WGS
105 cle in this issue of the Journal of Clinical Microbiology describes an innovative multiplexed immunoa
106 cle in this issue of the Journal of Clinical Microbiology describes SerotypeFinder, an essential guid
107 cle in this issue of the Journal of Clinical Microbiology describes the application of a culture-inde
108 cle in this issue of the Journal of Clinical Microbiology describes the use of matrix-assisted laser
109 ise the epidemiology, clinical presentation, microbiology, diagnosis, therapy, and public health aspe
110             The cohort of hospital-based NHS microbiology diagnostic services serves 867,254 usual re
111 s (CF) is polymicrobial, but standard sputum microbiology does not account for the lung microbiome or
112                   In this issue of Molecular Microbiology, Dunstan et al. have identified a novel pat
113 ll explore what has been published regarding microbiology education and learning online and the use o
114 ters and their users provided an overview on microbiology education and training.
115 ows and faculty may have provided additional microbiology education during the rotation.
116 urse content, and educator perceptions about microbiology education locally and nationally.
117 nderstanding of contemporary medical student microbiology education.
118                                 NHS Grampian Microbiology Endowment Fund.
119 pertise in infectious diseases, neonatology, microbiology, epidemiology, and statistics) identified p
120 he state of current knowledge concerning the microbiology, epidemiology, clinical manifestations of i
121                   In this issue of Molecular Microbiology, Famulla, et al. now show that ADEP's effec
122                   In this issue of Molecular Microbiology, Ferla et al. describe examples of enzymes
123  provides a vast, underused resource for the microbiology field as a whole.
124     In this issue of the Journal of Clinical Microbiology, Fitzgerald and colleagues report comprehen
125 atory and, therefore, less contributory to a microbiology-focused biosafety risk assessment than info
126 aboratories completed a questionnaire-based, microbiology-focused biosafety risk assessment.
127 y (MALDI-TOF MS) has revolutionized clinical microbiology for isolate identification and has the poss
128                                           In microbiology, gene disruption and subsequent experiments
129     In this issue of the Journal of Clinical Microbiology, Giani et al. describe a sustained outbreak
130 vel and unconventional approach to impedance microbiology has been under investigation.
131 ome sequencing (WGS) to problems in clinical microbiology has had a major impact on the field.
132                 The development of molecular microbiology has made it possible for us to deepen our u
133        The revolution in culture-independent microbiology has provided the tools needed to target the
134 mass spectrometry (MALDI-TOF MS) in clinical microbiology has revolutionized species identification o
135                                  Advances in microbiology have led to a better understanding of the e
136 e-genome sequencing (WGS) is revolutionizing microbiology; however, complementary advances in accessi
137 dicine and Charles Weissmann in virology and microbiology, I found that understanding why and how peo
138 ions including rapid mucosal diagnostics for microbiology, immune responses, and biochemistry.
139 chemistry, omics, and computational biology; microbiology, immunology, and medical genetics; engineer
140 rtise covered basic as well as translational microbiology, immunology, transplantation, and intensive
141                              Basic sciences, microbiology, infectious diseases, and public health con
142 e following concerns: challenges integrating microbiology into other courses, reduced total teaching
143       A strong foundational understanding of microbiology is crucial for the 21st century physician.
144                                Public health microbiology is currently being transformed by whole-gen
145                                              Microbiology is experiencing a revolution brought on by
146  a new set of assumptions about how clinical microbiology is practiced here.
147     In this issue of the Journal of Clinical Microbiology, Karlowsky et al. report the results of an
148                     We demonstrated improved microbiology knowledge after completion of the online mo
149 ional Journal of Systematic and Evolutionary Microbiology Knowledge of designations involving clinica
150 lution was compared to results from clinical microbiology laboratories (Etest) and to polymyxin resis
151 ty testing methods that are used in clinical microbiology laboratories (Etest, disk diffusion, and Se
152  result of using culturomics in our clinical microbiology laboratories (including amoeba co-culture a
153                                Public health microbiology laboratories (PHLs) are on the cusp of unpr
154  2014, can have a significant impact on both microbiology laboratories and antimicrobial stewardship
155 feasibility of duodenoscope surveillance for microbiology laboratories and endoscopy departments.
156                      In this study, clinical microbiology laboratories at four major tertiary medical
157 ified by three National Health Service (NHS) microbiology laboratories between 1 November 2011 and 29
158                       However, most clinical microbiology laboratories currently require at least 24
159                Guidelines were issued to the microbiology laboratories delineating procedures for ide
160 ns will improve the capabilities of clinical microbiology laboratories in the short term, but do not
161 bacterial identification in routine clinical microbiology laboratories may affect the prevalence of S
162 been the development of centralized clinical microbiology laboratories that provide services to patie
163 lture workup has rapidly emerged in clinical microbiology laboratories throughout the world and more
164 and discuss practical solutions for clinical microbiology laboratories to address these public health
165 cular diagnostic tests have allowed clinical microbiology laboratories to more rapidly and sensitivel
166 hodology will enable hospital-based clinical microbiology laboratories to perform at-will broth micro
167  To address the compelling clinical need for microbiology laboratories to perform such testing in-hou
168                      The ability of clinical microbiology laboratories to reliably detect carbapenema
169 demonstrates the ability of diverse clinical microbiology laboratories to utilize MALDI-TOF MS for th
170 13) and Leeds (July 2012 through April 2013) microbiology laboratories underwent culture and whole-ge
171       The implementation of IQCP in clinical microbiology laboratories will most certainly be an adde
172                   Furthermore, some clinical microbiology laboratories will resist the mandate to req
173 pants included representatives from clinical microbiology laboratories, industry, and the government,
174 peration and is suitable for use in clinical microbiology laboratories.
175  have far-reaching implications for clinical microbiology laboratories.
176 quality diagnostic information from clinical microbiology laboratories.
177 us that has rarely been isolated in clinical microbiology laboratories.
178 aceae (CPE) represents a major challenge for microbiology laboratories.
179 ng services (41.3% reduction, P = .01) and a microbiology laboratory (82.8% reduction, P = .02) were
180 omes at a time when advances in the clinical microbiology laboratory (CML) provide more-precise and -
181 rehensive pathogen detection in the clinical microbiology laboratory and have numerous applications f
182                  We retrospectively obtained microbiology laboratory and hospital databases of nine p
183 data were extracted from records held by the microbiology laboratory and inpatient records.
184        Time-series analysis was performed on microbiology laboratory data.
185 s Hopkins biosafety level 3 (BSL-3) clinical microbiology laboratory designed and validated waste-han
186 the cornerstone of diagnostic testing in the microbiology laboratory for the guidance of empirical tr
187 e chlamydia test recorded by a public health microbiology laboratory from Jan 1, 1992, to Nov 2, 2011
188      Fecal samples submitted to our clinical microbiology laboratory from patients in the Philadelphi
189 atch urine specimens submitted to a clinical microbiology laboratory in an urban academic medical cen
190  2002, following establishment of a clinical microbiology laboratory in the government hospital that
191  genomes - now a staple of the public health microbiology laboratory in well-resourced settings - can
192                   Increasingly, the clinical microbiology laboratory is being asked to support infect
193                                 The clinical microbiology laboratory is expected to transition from c
194 86 qualifying stool samples submitted to the microbiology laboratory of a tertiary care pediatric cen
195 tinomyces cultures combined with a change in microbiology laboratory practices.
196 recipients both by culture (using a clinical microbiology laboratory protocol) and by bacterial 16S r
197 d States explains how an integrated clinical microbiology laboratory service has been established in
198 utter, who directs a Charlotte, NC, clinical microbiology laboratory that provides services for a 40-
199 gly considered due to growth patterns in the microbiology laboratory that were more consistent with t
200 nt all diarrhoeal samples submitted to their microbiology laboratory to a national coordinating labor
201 ong-read sequencing approach in the clinical microbiology laboratory using the Oxford Nanopore Techno
202 as no growth at 10(3) CFU/ml by the clinical microbiology laboratory using the standard urine culture
203  for pathogen identification in the clinical microbiology laboratory, but the impact on patient care
204 n antimicrobial stewardship programs and the microbiology laboratory, including data on the impact th
205  in an anaerobic holding jar in the clinical microbiology laboratory, where anaerobic plates were pre
206 ost commonly performed tests in the clinical microbiology laboratory, yet it is poorly controlled and
207 be unsuitable for a high-throughput clinical microbiology laboratory.
208 ommunity and hospital samples submitted to a microbiology laboratory.
209 ng and validating PCR assays in the clinical microbiology laboratory.
210 ost critical tasks performed by the clinical microbiology laboratory.
211 n important new tool for use in the clinical microbiology laboratory.
212 ST) is a fundamental mission of the clinical microbiology laboratory.
213  the Accelerate Pheno system in the clinical microbiology laboratory.
214 ining financial resources, and utilizing the microbiology laboratory.
215 n the definitive method used in the clinical microbiology laboratory.
216 mon specimen types submitted to the clinical microbiology laboratory; the use of chromogenic agar is
217 arget attainment and eliminates the need for microbiology labs to perform confirmatory testing for Kl
218     In this issue of the Journal of Clinical Microbiology, Lau and colleagues evaluate the performanc
219     In this issue of the Journal of Clinical Microbiology, Leber et al. report results from a large c
220 espite an extensive use in food industry and microbiology, little is known about the drying kinetics
221               In this issue of Environmental Microbiology, Liu et al. (2016) show that even therapeut
222     In this issue of the Journal of Clinical Microbiology, M. L. Faron et al. report the results of t
223 o a variety of fields, from cloud science to microbiology, major gaps in our understanding of this ub
224 antly lower with mRDT than with conventional microbiology methods (odds ratio [OR], 0.66; 95% confide
225  sterile inflammation was investigated using microbiology methods at the sites of bacterial infection
226 ecent years in culture-independent molecular microbiology methods, the detailed study of individual b
227 nical outcomes between mRDT and conventional microbiology methods.
228 on many diverse fields of biology, including microbiology, neurobiology, development, tissue mosaicis
229 ples is an important aspect of environmental microbiology, none of the major software packages used i
230 dy index test performed at the Department of Microbiology, Odense University Hospital, Denmark, from
231                                              Microbiology of a hypersaline oil reservoir located in C
232                 Population-based data on the microbiology of acute postoperative endophthalmitis in t
233 tended exposure of Pb on the performance and microbiology of aerobic treatment processes, and it indi
234                           With regard to the microbiology of IE, there has been a significant rise in
235 eans, LA, U.S.A. were sampled to compare the microbiology of independent systems that treat the same
236 um specimens and artworks and better control microbiology of industrial fermentations.
237                                          The microbiology of the disease has also changed, and staphy
238  characteristics rather than solely upon the microbiology of the infection causing PVIE.
239 es being compiled by the Journal of Clinical Microbiology on a biannual basis, this compendium summar
240 acterial growth, but the impact of the wound microbiology on clinical outcomes is uncertain.
241 our objective was to evaluate the use of the microbiology online modules by internal medicine residen
242          We created case-based, interactive, microbiology online modules similar to the vignettes pre
243 ited time to participate in rounds and learn microbiology, our objective was to evaluate the use of t
244                                              Microbiology personnel were sent a voluntary, electronic
245     During microbiology rounds, we highlight microbiology principles using vignettes.
246 ies in this issue of the Journal of Clinical Microbiology provide data to support the use of pefloxac
247 plines such as internal medicine, pathology, microbiology, radiology, surgery, preventive medicine, a
248 s has uncovered emerging paradigms in social microbiology, rapid evolution, host specificity, and met
249                                 Clinical and microbiology records were reviewed for 63 eyes of 63 pat
250                                              Microbiology records were reviewed retrospectively.
251 together results in significant decreases in microbiology report TATs.
252                                              Microbiology reporting can be difficult to understand, a
253 ng appearance was compared with surgical and microbiology reports as the reference standard to determ
254           This review traces the progress of microbiology research in the Atacama and dispels the pop
255             We describe how one contributing microbiology RI determined the most relevant skills.
256                                              Microbiology rounds are an integral part of infectious d
257                                       During microbiology rounds, we highlight microbiology principle
258 es similar to the vignettes presented during microbiology rounds.
259                   In this issue of Molecular Microbiology, Rued et al. show that in pneumococci GpsB
260  that trended higher within the general (not microbiology-specific) laboratory for core activities, s
261                                              Microbiology specimens are unique among clinical specime
262 s medium as a relevant in vitro model for CF microbiology studies.
263 ly used by the European Society for Clinical Microbiology Study Group on Legionella Infections (ESGLI
264 an and colleagues in this issue of Molecular Microbiology suggests that the motility of Nostoc hormog
265 information from aquatic systems and medical microbiology suggests the potential for viral influences
266 standards alone for quality control of their microbiology systems.
267 vide an effective and economical solution to microbiology techniques that rely on enrichment, thereby
268 me-wide association studies with traditional microbiology techniques to investigate the genetic basis
269                   A combination of classical microbiology techniques, including viral culture and ele
270 onella isolates was performed using standard microbiology techniques.
271                   In this issue of Molecular Microbiology, Terry, Jiang, and colleagues in Per Bullou
272  a colloquium to examine point-of-care (POC) microbiology testing and to evaluate its effects on clin
273 ementation, oversight, and evaluation of POC microbiology testing.
274                                 Emerging POC microbiology tests, especially nucleic acid amplificatio
275 eutrophilic asthma is associated with airway microbiology that is significantly different from that s
276 d many advances in scientific enzymology and microbiology that laid the foundations for modern biotec
277  general meeting of the American Society for Microbiology that was held in New Orleans, LA.
278 agenda across gonococcus-related fields from microbiology to epidemiology that will catalyze a compre
279               Longitudinal samples indicated microbiology to have stability both spatially and tempor
280 ve been increasingly applied to the field of microbiology to uncover new potential therapeutics as we
281  of amplified 16S rRNA genes is an essential microbiology tool.
282  a flocked swab with a modified liquid Amies microbiology transport medium.
283 on and Public Health, Department of Clinical Microbiology, Trinity College Dublin.
284     In this issue of the Journal of Clinical Microbiology, Truong et al. report significant reduction
285 ted in this issue of the Journal of Clinical Microbiology underscore the limitations of pneumococcal
286 eae In this issue of the Journal of Clinical Microbiology, V.
287    While a number of existing games touch on microbiology, very few consider the beneficial (as oppos
288                                              Microbiology was evaluated using quantitative polymerase
289                                 Source water microbiology was most divergent from tap water, and each
290                                       Airway microbiology was significantly less diverse (P = .022) a
291 ctious disease diagnostics and public health microbiology was the topic of discussion during a recent
292              Phenotypic predictors of airway microbiology were identified by using multivariate linea
293 de, gynecologists and nurses, not trained in microbiology, were mostly able to identify E. coli and n
294 1 diabetes, type 2 diabetes, immunology, and microbiology with the goal of discussing and defining po
295 re one of the most common techniques used in microbiology, with applications ranging from studies of
296 irst discuss some recent history of clinical microbiology within ASM and then some current challenges
297  the first study of coupled geochemistry and microbiology within the PPR and demonstrates how the con
298 l for integrating big data into a functional microbiology workflow, we review literature on trimethyl
299     In this issue of the Journal of Clinical Microbiology, Y.
300 y collaborations, including biogeochemistry, microbiology, zoology, and plant science to examine fore

WebLSDに未収録の専門用語(用法)は "新規対訳" から投稿できます。
 
Page Top