recumbent posture
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Paleobiology ◽  
2019 ◽  
Vol 46 (1) ◽  
pp. 104-122
Author(s):  
Przemysław Gorzelak ◽  
Dorota Kołbuk ◽  
Mariusz A. Salamon ◽  
Magdalena Łukowiak ◽  
William I. Ausich ◽  
...  

AbstractLiving crinoids are exclusively passive suspension feeders and benthic as adults. However, in the past they adapted to a broad range of ecological niches. For instance, the stratigraphically important middle Paleozoic scyphocrinoids are hypothesized to have been planktonic, employing their inferred gas-filled globular, chambered structure at the distal end of the stem, the so-called lobolith, as a buoyancy device with the crinoid calyx suspended below it. Here, we evaluate this hypothesis using evidence from skeletal micromorphology and theoretical biomechanical modeling. Lobolith walls are typically composed of ossicles, which are exclusively composed of constructional labyrinthic stereom. In plates from the distal side of the lobolith, this stereom extends into microperforate stereom layer, forming wavy ridges and spines. No microscale adaptations for preventing gas leaks and/or ingress of water (such as internal and external imperforate stereom layers) are known. Furthermore, theoretical calculations suggest that the scyphocrinoid tow-net mode of feeding would have resulted in small relative velocities between the towed filter and the ambient water, thus making it an ineffective passive filter feeder. We suggest that the lobolith of these crinoids acted as a modified holdfast rather than as a floating buoy. Its globular shape and distally positioned microspines served as adaptations for living in unconsolidated sediments, analogous to iceberg- and snowshoe-like strategies used by some mollusks and brachiopods. Like modern isocrinids, scyphocrinoids could have maintained an upright feeding posture by extending the distal portion of the stalk along the bottom. In this recumbent posture, the distal part of the stalk with the lobolith might have functioned as a drag anchor. As a consequence of the ~3-m-long stem, even with this posture, the benthic scyphocrinoids could have risen to the highest epifaunal tier in the Paleozoic.


2017 ◽  
Vol 32 (2) ◽  
pp. 183-188
Author(s):  
Takahiro INOUE ◽  
Koji NONAKA ◽  
Kenichi ITO

2012 ◽  
Vol 9 (1) ◽  
pp. 64-68 ◽  
Author(s):  
Joshua E. Medow ◽  
Christopher C. Luzzio

Object Shunt valves are intended to maintain physiological intracranial pressure (ICP). A variety of mechanisms have been designed to accomplish this goal but have had limited success. Siphoning, in particular, has been a problem not effectively solved by proposed or manufactured valves. Poor control of ICP results in headache, neurological disturbances, decreased cognition, shunt malfunction, slit ventricles, subdural hematomas, decreased cranial volume, and maldevelopment. The authors of this study describe a prototype valve that was machined and tested ex vivo and that actuates based on ICP alone regardless of the presence of a siphon. Their object was to determine if a novel shunt mechanism that actuates perpendicular to the flow of fluid would eliminate the effect of siphoning in a valve for the treatment of hydrocephalus. Methods A posture-independent piston valve (PIPV) was anchored to a graduated reservoir. Opening pressure was measured by noting the fluid level in the reservoir when the piston moved. Measurements were made using a 90-cm and a 120-cm water-filled siphon tube (1.3-mm standard distal catheter) to simulate an upright posture. A recumbent posture was simulated by the absence of a siphon. Results Opening pressure of the valve did not change regardless of the presence or absence of a water-filled siphon. Conclusions The PIPV was triggered only by the pressure head at the inlet and did not actuate in the presence of a siphon, demonstrating proof of principle of the perpendicular actuating mechanism. The PIPV is a purely mechanical device that has practical application in the treatment of hydrocephalus.


Author(s):  
Wilkie Collins

In the autumn of 1838, Mrs Blyth’s malady had for some time past assumed the permanent form from which it seldom afterwards varied. She now suffered little actual pain, except when she quitted a recumbent posture. But the general disorganization produced by almost exclusive...


2002 ◽  
Vol 283 (2) ◽  
pp. G376-G383 ◽  
Author(s):  
Steven S. Shay ◽  
Steven Bomeli ◽  
Joel Richter

Multichannel intraluminal impedance (MII) is a new diagnostic test for gastroesophageal reflux disease (GERD). The objective of this report is to determine the accuracy of MII in detecting individual reflux events (REs) identified by pH probe and manometry, as well as their clearing in patients with severe GERD compared with normal volunteers. Ten severe GERD patients and 10 normal volunteers underwent simultaneous manometry [7 sites: gastric, lower esophageal sphincter, esophagus (4), pharynx], pH, and MII (6 sites in esophagus) for 15 min in the left and right recumbent posture while fasting. We found that patients had 30-fold more REs than normal volunteers (41 ± 11 vs. 1.3 ± 0.4), and 95% of all REs were detected by MII. An average 15-fold fall in impedance with liquid and fivefold rise with gas made REs and their composition easy to detect with MII. In the right recumbent posture, nearly all REs detected by MII were liquid (98%, 98/100). In contrast, all 283 REs detected by MII in the left recumbent posture were gas. Nearly all REs detected by MII were cleared (98%, 368/374). Mean acid clearing time was threefold longer (47 s) than clearing time by either manometry (15 s) or MII (13 s), primarily due to acid rereflux, i.e., additional acid REs during acid clearing. We conclude that MII is accurate in detecting REs identified by manometry and/or pH probe, their composition, and their clearing.


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