H N Nguyen scite author profile

The dynamics of a bolus transport through the esophagus are largely unexplored. To study this physiological process, we applied multiple intraluminal impedancometry in 10 healthy subjects. Three different protocols were used: 1) liquid bolus administered with subject supine, 2) liquid bolus with subject upright, or 3) semisolid bolus with subject supine. Transit of different parts of a bolus (bolus head, body, and tail) was analyzed at different anatomic segments, namely the pharynx and the proximal, middle, and distal thirds of the esophagus. A characteristic pattern of bolus transport was seen in all subjects. Impedance changes related to air were observed preceding the bolus head. The bolus head propelled significantly faster than did the bolus body and tail. Pharyngeal bolus transit was significantly faster than esophageal bolus transit. Within the esophagus, bolus propulsion velocity gradually decreased. Bolus transport was significantly accelerated in the upright position and delayed with increase of bolus viscosity. In conclusion, the dynamics of a bolus transport from the pharynx into the stomach are complex. It varies within both different anatomic segments and different parts of the bolus and depends on bolus characteristics and test conditions. The spatial and temporal resolution of a bolus transport can be obtained by the impedance technique.

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TIMP expression in toxic and cholestatic liver injury in rat

Roeb

Purucker

Breuer

et al. 1997

Journal of Hepatology

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Chyme transport patterns in human duodenum, determined by multiple intraluminal impedancometry

Nguyen

Silny

Wüller

et al. 1995

American Journal of Physiology-Gastrointestinal and Liver Physi

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To get information about the mechanisms involved in chyme transport during the fasting and postprandial states, the novel procedure of multiple intraluminal impedancometry was evaluated in 14 healthy subjects (6 during fasting, 8 after a test meal). All main features of the migrating motor complex (MMC) cycle were determined. During phase II of the MMC cycle and the postprandial period, different transport patterns of chyme, termed bolus transport events (BTEs), were determined. These were 1) simple long-distance propulsive transport (spreading distance > 16 cm), 2) short-distance propulsive transport, and 3) retrograde transport. A significantly lower number of BTEs was recorded during fasting than postprandially. Short-distance propulsive BTEs predominated during fasting (72%), and long-distance propulsive BTEs predominated after the test meal (76%). Retrograde BTEs were recorded during fasting (4%) and postprandially (8%). In the latter state, complex long-distance propulsive BTEs were also observed (5%), consisting of multiple components. A major proportion of gastric contents was found to be continuously transported to jejunum. In conclusion, impedancometry enables us to determine patterns and parameters of chyme transport during fasting and postprandial states.

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Multiple Intraluminal Electrical Impedancometry for Recording of Upper Gastrointestinal Motility: Current Results and Further Implications

Nguyen

Silny

Matern

1999

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This review focuses on current aspects of the novel technology of multiple intraluminal electrical impedance measurement. It presents methodological features, summarizes current results, and discusses potential implications for further research. The impedance technique assesses a bolus transport and its associated peristalsis. Validation studies showed a good analogy between physically deduced impedance characteristics and characteristics derived from cineradiography and manometry. From the impedance tracings, it is possible to distinguish between resting states, bolus transit, and wall contraction. Characteristics of a peristaltic wave can be obtained. In human studies, esophageal and small intestinal peristaltic patterns can quantitatively and qualitatively be assessed. A high resolution recording of bolus movements with interesting details of transport and mixing can be obtained. On the basis of several prior characterized impedance tracings duodenal contractile patterns have been classified, and the interdigestive and postprandial states characterized. For reflux evaluation the impedance technique was especially useful for the detection of nonacid gastroesophageal reflux, which is not detectable by pH monitoring. In summary, the main impact of the impedance technique is its capability to characterize esophageal and intestinal chyme transport. Important data on luminal chyme transport have been obtained. This technique is developing into an interesting investigative tool to complement standard techniques for study of upper GI motility, in particular for basic research.

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Impedance characteristics of esophageal motor function in achalasia

Nguyen

Domingues

Winograd

et al. 2004

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Detailed data on patterns of esophageal bolus transport in patients with achalasia are still lacking. To study these we applied the novel technique of multichannel intraluminal impedance measurements. Ten patients with achalasia were studied using a 16 channel system. Liquid and semisolid boluses of 10 mL were applied with the patients in a supine position. Patterns of bolus transport were determined and analyzed as compared to results obtained from 20 healthy subjects. The healthy subjects featured a unique typical primary peristalsis pattern independent of bolus viscosity. In contrast, achalasia patients demonstrated different impedance characteristics, including: (i) significantly lower baseline esophageal impedance during the resting state as compared with healthy volunteers (999 omega +/- 108 versus 2749 omega +/- 113); (ii) failed bolus transport through the esophagus in all cases; (iii) impedance evidence of luminal content regurgitation in 35% of the swallows (iv) impedance evidence of pathological air movement within the proximal esophagus during deglutition in 38% of the swallows, so called air trapping. Thus, impedance characteristics of achalasia have been defined and can be attributed to known symptoms of achalasia. They can be used as basic findings for further classification of pathological bolus transports in other esophageal motility disorders.

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H N Nguyen

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

TIMP expression in toxic and cholestatic liver injury in rat

Chyme transport patterns in human duodenum, determined by multiple intraluminal impedancometry

Multiple Intraluminal Electrical Impedancometry for Recording of Upper Gastrointestinal Motility: Current Results and Further Implications

Impedance characteristics of esophageal motor function in achalasia

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