ライフサイエンスコーパス: molecular epidemiology

1 d by the absence of tools for genotyping and molecular epidemiology.

2 ed is a useful sign of "true association" in molecular epidemiology.

3 NA sequencing remains necessary for accurate molecular epidemiology.

4 The authors review various definitions of molecular epidemiology.

5 iew the current potential and limitations of molecular epidemiology.

6 be reflected in discussions on the merits of molecular epidemiology.

7 s from polygenomic data is an urgent need in molecular epidemiology.

8 t approach to collecting extra specimens for molecular epidemiology.

9 over time, using large-scale genomics-based molecular epidemiology.

10 riers to data integration and exploration in molecular epidemiology.

11 RSV genomes limits our understanding of RSV molecular epidemiology.

12 high-resolution strain characterization and molecular epidemiology.

13 , which are not ideally suited for real-time molecular epidemiology.

14 benefited from the advent and development of molecular epidemiology.

15 arked the beginning of large-scale real-time molecular epidemiology.

16 d infection and the corresponding changes in molecular epidemiology.

17 ed light on the current understanding of HCV molecular epidemiology.

18 r clinical laboratory investigations of MRSA molecular epidemiology.

19 yet little is known about the diversity and molecular epidemiology across locations.

20 e epidemiology, importation status of cases, molecular epidemiology, adequacy of surveillance, and po

21 ght to better understand the dynamics of HIV molecular epidemiology among MSM in Shenzhen, a rapidly

22 A molecular epidemiology analysis was performed using data

23 In a molecular epidemiology analysis, we used population-base

24 ssachusetts Eye and Ear and investigated the molecular epidemiology and AMR profiles of contemporary

25 Methods included molecular epidemiology and clinical studies, bioinformat

26 Molecular epidemiology and colonization risk factors pro

27 Molecular epidemiology and colonization risk factors pro

28 by these combined data are unprecedented for molecular epidemiology and demonstrate a new potential a

29 mmarizes some of the more recent progress in molecular epidemiology and discusses the future of the s

30 n for combining HIV clinical monitoring with molecular epidemiology and drug resistance surveillance

31 rovides a baseline for future studies of the molecular epidemiology and early warning of emerging arb

32 accuracy of resistance detection, facilitate molecular epidemiology and enable early detection of eme

33 us (MRSA) is important for understanding the molecular epidemiology and evolution of MRSA and offers

34 or S. aureus.Objectives: To characterize the molecular epidemiology and genetic adaptation of S. aure

35 In order to understand the molecular epidemiology and genetic diversity of SARS-CoV

36 f new genotyping approaches for studying its molecular epidemiology and global population structure.

37 cgMLST scheme that is applicable in Brucella molecular epidemiology and helps in accurately tracking

38 Last, we consider molecular epidemiology and high-throughput analyses as c

39 Molecular epidemiology and HIV-1 transmission networks r

40 We assessed norovirus molecular epidemiology and infectivity in human intestin

41 December 2016) was established to study the molecular epidemiology and its impact on outcome (30-day

42 December 2016) was established to study the molecular epidemiology and its impact on outcome (30-day

43 fferences in cagA genotype may be useful for molecular epidemiology and may provide a marker for diff

44 The molecular epidemiology and mechanisms of resistance of c

45 ops resistance as well as for studies on the molecular epidemiology and origin of the virus.

46 D PATIENTS: Outbreak investigation including molecular epidemiology and pharmacy site investigation a

47 ormation provided can be used as a guide for molecular epidemiology and surveillance of malaria.

48 s have created a new paradigm in nutritional molecular epidemiology and they have highlighted the imp

49 The understanding of the molecular epidemiology and virulence of MRSA continues t

50 techniques for both outbreak investigations (molecular epidemiology) and to understand the variabilit

51 owledge gaps in terms of the disease burden, molecular epidemiology, and distribution of WNV in Afric

52 data from HIV prevention clinical trials, in molecular epidemiology, and in public health surveillanc

53 elopment of next-generation drugs, vaccines, molecular epidemiology, and/or diagnostic tools for thes

54 We sought to determine the risk factors, molecular epidemiology, antibiotic therapy, and outcomes

55 ion for comparative and clinical genomic and molecular epidemiology applications.

56 Molecular epidemiology approaches in human biomonitoring

57 Here, we review molecular epidemiology approaches that have been develop

58 The patterns of EV-D68 circulation and molecular epidemiology are not fully understood.

59 The tasks now confronting the field of molecular epidemiology are to assign mutagenic processes

60 The emergence of "molecular epidemiology" as a scientific approach within

61 The Arsenic Health Risk Assessment and Molecular Epidemiology (ASHRAM) study, a case-control st

62 f C. neoformans, and improved techniques for molecular epidemiology, aspects of the ecology, populati

63 These results highlight the utility of molecular epidemiology-based network approaches for anal

64 Concomitantly, new studies in the field of molecular epidemiology became available that tie the fet

65 identify as MSM, shows the potential to use molecular epidemiology both to identify clusters that ar

66 ised not only with regard to the practice of molecular epidemiology, but also with regard to its role

67 In this study, we characterised the HIV-1 molecular epidemiology by analysing 1442 HIV-1 pol seque

68 These findings suggest molecular epidemiology can assist public health official

69 Molecular epidemiology can be applied to study HIV trans

70 Advances in molecular epidemiology can be used to explore the role o

71 HIV molecular epidemiology can identify clusters of individu

72 Molecular epidemiology can identify rapidly growing HIV

73 Combining approaches from social and molecular epidemiology can provide insights into HIV-1 t

74 monstrate how an alternative approach to HIV molecular epidemiology can provide public health benefit

75 e accurate and representative picture of HBV molecular epidemiology, cast light on persistence and pa

76 The 21st century ushered in a new era in "molecular epidemiology" centered on cutting-edge genetic

77 In molecular epidemiology, comparison of intra-host viral v

78 enoviruses have been associated with HLH but molecular epidemiology data are lacking.

79 sis, better genetic counseling, and improved molecular epidemiology data that are critical for future

80 h combined with genomic, transcriptional and molecular epidemiology data was applied on the EHEC O157

81 ess changes in transmissibility and reviewed molecular epidemiology data.

82 Our global data collection yielded an HIV-1 molecular epidemiology database of 383 519 samples from

83 We assembled a global HIV-1 molecular epidemiology database through a systematic lit

84 We assembled a global HIV-1 molecular epidemiology database through a systematic lit

85 However, traditional molecular epidemiology does not typically occur on a tim

86 Treponema pallidum subspecies pallidum (TPA) molecular epidemiology essential for vaccine research by

87 HIV molecular epidemiology estimates the transmission patter

88 A clear description of local RSV molecular epidemiology, evolution, and transmission requ

89 tation of relevant and recent references for molecular epidemiology, focusing on lung cancer, ethical

90 The statement Strengthening the Reporting of Molecular Epidemiology for Infectious Diseases (STROME-I

91 The Strengthening the Reporting of Molecular Epidemiology for Infectious Diseases (STROME-I

92 epidemic among MSM in China, and provides a molecular epidemiology framework for understanding how H

93 ems and Canada Research Chair in Genetic and Molecular Epidemiology (GP).

94 To date, human immunodeficiency virus (HIV) molecular epidemiology has been primarily used to identi

95 Molecular epidemiology has linked ultraviolet-induced DN

96 To illustrate that molecular epidemiology has potential in identifying etio

97 Genome-enabled approaches to molecular epidemiology have become essential to public h

98 The tools of molecular epidemiology have been applied in an attempt t

99 hlighting advances over the past 10 years in molecular epidemiology, immunology, and vaccine developm

100 The current Hepatitis A virus (HAV) molecular epidemiology in Israel was studied 13-14y post

101 of next-generation sequencing for SARS-CoV-2 molecular epidemiology in low-income and middle-income c

102 d the changes in viral genomic diversity and molecular epidemiology in Oxford during the first wave o

103 months, from a population-based study of the molecular epidemiology in San Francisco.

104 This report describes the molecular epidemiology, in vitro susceptibility, colonia

105 We assessed the molecular epidemiology, incidence, and mortality of grou

106 ctices for experimental design in microbiome molecular epidemiology, including technologies for gener

107 Molecular epidemiology indicated no endemic genotypes.

108 iral transmission networks by integration of molecular epidemiology into classical contact tracing.

109 interpretation of previous and future human molecular epidemiology investigations into the role of N

110 Molecular epidemiology is also integral to pharmacogenet

111 What distinguishes molecular epidemiology is both the "molecular," the use

112 tection of viral transmission clusters using molecular epidemiology is critical to the response pilla

113 Continual molecular epidemiology is critical to understand the evo

114 The goal of molecular epidemiology is to develop risk assessment mod

115 e findings were confirmed by three different molecular epidemiology methods: interrepeat PCR, Souther

116 enomics is a promising approach to exploring molecular epidemiology, microbial evolution, and pathoge

117 Workshops were held on viral diversity, molecular epidemiology, molecular virology, immunity and

118 cluding informatics, technologic innovation, molecular epidemiology, multidisciplinary teams, deliver

119 ished internationally dispersed Pneumococcal Molecular Epidemiology Network (PMEN) clone, clone Colom

120 Several Pneumococcal Molecular Epidemiology Network (PMEN) clones are now in

121 ted to clones identified by the Pneumococcal Molecular Epidemiology Network (PMEN).

122 tional clones identified by the Pneumococcal Molecular Epidemiology Network also were included for co

123 clone should be included in the Pneumococcal Molecular Epidemiology Network.

124 national clones included in the Pneumococcal Molecular Epidemiology Network; eight of them had been d

125 In particular, we highlight how virus molecular epidemiology, nourished with powerful sequenci

126 We report molecular epidemiology of 65 carbapenem-nonsusceptible A

127 re, we used genome sequencing to examine the molecular epidemiology of a collection of E. coli ST131

128 nd their population dynamics, we studied the molecular epidemiology of a random sample (n=490) from a

129 this relationship, we performed large-scale molecular epidemiology of AAV in resected tumor samples

130 of Critical Illness [BWH RoCI, n = 200] and Molecular Epidemiology of Acute Respiratory Distress Syn

131 de valuable information in understanding the molecular epidemiology of B. bronchiseptica infections.

132 olution that is well suited for studying the molecular epidemiology of bacterial pathogens.

133 To better define the molecular epidemiology of bluetongue virus (BTV) infecti

134 n and control strategies on the clinical and molecular epidemiology of C difficile infections in nort

135 healthcare settings and to characterize the molecular epidemiology of C. auris in Colombia.

136 The molecular epidemiology of C. difficile has shifted, and

137 The molecular epidemiology of C. difficile has shifted, whic

138 Despite advances in the molecular epidemiology of C. neoformans, its population

139 The Molecular Epidemiology of Colorectal Cancer (MECC) study

140 The Molecular Epidemiology of Colorectal Cancer study is a p

141 n a subset of more than 1300 patients of the Molecular Epidemiology of Colorectal Cancer study with h

142 dy is to assess clinical characteristics and molecular epidemiology of CR-KP infections with Multiloc

143 acokinetic-pharmacodynamic principles, local molecular epidemiology of CRAB isolates, and careful int

144 We analyzed the clinical and molecular epidemiology of CRE among adult inpatients in

145 ps and on land, encouraged us to examine the molecular epidemiology of detected noroviruses, to ident

146 Characterizing the molecular epidemiology of drug resistance genes helps to

147 standing the mutation trends, phylogeny, and molecular epidemiology of E variants is essential for de

148 The intrahost molecular epidemiology of EBV infection was characterize

149 tection of LMP-1 gene sequences to study the molecular epidemiology of Epstein-Barr virus (EBV) infec

150 We investigated the molecular epidemiology of EV and PeV-A over 10 years in

151 We described the molecular epidemiology of expanded-spectrum cephalospori

152 veillance study conducted to investigate the molecular epidemiology of extended-spectrum beta-lactama

153 This paper describes the molecular epidemiology of FMDV in the Adamawa province o

154 To describe the molecular epidemiology of HAdV21 respiratory infections

155 group M subtypes and offers a model for the molecular epidemiology of HIV and a new approach to vacc

156 prevalence, incidence, risk factors, and the molecular epidemiology of HIV in MSM from 2007 to 2011,

157 nued and improved surveillance of the global molecular epidemiology of HIV is crucial.

158 to be a valuable tool for understanding the molecular epidemiology of HIV-1 CRF02_AG in Cote d'Ivoir

159 This study evaluates the molecular epidemiology of HIV-1 in Trinidad/Tobago durin

160 lts suggest that continued monitoring of the molecular epidemiology of HIV-1 infection in Thailand wi

161 Surveillance of the global molecular epidemiology of HIV-1 remains crucial for the

162 nel cohort in which to describe the evolving molecular epidemiology of HIV-1 transmission.

163 w is provided on the latest nomenclature and molecular epidemiology of human noroviruses.

164 g, and provides useful information about the molecular epidemiology of individual por gene VRs.

165 To examine the molecular epidemiology of influenza virus transmission,

166 Despite growing interest in the molecular epidemiology of influenza virus, the pattern o

167 determine the prevalence and to describe the molecular epidemiology of LA-MRSA isolated in the East o

168 SRs are stable and suitable for studying the molecular epidemiology of M. avium subsp. paratuberculos

169 Moreover, molecular epidemiology of M. gallisepticum outbreaks can

170 repetitive elements has implications for the molecular epidemiology of M. tuberculosis.

171 provides a robust tool for understanding the molecular epidemiology of malaria across transmission se

172 ort provides broader insights related to the molecular epidemiology of male-dominant and smoking-driv

173 S implementation is necessary to monitor the molecular epidemiology of meningococcal disease in these

174 ce in Staphylococcus aureus, we describe the molecular epidemiology of methicillin-resistant Staphylo

175 aureus (MRSA), few studies have assessed the molecular epidemiology of methicillin-susceptible S. aur

176 While many data on molecular epidemiology of MRSA are available for North A

177 a comprehensive analysis of the clinical and molecular epidemiology of MRSA in an NICU between 2003 a

178 The genetic diversity and molecular epidemiology of Mycobacterium avium complex (M

179 It has proven challenging to investigate the molecular epidemiology of Mycobacterium leprae, the caus

180 ole genome sequencing has been used to study molecular epidemiology of Mycobacterium tuberculosis ove

181 However, few studies have used PFGE for the molecular epidemiology of Mycobacterium tuberculosis.

182 gel electrophoresis was used to analyze the molecular epidemiology of nosocomial bacteremia with ESB

183 his study analyzed the genetic variation and molecular epidemiology of P. vivax from Yala Province in

184 In addition, the molecular epidemiology of pathogenesis has been very poo

185 demic urban slum in Brazil, to determine the molecular epidemiology of pathogenic Leptospira and iden

186 gh surveillance, we studied the etiology and molecular epidemiology of pediatric bacterial meningitis

187 The clinical and molecular epidemiology of penicillin-resistant Streptoco

188 This study examined changes in the molecular epidemiology of pneumococcal isolates causing

189 one of the tools commonly used to study the molecular epidemiology of porcine reproductive and respi

190 In this study, we describe the incidence and molecular epidemiology of PPE by MLST in Utah children a

191 e to determine the prevalence, diversity and molecular epidemiology of prophages (phage DNA integrate

192 ctively, precaution should be taken when the molecular epidemiology of PRRSVs is evaluated by RFLP an

193 Because of significant differences in the molecular epidemiology of resistance and the availabilit

194 inical study designed to describe the global molecular epidemiology of RSV in children under 5 years

195 To study the molecular epidemiology of rubella virus during endemic t

196 To examine the molecular epidemiology of S. maltophilia and A. xylosoxi

197 ay be a critical factor in the evolution and molecular epidemiology of S. Typhi.

198 e need for a truly global perspective on the molecular epidemiology of SARS-CoV-2.

199 molecular and biochemical studies as well as molecular epidemiology of silver resistance in clinical

200 er, no studies to date have investigated the molecular epidemiology of such transmission events.

201 We sought to understand the molecular epidemiology of TDR and to identify the HIV-1

202 In the ensuing 30 years, changes in the molecular epidemiology of the Enterobacterales and its i

203 To study genetic variation and molecular epidemiology of the G protein of respiratory s

204 Little is known about the global molecular epidemiology of the human pathogenic fungus Cr

205 fully implemented to generate PV genomes for molecular epidemiology of the most recent PV isolates.

206 use whole genome sequencing to describe the molecular epidemiology of the SARS-CoV-2 outbreak and to

207 d next-generation sequencing to describe the molecular epidemiology of the seal influenza A(H10N7) vi

208 Here, we studied the molecular epidemiology of the zoonotic disease cutaneous

209 The molecular epidemiology of these artemisinin resistance g

210 The molecular epidemiology of these multiresistant isolates

211 ct comparisons of the population biology and molecular epidemiology of these two closely related huma

212 In order to determine the molecular epidemiology of this bacterium, we characteriz

213 line for future studies of the evolution and molecular epidemiology of this emerging virus in the Ame

214 infection, little is known about the global molecular epidemiology of this fungal pathogen.

215 o our knowledge the first description of the molecular epidemiology of this Salmonella strain in anim

216 We assessed the molecular epidemiology of this statewide epidemic using

217 To understand the molecular epidemiology of this upsurge, we performed, fo

218 ear prospective community-based study of the molecular epidemiology of tuberculosis in San Francisco.

219 In systematic studies of the molecular epidemiology of tuberculosis, DNA fingerprinti

220 date the use of pTBN12 fingerprinting in the molecular epidemiology of tuberculosis, M. tuberculosis

221 ine against which to evaluate changes in the molecular epidemiology of varicella-zoster virus and the

222 Here we study the population genomics and molecular epidemiology of wheat powdery mildew, a diseas

223 Described in detail is the molecular epidemiology of wild-type 1 poliovirus circula

224 Molecular epidemiology promises to deliver new insights

225 ompare the use of two genotyping methods for molecular epidemiology purposes, and to determine the ge

226 In viral molecular epidemiology, reconstruction of consensus geno

227 spanning trees (MSTs) are frequently used in molecular epidemiology research to estimate relationship

228 ytokines were associated with outcome in the Molecular Epidemiology Resource (MER) after adjusting fo

229 c Specialized Program of Research Excellence Molecular Epidemiology Resource (MER) and the North Cent

230 oma were enrolled from 2002 to 2015 into the Molecular Epidemiology Resource (MER) of the University

231 immunochemotherapy were identified from the Molecular Epidemiology Resource (MER) of the University

232 c Specialized Program of Research Excellence Molecular Epidemiology Resource from 2002 to 2009.

233 ma Study Association, and the other from the Molecular Epidemiology Resource study (N = 312), a prosp

234 formed in the LEO cohort (N = 1,445) and its Molecular Epidemiology Resource subcohort (N = 1,074).

235 The degree to which molecular epidemiology reveals information about the sou

236 The term "molecular epidemiology" routinely appears in the titles

237 wiss HIV Cohort Study (SHCS), we developed a molecular epidemiology screening for superinfections.

238 We analyzed data on host ecology, molecular epidemiology, serological dynamics, and viral

239 n presented--epidemiology of reported cases, molecular epidemiology, seroprevalence, vaccine coverage

240 ld standard" approach for analyzing MSTs for molecular epidemiology so that this generally useful com

241 (WGS) provides greater resolution than other molecular epidemiology strategies and is emerging as a n

242 HIV molecular epidemiology studies analyse viral pol gene se

243 be suitable for phylogenetic comparison and molecular epidemiology studies and may be an alternative

244 algorithms that have been largely ignored in molecular epidemiology studies and that have the potenti

245 way for use of archived pathology samples in molecular epidemiology studies designed to assess the ca

246 Seventeen molecular epidemiology studies did not support WBT and t

247 While population-wide molecular epidemiology studies have shown multiple cocir

248 ll aid in the development of diagnostics and molecular epidemiology studies of BTV-2 in the subcontin

249 These data are vital to molecular epidemiology studies of N. meningitidis, inclu

250 loci within Campylobacter and developed for molecular epidemiology studies of other bacterial specie

251 Molecular epidemiology studies of tuberculosis have been

252 is assay should also be readily adaptable to molecular epidemiology studies on 1,3-butadiene-exposed

253 Six molecular epidemiology studies supported the transfer of

254 Thirteen molecular epidemiology studies supported transmission of

255 rence strain of BTV-16e for phylogenetic and molecular epidemiology studies.

256 on a wealth of evidence from preclinical and molecular epidemiology studies.

257 ovide significant cost and sample savings in molecular epidemiology studies.

258 es, and some clinical implications of recent molecular epidemiology studies.

259 endemic settings, including population-based molecular epidemiology studies.

260 abolic phenotype, which is of importance for molecular epidemiology study design.

261 We conducted a prospective, population-based molecular epidemiology study of TB transmission in both

262 With this genomics-based molecular epidemiology study, we aimed to investigate th

263 In this multicentre, cross-sectional, molecular epidemiology study, we enrolled patients with

264 Molecular epidemiology targeting the impact of particula

265 nvolving both animal models and clinical and molecular epidemiology techniques, are essential.

266 nce typing (MLST) provides a new approach to molecular epidemiology that can identify and track the g

267 In molecular epidemiology, the identification of clusters o

268 vaccination, follow-up therapeutic care, and molecular epidemiology to define the migratory nature of

269 We use high-resolution molecular epidemiology to explore the dynamics of infect

270 A variety of clinical labs have used molecular epidemiology to investigate transmission.

271 infections is an important aspect of malaria molecular epidemiology to understand within-host diversi

272 ing classical genetics, reverse genetics and molecular epidemiology, to identify the molecular determ

273 "What options are available for T. pallidum molecular epidemiology?" To answer these questions, we s

274 The study aim was to assess the utility of molecular epidemiology using full genome sequences compa

275 Molecular epidemiology using genomic data can help ident

276 recent advances in our understanding of the molecular epidemiology, virulence potential, and host-pa

277 Retrospective molecular epidemiology was performed on samples from fou

278 Molecular epidemiology was useful in discerning routes o

279 s, this LMP-1 sequence-based approach to EBV molecular epidemiology will facilitate the study of intr

280 In the coming years, molecular epidemiology will play an increasingly promine

281 Studies on HIV-1 molecular epidemiology will provide key information on v

282 cord patient characteristics, and define the molecular epidemiology with respect to ribotype distribu

283 iews some of the prevailing attitudes toward molecular epidemiology, with the goal of identifying are