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1 s-sectional area was increased by increasing intraluminal pressure.
2 region and muscles activated but also on the intraluminal pressure.
3 ve lymph pump under conditions of controlled intraluminal pressure.
4 trolled in lung organ cultures by the airway intraluminal pressure.
5 or pattern was not accompanied by changes in intraluminal pressure.
6 e, and in veins through NE across a range of intraluminal pressures (2-12 cmH(2)O).
7 sors, and a balloon, simultaneously measures intraluminal pressure and cross-sectional areas.
8 es to constrict in response to elevations in intraluminal pressure and is a fundamental determinant o
9                             The increases in intraluminal pressure and muscle cross-sectional area (C
10  total tension within the esophageal wall to intraluminal pressure and wall geometry.
11 dherin AJs in the vessel wall depends on the intraluminal pressure and was responsive to treatment wi
12                                   Decreasing intraluminal pressure below 50 mmHg increased the freque
13 inal cord were investigated by measuring the intraluminal pressure change via saline filled balloons
14 cle cells from cerebral arteries, increasing intraluminal pressure engages a signalling cascade that
15 ical stimulation of the artery, by increased intraluminal pressure, flattened the endothelial cells a
16                                           At intraluminal pressures from 6 to -6 cm H2O, maximum ante
17 r type 1b (AT1 Rb ) is the primary sensor of intraluminal pressure in cerebral arteries.
18  of TRPM4 channels, is the primary sensor of intraluminal pressure in cerebral artery smooth muscle c
19  for either isoform as the primary sensor of intraluminal pressure in peripheral arteries.
20   Myogenic tone was assessed over a range of intraluminal pressures in the presence and absence of hi
21 may contribute to detection of distention or intraluminal pressure increases and initiation of reflex
22    These findings demonstrate an increase in intraluminal pressure induced increase in ROS production
23                               An increase in intraluminal pressure induced oxidation of PTEN and acti
24                                              Intraluminal pressure-induced reflex contractions (peris
25                         These data show that intraluminal pressure influences an endothelial microdom
26 her, these results suggest that elevation of intraluminal pressure is associated with generation of 2
27 ells to contract in response to increases in intraluminal pressure, is critically important for the a
28 he global equations with space-time-resolved intraluminal pressure measured manometrically and videof
29 stimated using geometric center analysis and intraluminal pressure monitoring.
30                Myogenic tone developed at an intraluminal pressure of 30 to 40 mm Hg, continued to in
31 tor and dilator agonists were obtained at an intraluminal pressure of 70 mm Hg.
32                            Step increases in intraluminal pressure of cannulated cerebral arteries in
33                                The effect of intraluminal pressure on the diameter was assessed and c
34             Here we report on elucidation of intraluminal pressure patterns using High Resolution Col
35                                              Intraluminal pressure, pH, and ultrasound images of the
36     Thus, we tested the hypothesis that high intraluminal pressure (Pi) itself, by activating vascula
37  the pressure-diameter relationship over the intraluminal pressure range, 30-110 mmHg.
38                                     At given intraluminal pressures ranging from +6 to -6 cm H2O, cro
39                                              Intraluminal pressure recording systems have not demonst
40    On the basis of the ultrasound images and intraluminal pressure recordings, it seems that there is
41 n's activation elicited increases in colonic intraluminal pressure that were eliminated by scopolamin
42                                              Intraluminal pressure was measured using a Millar Mikro-
43 easurable CSA within the distal esophagus vs intraluminal pressure was significantly reduced in EoE p
44  which will increase wall stress for a given intraluminal pressure, which may be a stimulus for vascu
45 ed, cannulated, and pressurized to 60 cm H2O intraluminal pressure without flow for in vitro study.

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