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http://dx.doi.org/10.5056/jnm18010

Improving High-resolution Impedance Manometry Using Novel Viscous and Super-viscous Substrates in the Supine and Upright Positions: A Pilot Study  

Wong, Uni (Division of Gastroenterology and Hepatology, University of Maryland School of Medicine)
Person, Erik B (Division of Gastroenterology and Hepatology, University of Maryland School of Medicine)
Castell, Donald O (Division of Gastroenterology and Hepatology, Medical University of South Carolina College of Medicine)
von Rosenvinge, Erik (Division of Gastroenterology and Hepatology, University of Maryland School of Medicine)
Raufman, Jean-Pierre (Division of Gastroenterology and Hepatology, University of Maryland School of Medicine)
Xie, Guofeng (Division of Gastroenterology and Hepatology, University of Maryland School of Medicine)
Publication Information
Journal of Neurogastroenterology and Motility / v.24, no.4, 2018 , pp. 570-576 More about this Journal
Abstract
Background/Aims Swallows with viscous or solid boluses in different body positions alter esophageal manometry patterns. Limitations of previous studies include lack of standardized viscous substrates and the need for chewing prior to swallowing solid boluses. We hypothesize that high-resolution impedance manometry (HRiM) using standardized viscous and super-viscous swallows in supine and upright positions improves sensitivity for detecting esophageal motility abnormalities when compared with traditional saline swallows. To establish normative values for these novel substrates, we recruited healthy volunteers and performed HRiM. Methods Standardized viscous and super-viscous substrates were prepared using "Thick-It" food thickener and a rotational viscometer. All swallows were administered in 5-mL increments in both supine and upright positions. HRiM metrics and impedance (bolus transit) were calculated. We used a paired two-tailed t test to compare all metrics by position and substrate. Results The 5-g, 7-g, and 10-g substrates measured 5000, 36 200, and 64 $700mPa{\cdot}sec$, respectively. In 18 volunteers, we observed that the integrated relaxation pressure was lower when upright than when supine for all substrates (P < 0.01). The 10-g substrate significantly increased integrated relaxation pressure when compared to saline in the supine position (P < 0.01). Substrates and positions also affected distal contractile integral, distal latency, and impedance values. Conclusions We examined HRiM values using novel standardized viscous and super-viscous substrates in healthy subjects for both supine and upright positions. We found that viscosity and position affected HRiM Chicago metrics and have potential to increase the sensitivity of esophageal manometry.
Keywords
Esophageal motility disorders; Manometry; Viscous substrates;
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