ライフサイエンスコーパス: supine position

1 ressure of 35 cm H2O when implemented in the supine position).

2 ntervals for 40 mins with the patient in the supine position.

3 nown polyps underwent CT colonography in the supine position.

4 y different between group II and controls in supine position.

5 a 3.5-MHz transducer with the subject in the supine position.

6 lavage followed by injurious ventilation in supine position.

7 tly (p > .05) different when measured in the supine position.

8 gic change in the prone position than in the supine position.

9 healthy young volunteers were studied in the supine position.

10 mages are gathered when the infant is in the supine position.

11 cts had synchronous breathing at rest in the supine position.

12 fold in the prone position compared with the supine position.

13 All participants were buried in a supine position.

14 derneath the pelvis, with the patient in the supine position.

15 age acquisition was performed in prone, then supine position.

16 rdant HFpEF if they met criteria only in the supine position.

17 e upright position and reduce the IRP in the supine position.

18 in the attenuated IOP change from seated to supine position.

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

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

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

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

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

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

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

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

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

28 d until the cornea was level with floor; and supine position.

29 ow (Doppler ultrasound) were measured in the supine position.

30 obtained with patients in the prone and the supine position.

31 an pressures than respective controls in the supine position.

32 p period, all measurements were taken in the supine position.

33 itting position and 3.4 +/- 0.6 mm Hg in the supine position.

34 band >=40 in and/or >=D cup) in the prone vs supine positions.

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

36 ups: ureteroscopy and ECIRS in the prone and supine positions.

37 ation underwent MRI in both left lateral and supine positions.

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

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

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

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

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

43 rements of IOP were taken in the sitting and supine positions.

44 thy young adults in both the sitting and the supine positions.

45 eter with the volunteers in both sitting and supine positions.

46 lso compared after turning between prone and supine positions.

47 ial pressure (MAP) in the upright seated and supine positions.

48 and their respiratory status after resuming supine positioning.

49 membrane oxygenation (VV-ECMO) compared with supine positioning.

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

51 Of 44 patients who slept in a supine position, 17 (39%) achieved a treatment response,

52 Of 36 patients who met HFpEF criteria in supine position, 18 (50%) did not meet criteria in uprig

53 In the supine position 19 of 48 patients showed significant emp

54 Compared with metabolic rate in the supine position (5.4 +/- 1.5 kJ/min), energy expenditure

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

56 Therefore, in the supine position, 9.1% (10/110) of patients had their man

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

58 Prolonged supine positioning after Descemet membrane endothelial k

59 he analysis, 182 (51.0%) were treated in the supine position and 175 (49.0%) in prone.

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

61 n in the participants after 5 minutes in the supine position and 5 minutes in the sitting position du

62 Blood pressure was measured in the supine position and after 3 minutes of standing, with th

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

64 was evaluated (POLAR system) at rest in the supine position and during M-RSA and expressed in time d

65 Subjects were studied in the supine position and during upright tilt to 70 degrees fo

66 -minute baseline period with subjects in the supine position and then during 45 minutes of head-up ti

67 ositions were significantly greater than the supine position and were also significantly different fr

68 hydrochloric acid (Day 1) in both prone and supine positions and repeated at 24 hours (Day 2).

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

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

71 ardiopulmonary baroreceptor loading with the supine position appeared to cause a greater reliance on

72 ation gradient, which was not present in the supine position, appeared in the standing position.

73 t rest and during a plantarflexor MVC in the supine position at a knee angle of 90 deg and at ankle a

74 Patients underwent thin-section CT in the supine position at full inspiration at enrollment (basel

75 ll patients underwent thin-section CT in the supine position at full inspiration.

76 Retropubic urethral length (UL) in the supine position at rest was compared with its total leng

77 urethral length lies below the pubis in the supine position at rest.

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

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

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

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

82 ressure of 35 cm H2O when implemented in the supine position before randomization, positive end-expir

83 In the supine position, both groups had similar LV end-diastoli

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

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

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

87 In addition, lying in the supine position caused a 6.2% (P = 0.038) reduction in o

88 Maternal supine positioning caused a 3.8% reduction in FO(2) (P =

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

90 more desquamation in patients treated in the supine position compared with prone (72 of 182 [39.6%] p

91 l impedance tomography recording was made in supine position, daily and repeated just before and just

92 lf of patients who met HFpEF criteria in the supine position did not meet the criteria in the upright

93 by VV-ECMO, prone positioning compared with supine positioning did not significantly reduce time to

94 sterior direction, which was observed in the supine position, disappeared in the standing position.

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

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

97 during the light/wake period but only in the supine position during the dark period.

98 e taken in both the sitting position and the supine position during the light/wake period but only in

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

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

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

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

103 Intraocular pressure was measured in the supine position every 2 hours, using a pneumatonometer.

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

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

106 %) were proned and 153 (30%) remained in the supine position for the whole ECMO run.

107 The Supine Positioning for Descemet Membrane Endothelial Ker

108 Prolonged supine positioning frequently caused back pain.

109 We also show that in neonates the supine position generates a significantly different cros

110 the prone position group versus 60.1% in the supine position group (p = 0.085).

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

112 s independent of FGR pregnancy, meaning that supine positioning has an additive effect of reducing fe

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

114 e measurements vary according to standing vs supine position in adults, and fasting and bladder voidi

115 pared to the left lateral position, maternal supine position in late pregnancy is associated with red

116 Maternal supine position in late pregnancy reduces maternal cardi

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

118 ight of the risks associated with the use of supine positioning in critically ill and mechanically ve

119 wledge emphasises the importance of avoiding supine positioning in late pregnancy, particularly for v

120 CT colonography was performed in prone and supine positions in 180 patients with polyps or risk fac

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

122 plications of MPS obtained in both prone and supine positions in patients with perfusion defects on s

123 sthetized and submerged horizontally, in the supine position, in 100 degrees C (37 degrees C for cont

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

125 mbined with having a FGR pregnancy, maternal supine position leads to 15 times greater odds of stillb

126 venous pressure increased from the seated to supine position (mean [SD], seated: -2.3 [2.0] vs supine

127 In the supine position, midodrine produced no significant chang

128 age of collapsed dependent lung areas in the supine position, monitoring by electrical impedance tomo

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

130 least 4 sessions of 16 hours) (n = 86) or to supine positioning (n = 84).

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

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

133 The effect of maternal supine position on fetal oxygen delivery was independent

134 ing (MRI) to quantify the effect of maternal supine position on maternal-placental and fetoplacental

135 nd at 12 midnight using Perkins tonometry in supine position on two consecutive days.

136 ally clinically relevant effect of prolonged supine positioning on graft attachment.

137 Meanwhile, the effect of maternal supine positioning on placental oxygen transfer was not

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

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

140 uations, patients were observed to be in the supine position only 0.45%, residual volume of >200 mL w

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

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

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

144 integrated relaxation pressure (IRP) in the supine position (p < 0.001).

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

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

147 in Q and TVC in both the upright seated and supine positions (P < 0.001).

148 ghteen mongrel dogs were anesthetized in the supine position, paralyzed, and mechanically ventilated

149 Compared with supine position, PP was associated with a 35% MP reducti

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

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

152 In supine position, pulmonary arterial wedge pressure was l

153 ith SD1 and SD1(n) (normalized units) in the supine position (r(s) = 0.36 to 0.47; p = < 0.01).

154 blood flow was studied in 21 piglets in the supine position randomized to three different groups: a

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

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

157 us -17+/-11 degrees, P=.04); that is, in the supine position, RR interval changes appeared to lead ar

158 ventilator group, animals were randomized to supine positioning (S) or rotational positioning with al

159 expectations, however, cardiac pacing in the supine position significantly reduced arterial pressure

160 12-18 measurements were performed either in supine position (SP) or in prone position (PP), if Pa o2

161 e either lateral positioning or conventional supine positioning, stratified by study centres.

162 nteroposterior direction were greater in the supine position than in standing position (all p values

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

164 Nevertheless, in both the seated and supine positions the changes in MAP were primarily media

165 In the supine position, the dorsal lung regions had a high shun

166 With maternal supine positioning, there is a 23% reduction in maternal

167 tween change in systolic blood pressure from supine position to standing and 4-year mortality rates (

168 e supine position using room air, and in the supine position using a room air and (129)Xe mixture.

169 rteen healthy volunteers were studied in the supine position using concurrent UES and esophageal mano

170 the sitting position using room air, in the supine position using room air, and in the supine positi

171 ressure (IOP) was measured in the seated and supine positions using pneumatonometry.

172 percent of gastric emptying at 60 min in the supine position was 35% +/- 19%.

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

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

175 In the supine position we found a reduction HRV measures in Lon

176 When IOP data from just the supine position were analyzed, the trough-peak IOP diffe

177 Seven patients randomized to supine position were excluded (5 declined treatment and

178 The mean outflow facility in the sitting and supine positions were 0.30 +/- 0.31 microL/mL/mm Hg and

179 IOP in the sitting and supine positions were 17.8 +/- 1.7 mm Hg and 19.9 +/- 1.

180 e-volume curve of the lungs (obtained in the supine position) were also used as end-point variables.

181 res were similar to control pressures in the supine position, whereas patients with baroreflex failur

182 n as measured by conventional spirometry (in supine position), which reduced measured FEV(1) (2.70 0.

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

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

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

186 seated position, (3) passive exercise in the supine position with the leg above the heart, and (4) pa

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

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

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

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

191 phy was performed with patients in prone and supine positions, with colonic segmental distention asse