ライフサイエンスコーパス: first-pass

1 ately 80% of the insulin is extracted during first pass.

2 d glucose metabolism as evaluated by dynamic first-pass (18)F-FDG PET and by proliferation and endoth

3 Tumor blood flow quantified by dynamic first-pass (18)F-FDG PET/CT is significantly associated

4 prostate cancer confirms the utility of the first-pass 18F-FDG blood flow analysis in tumor diagnosi

5 was that patients treated with aspiration as first pass achieve inferior outcomes compared with those

6 fast, low-sensitivity weighted keyword-based first pass algorithm to cast a wide net to gather an ini

7 nterface was successfully used to complete a first-pass alignment on a large-scale GCxGC metabolomics

8 sentative and highly-annotated sequences for first-pass analyses will be essential to deal with the i

9 First-pass analyses with BR55, BR38, and BR1 revealed si

10 re made with only 2 volume scans using a new first-pass analysis (FPA) technique and with 20 volume s

11 Purpose To retrospectively validate a first-pass analysis (FPA) technique that combines comput

12 First-pass analysis with BR1, BR38, and BR55 showed simi

13 270 patients to treatment: 134 to aspiration first pass and 136 to stent retriever first line.

14 obutamine followed by contrast-enhanced MRI (first pass and delayed imaging) after a bolus infusion o

15 he specificity of the combined effect of the first pass and immunotargeting.

16 respectively, are diagnosed by using dynamic first-pass and delayed contrast enhancement.

17 icrovascular obstruction and infarct size by first-pass and delayed contrast-enhanced magnetic resona

18 aging to arterial access, arterial access to first pass, and the composite door to first pass time.

19 (191m)Ir first-pass angiograms were obtained at baseline, after t

20 It is possible to use (191m)Ir first-pass angiography to evaluate rapid dynamic changes

21 a genomic context; (3) perform customizable first-pass annotation of the data; and (4) present the d

22 enzymes that were incompletely annotated in first-pass annotation of the parasite genome.

23 d, there is an increasing need for automated first-pass annotation which allows timely access to impo

24 onsidered that an EC was present if: (1) the first pass around the PV antrum did not produce PV isola

25 =6) of MSCs arrest and interrupt flow during first pass at the precapillary level, resulting in decre

26 First-pass attempts to explain the glutamate-elicited cu

27 The program, should be useful for first-pass automatic classification of repeats in newly

28 ypically >85%) so that they could be used in first-pass biological assays without further purificatio

29 Pulmonary blood flow (PBF), first-pass bolus kinetic parameters, and biventricular m

30 tary glutamate is extensively metabolized in first pass by the intestine.

31 odopa equivalent daily dose (LEDD), deriving first-pass candidate protein biomarkers based on p-value

32 CT (11% +/- 6) correlated well with those at first-pass cardiac MR imaging (7% +/- 4, R(2) = 0.72).

33 Quantitative first-pass cardiovascular magnetic resonance (CMR) perfu

34 ratio but unlike insulin experiences little first pass clearance by the liver.

35 Oral (R)-7 had good absorption and high first pass clearance in preclinical species.

36 s to be more easily studied in a model where first pass clearance is a significant obstacle.

37 Budesonide has a high hepatic first-pass clearance and metabolites virtually devoid of

38 ntration-time profiles and approximately 50% first-pass clearance by the liver.

39 ossible cellular distribution, by minimizing first-pass clearance in the lungs.

40 rior mesenteric artery, indicating increased first-pass clearance of [14C]lactate by the splanchnic o

41 in LTRvc was determined from the splanchnic first-pass clearance of [14C]lactate infused into the su

42 hort half-life that was attributable to high first-pass clearance.

43 de first an accessible technical overview of first-pass CMR perfusion imaging and contrast it with ot

44 as of method development, include developing first-pass coarse-grained models guided by experimental

45 on is the most effective way to achieve fast first-pass complete reperfusion and should thus be used.

46 However, if these regions demonstrate first pass contrast hypoenhancement, they are associated

47 ing the left ventricular myocardium during a first-pass contrast bolus in the presence and absence of

48 First-pass contrast MRI was consistent with perfusion of

49 First-pass contrast-enhanced MRI calf muscle perfusion a

50 uantitative cardiac magnetic resonance (CMR) first-pass contrast-enhanced perfusion imaging to qualit

51 ior descending (LAD) artery stenosis, during first-pass, contrast-enhanced helical MDCT.

52 validated extended gamma variate modeling of first-pass cortical TACs.

53 First-pass CT images and contrast-enhanced cardiovascula

54 Dynamic first-pass CT perfusion was performed in primary (n=25)

55 of a typical batch of 240 samples (including first-pass data analysis) can be accomplished within 48

56 dehydrogenase, the enzyme that brings about first-pass degradation of fluorouracil.

57 tting was used to derive the areas under the first pass dilution curves.

58 , we show that physiological PK modelling of first-pass drug absorption, metabolism and excretion in

59 e is an increasingly well-recognized site of first-pass drug metabolism.

60 nt-echo sequences can be used to monitor the first-pass dynamics of contrast media, thus defining sel

61 We aimed for a high first pass effect, limiting cytokine induction systemica

62 Low solubility, poor permeability, and high first-pass effect of furosemide may also have produced t

63 studied IDN6556, a caspase inhibitor with a first-pass effect, in a large animal (pig) intraportal m

64 e-dependent changes in tacrolimus intestinal first-pass effect, metabolism, or distribution play a ro

65 sorption and biodistribution via the uterine first-pass effect.

66 able bioavailability, intestinal and hepatic first-pass effects, and dermatological reactions.

67 ct limited GI permeability and possibly high first-pass effects.

68 (2.7 ejection fraction units, p < 0.01), and first-pass ejection fractions were much lower (8.0 eject

69 ation of effects of the properties on Fa and first-pass elimination (Fg and Fh).

70 (ie., hepatic extraction, fraction escaping first-pass elimination in the liver, and hepatic clearan

71 Glycine dramatically increased the first-pass elimination of ethanol in vivo but had no eff

72 ty with typically opposing effects on Fa and first-pass elimination.

73 mages (HYPER), or (3) both absence of normal first-pass enhancement and delayed hyperenhancement (COM

74 tively after calculating the up-slope of the first-pass enhancement curve and dividing the value obta

75 Purified progenitors were used to provide a first-pass expression profile of various haematopoiesis-

76 ing advantage of the early kinetics and high first-pass extraction by the myocardium of this radiotra

77 The goals of this study were to measure the first-pass extraction fraction (EF) of 99mTc-tetrofosmin

78 beled myocardial perfusion agent with a high first-pass extraction fraction and delayed redistributio

79 In addition, the first-pass extraction of (11)C-laniquidar was low.

80 unction and several models for the nonlinear first-pass extraction of (82)Rb by myocardium have been

81 Hepatic insulin first-pass extraction was two-thirds lower in AAs versus

82 TOF and first-pass ferumoxytol-enhanced MR angiography were perf

83 First-pass (FP) radionuclide ventriculography (RVG) and

84 Findings were correlated with first-pass gadodiamide contrast magnetic resonance imagi

85 tion of gadolinium chelate and evaluation of first-pass gadolinium chelate perfusion by using highly

86 ging was performed in 29 patients by using a first-pass gadopentetate dimeglumine T2*-weighted echo-p

87 e sequence length polymorphism markers for a first-pass genome scan in crosses involving C32 and SJD

88 BPA was absorbed and underwent an extensive first-pass glucuronidation either in the gut (44%) or in

89 ccurred in 48 (36%) of 134 in the aspiration first pass group, and 46 (34%) of 135 in the stent retri

90 whether patients treated with aspiration as first pass have non-inferior functional outcomes to thos

91 te usual postabsorptive rates and that avoid first-pass hepatic clearance.

92 al but not transdermal ET increased CRP by a first-pass hepatic effect.

93 [1,3,2]-dioxaphosphonane (MB07811) undergoes first-pass hepatic extraction and that cleavage of the p

94 t female mice lacking GLUT8 exhibit impaired first-pass hepatic fructose metabolism, suggesting that

95 To address the second question, we measured first-pass hepatic insulin clearance in two recipients o

96 lin into the peripheral circulation bypasses first-pass hepatic insulin clearance, which leads to the

97 ing the portal insulin dose in proportion to first-pass hepatic insulin extraction.

98 desonide, a corticosteroid with an extensive first-pass hepatic metabolism appeared promising for the

99 imal systemic corticosteroid activity due to first-pass hepatic metabolism.

100 estrogen-induced CRP elevation is related to first-pass hepatic metabolism.

101 ow systemic availability as a result of high first-pass hepatic metabolism.

102 ntrast-enhanced images were defined as COMB (first pass hypoenhancement) or HYPER (normal first pass

103 The first pass identifies putative binding sites and compens

104 Visual comparisons with first-pass images were also excellent.

105 Although magnetic resonance first-pass imaging (MRFP) has potential advantages in ph

106 ionuclide therapy dosimetry imaging, cardiac first-pass imaging, and positron coincidence imaging and

107 clide therapy dosimetry imaging, and cardiac first-pass imaging.

108 than that with gadopentetate dimeglumine at first-pass imaging.

109 ake (0.04 vs 0.02, respectively; P = .03) at first pass in mCA IX-positive versus mCA IX-negative tum

110 We investigated this first pass in patients with diffuse liver disease and in

111 The proportion of patients with successful first-pass intubation did not differ significantly betwe

112 s the proportion of patients with successful first-pass intubation.

113 In the first pass, it identifies the local similarities between

114 longitudinally assessed in mice by means of first-pass kinetics of nontargeted microbubbles (BR1, BR

115 intra-hepatocyte hypnozoites after efficient first pass liver uptake and metabolism.

116 s study evaluated the suitability of current first-pass magnetic resonance approaches for evaluating

117 MALDI-MS is used in a first pass manner to detect derivatized phosphopeptides,

118 Using our first-pass marker panel in bulked-segregant analysis, we

119 measurements of myocardial perfusion during first-pass MDCT imaging in a canine model of LAD stenosi

120 n sequencing and culture-based techniques of first-pass meconium, which forms in the intestine prior

121 ted chemical that escapes from presystemic ("first-pass") metabolic processes and eventually enters s

122 azole, 8.0% of the tacrolimus dose underwent first pass metabolism (E(H)), whereas in the presence of

123 okinetics are remarkable for almost complete first pass metabolism after oral administration, resulti

124 dation in gastrointestinal tract and hepatic first pass metabolism and also limits off-target adverse

125 )), whereas in the presence of ketoconazole, first pass metabolism was 6.2% (P=0.01).

126 Based on this difference in first pass metabolism, an increase of 2% in bioavailabil

127 aempferol to cultured hepatocytes, mimicking first pass metabolism, greatly diminished the inhibitory

128 r deliver drugs systemically without hepatic first pass metabolism.

129 and extensive distal binding in all tissues, first-pass metabolism and activation of NNK in the airwa

130 Intranasal administration avoids first-pass metabolism and provides a reproducible, easil

131 There is debate regarding the site of first-pass metabolism and specifically whether the stoma

132 rful new tool for preclinical predictions of first-pass metabolism for new drugs in development.

133 thanol from reaching the liver by activating first-pass metabolism in the stomach.

134 First-pass metabolism is a common cause of incomplete an

135 aining monooxygenase enzymes involved in the first-pass metabolism of drugs and foreign chemicals in

136 The effect of glycine on the first-pass metabolism of ethanol was also examined in vi

137 The first-pass metabolism of foreign compounds in the lung i

138 tients with TIPS, there was a marked loss in first-pass metabolism of midazolam as a result of dimini

139 intestinal P450 expression and capacity for first-pass metabolism of oral drugs.

140 en et al. show in this issue of the JCI that first-pass metabolism of the anticancer agent docetaxel

141 and poor oral bioavailability, due to rapid first-pass metabolism of the phenol moieties.

142 9 was not active orally, likely due to rapid first-pass metabolism of the phenol moiety.

143 y influencing either the absorption phase or first-pass metabolism of TVR.

144 henols undergo extensive modification during first-pass metabolism so that the forms reaching the blo

145 their poor absorption, poor solubility, high first-pass metabolism, and efficient efflux by P-glycopr

146 Astemizole undergoes extensive first-pass metabolism, and its dominant metabolite, desm

147 ug delivery systems as films not only avoids first-pass metabolism, but also provides pain-free admin

148 substrates that undergo extensive intestinal first-pass metabolism.

149 , by inhibiting intestinal (but not hepatic) first-pass metabolism.

150 f verapamil, a drug that undergoes extensive first-pass metabolism.

151 ufficient alcohol to account for the bulk of first-pass metabolism.

152 sm in keeping with its inhibition of in vivo first-pass metabolism.

153 ministered alcohol is incomplete, indicating first-pass metabolism.

154 ch has the metabolic capacity to account for first-pass metabolism.

155 ain barrier-permeant, but suffers from rapid first-pass metabolism.

156 pectrometry (FIE-MS) is finding utility as a first-pass metabolite fingerprinting tool in many resear

157 pharmacokinetic profile of THC and its main first-pass metabolites (11-hydroxy-THC and 11-nor-9-carb

158 correlation with those obtained by using the first-pass method (Pearson r = 0.80) and gamma variate a

159 F(V) was also calculated by using the first-pass method and gamma variate analysis for model v

160 ulated from this short dynamic image using a first-pass model.

161 ial perfusion reserve can be quantified with first-pass MR imaging.

162 as a percentage of left ventricular mass) at first-pass multidetector CT (11% +/- 6) correlated well

163 ed and normal myocardium were comparable for first-pass multidetector CT and cardiac MR imaging, card

164 First-pass multidetector CT and MR imaging demonstrated

165 Arrhythmia-insensitive, first-pass, multisection, T1-weighted MR imaging with co

166 netic resonance (cine, T2* iron, vasodilator first pass myocardial perfusion, and late gadolinium enh

167 racer uptake, K1 (K1 (mL/g/min) = MBF.E; E = first-pass myocardial extraction of 1-11C-acetate) and w

168 values were converted to MBF values using a first-pass myocardial extraction/flow relationship measu

169 ronary MR angiography performed as part of a first-pass myocardial perfusion and viability assessment

170 First-pass myocardial perfusion cardiovascular magnetic

171 imaging for assessment of cardiac function, first-pass myocardial perfusion imaging at rest and duri

172 a "notched" section profile for T1-weighted first-pass myocardial perfusion magnetic resonance (MR)

173 First-pass myocardial perfusion MR imaging was performed

174 First-pass myocardial signal intensity-time curves were

175 We postulated that the hepatic first pass of a bolus of an ultrasound contrast agent in

176 ortical layers and thus are extracted in the first pass of activity through the anteroventral tempora

177 Multidetector CT was performed during the first pass of contrast material to assess myocardial per

178 e diversity of the sequences detected in the first pass of database screening and the ability of a gi

179 CMR perfusion imaging during the first pass of gadolinium-based contrast agents has under

180 s was observed in images acquired during the first pass of gadopentetate dimeglumine in coronary arte

181 lood (18)F-FDG activity, consistent with the first pass of labeled cells in the systemic circulation.

182 ves in 122 subjects, with correction for the first pass of the initial bolus.

183 t stratification to either direct aspiration first pass or stent retriever first line thrombectomy.

184 oscopy increases the frequency of successful first-pass orotracheal intubation compared with direct l

185 red with direct laryngoscopy did not improve first-pass orotracheal intubation rates and was associat

186 29), time to peak (P = .008), upslope of the first-pass peak (P = .011), and late-phase washout slope

187 Time-signal intensity curves of first pass perfusion sequences were generated for each s

188 k-locker inversion recovery T1 mapping, rest first pass perfusion, and late gadolinium enhancement.

189 cardiac volumes, function, oxygenation, and first-pass perfusion (0.03 mmol/kg Gd-DTPA bolus) at str

190 mural extent of microvascular obstruction at first-pass perfusion (intraclass correlation coefficient

191 hypothesis that transcatheter intraarterial first-pass perfusion (TRIP) magnetic resonance (MR) imag

192 n = 7) and subacute (1 week, n = 6) resting first-pass perfusion and late gadolinium-enhanced cardio

193 Patients also underwent quantitative first-pass perfusion cardiac magnetic resonance to measu

194 First-pass perfusion images at rest were acquired in 3 s

195 Semi-quantitative evaluation of the first-pass perfusion images was completed to determine m

196 BOLD and first-pass perfusion images were acquired at rest and st

197 atial resolution of 1.5 x 1.2 x 5.0 mm3, and first-pass perfusion images were acquired for visual com

198 ased maximum signal intensity and upslope at first-pass perfusion imaging and reduced infarct size at

199 Cardiovascular magnetic resonance first-pass perfusion imaging was performed before and 5

200 First-pass perfusion imaging was performed during hypere

201 es before and after intravenous contrast and first-pass perfusion imaging were acquired, and assessed

202 ersistent decline in myocardial perfusion at first-pass perfusion imaging.

203 s been shown to reduce dark-rim artifacts in first-pass perfusion imaging.

204 d-enhancement magnetic resonance imaging and first-pass perfusion magnetic resonance imaging at rest

205 First-pass perfusion MR imaging was performed 1 hour and

206 First-pass perfusion MRI is a safe and accurate test for

207 oxide, producing remote vasodilation during first-pass perfusion of the opposite limb; (3) nitrite i

208 We applied BOLD imaging and first-pass perfusion techniques to: 1) examine the patho

209 Dynamic contrast-enhanced quantitative first-pass perfusion using magnetic resonance imaging en

210 MR imaging were used to assess LV function, first-pass perfusion, and delayed contrast enhancement i

211 Cardiac MR imaging consisted of cine, rest first-pass perfusion, and late gadolinium enhancement im

212 R protocol consisted of T2-weighted imaging, first-pass perfusion, cine function, delayed-enhancement

213 respectively), showing expected patterns of first-pass perfusion.

214 I (r = 0.88, slope = 0.79, s.e.e. = 6.0) and first-pass planar scintigraphy (r = 0.86, slope = 1.2, s

215 ed tRNA detection programs are used as fast, first-pass prefilters to identify candidate tRNAs, which

216 A lower rate of first-pass pulmonary vein isolation and a higher rate of

217 %; P=0.75), the study group displayed higher first-pass PVI (92% versus 73%; P<0.001), lower acute pu

218 vestigation examined the prognostic power of first-pass radionuclide angiocardiography (RNA) ejection

219 ombosis was discovered accidentally from the first-pass radionuclide angiogram that is routinely perf

220 First-pass radionuclide angiographic (FPRNA) analysis, u

221 Conventional gated first-pass radionuclide angiography (FP) and planar gate

222 including 45 biplane and 9 single plane) and first-pass radionuclide angiography (n = 38) in patients

223 Good correlation was also observed between first-pass radionuclide angiography and both contrast ve

224 roducible and correlate well with results of first-pass radionuclide angiography but are closer in va

225 sion computed tomography (SPECT) imaging and first-pass radionuclide angiography during a single exer

226 Ninety-two patients underwent first-pass radionuclide angiography using a multicrystal

227 The rest study was combined with first-pass radionuclide angiography using the multicryst

228 asive tests--the Duke treadmill score (DTS), first-pass radionuclide angiography with calculation of

229 ew demonstrates the importance of performing first-pass radionuclide cardioangiography routinely befo

230 right heart hemodynamics, gas exchange, and first-pass radionuclide ventriculography at rest and wit

231 Hemodynamic monitoring and first-pass radionuclide ventriculography were performed

232 ing with invasive hemodynamic monitoring and first-pass radionuclide ventriculography.

233 ing (primary sensory receiving areas) mature first, passing relatively stable outputs about sensorimo

234 As a first-pass scan for novel imprinted genes, we performed

235 consisting of an early 2-min uptake scan-or first-pass scan-and 3 sequential 15-min late 18F-FDG upt

236 tabolite fingerprinting is widely used as a 'first pass' screen for compositional differences, where

237 h for post-hoc normalization of quantitative first-pass screening data in the absence of explicit in-

238 rchaeological and geological field work as a first-pass screening device which obviates the necessity

239 Although the ABCA4 array remains a good first-pass screening option, the NGS platform is a time-

240 As a first-pass screening probe for forensic crime scenes, Ra

241 accuracy needed to limit false positives in first-pass screening.

242 in organizing sequencing data and to provide first-pass sequence analysis in an automated fashion.

243 h parameters to provide the most informative first-pass sequence analysis possible.

244 protein data base searching, and (4) limited first-pass sequence annotation, making it difficult to d

245 5.9% in nondiabetic patients, P < 0.001) and first-pass SGU (4.7+/-1.7 vs. 26.5+/-5.1% in nondiabetic

246 0.94, P < 0.01 for nondiabetic patients) and first-pass SGU (r = 0.87, P < 0.05 for NIDDM patients; r

247 For OG-CLAMP, SGU was calculated as first-pass SGU by subtracting the integrated decrease in

248 g the OG-CLAMP is well-correlated to SGU and first-pass SGU during HVC in NIDDM.

249 LAMP technique in NIDDM by comparing SGU and first-pass SGU during HVC with SGU during the OG-CLAMP e

250 e performed with a 22-gauge needle after the first pass showed minimal or no aspirate.

251 first pass hypoenhancement) or HYPER (normal first pass signal enhancement).

252 t-pass signal enhancement (HYPO), (2) normal first pass signal followed by hyperenhanced signal on de

253 rdial infarction (MI): (1) absence of normal first-pass signal enhancement (HYPO), (2) normal first p

254 d endogenously produced glucose and a higher first-pass splanchnic glucose uptake (SGU).

255 erted to urea, with kinetics indicative of a first-pass splanchnic phenomenon.

256 om an adenoma had already been detected with first-pass standard forward-viewing colonoscopy; none of

257 pid manner and also were able to provide the first-pass structure evidence of a newly discovered natu

258 were further investigated using correlative first-pass studies.

259 Intraosseous had significantly higher first-pass success rates and faster placement compared w

260 First-pass success was significantly higher for intraoss

261 ent retriever (SR) or a direct aspiration at first pass technique at 7 U.S. centers between June 2013

262 chieved faster with the direct aspiration at first pass technique than in SR.

263 ategies, particularly a direct aspiration as first pass technique, while promising, have not been rig

264 myocytes, and blood cell progenitors without first passing the cells through a pluripotent state.

265 A direct aspiration as first pass thrombectomy conferred non-inferior functiona

266 ell-dependent, humoral immune responses must first pass through germinal centers (GCs) within the cor

267 lexes to read through this region during the first pass through net.

268 ed insertion alleles for 1976 genes during a first pass through the genome including, unexpectedly, a

269 For water to evaporate, it must first pass through the tight lipid-lipid barrier.

270 ompatible with consciousness, the brain must first pass through these hubs in an orderly fashion.

271 in cells treated with aqueous humor that was first passed through a 3-kDa or a 30-kDa, but not a 100-

272 leading to the 1 T benchtop NMR spectrometer first passes through a fixed bed with a radical matrix p

273 The time of a stochastic process first passing through a boundary is important to many di

274 ng through a double-gated "check-in" system, first passing through a pore on the hexamer surface and

275 Overall, 3% patients achieved a door to first pass time <=60 minutes.

276 s were more likely to achieve faster door to first pass time ( P<0.001).

277 cant linear time trend was noted for door to first pass time (quarter 4 year 2014 median time, 134.5

278 ion number, 16 [IQR, 10-27]), median door to first pass time was 130 minutes (IQR, 101-170 minutes),

279 R, 68-126 minutes), and arterial puncture to first pass time was 18 minutes (IQR, 4-31 minutes).

280 ume was associated with a 3% shorter door to first pass time, up to a case volume of 40 per year ( P<

281 mellitus were associated with longer door to first pass time.

282 ess to first pass, and the composite door to first pass time.

283 The first-pass time course of signal enhancement was measure

284 Parameters of a first-pass time intensity curve were calculated for quan

285 for information extraction can form a useful first-pass tool for assisting human annotation and maint

286 limit peak dead-time losses during the bolus first-pass transit.

287 rrival in the emergency department (door) to first pass (treatment initiation) in patients receiving

288 These results suggest that the first-pass uptake of 18F-FDG may provide an estimate of

289 Hypoxic first-pass uptake was 78.2% +/- 7.2% for (64)Cu-ATS and

290 ent entry to the circulation, because of its first-pass urinary excretion.

291 ia Screening Studies project, men provided a first-pass urine specimen, which they returned by post f

292 s, 55 SNPs were successfully analyzed in the first pass using this assay format and all 181 genotypes

293 monstrated better agreement with independent first-pass values (r = 0.90) than did manual measurement

294 ion fraction from tomography correlated with first-pass values with r = 0.82, and end diastolic and e

295 olic volumes from tomography correlated with first-pass values with r = 0.85 and r = 0.91, respective

296 resonance (CMR) included gadobutrol-enhanced first-pass vasodilator stress and rest perfusion followe

297 c-sestamibi SPECT (gated SPECT, n = 88) with first-pass ventriculography.

298 k yet informative comparative analyses and a first pass visualization of both annotation and analysis

299 retriever group, showing that aspiration as first pass was non-inferior to stent retriever first lin

300 , the small amount of dietary lysine used in first pass was oxidized almost entirely.