The mechanical basis of impaired esophageal emptying postfundoplication.
about
Function of longitudinal vs circular muscle fibers in esophageal peristalsis, deduced with mathematical modelingUtilizing intraluminal pressure gradients to predict esophageal clearance: a validation study.Functional esophagogastric junction obstruction with intact peristalsis: a heterogeneous syndrome sometimes akin to achalasia.A fully resolved active musculo-mechanical model for esophageal transport.An experimental method to identify neurogenic and myogenic active mechanical states of intestinal motilityThe effect of a sitting vs supine posture on normative esophageal pressure topography metrics and Chicago Classification diagnosis of esophageal motility disorders.Liquid in the gastroesophageal segment promotes reflux, but compliance does not: a mathematical modeling studyHigh-resolution manometric characteristics help differentiate types of distal esophageal obstruction in patients with peristalsis.New technologies in the gastrointestinal clinic and research: impedance and high-resolution manometry.The time course and persistence of "concurrent contraction" during normal peristalsis.The Esophagiome: concept, status, and future perspectives.Physiology of the oesophageal transition zone in the presence of chronic bolus retention: studies using concurrent high resolution manometry and digital fluoroscopy.The gastro-esophageal reflux barrier: biophysical analysis on 3D models of anatomy from magnetic resonance imaging.A continuum mechanics-based musculo-mechanical model for esophageal transport.Simulation studies of the role of esophageal mucosa in bolus transport.
P2860
Q30431514-153D778A-A223-45CD-B923-3FB0F7938F07Q33919630-0D4A8E56-9BF7-4227-81D1-E02FB6ACF292Q33940622-8467D8DE-6D45-40BC-A73C-7121121DF9C9Q35854573-E1418AB0-0C5E-412A-861D-AF2B91C4E289Q36756499-14C301C1-6344-4ED7-9485-9AB60FA43A8FQ36829451-E354E373-0E2B-4729-A9B6-3DF000FFC9CFQ36977066-2070F963-D9CC-41E1-9508-CD490305DCB0Q37330420-7FAFF681-E426-490F-98D1-55CC638680BDQ37365350-8C9E0581-02C2-4690-9DA3-59254E3AF001Q38682153-0C19A1EF-7FD0-4ED4-AEE2-118210DA5D84Q38804941-1254EB8C-60E6-47C2-A75A-C78ABED21BC2Q39843533-F56C7D95-7DD5-4821-94D0-F93F194F020FQ43488751-F5F52A7A-0CE3-463B-805C-037437075577Q47400725-A6B61990-2A88-405C-A05B-34DD1F3419AEQ51061596-6ED31F22-E456-4793-BD64-16049122BE69
P2860
The mechanical basis of impaired esophageal emptying postfundoplication.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh-hant
name
The mechanical basis of impaired esophageal emptying postfundoplication.
@en
The mechanical basis of impaired esophageal emptying postfundoplication.
@nl
type
label
The mechanical basis of impaired esophageal emptying postfundoplication.
@en
The mechanical basis of impaired esophageal emptying postfundoplication.
@nl
prefLabel
The mechanical basis of impaired esophageal emptying postfundoplication.
@en
The mechanical basis of impaired esophageal emptying postfundoplication.
@nl
P2093
P2860
P356
P1476
The mechanical basis of impaired esophageal emptying postfundoplication.
@en
P2093
James G Brasseur
John E Pandolfino
Peter J Kahrilas
Raymond J Joehl
Sudip K Ghosh
Tamer Zaki
P2860
P304
P356
10.1152/AJPGI.00235.2004
P577
2005-02-03T00:00:00Z