Dynamics of esophageal bolus transport in healthy subjects studied using multiple intraluminal impedancometry

Nguyen, H N; Silny, J.; Albers, David J.; Roeb, Elke; Gartung, Carsten; Rau, G.; Matern, Siegfried

doi:10.1152/ajpgi.1997.273.4.g958

Cited by 58 publications

(75 citation statements)

References 21 publications

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“…3 Transit time and propagation velocity of a bolus were faster in upright position and decreased with increasing bolus viscosity. Fluoroscopy was used to validate impedance monitoring as a means to study volume clearance in healthy subjects.…”

Section: Bolus Transitmentioning

confidence: 93%

“…2 Passage of a swallowed bolus along a neighbouring pair of electrodes yields a typical impedance tracing, including five phases ( Figure 2): baseline impedance during resting stage of the oesophagus (phase 1); impedance rise caused by arrival and passage of a small amount of air ahead of the bolus (phase 2); impedance drop and recovery caused by arrival and passage of the bolus (phase 3); impedance rise caused by rapid wall contraction associated with lumen occlusion (phase 4) and recovery of impedance signal to baseline level during transition to resting stage (phase 5). 3 Multichannel oesophageal monitoring can be carried out by using an intraluminal catheter with multiple, closely spaced pairs of metal rings. Changes in spatiotemporal patterns in impedance are identified at various levels within the oesophagus, allowing differentiation between antegrade (swallow) and retrograde (reflux) bolus movement 4 ( Figure 3).…”

Section: Principles Of Intraluminal Impedance Monitoringmentioning

confidence: 99%

“…2,3,[5][6][7][8][9][10][11][12] Figure 2. Bolus passage along a neighbouring pair of electrodes yields a typical impedance tracing, including five phases: baseline impedance during resting stage of the oesophagus (phase 1); impedance rise caused by arrival and passage of an air volume ahead of the bolus (phase 2); impedance drop and recovery caused by arrival and passage of the bolus (phase 3); impedance rise caused by wall contraction associated with lumen occlusion (phase 4) and recovery of impedance signal to baseline level during transition to resting stage (phase 5).…”

Section: Validation Studiesmentioning

confidence: 99%

See 2 more Smart Citations

Review article: intra‐oesophageal impedance monitoring for the assessment of bolus transit and gastro‐oesophageal reflux

Conchillo

Smout

2008

Aliment Pharmacol Ther

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Section: Bolus Transitmentioning

confidence: 93%

Section: Principles Of Intraluminal Impedance Monitoringmentioning

confidence: 99%

Section: Validation Studiesmentioning

confidence: 99%

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Review article: intra‐oesophageal impedance monitoring for the assessment of bolus transit and gastro‐oesophageal reflux

Conchillo

Smout

2008

Aliment Pharmacol Ther

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“…multichannel intraluminal impedance; manometry; fluoroscopy; intestinal motility MULTIPLE INTRALUMINAL IMPEDANCE (MII) is a novel technique that can detect flow in a viscous organ by measuring changes in intraluminal impedance related to the movement of the bolus (24). MII was recently used for measuring bolus transport in the esophagus in health and disease states (12,23,21). The technique is capable of distinguishing between refluxate containing air or liquid (22) and can recognize nonacid reflux, currently undetected by pH monitoring (5).…”

mentioning

confidence: 99%

“…MII was recently used for measuring bolus transport in the esophagus in health and disease states (12,23,21). The technique is capable of distinguishing between refluxate containing air or liquid (22) and can recognize nonacid reflux, currently undetected by pH monitoring (5).…”

mentioning

confidence: 99%

Study of intestinal flow by combined videofluoroscopy, manometry, and multiple intraluminal impedance

Imam

Sanmiguel

Larive

et al. 2004

American Journal of Physiology-Gastrointestinal and Liver Physi

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Assessment of patterns of flow in the small bowel is difficult. Multiple intraluminal impedance has been recently used for study of flow dynamics in the esophagus. Our aims were 1) to validate multiple intraluminal impedance by correlating impedance events with intestinal flow as detected by fluoroscopy and 2) to determine intestinal flow patterns in the fasting and postprandial period and their correspondence with manometry. First, six healthy subjects underwent simultaneous videofluoroscopic, manometric, and impedance recording from the duodenum. Videofluoroscopy was used to validate impedance patterns corresponding with barium flow in the fasting and postprandial periods. Next, 16 healthy subjects underwent prolonged simultaneous recording of impedance and manometry in both periods. Most flow events were short (10 cm or less), with antegrade flow being the most common. Correspondence between impedance and videofluoroscopy increased with increasing length of barium flow. Impedance corresponded better with flow, at any distance, than manometry. However, impedance and manometric events, when analyzed separately as index events, always corresponded with fluoroscopic flow. The fasting and postprandial periods showed comparable patterns of flow, with frequent, highly propulsive manometric and impedance sequences. Motility index was positively and significantly associated with length of impedance events. Phase 3 of the migrating motor complex could be easily recognized by impedance. Multiple intraluminal impedance can detect intestinal flow events and corresponds better with fluoroscopic flow than manometry. multichannel intraluminal impedance; manometry; fluoroscopy; intestinal motility MULTIPLE INTRALUMINAL IMPEDANCE (MII) is a novel technique that can detect flow in a viscous organ by measuring changes in intraluminal impedance related to the movement of the bolus (24). MII was recently used for measuring bolus transport in the esophagus in health and disease states (12,23,21). The technique is capable of distinguishing between refluxate containing air or liquid (22) and can recognize nonacid reflux, currently undetected by pH monitoring (5). Whereas MII has been increasingly used in the study of esophageal physiology and disease, few data are available concerning its use in the evaluation of small bowel motor function (11).A number of tests is currently in use for the clinical assessment of small bowel motor function. Intestinal transit can be measured by conventional scintigraphy, radio-opaque markers, or breath tests. These methods detect only total transit time and not patterns of flow and can be affected by gastric emptying rate and conditions such as bacterial overgrowth (3). Intraluminal manometry detects contractile patterns but provides only indirect data regarding flow. Fluoroscopic studies are greatly limited because of the radiation exposure involved. Thus MII, a technique that can detect the end result of contractile activity, i.e., the presence and direction of flow in the intestine, may have a dist...

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Investigating Esophageal Reflux With the Intraluminal Impedance Technique

Wenzl

2002

J. pediatr. gastroenterol. nutr.

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Dynamics of esophageal bolus transport in healthy subjects studied using multiple intraluminal impedancometry

Cited by 58 publications

References 21 publications

Review article: intra‐oesophageal impedance monitoring for the assessment of bolus transit and gastro‐oesophageal reflux

Review article: intra‐oesophageal impedance monitoring for the assessment of bolus transit and gastro‐oesophageal reflux

Study of intestinal flow by combined videofluoroscopy, manometry, and multiple intraluminal impedance

Investigating Esophageal Reflux With the Intraluminal Impedance Technique

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