ライフサイエンスコーパス: supine

1 n images from patients while standing versus supine.

2 CLS-instrumented eye toward the pillow), and supine.

3 of 44% when patients moved from standing to supine.

4 was deeper superiorly while the subject was supine.

5 41 +/- 0.26 to 0.57 +/- 0.30%; P = 0.004) in supine.

6 MSNA (microneurography) were recorded lying supine.

7 We graphed results supine, 1-minute post-tilt-up, mid-tilt, and pre-tilt-do

8 Scanning was performed with patients in the supine (120 kVp) and prone (100 kVp) positions, with oth

9 duction of 11.1% from sitting (16.73 mum) to supine (14.88 mum; range, 8.76-20.8 mum) positioning (P

10 ompared to lying supine (seated, 4 +/- 1 vs. supine, 15 +/- 2 mmHg).

11 did not cause progressive elevations in ICP (supine, 15 +/- 2 vs. 24 h head-down tilt, 15 +/- 4 mmHg)

12 es in these patients were 15.8 +/- 1.0 mm Hg supine, 15.0 +/- 3.6 mm Hg sitting, and 7.7 +/- 2.3 mm H

13 /- 8.7 pg ml(-1), P < 0.01) and aldosterone (supine: 16.7 +/- 14.1 vs. 7.7 +/- 6.8 ng ml(-1), P = 0.0

14 - 3 vs. microgravity, 4 +/- 2 mmHg) and ICP (supine, 17 +/- 2 vs. microgravity, 13 +/- 2 mmHg) were r

15 ry) between IOP and ICP was 12.3 +/- 2.2 for supine, 19.8 +/- 4.6 for sitting, and 6.6 +/- 2.5 for HD

16 Norepinephrine was normal supine (203.6+/-112.7) but orthostatic increment of 33.5

17 significantly greater during EARLY than PRE (supine: 25 +/- 8 vs. 14 +/- 8 bursts min(-1), 60 deg til

18 a.u.(-1) min(-1); P < 0.01), and both renin (supine: 27.9 +/- 6.2 vs. 14.2 +/- 8.7 pg ml(-1), P < 0.0

19 the supine posture, central venous pressure (supine, 7 +/- 3 vs. microgravity, 4 +/- 2 mmHg) and ICP

20 greater after hydrochlorothiazide treatment (supine, 72 +/- 18 post vs. 64 +/- 15 bursts (100 beats)(

21 ial blood pressures were 90.1 +/- 18.5 mm Hg supine, 79.1 +/- 25.7 mm Hg sitting, and 45.8 +/- 11.6 m

22 n transitioning from a sitting (9.89 mum) to supine (8.4 mum; range, 6.92-10.7 mum) position (P = .02

23 ed of having ingested drug packets underwent supine abdominal radiography and low-dose CT.

24 y method (polyp coordinates from the initial supine acquisition were used to identify polyp location

25 ts and the registration error when prone and supine acquisitions in the same study were compared (16.

26 polyp coordinates from the initial prone and supine acquisitions were used to identify the expected p

27 n on those for follow-up prone and follow-up supine acquisitions).

28 ated how the patient's position, standing or supine, affects measurements.

29 h positional OSAS (apnea-hypopnea index [AHI]supine:AHInon-supine >/= 2) were prospectively enrolled.

30 hour average TLCPD on earth-assuming 8 hours supine and 16 hours upright-was estimated to be 17.3mmHg

31 mpathetic nerve activity (mean+/-SD, 43+/-15 supine and 60+/-21 bursts/min at 60 degrees head-up tilt

32 radiographic evaluation was performed with a supine and a Fisk radiograph.

33 t renin and aldosterone were measured during supine and a graded head-up tilt (HUT; 5 min 30 degrees

34 assessments were performed at baseline while supine and during head-up tilt to 70 degrees for 10 minu

35 10.3%) patients who were positioned prone or supine and in 10 of 189 (5.3%) patients who were positio

36 patients who were positioned either prone or supine and in 20 of 189 (10.6%) patients who were positi

37 he increased-dose zone in 99% of women lying supine and in 82% of women lying prone.

38 patients who were positioned either prone or supine and in eight of 189 (4.2%) patients who were posi

39 substantial agreement for overall as well as supine and non-supine positions across varying clinical

40 d at least 20 mins of recording time in both supine and non-supine positions.

41 m)Tc-tetrofosmin at peak stress, followed by supine and prone imaging on an HE-SPECT camera.

42 CT images were repeated in supine and prone positioning.

43 pose of studying a wide range of PBF values, supine and prone positions and various positive end-expi

44 higher in rats ventilated prone rather than supine and regional reduction in p38 and c-jun N-termina

45 ICP were recorded simultaneously in both the supine and seated positions with the order of positions

46 Repeatability and correlation between supine and sitting measurements of 4 ONH and 3 RNFL para

47 The correlation between supine and sitting ONH measurements was strong and range

48 -hour IOP curve at baseline, 6 and 12 weeks (supine and sitting position IOPs were recorded at 8 p.m.

49 ial artery was obtained by tonometry, in the supine and sitting positions before and after 4-12 month

50 chamber angles of the eyes were measured in supine and sitting positions by ultrasound biomicroscopy

51 OP was obtained using measurements from both supine and sitting positions, also yielding the highest

52 spiration (CSR) is believed to only occur in supine and sleeping conditions, and thus, CSR treatment

53 ers (272 matching tasks, 68 polyps, prone to supine and supine to prone coordinates), 223 (82%) polyp

54 resented supine CSR only, 82 (14%) presented supine and upright CSR, and 297 patients (52%) had norma

55 Both supine and upright MSNA became greater after hydrochloro

56 h nonpulsatile devices had markedly elevated supine and upright muscle sympathetic nerve activity (me

57 e predominant responses among individuals in supine and upright positions, respectively (P < .001).

58 LVAD patients compared with controls in both supine and upright postures.

59 art rate (HR), and MSNA were measured during supine and upright tilt (30 deg and 60 deg for 5 min eac

60 We performed supine and upright transthoracic echocardiography in 118

61 ery low levels of plasma norepinephrine both supine and upright, but in contrast to patients with CIP

62 ) into the common femoral artery in both the supine and upright-seated posture.

63 ere done while participants were seated (not supine) and did not include the first minute after stand

64 ng from standard imaging (prone) to surgery (supine) and may help clinicians evaluate for residual tu

65 positioning from imaging (prone) to surgery (supine) and to evaluate residual tumor immediately after

66 n the AHI and ODI was 0.97 overall, 0.94 for supine, and 0.96 for non-supine recording times (all p<0

67 while recording ICP and blood pressure while supine, and during simulated intracranial hypertension b

68 e lateral side-lying patient position versus supine, and in the posterior placental position versus a

69 Supine anterior-posterior chest radiographs of patients

70 While patients were supine, antishock trousers were deflated (control) or in

71 veral advantages have been proposed with the supine approach, including benefits for anaesthesia (car

72 is high and measurements between sitting and supine are highly correlated.

73 We studied healthy supine astronauts on Earth with electrocardiogram, non-i

74 We studied eight healthy, supine astronauts on Earth, who followed a simple protoc

75 ivity (MSNA) and haemodynamics were measured supine, at 30 deg and 60 deg upright tilt for 5 min each

76 rest and during incremental atrial pacing or supine bicycle ergometry.

77 agnetic resonance imaging at rest and during supine bicycle exercise before and after sildenafil.

78 atients (n = 39) underwent a symptom-limited supine bicycle exercise test with Doppler echocardiograp

79 e (>/=15 mm Hg at rest or >/=25 mm Hg during supine bicycle exercise) participated in the open-label

80 a dual sensor-tipped guidewire during rest, supine bicycle exercise, and adenosine-mediated hyperemi

81 0.7 cm(2)) and 38 controls, at rest, during supine bicycle exercise, and during hyperemia.

82 n of coronary pressure and flow during rest, supine bicycle exercise, and pharmacological vasodilatat

83 recruitment under conditions of exercise and supine body posture, but can be further modified by acti

84 Conclusion Intraoperative supine breast MR imaging, when performed in conjunction

85 promising clinical decision support tool for supine chest radiograph examinations in the clinical rou

86 Radiologists were blinded to the supine chest radiograph findings during CT interpretatio

87 nation of the aortic valve location on plain supine chest radiograph images, which can be used to eva

88 io to determine the aortic valve location on supine chest radiograph images.

89 position could be easily monitored on plain supine chest radiograph in the ICU.

90 .94) was achieved by additionally rating the supine chest radiograph reading score 1 as positive for

91 95% CI, 0.78-0.93) when considering only the supine chest radiograph reading score 2 as positive for

92 oducible localization of the aortic valve on supine chest radiograph.

93 o board-certified radiologists who evaluated supine chest radiographs according to side-separate read

94 Interpretation of lung opacities in ICU supine chest radiographs remains challenging.

95 Chest ultrasonography versus supine chest radiography for diagnosis of pneumothorax i

96 d higher prevalence of placing their infants supine compared with mothers receiving the control mobil

97 ture, with no significant change in the old (supine control: 4.2 +/- 1.3; supine L -NMMA: 3.4 +/- 0.8

98 ular conductance (DeltaLVCpeak ) in both the supine (control: 7.4 +/- 0.9; L -NMMA: 5.2 +/- 1.1 ml mi

99 +/- 13 years; 80% men), 195 (34%) presented supine CSR only, 82 (14%) presented supine and upright C

100 : 4.01; 95% CI: 1.54 to 10.46; p = 0.004 vs. supine CSR).

101 al colonic surfaces on images from prone and supine CT colonographic acquisitions was used to match p

102 ocation of polyps in corresponding prone and supine CT colonographic acquisitions.

103 cal assessment using standing radiograph and supine CT scan of the whole spine.

104 17 who had undergone at least two unenhanced supine CT scans of the chest and pulmonary function test

105 s and performed incremental exercise using a supine cycle ergometer.

106 2, peak test to exhaustion on a custom-built supine cycle ergometer.

107 d 2 consecutive exertions (Ex1, Ex2) using a supine cycle ergometer.

108 Supine cycle ergometry was performed at baseline (visit

109 Subjects performed supine-cycle maximal-effort cardiopulmonary exercise tes

110 microdialysis placement, subjects performed supine cycling with the experimental arm at heart level

111 atients, 184 were positioned either prone or supine depending on the most direct path to the lesion a

112 Measurements were both sitting and supine (diurnal) and supine only (nocturnal).

113 tic nerve activity (MSNA) were measured when supine, during 60 deg upright tilt for 45 min or until p

114 Supine E/e' ratio modestly but significantly correlated

115 Supine esophageal acid exposure before the index operati

116 e AHI and ODI based on ratios of overall/non-supine event/h >=1.4 (O/NS) and supine/non-supine event/

117 n-supine event/h >=1.4 (O/NS) and supine/non-supine event/h>=2.0 (S/NS).

118 ing IASD experienced greater improvements in supine exercise duration.

119 -type natriuretic peptide) assessment during supine exercise echocardiography (baseline and peak exer

120 med within 1 minute after patients performed supine exercise on an ergometer secured to the CT table.

121 right heart catheterization at rest, during supine exercise, and with acute saline loading in a pros

122 different head positions, including face up (supine), face down (prone on a massage pillow), flat on

123 tained while the patient was standing versus supine for primary and secondary curves.

124 r and 10 s or longer, and loss of stand from supine, four-stair climb, ambulation, full overhead reac

125 23.6% in the prone group versus 41.0% in the supine group (P<0.001), with a hazard ratio of 0.44 (95%

126 as 16.0% in the prone group and 32.8% in the supine group (P<0.001).

127 group, and 229 patients were assigned to the supine group.

128 of cardiac arrests, which was higher in the supine group.

129 SAS (apnea-hypopnea index [AHI]supine:AHInon-supine >/= 2) were prospectively enrolled.

130 egree of vertical deviation with upright and supine head position.

131 When supine, head tremor persisted in only 5/60 (8.3%) ET ver

132 Neurogenic orthostatic hypotension and supine hypertension are common manifestations of cardiov

133 nitive impairment in the short term, chronic supine hypertension can be associated with stroke and my

134 tatic hypotension and the long-term risks of supine hypertension treatment in each patient.

135 ds to focus on ascertaining a safe degree of supine hypertension when treating neurogenic orthostatic

136 stent neurogenic orthostatic hypotension and supine hypertension, clinicians need to balance, on the

137 stent neurogenic orthostatic hypotension and supine hypertension.

138 s being postural hypotension and paradoxical supine hypertension.

139 stent neurogenic orthostatic hypotension and supine hypertension; and the prevalence, scope, and ther

140 Mean sitting and supine ICPs were 12.5+/-6.8 mmHg and 12.8+/-5.1 mmHg, re

141 head tremor while upright, the prevalence of supine (ie, resting) head tremor was compared.

142 ation between the difference in standing and supine images from primary and secondary curves had an r

143 The correlation between primary standing and supine images had an r value of 0.899 (95% CI 0.860-0.92

144 All tumors were closer to the chest wall on supine images than on prone images.

145 tumor deformation metrics between prone and supine imaging were as follows: volume, 23.8% (range, -3

146 ees C water and completed two trials resting supine in a 28.5 +/- 0.4 degrees C environment.

147 Lying supine in a strong magnetic field, such as in magnetic r

148 s tested subdural and in vitro, simulating a supine infant with a ventricular-peritoneal shunt and co

149 Both treatments reduced diurnal sitting and supine IOP compared to baseline by 2.3-3.9 mm Hg (all P

150 The mean supine IOP for the Icare PRO and Tono-Pen were 18.4 +/-

151 Mean sitting and supine IOPs were 15.3+/-3.5 mmHg and 15.9+/-3.7 mmHg, re

152 era on patients in 2 positions (semiupright, supine) is routinely used to mitigate attenuation artifa

153 nge in the old (supine control: 4.2 +/- 1.3; supine L -NMMA: 3.4 +/- 0.8; upright-seated control: 4.5

154 ansversus abdominis and lumbar multifidus in supine lying using a novel exercise device (GravityFit).

155 Purpose To use intraoperative supine magnetic resonance (MR) imaging to quantify breas

156 tween the two strategies based on sitting or supine measurements only, with the former being the one

157 Mean duration of pre- and postoperative supine MR imaging was 25 minutes (range, 18.4-31.6 minut

158 t lumpectomy and postsurgical intraoperative supine MR imaging.

159 atients underwent both pre- and postsurgical supine MR imaging.

160 Supine MSNA increased with pregnancy in both groups (P <

161 After aliskiren treatment, supine MSNA remained unchanged (69 +/- 13 vs. 64 +/- 8 b

162 in a non-linear dose-dependent fashion; when supine (n = 10), ICP was decreased from 15 +/- 2 mmHg to

163 overall/non-supine event/h >=1.4 (O/NS) and supine/non-supine event/h>=2.0 (S/NS).

164 essure (1.2 [0.6-4] vs 10 [5-12.5] cm H2O in supine obese patients; p < 0.001) and plateau pressure (

165 ed volume, 0% [0-58%] vs 59.4% [51-81.4%] in supine obese patients; p < 0.001) but also results in a

166 essure (15.6 [14-17] vs 22 [18-24] cm H2O in supine obese patients; p < 0.001).

167 ment resulted in greater diurnal sitting and supine ocular perfusion pressures compared with baseline

168 coid treatment groups for time to stand from supine of 5 s or longer and 10 s or longer, and loss of

169 s were both sitting and supine (diurnal) and supine only (nocturnal).

170 as compared with healthy controls, either in supine or in upright position.

171 No woman, regardless of supine or prone position, had all breast tissue within t

172 or low Vt (6 ml/kg; PEEP 3 cm H(2)O; 3 h) in supine or prone position.

173 incidence of pneumothorax compared with the supine or prone position.

174 Background Supine or prone positioning of the patient on the gantry

175 nt in the lateral position compared with the supine or prone positions.

176 h lower heart-to-detector distances than the supine or sitting positions (both P < 0.001); lower card

177 Prone or supine patient position (P = .001, odds ratio [OR] = 2.7

178 tidal hyperinflation observed at PEEP 15 in supine patients (0.57 +/- 0.30 to 0.41 +/- 0.22%).

179 -specific, there are some cases in which the supine PCNL may be preferable (e.g. in obese patients).

180 ogrammes will increasingly offer exposure to supine PCNL, which may then affect the global practice p

181 Corresponding prone and supine polyp coordinates were recorded, and endoluminal

182 additional resting D.SPECT recording in the supine position (n = 40) or in the sitting position with

183 segments with attenuation artifacts than the supine position (on average, 1.10 +/- 1.01 vs. 1.90 +/-

184 t position and 7.9 +/- 2.3 mmHg lower in the supine position (p < .05).

185 upright position and 5.4+/- 3.1 mmHg in the supine position (p < .05).

186 amplitudes, assessed on panograms, than the supine position (P < 0.001); and fewer segments with att

187 e sitting position and 3.1+/-7.0 mmHg in the supine position (P = 1.00).

188 ge, 60 years; age range, 18-95 years) in the supine position and 34 women (mean age, 53 years; age ra

189 is warranted due to lack of measurements in supine position and between midnight and 7 am.

190 ndard 10-second, 12-lead ECG acquired in the supine position at the Mayo Clinic ECG laboratory betwee

191 In supine position at zero end-expiratory pressure, all cri

192 ity was measured with the participant in the supine position by 2-minute pneumatonography.

193 Blood pressure was measured in the supine position by using an automatic device.

194 Changes in sitting and supine position central macular thickness (in micrometer

195 during the 16-hour diurnal period and in the supine position during the 8-hour nocturnal period.

196 g the 16-hour diurnal/wake period and in the supine position during the 8-hour nocturnal/sleep period

197 positioning for 3 days only and to avoid the supine position during the night for a minimum of 1 week

198 All animals were induced to sleep in a supine position for 4-6 h/day for 8 weeks.

199 The subjects were then placed in the supine position for 5 minutes, and tonometry using the I

200 None of the women lying in the supine position had the entirety of the breast tissue lo

201 Heart rate recordings were acquired in supine position in the morning at rest once before the e

202 d-end elevation position (THE pre-prone), in supine position just before turning prone (Tsupine pre-p

203 as measured using a Perkins tonometer in the supine position on 58 eyes and upright on a subset of 8

204 ther positioned in (a) the standard prone or supine position or (b) the lateral decubitus position wi

205 increasing number undergoing surgery in the supine position rather than just the classical prone tec

206 head tremor is more likely to resolve in the supine position than is the head tremor of ST.

207 g device that recorded the time spent in the supine position was attached to patients' forehead after

208 ardiogram as they were lying still in a semi-supine position while watching an emotionally neutral vi

209 duced by HCl inhalation: pigs studied in the supine position with a low PEEP (5 +/- 3 [mean +/- SD] c

210 h a Goldmann Applanation Tonometer (GAT) and supine position with a Perkins tonometer.

211 muscle sympathetic activity on Earth (in the supine position) and in space.

212 ponse to deep breathing and to standing from supine position) was correlated with esophageal function

213 in every lead vector: 33 (66%) failed in the supine position, 12 (24%) failed in the standing positio

214 After 5 minutes in the supine position, 5 scans were obtained from both eyes.

215 recumbent positions, IOP was measured in the supine position, and right and left lateral decubitus po

216 piratory mechanics was first assessed in the supine position, at zero end-expiratory pressure, and th

217 The heart rate at rest, even in a supine position, can exceed 100 beats/min; minimal activ

218 Subjects were studied in the upright and supine position, during acute zero gravity (parabolic fl

219 s with SSc spectrum disorders exercised in a supine position, on a lower extremity cycle ergometer.

220 s, which are taken while the patient is in a supine position, provide new opportunities to evaluate s

221 measurements were collected in a sitting or supine position, respectively.

222 and 48 degrees (SD 12 degrees ) while in the supine position, with a mean difference of 11 degrees (S

223 Patients were examined in a supine position, with head extended, upper limbs aligned

224 mogeneous from dorsal to ventral than in the supine position, with more homogeneously distributed str

225 ncreased an additional 2.8 mmHg lower in the supine position.

226 spine were performed in each patient in the supine position.

227 od pressure by 20 mm Hg after sitting from a supine position.

228 JVs and/or vertebral veins in the sitting or supine position.

229 aphs, and 12 had scoliosis persisting in the supine position.

230 ns of at least 16 hours or to be left in the supine position.

231 an the superior quadrant (P = 0.0186) in the supine position.

232 TS (n=15) and healthy controls (n=13) in the supine position.

233 lavage followed by injurious ventilation in supine position.

234 ] years) was used only for ICP comparison in supine position.

235 col (repetitive plantar-flexion movements in supine position; n=28).

236 ed Valsalva manoeuvre with leg elevation and supine positioning at the end of the strain should be co

237 The median time of supine positioning during the first 24 hours was 28 seco

238 stress syndrome (ARDS), the use of prone and supine positioning procedures (PP) has been associated w

239 and their respiratory status after resuming supine positioning.

240 difficulty breathing that was exacerbated by supine positioning; he had not had any obvious anteceden

241 eement for overall as well as supine and non-supine positions across varying clinical cutoffs of the

242 laboratory every 2 hours in the sitting and supine positions during the 16-hour diurnal/wake period

243 have been conducted to compare the prone and supine positions in acute respiratory distress syndrome,

244 kerlike position comparatively to sitting or supine positions, with a notably lower rate of attenuati

245 anced depth imaging in upright (sitting) and supine positions.

246 a clearance were superior in the lateral and supine positions.

247 nd with the Tono-Pen in both the sitting and supine positions.

248 inus ICP) was calculated for the sitting and supine positions.

249 d IOP changes upon awakening in habitual and supine positions.

250 ins of recording time in both supine and non-supine positions.

251 prone session (both eyes): at 5 minutes (T5 supine post-prone), 10 minutes (T10 HE post-prone), 15 m

252 d of different duration of prone session (T5 supine post-prone).

253 at THE pre-prone to 24, 21, 19, and 16 at T5 supine post-prone, T10 HE post-prone, T15 HE post-prone,

254 d 17 at T10 prone, T30 prone, Tend-prone, T5 supine post-prone, T10 HE post-prone, T15 HE post-prone,

255 Whilst lying in the supine posture, central venous pressure (supine, 7 +/- 3

256 0.5-2.0 kg), rhythmic plantar flexion in the supine posture.

257 nge rates in anesthetized rodents' brains in supine, prone, or lateral positions.

258 o modestly but significantly correlated with supine pulmonary arterial wedge pressure (PAWP; r=0.36;

259 Most supine radiographs (>75%) were non-interpretable and wer

260 indicated good agreement between sitting and supine readings of ONH and RNFL parameters.

261 7 overall, 0.94 for supine, and 0.96 for non-supine recording times (all p<0.001).

262 Valsalva manoeuvre (done semi-recumbent with supine repositioning and passive leg raise immediately a

263 these indices were evaluated by range during supine rest in 61 healthy older subjects (30 men (69 +/-

264 dCA was assessed (i) in supine rest, analysed with transfer function analysis (g

265 hetic nerve activity (MSNA) were recorded at supine rest, during deep breathing, and during a Valsalv

266 ltrasound) were continuously measured during supine rest.

267 ents who might exhibit a greater response to supine restriction positional therapy.

268 .6) and for polyps visible on both prone and supine scans (0.12); it increased for flat lesions (9.1)

269 the 90 deg upright posture compared to lying supine (seated, 4 +/- 1 vs. supine, 15 +/- 2 mmHg).

270 Strategies obtained from the combination of supine, sitting and peak measurements resulted to be lea

271 essure (IOP) were simultaneously measured in supine, sitting, and 9 degrees head-down tilt (HDT) posi

272 h lumbar puncture, and IOP measurements when supine, sitting, and in 9 degrees head-down tilt (HDT).

273 traocular and systemic blood pressures while supine, sitting, and standing, and eyelid function and p

274 were no differences in ICP, IOP, or TLCPD in supine, sitting, or HDT (P >/= 0.11), except for IOP in

275 interventions were only significant for the supine sleep position.

276 exaggerated reduction in lung volumes during supine sleep, a compromised physiologic adaptation to sl

277 fant safe sleep practices of sleep position (supine), sleep location (room sharing without bed sharin

278 line measurement was performed with patients supine still on the operating table.

279 se from combined analysis of semiupright and supine stress MPI by deep learning (DL) as compared with

280 y (36 sensors) were performed in upright and supine subjects before and after a meal; the SCJ was vis

281 cardiography; 10-minute data were collected supine; subjects were tilted head-up for <=10 minutes.

282 st hoc analysis using period-wise baselines, supine SVC favoured levosimendan over placebo, estimated

283 as sitting SVC; secondary endpoints included supine SVC, ALS Functional Rating Scale-Revised (ALSFRS-

284 four anesthetized, mechanically ventilated, supine swine by using two methods for creating pulmonary

285 We recorded cardiopulmonary dynamics in supine syncope patients and healthy volunteers (aged 15-

286 atients with known RT fields (103 prone, 280 supine tangent, 101 breast + nodes) and follow-up >/=12

287 As the supine technique and variations have now been practised

288 Supine TLCPD increased in 10 patients (50%), decreased i

289 tching tasks, 68 polyps, prone to supine and supine to prone coordinates), 223 (82%) polyp matches we

290 espectively, when the animal was turned from supine to prone position.

291 ting on the floor much more easily (time for supine to standing position decreased from 30 to 11 s),

292 perfusion pressure (FPP) by moving from the supine to the upright-seated posture augments the vasodi

293 With change from the supine to upright position, PAWP decreased (-5+/-4 mm Hg

294 A supine-to-stand (STS) test was conducted to evaluate car

295 ctional measures including 6-minute walk and supine-to-stand tests.

296 , and 9 PM; and 12, 3, and 6 AM, both in the supine (TonoPen XL) and sitting (Goldmann tonometer) pos

297 Mean ICP in supine was 10.3 mmHg (SD = 2.7) in the NTG group (n = 13

298 standing) and scout images from low-dose CT (supine) were taken on the same day.

299 hen a child changes position from sitting to supine when measured by the Icare PRO or the Tono-Pen.

300 mic fluctuations, recorded from nine healthy supine young men.