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 iquantitative assay in clinical analysis and forensics.
2 es to be very useful in the field of nuclear forensics.
3 a signature of processing history in nuclear forensics.
4 example, international safeguards or nuclear forensics.
5 is shown to be well-suited for environmental forensics.
6 oor localization, virtual reality, and audio forensics.
7 the most valuable evidence in modern nuclear forensics.
8 o stable isotope (paleo)ecology and wildlife forensics.
9 , biological imaging, clinical analysis, and forensics.
10 could be a powerful on-site tool for nuclear forensics.
11 h as material science, heritage science, and forensics.
12 a new tool in paleoclimatology or geospatial forensics.
13 ogy, biostratigraphy, melissopalynology, and forensics.
14 tagens, and as diagnostics for environmental forensics.
15 entially valuable in population genetics and forensics.
16 cally assist crime-scene and explosion-scene forensics.
17 , industrial hygiene, homeland security, and forensics.
18 olution, medicine, conservation biology, and forensics.
19 lar for identity and parental testing in DNA forensics.
20 has excellent potential to advance microbial forensics.
21 ne, ecology, agriculture, biotechnology, and forensics.
22 ns, ranging from cell line authentication to forensics.
23 inical diagnosis, food, the environment, and forensics.
24 is of inorganic mixtures relevant to nuclear forensics.
25        Nuclear forensic science, or "nuclear forensic", aims to answer questions about nuclear materi
26 istance to discarding chromatography as most forensic analyses require both an identification and a c
27 imeters or less, which makes it suitable for forensic analyses.
28                   To provide a framework for forensic analysis of an unknown sample, the sample distr
29                                          The forensic analysis of body fluids has made great strides
30                                   Therefore, forensic analysis of hair evidence is invaluable to crim
31 and statistical approaches can be applied to forensic analysis of other chemicals for similar purpose
32                                          The forensic analysis of textile fibers uses a variety of te
33 ysis was investigated for the nondestructive forensic analysis of textile fibers.
34 d should be further applied to environmental forensic analysis of water in the region.
35 ating that the method can be helpful for the forensic analysis of whisky samples.
36 race amounts of oil in water facilitates the forensic analysis on the presence and origin of oil in t
37 m of a backpack MS with a sampling probe for forensic analysis or in the form of a compact MS with an
38 of the nuclear fuel cycle, assist in nuclear forensic analysis, and allow for more accurate measureme
39  this quantitation platform to be applied in forensic analysis, biothreat detection, clinical diagnos
40 ive for relatedness estimations, not only in forensic analysis, but also in ancient DNA studies, wher
41 d capacitive biosensor for environmental and forensic analysis.
42 pancy between the resolving power of current forensic analytical chemistry and biological responses o
43 feit samples, as well as in related areas of forensic and biological sample analysis.
44                                              Forensic and clinical toxicological screening procedures
45 uitability of current sequence databases for forensic and epidemiological investigations.
46                                   Studies of forensic and exclusively clinical samples, clinical coho
47 h data sets generated from spiked samples in forensic and food safety context and has shown promising
48 ng to the toolbox of techniques available to forensic and other interviewers.
49 sensus on the safe minimum numbers of acute, forensic and rehabilitation beds needed to reduce these
50       The results presented here provide the forensic and security sectors a powerful tool for the de
51 techniques are novel applications in nuclear forensics and expand on the existing knowledge in this f
52 structure of genome assemblies; the Assembly Forensics and FRCurve pipelines for systematically evalu
53 tified Y-STRs with potential applications in forensics and genetic genealogy, assessed the ability to
54 an evolution, population history, genealogy, forensics and male medical genetics.
55 aboratory, and field applications, including forensics and medical diagnostics.
56                                It may aid in forensics and natural attenuation assessment of soil, gr
57                       They are often used in forensics and population genetics and are also the under
58  will become routine for clinical, research, forensic, and personal purposes.
59 such as cultural heritage, polymer research, forensics, and biological fields; however, currently, it
60  including disease prevention and treatment, forensics, and extension of life.
61 of applications, including medical genetics, forensics, and genetic genealogy.
62 tance of accounting for ancestry in history, forensics, and health.
63 ysis with applications in homeland security, forensics, and human health.
64 nce, archaeology, forgery detection, isotope forensics, and physiology.
65 sis, biosafety and environmental monitoring, forensics, and security, etc.
66 ed in-tube SPME device as an ideal probe for forensic application, drug monitoring, and point-of care
67 anzhong Han population and could be used for forensic applications and the studies of population gene
68 ons within a portable setting are studied in forensic applications of radiological debris analysis.
69  great potential of the developed method for forensic applications, although more work is needed for
70  for single textile fibers are in demand for forensic applications, and nondestructive methods with m
71 ion of microorganisms for a variety of human forensic applications, such as human identification, bod
72                         These methods enable forensic applications, such as source-case attribution,
73  with 13 short tandem repeats (STRs) used in forensic applications-we find that 90-98% of forensic ST
74 ies for future use in various biomedical and forensic applications.
75 al assays of harmful bacteria or viruses and forensic applications.
76 unds is of utmost importance in military and forensic applications.
77  affecting bone post mortem are important in forensic, archaeological and palaeontological investigat
78                  While the psychological and forensic aspects of sexual sadism have been well charact
79  of these techniques in the field of nuclear forensics at least with regard to spent reactor fuel.
80 diac MR examination was carried out prior to forensic autopsy.
81  increased the supplies of crisis, acute and forensic beds to meet a mandatory target to safely reduc
82 A recovery as compared with proteinase K for forensic, biochemical research, genetic paternity and im
83     High serum 5-HT may serve as a potential forensic biomarker in autopsied infants with SIDS with s
84 f morphological particle analysis in nuclear forensics by providing a framework for a more rapid char
85 led to focused research of the environmental forensic capabilities of rare earth elements (REE).
86                         As part of a nuclear forensics capability, rapid and effective methods to ana
87 f mental health and exploring substance use, forensic care, and mental health integration.
88           Screening results of 382 authentic forensic cases revealed that SWATH's detection rate was
89 is, the DART hair scan method is amenable to forensic cases.
90 the analysis of very small amounts of DNA in forensic cases.
91 ying the provenance of critical samples from forensic cases.
92 and in enlarging the time window useful in a forensic casework perspective.
93 conditions that are likely to be observed in forensic casework scenarios.
94 eases, population genetics applications, and forensic casework.
95 ial and matching figures of merit will bring forensic chemistry and ambient mass spectrometry to a lo
96 pplicability of ambient mass spectrometry in forensic chemistry and explains the challenges that need
97 tools for routine environmental analysis and forensic chemistry of petroleum have relied almost exclu
98 le, fast, nondestructive, and robust tool in forensic chemistry, producing reliable evidence at the m
99 stages to adulthood in a known-age/known-sex forensic/clinical sample.
100                                              Forensic clinicians assessed participants using the Stru
101 en appear in terms of dilution factor in the forensic community, mass percentage, coverage (mass per
102 nization techniques have been adopted by the forensic community, there is significant resistance to d
103 of DNA mixture interpretation throughout the forensic community.
104 ed in hair are essential to draw the correct forensic conclusions from hair analysis; we studied the
105            The independent verification in a forensics context of quartz grain morphological typing b
106 tify persons with intellectual disability in forensic contexts, inform evaluation and treatment, and
107                                 In 136 human forensic corpses, a post-mortem cardiac MR examination w
108          As a first-pass screening probe for forensic crime scenes, Raman spectroscopy has proved to
109 n might be predicted from current and future forensic data.
110 mising for the development of a new complete forensic dating methodology.
111 olymorphism levels on ancestry inference and forensic desirability suggests that forensically useful
112 ces of food adulteration related disputes or forensic detection of origin of pig species.
113            Thus, this method can be used for forensic detection of ricotta cheese adulteration and, i
114 ment of a refined phylogenomic framework for forensic, diagnostic, and epidemiological studies to def
115  of older patients, and 15 from long-term or forensic discharge facilities), including a total of 178
116 e evolutionary numerical methods now allow a forensic dissection of one of the greatest turnovers in
117 n the person of interest was not recorded in forensic DNA database.
118    In this issue of Cell, Metzger et al. use forensic DNA markers to demonstrate that the leukemia ce
119         The evaluation and interpretation of forensic DNA mixture evidence faces greater interpretati
120 interpretation and statistical evaluation of forensic DNA mixtures are described.
121 thods utilized for interpretation of complex forensic DNA mixtures may not be implemented properly in
122 I/CPE method in the analysis of more complex forensic DNA mixtures.
123 rving as a versatile platform for real-world forensic drug identification.
124 tuation, and 12 urine samples spiked with 50 forensic drugs of varying concentrations.
125 hout generating split peaks and detected the forensic drugs with high recall, precision, and F-score
126 roach with potential broader applications to forensic, energy, and materials science.
127  have been successfully used in the field of forensic entomology for identifying and ageing forensica
128                                 For example, forensic entomology is widely used to assess the postmor
129 identification approach with applications to forensic entomology.
130 ds (e.g. population genetics, phylogenetics, forensics, etc.), due to their high mutability within an
131                                              Forensic evaluation of exhumed service line pipes compar
132 providing isotopic information necessary for forensic evaluation.
133                      Previous studies of the forensic evidence have been inconclusive, finding a patt
134 (-) contamination in groundwater, but direct forensic evidence is limited.
135  expanding procedures of analysis and having forensic evidence of GHB intake in a long term are manda
136  instantaneous analysis of a wide variety of forensic evidence, including body fluid stains, at the s
137 rial source, and final product, all critical forensic evidence.
138 bottleneck in the analysis and processing of forensic evidence.
139  comparison of copper samples encountered as forensic evidence.
140  the analysis of a variety of other types of forensic evidence.
141 uantitative genetics, conservation genetics, forensics, evolution, and ecology.
142                                              Forensic examination may suggest a connection between a
143                                 Current hair forensic examinations are primarily based on a subjectiv
144 ology would provide vital information during forensic examinations, allowing rapid initial indication
145 the use of previous police investigation and forensic expert knowledge regarding the number of classe
146 d ratio approach, expressing the role of the forensic expert, was proposed for determining the true o
147  the ULT method may also be applied to other forensic expertise areas where limited population knowle
148 a formats for the nondestructive analysis of forensic fiber evidence.
149                        The interpretation of forensic fingerprint evidence relies on the expertise of
150 ded to integrate this technique into current forensic fingerprinting practice.
151 dges may be a useful piece of information in forensic firearm-related cases.
152               Currently the field of nuclear forensics focuses on the analysis of key material proper
153                     In toxicology screening (forensic, food-safety), due to several analytical errors
154 particularly true in the burgeoning field of forensic footwear analysis, where images of shoe prints
155 ist for their evaluation, and illustrate how forensic genomics can validate their provenance.
156                                              Forensic genomics queries allele frequencies of survivin
157 Here we present a new approach that we name 'forensic genomics', combining field surveys, toxin testi
158                                              Forensic hair evidence can be used to obtain retrospecti
159                                    Microbial forensics has been defined as the discipline of applying
160 d in the present study are also valuable for forensic identification and paternity tests in China.
161  repeat (STR) typing method is developed for forensic identification of individual cells.
162 ysis of postdetonation fallout is a tool for forensic identification of nuclear devices.
163                                              Forensic image retrieval and processing are vital tools
164 d contrary to the claims of popular fiction) forensic image retrieval is still widely being performed
165 ecrophagous insects such as blow flies is of forensic importance because the progression through the
166 regarding the widespread use of ToF-SIMS for forensic ink analysis.
167 e ultimate step from the academic world into forensic institutes worldwide.
168  the stereochemical makeup within samples of forensic interest is important giving further specific i
169 e problem of products authenticity may be of forensic interest, the likelihood ratio approach, expres
170 ntamination remains a major challenge in the forensic interpretation of hair analysis.
171 ichment method was applied to samples from a forensic investigation into a case involving the illegal
172 ate data analysis presents a useful tool for forensic investigation.
173 ception of illicit nuclear materials, timely forensic investigations are critical for accurate source
174            These results may impact not only forensic investigations but also the theoretical constru
175               Fingerprints have been used in forensic investigations for the identification of indivi
176 d with archaeologically excavated artefacts, forensic investigations of drugs of abuse, security and
177   This study provides a novel perspective of forensic investigations of hair evidence.
178  have observed results that may be useful in forensic investigations of improvised explosive material
179 ffective analytical tools to support nuclear forensic investigations of seized or suspect materials.
180 is an extremely valuable form of evidence in forensic investigations so proper analysis is critical.
181             A biocatalytic assay for on-site forensic investigations was developed to simultaneously
182 ing of HIV are unlikely to be useful in most forensic investigations, but are useful for identifying
183 roduce poor quality data adversely affecting forensic investigations, risk assessments, and weatherin
184  reproducible to offer new opportunities for forensic investigations.
185  an important tool for crime scene and other forensic investigations.
186  provenance of quartz in sediment samples in forensic investigations.
187 gold standard for personal identification in forensic investigations.
188 uction and is a key component of many modern forensic investigations.
189 ng history of actinide materials for nuclear forensic investigations.
190                         In the past century, forensic investigators have universally accepted fingerp
191                         In the past century, forensic investigators have universally accepted fingerp
192                         These tests can help forensic investigators make predictions about the appear
193 ooting incident is a principal task for many forensic investigators.
194                                      Nuclear forensics is a relatively young discipline in science wh
195 s of methylamphetamine intermediates such as forensic/law enforcement, and illustrate the value of us
196 ibutions within artificial fingerprints from forensic lift tape.
197                          We study a standard forensic marker set-the 13 CODIS loci used in the United
198 ings have implications for the design of new forensic marker sets and for evaluations of the extent t
199 a byproduct of the use of highly polymorphic forensic markers.
200 at contained sufficient detail to enable the forensic medical reviewers to render an informed judgmen
201                                     National Forensic Mental Health Research and Development Programm
202 management is central to the nursing role in forensic mental health settings.
203 ovide ideal samples for development of novel forensic methods for attribution and studying the chemic
204  signature microorganisms could be useful to forensic microbiologists as a new source of data for est
205                                     Chemical forensic modeling demonstrated that elevated PAH concent
206 the use of homohopanes and TAS for oil spill forensics must account for degradation, and (iii) these
207 ta, for example, in studies of environmental forensics or weathering of complex mixtures.
208 sented the population genetic data and their forensic parameters of 21 non-CODIS autosomal STR loci i
209 en cardiac death has challenged clinical and forensic pathologists for decades because verification o
210                     There is high demand for forensic pedigree searches with Y-chromosome short tande
211 It is envisaged that NGS+ will revolutionize forensic pedigree searches, especially when the person o
212 mory conformity is currently dominated by a 'forensic' perspective, which views the phenomenon as inh
213 iseases and have been frequently utilized in forensics, population genetics, and genetic genealogy.
214 ysis, all of which are favorable for nuclear forensics practitioners and geochemists requiring REE pa
215 for rapid forensic short tandem repeat (STR) forensic profiling in a single disposable plastic chip i
216 s identified in a single sample of one known forensic provenance.
217    Improved treatment for substance abuse in forensic psychiatric patients and other mentally disorde
218              Substance abuse in mentally ill forensic psychiatric patients should be considered an im
219 tistical Manual of Mental Disorders (DSM-5), forensic psychiatrists must adjust to changes in the dia
220 tervention when risk is heightened; and help forensic psychiatrists strike a balance between patient
221 ess, and suggest how this research could aid forensic psychiatrists, psychologists and other mental h
222                                  Advances in forensic psychiatry help better identify persons with in
223       On-site DNA analysis for diagnostic or forensic purposes is much anticipated in the future of m
224                              Bearing in mind forensic purposes, a nondestructive and rapid method was
225  ATR-FT-IR spectroscopic analysis of GSR for forensic purposes.
226 M) and good precision (</=13%) and fulfilled forensic quality criteria for ion ratios of qualifying a
227 toring, radiological protection, and nuclear forensic reasons.
228 aking civilians were corroborated by medical forensic review of medical records of patients seen at a
229 e analyses of cocaine and its metabolites in forensic samples showed an intra- and inter-sections var
230 tion of PSA in human blood serum, urine, and forensic samples without any cross-reactivity.
231 ts of target DNA from genetic, clinical, and forensic samples.
232 same time reducing photo-damage to sensitive forensic samples.
233  human mitochondrial and genomic DNA in mock forensic samples.
234 gnatures that could be used to differentiate forensic samples.
235 y simple method that may find application to forensic science (e.g., for identifying the composition
236 nts of myiasis can be of societal benefit to forensic science and in medicine as an aid to wound trea
237 ty to target a single analyte will transform forensic science as each originator attribute can be cor
238  uranium oxide processing are of interest to forensic science for inferring sample provenance.
239 ope approach can be used as a viable tool in forensic science for investigating the provenance of com
240         The development of novel methods for forensic science is a constantly growing area of modern
241 y people, the applicability of this assay in forensic science was shown for the simultaneous determin
242                                              Forensic science will be forever revolutionized if law e
243  of body fluids is of particular interest in forensic science, and increasing support has been demons
244 ology and medicine, isotope biogeochemistry, forensic science, and palaeoclimatology, when isotopic a
245 gerprints could have a significant impact in forensic science, as it has the potential to facilitate
246 tly unrelated themes of art and archaeology, forensic science, geological science and astrobiology as
247                                      Nuclear forensic science, or "nuclear forensic", aims to answer
248 ughs in the use of microbiome approaches for forensic science, particularly in the areas of estimatin
249  is an important and immediate challenge for forensic science, veterinary purposes, and wildlife pres
250 nalysis might offer a significant advance in forensic science.
251  Y-STR loci system was potentially useful in forensic sciences because it has a large power of discri
252  of the National Academies and the legal and forensic sciences communities have called for research t
253 such as polymers, biological, catalytic, and forensic sciences where thin, highly turbid layers mask
254  methodology in the fields of public health, forensic sciences, and environmental microbiology.
255                                           In forensic sciences, there is an increasing demand for non
256 easing interest in the fields of medical and forensic sciences.
257 of paramount importance in biotechnology and forensic sciences.
258 as applications in ecological-, climate-, or forensic-sciences.
259 n open-source, freely available program that forensic scientists can use to calculate likelihood rati
260 er provides a practical software solution to forensic scientists who wish to assess the statistical w
261 se calculations are available for practicing forensic scientists.
262 re, we provide a general overview of nuclear forensics, selecting examples of key "nuclear forensic s
263  increasing crime rates and the reduction of forensic service budgets increasingly require that evide
264                         Our study highlights forensic services as a central component of the mental h
265 elates self harm, or have been restricted to forensic services, within single hospitals.
266 there were more episodes of self harm within forensic services.
267 human genomic and mitochondrial samples in a forensic setting.
268 ip electrophoretic (ME) separation for rapid forensic short tandem repeat (STR) forensic profiling in
269                              Thus, microbial forensics should be more broadly described as the discip
270 ides may also represent a potentially useful forensic signature that could provide information about
271 orensics, selecting examples of key "nuclear forensic signatures" which have allowed investigators to
272 ogonal mass spectral data to identify CAS of forensic significance for illicit drug detection, profil
273 ll numbers of markers-including databases of forensic significance.
274                               In ecology and forensics, some population assignment techniques use mol
275 has the greatest potential for environmental forensic source identification of coal tars, including t
276 forensic applications-we find that 90-98% of forensic STR records can be connected to corresponding S
277 n particular is a valuable series in nuclear forensic studies and is well-determined using LA-ICP-MS.
278 ations in microbiology and in biomedical and forensic studies of humans and other multicellular organ
279 ons in environmental geochemical and nuclear forensics studies.
280 re the increasing availability of commercial forensic "taggants", which may be used to physically mar
281 tion of their deposition order are important forensic tasks when evaluating questioned documents.
282 gated the trauma to the skeleton with modern forensic techniques, such as conventional CT and micro-C
283  the skeletal material of Tomb I with modern forensic techniques.
284 dual identity are used as a standard tool in forensic testing [1, 2].
285                 Time-consuming steps in many forensic tests involve complex separations, such as liqu
286 en analysis, genetic disorder diagnosis, and forensic tests.
287 psilonO results may contribute to Se isotope forensics to identify selenate reduction within field si
288  can therefore provide a powerful dating and forensic tool compared to radiometric detection of (137)
289 obial community data can be developed into a forensic tool for estimating PMI.
290 35)Cs/(137)Cs ratios, which can be used as a forensic tool in determining the source of nuclear conta
291 law enforcement personnel with an invaluable forensic tool in the field.
292 the tissue, and thus can serve as a powerful forensic tool to combat illegal trade in animal parts.
293 strates the value of Raman spectroscopy as a forensic tool, and indicates that it can be used to eluc
294 the shell as a longer-term biomonitoring and forensics tool for historic exposure.
295                                   As part of forensic toxicological investigation of cases involving
296  diabetic patients, for sport antidoping and forensic toxicology analysis.
297 ore acceptance as the alternative matrix for forensic toxicology.
298 n whole-genome sequencing for the purpose of forensic tracing of transmission pathways, focusing on t
299                  This study demonstrates the forensic value of systematic microbiological analysis co
300 ts in population genetics, phylogenetics and forensics, which require accurate SSRs to calculate intr

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