BACKGROUND: The dynamic change in gastric emptying on a minute-by-minute basis (gastric velocity) is evaluated by the 13C-octanoate breath test with deconvolution analysis. However, deconvolution is impractical, because it requires dual experiments to obtain 13CO2 excretion profiles following intraduodenal and oral administration of 13C-octanoate. We investigated whether the Wagner-Nelson method, used in drug absorption studies, can determine the velocity profile based on a single experiment as accurately as deconvolution, and whether the velocity assessed by the Wagner-Nelson method is sensitive enough to detect subtle changes in gastric emptying induced by butylscopolamine. METHODS: Five male volunteers underwent a 4-h breath test twice, after intraduodenal administration of 20 ml normal saline containing 100 mg 13C-octanoate and after ingestion of a 320-kcal muffin containing 100 mg 13C-octanoate. Deconvolution determined the velocity profile by subtracting duodenal from oral data, and the Wagner-Nelson method produced it from only oral data. The velocity profiles were compared between the two methods. Another six male subjects underwent the breath test by ingesting a muffin twice, once with and once without 20 mg oral butylscopolamine. The velocity profiles generated by the Wagner-Nelson analysis and the conventional 13CO2 excretion curves were compared between the two occasions. RESULTS: The two techniques yielded identical velocity profiles. The velocity profile detected a significant change in the emptying pattern induced by butylscopolamine (initial acceleration with subsequent deceleration), while the conventional breath curves failed to detect this change. CONCLUSIONS: Velocity assessment by a Wagner-Nelson analysis can precisely describe altered gastric emptying, based on a single experiment.
BACKGROUND: The dynamic change in gastric emptying on a minute-by-minute basis (gastric velocity) is evaluated by the 13C-octanoate breath test with deconvolution analysis. However, deconvolution is impractical, because it requires dual experiments to obtain 13CO2 excretion profiles following intraduodenal and oral administration of 13C-octanoate. We investigated whether the Wagner-Nelson method, used in drug absorption studies, can determine the velocity profile based on a single experiment as accurately as deconvolution, and whether the velocity assessed by the Wagner-Nelson method is sensitive enough to detect subtle changes in gastric emptying induced by butylscopolamine. METHODS: Five male volunteers underwent a 4-h breath test twice, after intraduodenal administration of 20 ml normal saline containing 100 mg 13C-octanoate and after ingestion of a 320-kcal muffin containing 100 mg 13C-octanoate. Deconvolution determined the velocity profile by subtracting duodenal from oral data, and the Wagner-Nelson method produced it from only oral data. The velocity profiles were compared between the two methods. Another six male subjects underwent the breath test by ingesting a muffin twice, once with and once without 20 mg oral butylscopolamine. The velocity profiles generated by the Wagner-Nelson analysis and the conventional 13CO2 excretion curves were compared between the two occasions. RESULTS: The two techniques yielded identical velocity profiles. The velocity profile detected a significant change in the emptying pattern induced by butylscopolamine (initial acceleration with subsequent deceleration), while the conventional breath curves failed to detect this change. CONCLUSIONS: Velocity assessment by a Wagner-Nelson analysis can precisely describe altered gastric emptying, based on a single experiment.
Authors: G Tougas; E Y Eaker; T L Abell; H Abrahamsson; M Boivin; J Chen; M P Hocking; E M Quigley; K L Koch; A Z Tokayer; V Stanghellini; Y Chen; J D Huizinga; J Rydén; I Bourgeois; R W McCallum Journal: Am J Gastroenterol Date: 2000-06 Impact factor: 10.864
Authors: Matthew Q Bromer; Steve B Kantor; David A Wagner; Linda C Knight; Alan H Maurer; Henry P Parkman Journal: Dig Dis Sci Date: 2002-07 Impact factor: 3.199
Authors: Jutta Keller; Heinz F Hammer; Paul R Afolabi; Marc Benninga; Osvaldo Borrelli; Enrique Dominguez-Munoz; Dan Dumitrascu; Oliver Goetze; Stephan L Haas; Bruno Hauser; Daniel Pohl; Silvia Salvatore; Marc Sonyi; Nikhil Thapar; Kristin Verbeke; Mark R Fox Journal: United European Gastroenterol J Date: 2021-06-14 Impact factor: 4.623