ライフサイエンスコーパス: invasive method

1 s, in samples that can be obtained by a less invasive method.

2 my and handling of the bowels making it less invasive method.

3 odstream and the diagnosis heavily relies on invasive methods.

4 the anatomical disturbances associated with invasive methods.

5 he assessment of these factors is limited to invasive methods.

6 collection of clinical data using relatively invasive methods.

7 ents in lung tumorigenesis detectable by non-invasive methods.

8 struction can be carried out using minimally invasive methods.

9 f FDA-approved biologics are administered by invasive methods.

10 uctures has thus far only been possible with invasive methods.

11 nformation that can only be captured by more invasive methods.

12 humpback whales via non-lethal and minimally invasive methods.

13 ve animals is challenging and currently uses invasive methods.

14 d for data quantification in comparison with invasive methods.

15 r respiratory distress syndrome by minimally invasive methods.

16 used colonoscopy accepted an alternative non-invasive method (97%).

17 This new, non-invasive method allows the generation of high spatial re

18 It is non-invasive method and easy to perform in clinical practice

19 is but magnetic resonance imaging is the non-invasive method and excellent modality in the evaluation

20 onstrates that integration of innovative non invasive methods and predictive-models can be decisive i

21 ey are difficult to observe in cells without invasive methods and seem to be very small (nanoscale) a

22 omass, possible contamination when using non-invasive methods and the invasiveness of methods that re

23 on use, some may be regarded as (to a level) invasive methods and there are cases where there are con

24 mitations regarding the use of the minimally-invasive methods and/or biological indicators identified

25 stereo-EEG electrodes in patients where non-invasive methods are insufficient.

26 Non-invasive methods avoid such complications, but their dev

27 a potentiality of novel time-saving and non-invasive method based on fluorescence microscopy for pro

28 sured in a model wine solution using the non-invasive method based on luminiscence.

29 e of meningiomas is unpredictable by current invasive methods based on surgically removed specimens.

30 of competing factors can the noninvasive and invasive methods be connected.

31 as a predictive biomarker, ASL-MRI as a non-invasive method can be easily added to diagnostic tools

32 ocal sampling using noninvasive or minimally invasive methods can be cost-effective and well tolerate

33 US with a single-element transducer is a non-invasive method capable of reversibly opening the BBB, w

34 We compared VIE identification to a less-invasive method - computer-assisted photographic identif

35 ticle, we provide an overview of the various invasive methods currently available to assess the coron

36 eview article we catalog these available non-invasive methods, discuss the challenges and opportuniti

37 Here, we propose a semi-invasive method, Dorsal Column Stimulation (DCS) as a to

38 ic accuracy of this method, use of minimally invasive methods (e.g., core biopsy) may be desirable fo

39 reatment, Nd:YAG laser hyaloidotomy is a non invasive method enabling rapid drainage of the obstructe

40 A significantly less invasive method--epidural spinal cord stimulation (SCS)-

41 ARF in adults, which included ECLS when less invasive methods failed.

42 and an urgent need exists for devising a non-invasive method for activation state monitoring that cou

43 Coronary reactivity testing is an invasive method for assessing coronary vascular function

44 aptations in vivo, and may offer a first non-invasive method for assessing receptor desensitization a

45 Here we develop and validate a minimally invasive method for assessing TF activity based on cell-

46 A simple, reproducible invasive method for assessing the coronary microcirculat

47 eous needle biopsies and provide a minimally invasive method for axillary staging of breast cancer.

48 VOCs in exhaled breath offer a novel, non-invasive method for biometric identification and health

49 Liquid biopsy, a minimally invasive method for cancer signal detection, has been ex

50 lish the utility of tape harvesting as a non-invasive method for capturing RNA from human skin and su

51 dings illustrate the utility of a rapid, non-invasive method for characterizing early cardiac dysfunc

52 Surface electrogastrography (EGG) is a non-invasive method for clinical assessment of gastric myoel

53 Recently, a non-invasive method for delivering NGF to the brain was esta

54 ed PET/MRI-guided biopsy is a reliable, less invasive method for detecting and characterizing PCa in

55 Liquid biopsy is widely accepted as a non-invasive method for diagnosing cancer and other diseases

56 (tTG-IgA), this study aims to suggest a non-invasive method for diagnosis of CD.

57 f volatile organic compounds (VOCs) as a non-invasive method for disease monitoring, such as type 2 d

58 The availability of an accurate, non-invasive method for distinguishing viable from irreversi

59 im of this study was to identify a minimally invasive method for early prediction of response and rel

60 Here, we use a non-invasive method for estimating half-lives for hundreds o

61 r (TCD) ultrasonography is a widely used non-invasive method for evaluating cerebral blood flow(1), b

62 Saliva analysis could be a non-invasive method for evaluating oral health.

63 Here we describe a fast, localized and non-invasive method for GFP photoconversion from green to re

64 Here we present a non-invasive method for in vivo investigation of cardiac lip

65 LBNP holds clinical potential as a safe, non-invasive method for lowering ICP and improving CPP for p

66 A non-invasive method for measurement of the bladder wall nonl

67 ss responses in humans and may provide a non-invasive method for measuring stress in other animal spe

68 Here, we develop a non-invasive method for measuring these signals by recording

69 SS-OCTA is a promising non-invasive method for monitoring patients with SC.

70 he viability of liquid biopsy as a minimally invasive method for monitoring PIK3CA mutations in canin

71 esults establish CEST MRI as a powerful, non-invasive method for monitoring rAAV-mediated transgene e

72 ranial focused ultrasound is a promising non-invasive method for neuromodulation, particularly for ne

73 ons (IGBs) have become an efficient and less invasive method for overweight and obesity treatment, th

74 ting is reliable, effective, and a minimally invasive method for palliating malignant obstruction, as

75 oth cost-effective and provide a safer, less-invasive method for patients to determine the need for m

76 Thus, the EGFR-DLS provides a non-invasive method for precise quantification of EGFR mutat

77 sion-making, this task provides a rapid, non-invasive method for quantifying disorders of higher neur

78 n mice makes clear the requirement for a non-invasive method for quantifying the expression of depres

79 A relatively simple, invasive method for quantitatively assessing the status

80 nstrates that EPE can be used as a minimally invasive method for real-time monitoring of plant protec

81 easible, safe, cost effective, and minimally invasive method for reestablishing luminal patency.

82 RMAs provide a non-invasive method for repeatable, multiplexed monitoring o

83 imaging (MRSI) can be used as a direct, non-invasive method for studying the effects of TBI on energ

84 reflect MNS activity and thus provide a non-invasive method for studying this relationship.

85 nd (FUS) combined with microbubbles is a non-invasive method for targeted, reversible disruption of t

86 of prostate cancer and can be used as a non-invasive method for that purpose.

87 We aim to develop a non-invasive method for the detection and monitoring of drug

88 ight be needed to prove its utility as a non-invasive method for the detection of BE in high-risk pop

89 has the potential to be used as a simple non-invasive method for the detection of blood characteristi

90 TA choriocapillaris flow voids provide a non-invasive method for the detection of lesions in patients

91 etric biosensor could be used as a minimally invasive method for the diagnosis of prostate cancer.

92 In this work, we disclose a non-invasive method for the monitoring and predicting of the

93 imulation tool provides, in principle, a non-invasive method for the temporally and spatially precise

94 We introduce a non-invasive method for thermal destruction of biofilm on me

95 d serum proteomics is a useful and minimally invasive method for this purpose.

96 Here we present a new, easy-to-apply and non-invasive method for three-dimensional in-situ visualizat

97 ort the development of a high throughput non-invasive method for tracking mammalian cell growth and p

98 GENUS provides a time-dependent, non-invasive method for treating chemobrain, with broader im

99 cused ultrasound (MRgFUS) is a promising non-invasive method for treating CNS tumours.

100 RF ablation may be an effective, minimally invasive method for treating small functional primary ad

101 t of an accurate, inexpensive, fast, and non-invasive method for universal medical diagnostics.

102 e Tomography Angiography (OCTA) offers a non-invasive method for visualising retinal vasculature, pro

103 contrast-enhanced imaging tools provide non-invasive methods for analyzing various functional change

104 Non-invasive methods for assessing liver fibrosis have been

105 This work demonstrates simple and non-invasive methods for detecting SARS-CoV-2 salivary antib

106 l be utilized towards the development of non-invasive methods for diagnosing monogenetic disorders.

107 Non-invasive methods for diagnosis of urothelial carcinoma h

108 d sweat analysis have shown potential as non-invasive methods for disease diagnosis.

109 Non-invasive methods for estimating placental fractional blo

110 nic compounds (NOCs) which might provide non-invasive methods for evaluating individual health.

111 Traditional invasive methods for fetal antigen genotyping, like amni

112 Reliable and available non-invasive methods for hepatic fibrosis assessment are imp

113 d by this review is the paucity of minimally-invasive methods for investigating neurogenesis; the mea

114 toencephalography (MEG) as an alternative to invasive methods for investigating the cortical represen

115 Non-invasive methods for periodontitis diagnosis would be a

116 BCIs can use noninvasive or invasive methods for recording the brain signals that co

117 Non-invasive methods for scoring fibrosis have been develope

118 s proven to be one of the most promising non-invasive methods for studying metal pools in biological

119 ability and reproducibility of different non-invasive methods for the assessment of peri-implant muco

120 Overtime, several non-invasive methods for the detection of liver fibrosis hav

121 Despite the development of a variety of non-invasive methods for the detection of rejection, the end

122 At the moment, non-invasive methods for the direct study of intracellular i

123 Non-invasive methods for the in vivo detection of hallmarks

124 Minimally invasive methods for the study of cancer evolution and n

125 The search for a non-invasive method has led to the application of various ra

126 However, the precise role of this costly and invasive method has not yet been established.

127 A number of minimally invasive methods have been tested for the thermal ablati

128 owever, the efficacy and safety of minimally invasive methods have not been reviewed.

129 enumeration of targeted cells with minimally invasive methods, have the advantages of electrochemical

130 ve overview of the advancements of these non-invasive methods, highlighting their technical implement

131 lates of psilocybin administration using non-invasive methods, however, there has yet to be an invasi

132 By this minimal invasive method, hypertrophic bleb complication of XEN g

133 These serum markers can be used as a non-invasive method in the evaluation of chronic gastritis i

134 falls within the range of that reported with invasive methods in monkeys.

135 Invasive, endoscopy-based and non-invasive methods, including breath, stool and serologica

136 Renal biopsy, an invasive method, is the main approach to diagnose PGDs.

137 that OCTA, a relatively inexpensive and non-invasive method, is useful in assessing cerebrovascular

138 he frontiers of root measurement include non-invasive methods like X-ray computer tomography and magn

139 The lateralization of language via invasive methods may not be necessary for temporal lobe

140 oral change, as measured by quantitative non-invasive methods, might be associated with NAFLD progres

141 In contrast to other non-invasive methods, MR imaging holds the promise of provid

142 As a non-invasive method, MRE can predict the presence of oesopha

143 atios may provide a novel, sensitive and non-invasive method of assessing bone calcium balance in chr

144 We developed a real-time and non-invasive method of assessing organs during perfusion bas

145 ence tomography (PS-OCT) offers a novel, non-invasive method of assessing skin fibrosis in the multis

146 capability for a sensitive and specific non-invasive method of cancer diagnosis.

147 ipped swabs to develop a low-technology, non-invasive method of detecting environmental DNA (eDNA) fr

148 nce imaging (MRI) is a commonly used and non-invasive method of detecting pathological changes inside

149 So, a facile, quick, and non-invasive method of early detection of lung cancer is ver

150 This is a novel, non-invasive method of estimating seroprevalence in vertebra

151 vascular calibre could be an innovative non-invasive method of estimating vascular risk in HIV-infec

152 SD-OCT provides a non-invasive method of following long-term retinal changes i

153 Here, we propose a non-invasive method of identification of melanoma based on b

154 oustic imaging offers a newly available, non-invasive method of imaging digital artery structure and

155 a novel, cost effective, accessible, and non-invasive method of isolating viable human cells present

156 In this paper we describe a non-invasive method of measuring leaf water content using TH

157 e credibility of CTI as an electrodeless non-invasive method of measuring low frequency conductivity

158 edical practitioners since it provides a non-invasive method of measuring urine flow rate and urethra

159 delivered to the diaphragm using a minimally invasive method of microinjection to the intrapleural sp

160 agnetic stimulation (TMS) offers a safe, non-invasive method of probing changes in cortical excitabil

161 te that CARS microscopy provides a novel non-invasive method of quantifying lipid content, type and s

162 We developed a rapid, sensitive, minimally invasive method of quantifying vaginal moisture in mice

163 This non-invasive method of reducing pressure in the brain holds

164 ectomy, is emerging as an effective and less invasive method of revascularization for extracranial ca

165 The simple and non-invasive method of saliva sampling provides an interesti

166 Liquid biopsy is a minimally-invasive method of sampling bodily fluids, capable of re

167 Anterior Temporal Lobectomy (ATL), or a less invasive method of Selective Laser Amygdalohippocampecto

168 hy (ERCP) has become the preferred minimally invasive method of treating a vast array of pancreatobil

169 Here we propose a minimally invasive method of using wireless miniature soft robots

170 considerably greater than estimates made by invasive methods of 4 to 8 microm.

171 However, invasive methods of administration, short duration of ac

172 periments on the motor cortex shows that non-invasive methods of brain stimulation can be surprisingl

173 g (IGR) method against other noninvasive and invasive methods of CO quantification in a cohort of pat

174 seen an increase in the data regarding less invasive methods of cystometry.

175 Non-invasive methods of detecting radiation exposure show pr

176 carcinoma, developing more accurate and less-invasive methods of diagnosis, and discovering the under

177 Non-invasive methods of diagnosis, including liquid biopsies

178 al and peritumoural regions are accurate non-invasive methods of differentiation of grade II from gra

179 urate risk prediction models; developing non-invasive methods of early RCC detection; establishing th

180 y high resolution and the development of non-invasive methods of fetal testing using cell-free DNA in

181 However, efficient and minimally invasive methods of MSCs delivery to the brain still hav

182 more accurate cancer staging, safer and less invasive methods of removing gastric neoplasms, and endo

183 Non-invasive methods of STT evaluation include cone-beam com

184 This level of sensitivity, using minimally invasive methods, offers novel opportunities for monitor

185 rse ecosystems, particularly where fast, non-invasive methods permit detection in economically import

186 Using non-invasive methods, photo identification and laser photogr

187 Invasive methods provide direct information on atrial ac

188 Currently, no widely accepted non-invasive method provides an objective evaluation of tran

189 ites, was concordant between noninvasive and invasive methods (r(2)=0.5; CC=0.71).

190 Noninvasive ((13)C-CP/MAS NMR) and invasive methods (sequential chemical degradation, pyrol

191 Invasive methods should be used only when necessary, pri

192 However, quantifying cccDNA requires invasive methods such as a liver biopsy, which makes it

193 Invasive methods such as blood collection and biopsy are

194 Animal studies have used invasive methods such as direct microfusion of protein i

195 Currently, glucose monitoring is done using invasive methods such as finger-pricking and subcutaneou

196 ing cancers are slowly being replaced by non-invasive methods such as liquid biopsy.

197 d, it is prudent to predict ADRs through non-invasive methods such as machine learning based on exist

198 nally monitored in patients using proven non-invasive methods, such as 16S ribosomal RNA amplicon seq

199 Invasive methods, such as intraventricular catheter, sub

200 tivities in living animals largely depend on invasive methods, such as single-cell sequencing, quanti

201 liver cell transplantation, which is a less invasive method than orthotopic liver transplantation fo

202 rasound-reflex transmission imaging is a non-invasive method that can be performed in vivo.

203 Here we introduce a non-invasive method that enables arbitrary interrogation of

204 However, brush biopsy is a non-invasive method that has been utilized for identifying d

205 ablish PSVue-550 imaging as a completely non-invasive method that provides the opportunity to longitu

206 Surfactant administration by minimally invasive methods that allow for spontaneous breathing mi

207 In the past few decades, minimally invasive methods that approach aneurysms endovascularly

208 res invasive analysis of brain tissue or non-invasive methods that are limited by low sensitivity.

209 ions in imaging techniques and often require invasive methods that can only be performed postmortem.

210 biological processes, but there are few non-invasive methods that provide quantification of these co

211 CT imaging is a rapid, reproducible, and non-invasive method, that gives results that are closely com

212 ated MPNSTs, while PTT serves as a minimally invasive method to ablate cancer cells.

213 ional (1D) cardiovascular models offer a non-invasive method to answer medical questions, including p

214 Enhanced pause was measured with a non-invasive method to assess AHR.

215 Dried blood spots (DBS) provide a minimally invasive method to assess inflammatory markers and can b

216 by transient elastography is a reliable non-invasive method to assess liver fibrosis in patients wit

217 Cytology is a less invasive method to assess oral potentially malignant dis

218 chemiluminescence has been proposed as a non-invasive method to assess oxidative stress in the skin.

219 ddressing this, our research proposes a less invasive method to assess pediatric SAH severity by anal

220 o obtaining salivary samples can offer a non-invasive method to assess risk for developing diabetic n

221 dioactive iodine (I) seeds] is a new minimal invasive method to assess the pathological response of n

222 BSCM is the first non-invasive method to be validated by demonstrating a direc

223 may represent a simple, inexpensive, and non-invasive method to boost current therapies.

224 A non-invasive method to bring antibodies into the CNS reliabl

225 y (HRV) analysis, has been proposed as a non-invasive method to detect diseases and predict outcomes.

226 ing tumour DNA (ctDNA) might represent a non-invasive method to detect mutations in patients, facilit

227 aluation, there is a clinical need for a non-invasive method to detect sarcomatoid differentiation pr

228 nea confocal microscopy (CCM) is a novel non-invasive method to detect small nerve fiber pathology.

229 ment by providing a label-free and minimally invasive method to determine intracellular drug localisa

230 eflectance spectroscopy (DRS) as a novel non-invasive method to directly determine changes in hematol

231 uxin molecule represents a sensitive and non-invasive method to directly visualise auxin localisation

232 nclude that handheld XRF is an accurate, non-invasive method to discriminate origin of elephant tusks

233 ular lavage has been proposed as a minimally invasive method to evacuate intraventricular hemorrhage.

234 Sputum induction is a non-invasive method to evaluate the airway environment, part

235 (cfDNA) has recently emerged as a minimally invasive method to explore tumor characteristics.

236 ng and pupil dynamics offers a promising non-invasive method to further illuminate the mechanisms of

237 ng of circulating tumor DNA (ctDNA) is a non-invasive method to guide therapy selection for cancer pa

238 In this study, we developed a minimally invasive method to identify IO and quantify iron levels

239 Here we report on a non-contact and non-invasive method to image and characterize skin's elastic

240 describe a general, versatile and minimally invasive method to image single molecules near the cell

241 e inspired sinewave technique (IST) is a non-invasive method to measure lung heterogeneity indices (i

242 substrate impedance sensing or ECIS is a non-invasive method to measure real-time cellular behaviors

243 scranial Magnetic Stimulation (TMS) is a non-invasive method to modulate neural activity by inducing

244 lar vagus nerve stimulation (taVNS) as a non-invasive method to modulate physiological markers of nor

245 We used a cost-effective, non-invasive method to obtain high-quality DNA from buccal e

246 image features are becoming a promising non-invasive method to obtain quantitative measurements for

247 Here we report a non-invasive method to optically measure an established indi

248 aneous wound assessment for a faster and non-invasive method to predict cellular senescence and deter

249 ails of the fields, allowing for a minimally invasive method to probe the polarization within a photo

250 Our results establish a minimally invasive method to quantify diffusion in the brain ECS i

251 We now present a non-invasive method to quantify the three-dimensional propag

252 Here we develop a non-invasive method to track spatial oxygen distributions in

253 equency sound stimulation can serve as a non-invasive method to transport drugs efficiently along the

254 ing has been proposed as a promising and non-invasive method to visualize amyloid plaques in vivo bec

255 The present study aimed to develop a non-invasive method to visualize the cardiorespiratory netwo

256 ogy and drug development, by providing a non-invasive method to visualize tumor phenotype.

257 ained scarce due to the relative lack of non-invasive methods to assess it.

258 was selected because it is one of the least invasive methods to assess urban traveler exposure.

259 mitation increasing use is being made of non-invasive methods to detect subclinical coronary artery d

260 When combined with the development of non-invasive methods to detect such signatures, this may pro

261 Non-invasive methods to determine DmO2 in humans are current

262 Non-invasive methods to document healing anterior cruciate l

263 Application of minimally invasive methods to enable the measurement of tissue per

264 nt to find reliable and at the same time non-invasive methods to identify high-risk nodules.

265 s led to the development of invasive and non-invasive methods to identify such plaques prospectively.

266 se researchers have access to many minimally-invasive methods to measure altered biological processes

267 primarily due to a lack of practical and non-invasive methods to measure and quantify the process.

268 In conjunction, we examine non-invasive methods to measure ecological influences on for

269 pounded by the present lack of low-cost, non-invasive methods to measure such release.

270 Studies included minimally-invasive methods to measure the hypothalamic-adrenal-pit

271 However, minimally invasive methods to measure the spatial distribution of

272 question are not ideal because they require invasive methods to model congenital solitary kidney.

273 Non-invasive methods to monitor low-grade chronic inflammati

274 Non-invasive methods to monitor tumour growth are an importa

275 A lack of non-invasive methods to record absolute V(mem) limits our un

276 rrent BCIs use a variety of invasive and non-invasive methods to record brain signals and a variety o

277 Invasive methods to study these mechanisms in humans hav

278 Two non-invasive methods to track the propagating hair wave in l

279 Thus, effective non-invasive methods to treat metastatic LNs would be highly

280 ssible to routine sampling, however, and non-invasive methods to understand the longitudinal tissue-w

281 dels such as pregnant sheep allow the use of invasive methods to validate MRI measurements.

282 sient elastography is the best evaluated non-invasive method used in referral centres to assess liver

283 The electroretinogram (ERG) is a non-invasive method used to assess overall retinal function.

284 hat are the characteristics of the minimally-invasive methods used to measure the biological correlat

285 Tape-strips, a minimally invasive method validated for the evaluation of several

286 They are much less focal than conventional invasive methods which use small electrodes placed on or

287 G-based decoding performance that approaches invasive methods, while supporting real-time inference o

288 chiatric research, with hopes that these non-invasive methods will provide important clues to the und

289 on of sEV-associated proteins is a minimally invasive method with potential to discriminate between C

290 However, this is an invasive method with significant limitations and possibl