Keeley L Baker1,2, Michelle Izydorczak1, Ruaidhri Jackson3, Justus V Verhagen1,2. 1. The John B. Pierce Laboratory, New Haven, CT, USA. 2. Department of Neuroscience, Yale School of Medicine, New Haven, CT, USA. 3. Department of Immunology, Blavatnik Institute, Harvard Medical School, Boston, MA, USA.
Abstract
BACKGROUND: Commonly used methods to measure whole gut transit time in rodents have yet to combine high sensitivity, objectivity, and automation. We have developed a novel method using oral gavage of non-toxic fluorescent dye particles and their detection by fluorescence imaging to enable unbiased automated detection of gut transit time simultaneously in 8 cages. METHODS: Naïve mice (n = 20) were gavaged with a non-caloric viscous suspension of 4.4% fluorescent dye in 3 groups on 2 occasions. Each group was imaged in 8 cages at 5-minute intervals using blue LEDs for illumination and a Sony full-frame mirrorless camera with a green band-pass emission filter. Custom MATLAB code counted the number of fluorescent boli per cage post hoc and provided graphical and spreadsheet output. Boli counts across a wide range of parameters were compared to blind assessments by an experimenter. RESULTS: Fluorescent boli were detected with high sensitivity, while unstained boli were readily rejected. All cages showed no fluorescent boli for the first ~20 frames (100 minutes), after which many cages gradually show a rise to 1-6 fluorescent boli. The mean time to first fluorescent bolus in each session was 264 ± 141 and 223 ± 81 minutes post-gavage, with no within subject consistency. There was high correlation between automated scores and that of experimenter (r = .95 ± .02), being robust to parameter changes. CONCLUSIONS AND INFERENCES: This novel approach provides a reliable, automatic, and low-cost method of measuring gastrointestinal transit time in mice.
BACKGROUND: Commonly used methods to measure whole gut transit time in rodents have yet to combine high sensitivity, objectivity, and automation. We have developed a novel method using oral gavage of non-toxic fluorescent dye particles and their detection by fluorescence imaging to enable unbiased automated detection of gut transit time simultaneously in 8 cages. METHODS: Naïve mice (n = 20) were gavaged with a non-caloric viscous suspension of 4.4% fluorescent dye in 3 groups on 2 occasions. Each group was imaged in 8 cages at 5-minute intervals using blue LEDs for illumination and a Sony full-frame mirrorless camera with a green band-pass emission filter. Custom MATLAB code counted the number of fluorescent boli per cage post hoc and provided graphical and spreadsheet output. Boli counts across a wide range of parameters were compared to blind assessments by an experimenter. RESULTS: Fluorescent boli were detected with high sensitivity, while unstained boli were readily rejected. All cages showed no fluorescent boli for the first ~20 frames (100 minutes), after which many cages gradually show a rise to 1-6 fluorescent boli. The mean time to first fluorescent bolus in each session was 264 ± 141 and 223 ± 81 minutes post-gavage, with no within subject consistency. There was high correlation between automated scores and that of experimenter (r = .95 ± .02), being robust to parameter changes. CONCLUSIONS AND INFERENCES: This novel approach provides a reliable, automatic, and low-cost method of measuring gastrointestinal transit time in mice.
Authors: Edward S Kimball; Jeffrey M Palmer; Michael R D'Andrea; Pamela J Hornby; Paul R Wade Journal: Am J Physiol Gastrointest Liver Physiol Date: 2005-02-03 Impact factor: 4.052
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