ライフサイエンスコーパス: forensic

1 example, international safeguards or nuclear forensics.

2 a signature of processing history in nuclear forensics.

3 lar for identity and parental testing in DNA forensics.

4 has excellent potential to advance microbial forensics.

5 ne, ecology, agriculture, biotechnology, and forensics.

6 ns, ranging from cell line authentication to forensics.

7 inical diagnosis, food, the environment, and forensics.

8 logical samples to environmental analysis to forensics.

9 is of inorganic mixtures relevant to nuclear forensics.

10 y in diverse fields from cancer diagnoses to forensics.

11 iquantitative assay in clinical analysis and forensics.

12 es to be very useful in the field of nuclear forensics.

13 -related applications, as well as in nuclear forensics.

14 cine, agriculture, environmental science and forensics.

15 thodology to constrain seasonal timelines in forensics.

16 substantially expand capabilities of SERS in forensics.

17 aluable tool in environmental monitoring and forensics.

18 dical diagnostics, food quality control, and forensics.

19 e also highlight important ethical issues in forensic age determination and predicting the trajectory

20 Nuclear forensic science, or "nuclear forensic", aims to answer questions about nuclear materi

21 istance to discarding chromatography as most forensic analyses require both an identification and a c

22 ns in direct-to-consumer genomic testing and forensic analyses.

23 l footprint platform that is easy-to-use for forensic analyses.

24 To provide a framework for forensic analysis of an unknown sample, the sample distr

25 The trace detection and forensic analysis of black powders and black powder subs

26 The forensic analysis of body fluids has made great strides

27 pectroscopy (SERS) was proposed for advanced forensic analysis of hair ( Kurouski , D.

28 Therefore, forensic analysis of hair evidence is invaluable to crim

29 and statistical approaches can be applied to forensic analysis of other chemicals for similar purpose

30 ysis was investigated for the nondestructive forensic analysis of textile fibers.

31 ating that the method can be helpful for the forensic analysis of whisky samples.

32 m of a backpack MS with a sampling probe for forensic analysis or in the form of a compact MS with an

33 of the nuclear fuel cycle, assist in nuclear forensic analysis, and allow for more accurate measureme

34 this quantitation platform to be applied in forensic analysis, biothreat detection, clinical diagnos

35 ive for relatedness estimations, not only in forensic analysis, but also in ancient DNA studies, wher

36 vast array of samples that are submitted for forensic analysis, this can pose a major challenge for a

37 d capacitive biosensor for environmental and forensic analysis.

38 l use of NanoSIMS in guiding further nuclear forensic analysis.

39 tact nuclear DNA for human identification in forensic and archaeological applications.

40 nd law enforcement, as well as the fields of forensic and biomedical science.

41 a toxic protein from the castor plant, is of forensic and biosecurity interest because of its high to

42 g and diagnosis, microbiological studies and forensic and environmental investigations because of its

43 tion of sampling gives obvious advantages in forensic and environmental sciences.

44 Studies of forensic and exclusively clinical samples, clinical coho

45 h data sets generated from spiked samples in forensic and food safety context and has shown promising

46 Y-STRs have emerged as important forensic and population genetic markers for human identi

47 sensus on the safe minimum numbers of acute, forensic and rehabilitation beds needed to reduce these

48 The results presented here provide the forensic and security sectors a powerful tool for the de

49 cation of MBT from diverse samples including forensic and/or archaeological specimens, it could have

50 inventory, which will be useful for nuclear forensics and environmental tracer studies.

51 tified Y-STRs with potential applications in forensics and genetic genealogy, assessed the ability to

52 an evolution, population history, genealogy, forensics and male medical genetics.

53 and animal production, veterinary sciences, forensics and medical entomology.

54 They are often used in forensics and population genetics and are also the under

55 pharmaceutical, agricultural, environmental, forensic, and food sciences to wearables and clinical di

56 ication, drug discovery and design, chemical forensics, and beyond.

57 such as cultural heritage, polymer research, forensics, and biological fields; however, currently, it

58 nce, archaeology, forgery detection, isotope forensics, and physiology.

59 sis, biosafety and environmental monitoring, forensics, and security, etc.

60 ed in-tube SPME device as an ideal probe for forensic application, drug monitoring, and point-of care

61 anzhong Han population and could be used for forensic applications and the studies of population gene

62 ons within a portable setting are studied in forensic applications of radiological debris analysis.

63 great potential of the developed method for forensic applications, although more work is needed for

64 t for ancestry inference, admixture mapping, forensic applications, and detecting genomic regions tha

65 for single textile fibers are in demand for forensic applications, and nondestructive methods with m

66 Consequences of future efforts include forensic applications, necessitating careful considerati

67 ion of microorganisms for a variety of human forensic applications, such as human identification, bod

68 with 13 short tandem repeats (STRs) used in forensic applications-we find that 90-98% of forensic ST

69 unds is of utmost importance in military and forensic applications.

70 ies for future use in various biomedical and forensic applications.

71 ntial for (palaeo)dietary reconstruction and forensic applications.

72 technique promising for use in clinical and forensic applications.

73 affecting bone post mortem are important in forensic, archaeological and palaeontological investigat

74 exploitation of ECL-based sensors within the forensic arena.

75 ly small or precious (such as in biological, forensic, art, and archeological investigations) and ana

76 ntion time as a point of identification in a forensic assay.

77 of these techniques in the field of nuclear forensics at least with regard to spent reactor fuel.

78 debate in geochemical research and pollutant forensics because its historical record differs markedly

79 increased the supplies of crisis, acute and forensic beds to meet a mandatory target to safely reduc

80 A recovery as compared with proteinase K for forensic, biochemical research, genetic paternity and im

81 High serum 5-HT may serve as a potential forensic biomarker in autopsied infants with SIDS with s

82 f morphological particle analysis in nuclear forensics by providing a framework for a more rapid char

83 ications from microbiome characterization to forensics by revitalizing obsolescent detection strategi

84 led to focused research of the environmental forensic capabilities of rare earth elements (REE).

85 As part of a nuclear forensics capability, rapid and effective methods to ana

86 f mental health and exploring substance use, forensic care, and mental health integration.

87 nzodiazepines have recently appeared in many forensic cases as legal alternatives to federally schedu

88 Screening results of 382 authentic forensic cases revealed that SWATH's detection rate was

89 sted on realistic heroin street samples from forensic cases, showing promising results for fast, on-s

90 is, the DART hair scan method is amenable to forensic cases.

91 the analysis of very small amounts of DNA in forensic cases.

92 and in enlarging the time window useful in a forensic casework perspective.

93 eases, population genetics applications, and forensic casework.

94 could provide helpful investigative leads in 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 le, fast, nondestructive, and robust tool in forensic chemistry, producing reliable evidence at the m

98 esent a particular challenge to analysis for forensic chemists.

99 stages to adulthood in a known-age/known-sex forensic/clinical sample.

100 f semen traces that has been challenging the forensic community worldwide.

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 nd introduce a PowerPlex Y23 database to the forensic community.

104 of DNA mixture interpretation throughout the forensic community.

105 ed in hair are essential to draw the correct forensic conclusions from hair analysis; we studied the

106 tify persons with intellectual disability in forensic contexts, inform evaluation and treatment, and

107 n might be predicted from current and future forensic data.

108 mising for the development of a new complete forensic dating methodology.

109 olymorphism levels on ancestry inference and forensic desirability suggests that forensically useful

110 ces of food adulteration related disputes or forensic detection of origin of pig species.

111 Thus, this method can be used for forensic detection of ricotta cheese adulteration and, i

112 Forensic diagnostics obtained by the 2D-CHEMSIC were val

113 of older patients, and 15 from long-term or forensic discharge facilities), including a total of 178

114 e evolutionary numerical methods now allow a forensic dissection of one of the greatest turnovers in

115 n the person of interest was not recorded in forensic DNA database.

116 In this issue of Cell, Metzger et al. use forensic DNA markers to demonstrate that the leukemia ce

117 The evaluation and interpretation of forensic DNA mixture evidence faces greater interpretati

118 interpretation and statistical evaluation of forensic DNA mixtures are described.

119 thods utilized for interpretation of complex forensic DNA mixtures may not be implemented properly in

120 I/CPE method in the analysis of more complex forensic DNA mixtures.

121 rving as a versatile platform for real-world forensic drug identification.

122 tuation, and 12 urine samples spiked with 50 forensic drugs of varying concentrations.

123 hout generating split peaks and detected the forensic drugs with high recall, precision, and F-score

124 roach with potential broader applications to forensic, energy, and materials science.

125 have been successfully used in the field of forensic entomology for identifying and ageing forensica

126 identification approach with applications to forensic entomology.

127 ning/diagnosis, microbiological studies, and forensic/environmental investigations.

128 ds (e.g. population genetics, phylogenetics, forensics, etc.), due to their high mutability within an

129 Forensic evaluation of exhumed service line pipes compar

130 Previous studies of the forensic evidence have been inconclusive, finding a patt

131 (-) contamination in groundwater, but direct forensic evidence is limited.

132 expanding procedures of analysis and having forensic evidence of GHB intake in a long term are manda

133 instantaneous analysis of a wide variety of forensic evidence, including body fluid stains, at the s

134 bottleneck in the analysis and processing of forensic evidence.

135 the analysis of a variety of other types of forensic evidence.

136 rial source, and final product, all critical forensic evidence.

137 comparison of copper samples encountered as forensic evidence.

138 Forensic examination may suggest a connection between a

139 Forensic examination of hair evidence can help with esta

140 Current hair forensic examinations are primarily based on a subjectiv

141 ology would provide vital information during forensic examinations, allowing rapid initial indication

142 ion on the samples flagged by sexual assault forensic examiners as most probative, to build a standar

143 ctiveness than the selective policy based on forensic examiners, but more than doubles the yield.

144 mples deemed probative by the sexual assault forensic examiners, the proposed policy increases the CO

145 d ratio approach, expressing the role of the forensic expert, was proposed for determining the true o

146 particles by the current methods employed by forensic experts.

147 a formats for the nondestructive analysis of forensic fiber evidence.

148 In the forensic field, knowledge about the time of deposition o

149 ded to integrate this technique into current forensic fingerprinting practice.

150 dges may be a useful piece of information in forensic firearm-related cases.

151 Currently the field of nuclear forensics focuses on the analysis of key material proper

152 In toxicology screening (forensic, food-safety), due to several analytical errors

153 ications from traditional taxonomy, ecology, forensics, food analysis, and environmental science.

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 t a promising tool in fields such as nuclear forensics, geochemistry, and biology that could benefit

159 Forensic hair evidence can be used to obtain retrospecti

160 Microbial forensics has been defined as the discipline of applying

161 The field of image forensics has emerged to help return some trust in photo

162 d in the present study are also valuable for forensic identification and paternity tests in China.

163 repeat (STR) typing method is developed for forensic identification of individual cells.

164 ysis of postdetonation fallout is a tool for forensic identification of nuclear devices.

165 However, forensic identification of vertebrate tissue relies on s

166 Forensic image retrieval and processing are vital tools

167 d contrary to the claims of popular fiction) forensic image retrieval is still widely being performed

168 ecrophagous insects such as blow flies is of forensic importance because the progression through the

169 Data forensics indicates that a moderate-height (~0.3 m) mete

170 regarding the widespread use of ToF-SIMS for forensic ink analysis.

171 e ultimate step from the academic world into forensic institutes worldwide.

172 Though current forensic instrumental techniques are often sufficient fo

173 e problem of products authenticity may be of forensic interest, the likelihood ratio approach, expres

174 ls Exercise (CMX-4) organized by the Nuclear Forensics International Technical Working Group (ITWG),

175 ntamination remains a major challenge in the forensic interpretation of hair analysis.

176 ichment method was applied to samples from a forensic investigation into a case involving the illegal

177 ing to clean facilities dedicated to nuclear forensic investigation of environmental samples enables

178 rent writing tools is very important for the forensic investigation of questioned documents.

179 ate data analysis presents a useful tool for forensic investigation.

180 human or animal) is of great importance in a forensic investigation.

181 radioactive contaminant as part of a nuclear forensic investigation.

182 ear fuel pellets in the context of a nuclear forensics investigation have been mainly focused on macr

183 These results may impact not only forensic investigations but also the theoretical constru

184 This study provides a novel perspective of forensic investigations of hair evidence.

185 Forensic investigations of oil spills aim to find the re

186 ffective analytical tools to support nuclear forensic investigations of seized or suspect materials.

187 is an extremely valuable form of evidence in forensic investigations so proper analysis is critical.

188 A biocatalytic assay for on-site forensic investigations was developed to simultaneously

189 e bioassay for application in food analysis, forensic investigations, genetic screening and biodiagno

190 To adopt this approach for forensic investigations, hair proteomic variation and it

191 gold standard for personal identification in forensic investigations.

192 uction and is a key component of many modern forensic investigations.

193 ng history of actinide materials for nuclear forensic investigations.

194 reproducible to offer new opportunities for forensic investigations.

195 d hydrocarbon analyses and environmental and forensic investigations.

196 lications for matching spill-source pairs in forensic investigations.

197 In the past century, forensic investigators have universally accepted fingerp

198 In the past century, forensic investigators have universally accepted fingerp

199 These tests can help forensic investigators make predictions about the appear

200 Nuclear forensics is a relatively young discipline in science wh

201 ints are the strict requirements enforced in forensic laboratories and the time and effort that must

202 Forensic laboratory backlogs are replete with suspected

203 thods could entirely circumvent the need for forensic laboratory testing.

204 ibutions within artificial fingerprints from forensic lift tape.

205 We study a standard forensic marker set-the 13 CODIS loci used in the United

206 ings have implications for the design of new forensic marker sets and for evaluations of the extent t

207 a byproduct of the use of highly polymorphic forensic markers.

208 aults, a sample was not collected during the forensic medical exam from the body location deemed most

209 National Forensic Mental Health Research and Development Programm

210 management is central to the nursing role in forensic mental health settings.

211 signature microorganisms could be useful to forensic microbiologists as a new source of data for est

212 We demonstrate that forensic microbiology provides a useful tool for linking

213 m to picogram range; among those are nuclear forensics, nuclear safeguards, environmental survey, and

214 Detailed Nearshore Area (DNA) modeling forensics on a high-resolution spatial O(1 m) grid revea

215 sented the population genetic data and their forensic parameters of 21 non-CODIS autosomal STR loci i

216 There is high demand for forensic pedigree searches with Y-chromosome short tande

217 It is envisaged that NGS+ will revolutionize forensic pedigree searches, especially when the person o

218 ablishing latent fingerprint age would allow forensic personnel to determine if a latent fingerprint

219 ies of active or veteran military personnel, forensic populations or studies of participants known to

220 demy of Sciences was highly critical of many forensic practices.

221 ysis, all of which are favorable for nuclear forensics practitioners and geochemists requiring REE pa

222 for rapid forensic short tandem repeat (STR) forensic profiling in a single disposable plastic chip i

223 ring detection of fingermarks using standard forensic protocols.

224 Advances in forensic psychiatry help better identify persons with in

225 t there is reasonable empirical clinical and forensic psychological evidence to support viewing ratio

226 Bearing in mind forensic purposes, a nondestructive and rapid method was

227 M) and good precision (</=13%) and fulfilled forensic quality criteria for ion ratios of qualifying a

228 toring, radiological protection, and nuclear forensic reasons.

229 Our results suggest that electronic forensic records coupled with machine learning and optim

230 cise isomeric forms of NPS is of significant forensic relevance since legal controls are dependent on

231 tion of PSA in human blood serum, urine, and forensic samples without any cross-reactivity.

232 ts of target DNA from genetic, clinical, and forensic samples.

233 same time reducing photo-damage to sensitive forensic samples.

234 y simple method that may find application to forensic science (e.g., for identifying the composition

235 om fingerprints is of potential relevance to forensic science and as well as toxicology and clinical

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 ation recommended by the European Network of Forensic Science Institutes (ENFSI) and the Scientific W

241 The development of novel methods for forensic science is a constantly growing area of modern

242 A major challenge within forensic science is the development of accurate and robu

243 Current standardized forensic science methods target the detection of inorgan

244 f potential bushmeat samples in East African forensic science pipelines.

245 are widely used in ecology, archaeology, and forensic science to explore trophic relationships and pr

246 y people, the applicability of this assay in forensic science was shown for the simultaneous determin

247 Forensic science will be forever revolutionized if law e

248 ology and medicine, isotope biogeochemistry, forensic science, and palaeoclimatology, when isotopic a

249 gerprints could have a significant impact in forensic science, as it has the potential to facilitate

250 tly unrelated themes of art and archaeology, forensic science, geological science and astrobiology as

251 Nuclear forensic science, or "nuclear forensic", aims to answer

252 ughs in the use of microbiome approaches for forensic science, particularly in the areas of estimatin

253 In the case of forensic science, some constraints are the strict requir

254 In the field of forensic science, we have recently introduced Raman imag

255 nalysis might offer a significant advance in forensic science.

256 ntial application in diagnostic medicine and forensic science.

257 Y-STR loci system was potentially useful in forensic sciences because it has a large power of discri

258 such as polymers, biological, catalytic, and forensic sciences where thin, highly turbid layers mask

259 In forensic sciences, there is an increasing demand for non

260 easing interest in the fields of medical and forensic sciences.

261 equired to ensure the reliability across the forensic sciences.

262 n open-source, freely available program that forensic scientists can use to calculate likelihood rati

263 er provides a practical software solution to forensic scientists who wish to assess the statistical w

264 se calculations are available for practicing forensic scientists.

265 Results will provide forensic search teams with crucial information on optima

266 he approach is tested on street samples from forensic seizures.

267 re, we provide a general overview of nuclear forensics, selecting examples of key "nuclear forensic s

268 increasing crime rates and the reduction of forensic service budgets increasingly require that evide

269 Our study highlights forensic services as a central component of the mental h

270 human genomic and mitochondrial samples in a forensic setting.

271 ve point-of-care drug testing in clinical or forensic settings.

272 ip electrophoretic (ME) separation for rapid forensic short tandem repeat (STR) forensic profiling in

273 Thus, microbial forensics should be more broadly described as the discip

274 orensics, selecting examples of key "nuclear forensic signatures" which have allowed investigators to

275 ogonal mass spectral data to identify CAS of forensic significance for illicit drug detection, profil

276 ll numbers of markers-including databases of forensic significance.

277 In ecology and forensics, some population assignment techniques use mol

278 forensic applications-we find that 90-98% of forensic STR records can be connected to corresponding S

279 n particular is a valuable series in nuclear forensic studies and is well-determined using LA-ICP-MS.

280 ations in microbiology and in biomedical and forensic studies of humans and other multicellular organ

281 re the increasing availability of commercial forensic "taggants", which may be used to physically mar

282 tion of their deposition order are important forensic tasks when evaluating questioned documents.

283 is of reliability or reproducibility of this forensic technique has previously been reported.

284 We performed a detailed analysis of this forensic technique to determine its reliability and effi

285 We examine the reliability of one such forensic technique used for identification based on purp

286 gated the trauma to the skeleton with modern forensic techniques, such as conventional CT and micro-C

287 the skeletal material of Tomb I with modern forensic techniques.

288 dual identity are used as a standard tool in forensic testing [1, 2].

289 Time-consuming steps in many forensic tests involve complex separations, such as liqu

290 35)Cs/(137)Cs ratios, which can be used as a forensic tool in determining the source of nuclear conta

291 strates the value of Raman spectroscopy as a forensic tool, and indicates that it can be used to eluc

292 the shell as a longer-term biomonitoring and forensics tool for historic exposure.

293 A diagnostic ratio forensics tool, similar to that recognized international

294 s technique could be developed into powerful forensic tools to aid the attribution of outbreaks cause

295 As part of forensic toxicological investigation of cases involving

296 diabetic patients, for sport antidoping and forensic toxicology analysis.

297 S-GC-FID/FID), a technique routinely used in forensic toxicology.

298 n whole-genome sequencing for the purpose of forensic tracing of transmission pathways, focusing on t

299 compound (VOC) reference mixture relevant to forensic VOC profiling.

300 ts in population genetics, phylogenetics and forensics, which require accurate SSRs to calculate intr