ライフサイエンスコーパス: MRI scan

1 nned, and had at least three valid post-dose MRI scans).

2 oved by the Food and Drug Administration for MRI scanning).

3 a magnetization-prepared rapid gradient echo MRI scan.

4 ymptoms completed a resting-state functional MRI scan.

5 Behavior Checklist within 6 months of their MRI scan.

6 (123)I-iodobenzovesamicol SPECT scan and an MRI scan.

7 ed medicine and varies considerably under an MRI scan.

8 o avoid shocks while undergoing a functional MRI scan.

9 ting physicians blinded to the result of the MRI scan.

10 ions and generated a lesion profile for each MRI scan.

11 e corresponding CT scan or on the subsequent MRI scan.

12 giography, MRI navigators, and a T1-weighted MRI scan.

13 ification of enhancing lesions on unenhanced MRI scans.

14 ith a median of 40 (IQR, 15-65) days between MRI scans.

15 n measurements derived from structural brain MRI scans.

16 cient (ADC) values were acquired from the DW-MRI scans.

17 oth (68)Ga-PSMA-11 PET/CT and (68)Ga-RM2 PET/MRI scans.

18 ith 188 Gd-enhancing lesions on 48 pre-aHSCT MRI scans.

19 resolution coupled with conventional cardiac MRI scans.

20 ignificant difference in catheterizations or MRI scans.

21 rement of HF subfields in the human brain on MRI scans.

22 nd healing were not evident clinically or on MRI scans.

23 se) availability while undergoing functional MRI scans.

24 Patients with MS also underwent annual brain MRI scans.

25 e difficult to assess on routine T1-weighted MRI scans.

26 ded visual assessment of their initial brain MRI scans.

27 ed) and cervical (axial T2- or T2*-weighted) MRI scans.

28 derwent more intensive assessments including MRI scans.

29 ral peduncles, midbrain, and/or brainstem in MRI scans.

30 ons that were associated with abnormal brain MRI scans.

31 rom multicontrast high-resolution postmortem MRI scans.

32 clinically acquired preoperative multimodal MRI scans.

33 one marrow edema was the combined reading of MRI scans.

34 after a baseline magnetic resonance imaging (MRI) scan.

35 state functional magnetic resonance imaging (MRI) scan.

36 h are visible on magnetic resonance imaging (MRI) scans.

37 tched healthy controls (n=68) also underwent MRI scanning.

38 individual illusion magnitude and structural MRI scanning.

39 irements of immobilization or anesthesia for MRI scanning.

40 went structural and resting-state functional MRI scanning.

41 who underwent both structural and functional MRI scanning.

42 healthy subjects with one or more structural MRI scans (1,197 in total), machine learning algorithms

43 MRI scans (1.5T, T2-weighted, and DWI) of 140 patients w

44 Of the 2715 participants who underwent MRI scans, 12 (0.44%) had CCM.

45 had negative MRI scans and 120 had positive MRI scans), 122 orthopaedic trauma controls, and 209 hea

46 hange significantly from the first to second MRI scan (13.7 +/- 7.8 vs. 16.3 +/- 8.7 mm Hg, P = 0.239

47 tsburgh Compound B (PiB) PET scan and two 3T MRI scans ~18-months apart.

48 baseline and postdose (18)F-JNJ-64413739 PET/MRI scans 4-6 h after the administration of a single ora

49 cture within 24 h post injury and who had an MRI scan 7-18 days post injury.

50 udy of Aging, 2037 of whom had undergone 3 T MRI scan, 985 amyloid PET scan with 11C-Pittsburgh compo

51 Seventy-one subjects had MRI scanning a median of 4.6 months after a clinically i

52 d on T2- and T2*-weighted axial and sagittal MRI scans acquired at 3 or 7 T.

53 Functional MRI scans acquired at rest offer insights into functiona

54 Using T1-weighted MRI scans acquired from 1616 individuals with OCD and 14

55 ildren (108 male; age range, 0-6 years) with MRI scans acquired from 2006 to 2013 at one large academ

56 graphy (PET) and magnetic resonance imaging (MRI) scans acquired in a total of 210 healthy individual

57 s calculated using single diffusion-weighted MRI scans (acute ischemic events that occurred within 10

58 received bapineuzumab, and had at least one MRI scan after treatment.

59 with DD, 32 completed the clinical trial and MRI scans, along with the 25 HC participants.

60 rior to development of lesions observable on MRI scans, an endeavor that may be facilitated by newbor

61 ent (i) clinical evaluations; and (ii) brain MRI scans analysed using whole-brain voxel-based morphom

62 d control subjects underwent a 7-Tesla brain MRI scan and a detailed cognitive assessment.

63 ealthy controls (HCs) completed a structural MRI scan and provided blood sample for kynurenine metabo

64 1,305) underwent a resting-state functional MRI scan and were analyzed by a two-stage approach.

65 rmal head CT scans (of whom 330 had negative MRI scans and 120 had positive MRI scans), 122 orthopaed

66 , subjects received resting-state functional MRI scans and assessments of depressive symptoms using t

67 Structural MRI scans and BIS/BAS and other clinical measures were o

68 Structural MRI scans and cortisol levels were obtained following ea

69 averaged proton density-weighted structural MRI scans and drive its functional activity with a dual

70 In this study, resting state functional MRI scans and extensive behavioral testing assessing cha

71 rwent up to six annual assessments involving MRI scans and neuropsychological testing.

72 dies, patients completed baseline structural MRI scans and received either CBT or SSRI treatment.

73 o calculate hippocampal volume on all serial MRI scans and used linear mixed-effects regression model

74 timodal 3T brain magnetic resonance imaging (MRI) scan and cognitive tests.

75 postspaceflight magnetic resonance imaging (MRI) scans and generated centerline representations of t

76 ions of combined magnetic resonance imaging (MRI) scans and memory tests over a period of up to 11 ye

77 h recent orbital magnetic resonance imaging (MRI) scans and normal eye examinations were consented fr

78 ions of at least 3 mm on a T2-weighted brain MRI scan, and an Expanded Disability Status Scale score

79 Score of 70 or higher, were able to have an MRI scan, and had a complete resection of one to three b

80 At 12 weeks, patients underwent a follow-up MRI scan, and were categorized as either treatment remit

81 patients with FCD IIa/b were submitted to 7T MRI scanning, and then analyzed histologically and ultra

82 valuation of response to therapy compared to MRI scans, and can predict outcomes, particularly for pa

83 We acquired high-resolution MRI scans, and investigated group differences in gray ma

84 went structural and resting state functional MRI scans, and spatial neglect was measured using the Po

85 matter graphs were extracted from structural MRI scans, and whole-brain neuroanatomic organization wa

86 ed at the time of the first postradiotherapy MRI scan are prognostic for time to tumor recurrence and

87 re collected prior to therapy, and follow-up MRI scans are acquired at a midpoint in therapy.

88 ample, shape measurements derived from brain MRI scans are multidimensional geometric descriptions of

89 Currently, mammographies, biopsies and MRI scans are the standard of care techniques used for b

90 Therefore, we acquired an optimized MRI scan at 7-tesla field strength allowing sensitive in

91 Subjects received a structural MRI scan at ages 14 and 19.

92 Each patient had a brain MRI scan at entry and 6 months later using a standardize

93 In both sexes, a single MRI scan at the level of L3 is the best compromise site

94 d 70 healthy control participants) underwent MRI scanning at three sites.

95 Main outcome was presence/absence of CIM on MRI scans at 1 and/or 2 years of age.

96 MRI scans at endpoint demonstrated contrast enhancing ma

97 er than minimal cerebral disease detected on MRI scans at the time of an HSCT are at risk for severe,

98 ast-enhanced magnetic resonance imaging (DCE-MRI) scanning at baseline and 15 +/- 2 days after initia

99 Patients receive two MRI scans: at baseline and after ten bilateral ECT sessi

100 and had the baseline scan and another brain MRI scan available for comparison.

101 searchers are often skeptical of post mortem MRI scans because of uncertainty about whether the fixat

102 jects (29.2 +/- 9.5 years) underwent DXA and MRI scans before and after a 10-week resistance training

103 thological diagnosis who had antemortem head MRI scans between Jan 1, 1999, and Dec 31, 2012, and who

104 assessed by blinded central review of brain MRI scans by the study neuroradiologist in the modified

105 MRI scans can be acquired from either live or post morte

106 heterogeneity extracted from registered DCE-MRI scans can improve early prediction of neoadjuvant tr

107 During functional MRI scanning, children viewed pictures of their own moth

108 Brain magnetic resonance imaging (MRI) scans clinically obtained in 26 very preterm infant

109 The CAD system is tested on DW-MRI scans collected from 56 subjects from geographically

110 e calculated from the pre- and postoperative MRI scans coregistered with interictal (18) FDG-PET.

111 An alternative to costly MRI scans could be the detection of MMP-9, using a low-c

112 as performed on 1.5-T structural T1-weighted MRI scans derived from the International OCD Brain Imagi

113 data support that the system is safe and the MRI scan does not adversely affect electrical performanc

114 Structural MRI scans, DTI, and visual fields were acquired before a

115 tamine orally and placebo, and an anatomical MRI scan for measuring cortical thickness.

116 ection with ferumoxytol-enhanced T1-weighted MRI scans for anatomical orientation, similar to the con

117 ber of gadolinium-enhancing lesions on brain MRI scans for both RRMS studies.

118 Data consisted of two MRI scans for each subject.

119 xytol-enhanced whole-body diffusion-weighted MRI scans for tumour detection with ferumoxytol-enhanced

120 significantly improved prediction ability of MRI scans for upgrading of biopsy GS (p = 0.001, 95% CI

121 = 12.9 years, range =1-18) and a total of 82 MRI scans for volumetric MRI analyses compared to matche

122 Results MRI scans from 1008 participants (mean age, 37.7 years +

123 work input consisted of 1970 multiparametric MRI scans from 1008 patients recruited from 2005 to 2009

124 We used paired baseline and week-24 MRI scans from 160 participants in a randomized placebo-

125 3T arterial spin labelling MRI scans from 162 participants in the PREVENT-Dementia

126 MRI scans from 178 patients (mean age, 48 years +/- 17;

127 ling brain measures derived from T1-weighted MRI scans from 19 samples worldwide.

128 icenter neuroimaging data, we analyzed brain MRI scans from 2028 schizophrenia patients and 2540 heal

129 n this retrospective study, multimodal brain MRI scans from 212 patients (mean age, 55 years +/- 17 [

130 fluid-attenuated inversion recovery (FLAIR) MRI scans from 262 participants in two phase 2 studies o

131 CNN training and retrospective analysis, 400 MRI scans from 367 patients (mean age, 48 years +/- 18;

132 In this study, 3D whole-heart cardiac MRI scans from 424 participants (average age, 57 years +

133 yzed 1243 longitudinally acquired structural MRI scans from 623 youth (299 female/324 male) to invest

134 A total of 1,748 anatomic MRI scans from 792 healthy twins and siblings were studi

135 The 3D-MRI scans from 8 eyes showed posterior staphylomas, late

136 pBrainNet) using a large (n = 11 729) set of MRI scans from a highly diversified cohort spanning diff

137 In total, 1196 T1-weighted MRI scans from healthy controls (HCs) were used to build

138 We examined over 3,800 unique MRI scans from nine large-scale studies to estimate the

139 three-dimensional T1-weighted gradient-echo MRI scans from patients who underwent gamma knife SRS fr

140 ctive study, 700 two-dimensional brain tumor MRI scans from the Brain Tumor Segmentation database wer

141 nhanced T1-weighted lesions on monthly brain MRI scans from weeks 8 to 24.

142 Magnetic resonance imaging (MRI) scans from 196 patients with MDD and 110 healthy pa

143 1-weighted brain magnetic resonance imaging (MRI) scans from 2148 MDD patients and 7957 healthy contr

144 lyze T1-weighted magnetic resonance imaging (MRI) scans from 624 participants at 3 time points, from

145 T), tau PET, and magnetic resonance imaging (MRI) scans from the population-based Mayo Clinic Study o

146 For anatomic imaging, 20 of 41 (49%) CT or MRI scans had findings congruent with (18)F-DCFPyL, wher

147 he 32 participants, whereas the simultaneous MRI scan identified findings compatible with recurrent P

148 Brain MRI scanning in seven children revealed large grey matte

149 he results of transfontanelle ultrasound and MRI scans in 21 children.

150 ured cortical thickness on paired structural MRI scans in all participants and compared progressive t

151 PIRADS scores were obtained from MRI scans in all the included cases.

152 cartilage segmentation of 2 sequential knee MRI scans in each subject.

153 comparative study of in vivo and post mortem MRI scans in healthy male Wistar rats at three age point

154 discriminative ability of GFAP for positive MRI scans in patients with negative CT scans over 24 h (

155 ed three-dimensional T1-weighted spinal cord MRI scans in seropositive participants with NMOSDs and i

156 as well as knee magnetic resonance imaging (MRI) scans in each subject were obtained at baseline and

157 lity, and anxiety/depression (29 months post MRI scan) in regularized regression models.

158 sample of 3,565 magnetic resonance imaging (MRI) scans, in 1,204 patients with MS and clinically iso

159 MRI scans, including T2-weighted imaging (T2WI) and diff

160 rebral microbleeds (CMBs) on prethrombolysis MRI scans is associated with an increased risk of ICH.

161 ractice of visual comparison of longitudinal MRI scans is associated with significant delays in detec

162 ombined analysis of computed tomographic and MRI scans may help indicate the diagnosis of adult-onset

163 ltrasound and/or magnetic resonance imaging (MRI) scan may be is necessary to confirm the diagnosis.

164 of spatial distortions inherent in diffusion MRI scans, may enable more precise spatial targeting of

165 rther analysis of 102 hemispheres of in vivo MRI scans (N = 51 males, mean +/- SD 24.1 +/- 3.1 years

166 xamination, a baseline brain and spinal cord MRI scan obtained less than 3 months from clinical onset

167 Background Enhancing lesions on MRI scans obtained after contrast material administratio

168 Serial MRI scans obtained after fasting and hourly for 4 h foll

169 is computed on a slice-by-slice basis using MRI scans obtained at regular intervals.

170 ials of SNRI antidepressant medications with MRI scans obtained before and after treatment.

171 with 35 neurologic diseases and normal brain MRI scans obtained between January 2008 and January 2018

172 nectivity analysis was applied to functional MRI scans obtained from 65 women with histories of child

173 Results Unilateral knee MRI scans obtained in 105 skiers (mean age, 14.8 years +

174 of a prospective trial, unenhanced 3-T knee MRI scans obtained in youth competitive alpine skiers we

175 ep learning can predict enhancing lesions on MRI scans obtained without the use of contrast material.

176 We applied a computational model to the MRI scan of patients to simulate this progressive networ

177 MRI scans of 130 consecutive patients meeting modified B

178 pelvic and lower limb muscle MRI scans of 269 symptomatic individuals and 19 non-pene

179 High-resolution T(1)-weighted structural MRI scans of 33 CHR-P and FEP subjects treated with anti

180 CT scans of 499 patients and MRI scans of 433 patients were analyzed (age 59 +/- 10 y

181 We compared two independent LV atlases using MRI scans of 4547 UK Biobank participants: (i) a volume

182 utational models reconstructed from clinical MRI scans of fibrotic patient atria to explore the feasi

183 a deep neural network model trained on brain MRI scans of healthy people to predict "healthy" brain a

184 Serial MRI scans of hMSC transplants in arthritic joints of rec

185 ing characteristics of inflammation on brain MRI scans of inflammatory NTZ-PML patients.

186 We performed a cross-sectional audit of MRI scans of lumbar spine (L-spine) and sacroiliac (SI)

187 Lower limb MRI scans of patients with LGMD2C-2F, ranging from sever

188 s of clinical disease onset and studied with MRI scans of the brain and spinal cord at study entry (b

189 rmed dissections, histological sections, and MRI scans of the closest living relatives of tetrapods:

190 e of endocranial globularity from structural MRI scans of thousands of modern humans and study the ef

191 stmortem in situ magnetic resonance imaging (MRI) scans of 95 subjects with MS to correlate thalamic

192 occasionally on magnetic resonance imaging (MRI) scans of the elderly, and this type of striatum is

193 ed to structural Magnetic Resonance Imaging (MRI) scans of twenty social network site (SNS) users wit

194 ) subjects underwent a multi-shell diffusion MRI scan on a Siemens 3T scanner.

195 = 18) dose of ondansetron and placebo before MRI scanning on separate days.

196 ized them in detail clinically, and obtained MRI scans on admission and daily thereafter while coma p

197 rom the PREVENT-Dementia programme underwent MRI scans on two separate occasions (mean interval 735 d

198 We collected high-resolution MRI scans on young adult recreational marijuana users an

199 ffusion-weighted magnetic resonance imaging (MRI) scanning on the same 3T scanner, and behavioral/cog

200 comorbid disease, an inability to undergo an MRI scan, or had a history of splenectomy.

201 of 74 MOG-IgG positive children with serial MRI scans over a median of 5 years from presentation.

202 Patients with (1) an initial MRI scan performed within 2 weeks of SRSE onset, (2) a s

203 to treatment allocation reviewed brain CT or MRI scans performed before randomisation to confirm part

204 Of the 804 screening MRI scans performed on the screening cohort, 691 (86%) w

205 participants had magnetic resonance imaging (MRI) scans, positron emission tomography (PET) scans wit

206 went structural and resting-state functional MRI scans pretutoring.

207 logical diagnostic methods (X-ray, CT scans, MRI scans) provide high precision monitoring of articula

208 ent nasogastric intubation before a baseline MRI scan, received 400 mL of Resource Energy (Nestle) as

209 gnosis of renal transplant status for any DW-MRI scans, regardless of the geographical differences an

210 cal MS white matter lesions on the patient's MRI scan remains the most influential prognostic investi

211 cell lung cancer underwent 2-5 thoracic PET/MRI scan-rescan examinations within 22 d.

212 tic scarring an order of magnitude below the MRI scan resolution.

213 MRI scans revealed microcephaly-associated cortical and

214 The MRI scans revealed the intrathoracic and subcutan masses

215 Analysis of structural brain MRI scans showed a dose-dependent change in the ratio of

216 Initial MRI scans showed abnormal findings in 15 of 38 (39.5%) p

217 Serial MRI scans showed evidence of decreasing brain volume in

218 hanges with 1638 ante-mortem volumetric head MRI scans spanning 1.0-16.8 years of disease duration pr

219 ting the inclusion criteria, with 816 usable MRI scans (spanning 1.0-11.2 years of the disease) avail

220 uroimaging reward paradigm during functional MRI scanning, structural scanning, and completed psychom

221 During subsequent MRI scanning, subjects saw stationary views of the envir

222 They underwent baseline and postprandial MRI scans, symptom questionnaires, and blood sampling fo

223 Three structural MRI scans (T(2)-T(4)) for each participant (subgroup, n=

224 rogram, investigators interpreted a baseline MRI scan taken before treatment to establish whether the

225 T(1) mapping is an MRI scan that measures the proton spin-lattice relaxatio

226 The pipeline relies on a volumetric MRI scan that serves as undistorted reference, and on an

227 ad injury model of TBI in mice, we showed by MRI scans that TBI caused substantial degeneration at th

228 l on T2-weighted magnetic resonance imaging (MRI) scans that most commonly reflect small vessel cereb

229 We show, by using ultrahigh-field MRI scanning, that in addition to anterior cingulate cor

230 gadolinium-enhancing lesions per T1-weighted MRI scan, the annualized rate of lesions on T2-weighted

231 On the T1-weighted MRI scans, the GM fraction of the brain stem was reduced

232 per T1-weighted magnetic resonance imaging (MRI) scan, the annualized rate of new or enlarging lesio

233 and a fluoro-deoxy-glucose-PET/MRI (FDG-PET/MRI) scan, the patient suffered from progressive dopamin

234 dissemination in space, change the timing of MRI scanning to show dissemination in time, and increase

235 Each underwent MRI scanning two to six times between ages 12 and 24 and

236 SCT images were generated from MRI scans using a commercially available deep learning-b

237 ion defects and were compared with noble gas MRI scans using the Dice similarity coefficient (DSC).

238 entilation maps were compared with noble gas MRI scans using the Pearson correlation coefficient (r)

239 c measurements derived from brain structural MRI scans, using genome-wide SNP data from 1,320 unrelat

240 One MRI scan was obtained for each mouse to confirm tumor lo

241 MRI scanning was performed 1 week before and at least 3

242 MRI scanning was performed on all monkeys both at baseli

243 PET/MRI scanning was repeated in 4 of these subjects to eval

244 dinal conventional T2- and T1-weighted brain MRI scans, we measured the relative amount of chronic le

245 myelin-sensitive magnetization transfer (MT) MRI scans, we show that this developmental period is cha

246 reconstructed from late gadolinium-enhanced MRI scans, we simulated channelrhodopsin-2 (ChR2) expres

247 Structural MRI scans were acquired at baseline and at 1-2 follow-up

248 Therefore, whole-brain MRI scans were acquired from 31 neurologically-healthy p

249 A total of 2,362 3T brain MRI scans were acquired from 469 subjects.

250 High-resolution 3-Tesla T1-weighted MRI scans were acquired in 151 youths (75 anxious, 76 HV

251 MRI scans were acquired in vivo from two nonhuman primat

252 METHOD: Structural and diffusion MRI scans were acquired on a 3-T system from 26 chronic

253 MRI scans were also performed in 51 patients with brain

254 The 7-T MRI scans were analyzed at baseline, by physicians blind

255 s were blinded to the symptomatic status and MRI scans were analyzed for the degree of stenosis, plaq

256 iagnostic performance of sCT and T1-weighted MRI scans were analyzed using generalized estimating equ

257 Brain MRI scans were anonymised and scored on the criteria by

258 All MRI scans were centrally analyzed; stiffness, proton den

259 MRI scans were collected during the spring and summer of

260 MRI scans were collected from 240 chimpanzees, including

261 Two functional MRI scans were collected from 72 war veterans with and w

262 Before and after treatment MRI scans were collected in 32 participants for the dulo

263 T1-weighted and resting-state functional MRI scans were collected on a 3T Siemens scanner, in add

264 PET/MRI scans were compared with the template biopsy results

265 The tumors of 63 patients (56 + 7) in 627 MRI scans were digitized, including 34 grade 2 gliomas w

266 The MRI scans were evaluated by two radiologists.

267 35 MRI scans were included from 14 subjects.

268 otal of 386 patients (91%) with adequate LGE-MRI scans were included in the study.

269 A total of 3247 fetal MRI scans were included, with 2784 (86%) obtained at 1.5

270 and (3) a minimum duration of 1 week between MRI scans were included.

271 Whole-body (18)F-FDG PET/MRI scans were obtained for 12 patients after PET/CT sca

272 T1-weighted anatomical MRI scans were obtained from 56 veterans (4 women, 52 me

273 Structural MRI scans were obtained from 62 individuals with 22q11.2

274 Four orbital MRI scans were obtained from different head positions, i

275 Baseline brain (18)F-FDG PET and MRI scans were obtained in 33 children from Pediatric Br

276 High-resolution, surface coil MRI scans were obtained in multiple, contiguous, quasico

277 DW-MRI scans were performed before CRT, during the third we

278 MRI scans were performed preinjection, and at 1, 2, and

279 MRI scans were performed preoperatively and CT scans pos

280 Ex-vivo MRI scans were performed two days after the rats were sa

281 developmental patterns on diffusion-weighted MRI scans were quantified in children aged 0 to 6 years.

282 Breast MRI scans were read by a radiologist.

283 Baseline and 18-month MRI scans were registered, and brain, hippocampal, and v

284 The MRI scans were reviewed systematically for cortical abno

285 e areas in four cases with available in vivo MRI scans were sampled for histopathological verificatio

286 0 to 3 according to severity of the lesions, MRI scans were scored independently by 2 expert readers

287 Activation maps from the task-functional MRI scans were used for target selection and neuro-navig

288 The MRI scans were visually scored for degree of leukoaraios

289 graphy (PET) and magnetic resonance imaging (MRI) scans were acquired from 42 OA (21 Pittsburg compou

290 orrhage or surrogate haemorrhagic lesions on MRI scans, whereas later DOAC-administration initiation

291 Four patients had functional MRI scans, which correlated with visual response or abse

292 ent CD and 13 healthy participants underwent MRI scanning while performing a task that requires the u

293 ent a 120-min dynamic (18)F-JNJ-64413739 PET/MRI scan with arterial blood sampling to determine the a

294 , "bottle"), was performed during functional MRI scanning with 118 patients with panic disorder (comp

295 een the introduction of quantitative dynamic MRI scanning with contrast agents that are sensitive to

296 g pipeline detected 11 key features on brain MRI scans with 89% accuracy (sensitivity, 81%; specifici

297 th 31 healthy controls using high-resolution MRI scans with an ROI approach focusing on the basal gan

298 tive results required additional, subsequent MRI scans with anesthesia.

299 ns was a frequent incidental finding on knee MRI scans, with an increased prevalence in youth competi

300 d within 2 weeks of SRSE onset, (2) a second MRI scan within 6 months of SRSE resolution, and (3) a m