BACKGROUND/ PURPOSE: It is important to establish a physiologic range of gastric emptying (GE) in children. Gastric emptying time measured with (99)Tc-labeled solid meal (GE(Tc)) is the gold standard. Large-scale studies with GE(Tc) are ideal but not feasible because of radiation exposure. The (13)C-labeled octanoic acid breath test (GE(13C)) does not involve radiation and is suitable for large studies. The aim of this study was to validate GE(13C) with GE(Tc) and to explore whether GE(13C) could be used to establish a physiologic range of GE in children. METHOD: Twenty-five healthy children underwent simultaneous GE(Tc) and GE(13C) using a standardized solid test meal. The time taken for the stomach to empty half its content (T(1/2)(13C)) and solid lag phase (lag(13C)) for GE(13C) were computed from the fractional excretion of (13)C in expired air. T(1/2)(13C) and lag(13C) were compared with corresponding values obtained by GE(Tc). RESULT: Correlation coefficient between T(1/2)(13C) and T(1/2)(Tc) was 0.69 (P < .01; r = 0.92 if 3 outliers were omitted). Correlation coefficient between lag(13C) and lag(Tc) was 0.39 (P < .05). There was good agreement between the methods by the Bland Altman method. CONCLUSION: There is good agreement between GE(13C) and GE(Tc). GE(13C) can be safely used to establish the reference range of GE in healthy children.
BACKGROUND/ PURPOSE: It is important to establish a physiologic range of gastric emptying (GE) in children. Gastric emptying time measured with (99)Tc-labeled solid meal (GE(Tc)) is the gold standard. Large-scale studies with GE(Tc) are ideal but not feasible because of radiation exposure. The (13)C-labeled octanoic acid breath test (GE(13C)) does not involve radiation and is suitable for large studies. The aim of this study was to validate GE(13C) with GE(Tc) and to explore whether GE(13C) could be used to establish a physiologic range of GE in children. METHOD: Twenty-five healthy children underwent simultaneous GE(Tc) and GE(13C) using a standardized solid test meal. The time taken for the stomach to empty half its content (T(1/2)(13C)) and solid lag phase (lag(13C)) for GE(13C) were computed from the fractional excretion of (13)C in expired air. T(1/2)(13C) and lag(13C) were compared with corresponding values obtained by GE(Tc). RESULT: Correlation coefficient between T(1/2)(13C) and T(1/2)(Tc) was 0.69 (P < .01; r = 0.92 if 3 outliers were omitted). Correlation coefficient between lag(13C) and lag(Tc) was 0.39 (P < .05). There was good agreement between the methods by the Bland Altman method. CONCLUSION: There is good agreement between GE(13C) and GE(Tc). GE(13C) can be safely used to establish the reference range of GE in healthy children.
Authors: Josephine Franken; Femke A Mauritz; Rebecca K Stellato; David C Van der Zee; Maud Y A Van Herwaarden-Lindeboom Journal: J Gastrointest Surg Date: 2017-07 Impact factor: 3.452
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