1.Optical Tools to Investigate Cellular Activity in the Intestinal Wall.
Werend BOESMANS ; Marlene M HAO ; Pieter Vanden BERGHE
Journal of Neurogastroenterology and Motility 2015;21(3):337-351
Live imaging has become an essential tool to investigate the coordinated activity and output of cellular networks. Within the last decade, 2 Nobel prizes have been awarded to recognize innovations in the field of imaging: one for the discovery, use, and optimization of the green fluorescent protein (2008) and the second for the development of super-resolved fluorescence microscopy (2014). New advances in both optogenetics and microscopy now enable researchers to record and manipulate activity from specific populations of cells with better contrast and resolution, at higher speeds, and deeper into live tissues. In this review, we will discuss some of the recent developments in microscope technology and in the synthesis of fluorescent probes, both synthetic and genetically encoded. We focus on how live imaging of cellular physiology has progressed our understanding of the control of gastrointestinal motility, and we discuss the hurdles to overcome in order to apply the novel tools in the field of neurogastroenterology and motility.
Awards and Prizes
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Enteric Nervous System
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Fluorescence
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Fluorescent Dyes
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Gastrointestinal Motility
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Microscopy
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Microscopy, Fluorescence
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Optogenetics
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Physiology
2.Validation of Octanoate Breath Test for Measuring Gastric Emptying in Rats.
Ingrid DEMEDTS ; Christophe VANORMELINGEN ; Hubert VAN BILLOEN ; Tim VANUYTSEL ; Ricard FARRE ; Tatsuhiro MASAOKA ; Alfons VERBRUGGEN ; Kristien VERBEKE ; Pieter VANDEN BERGHE ; Jan TACK
Journal of Neurogastroenterology and Motility 2013;19(2):171-178
BACKGROUND/AIMS: Lack of simple and repeatable tests hampers gastric emptying studies in rats. The aim of this study was to adapt the 14C-octanoate solid gastric emptying breath test for application in rats, and to validate it against radioscintigraphic method. METHODS: After ingestion of a meal containing 3 mCi 99mTc and 2 microCi 14C-octanoate, 23 male Wistar rats were placed on a gamma camera in a airflow container. Scintigraphic images were taken at regular intervals. The amount of 14CO2 in a regularly replaced hyamine hydroxide solution, capturing CO2 in the outflow air, was counted using liquid scintillation spectrometry. 99mTc gastric retention curves and 14CO2-excretion curves were fitted to their respective data. Three rats underwent the same procedures after administration of atropine. RESULTS: Overall Tr10% (time at which 10% of the original amount of 99mTc remained in the stomach) was 355 +/- 64 minutes; Te90% (time at which 90% of total amount of 14CO2 was excreted) was 325 +/- 106 minutes. Their correlation coefficient was 0.71, R-square 0.50 and P < 0.005. Tr1/2 (50% of original amount of 99mTc remained) was 124 +/- 28 minutes; Te1/2 (50% of total amount of 14CO2 excreted) 114 +/- 32 minutes. Their correlation coefficient was 0.83 with R-square of 0.69 and P < 0.00005. In 12 immobilized animals correlation was even better: correlation coefficient 0.84; R-square 0.71 and P < 0.001 (Tr10% was 388 +/- 117 minutes; Te90% 532 +/- 219 minutes; Tr1/2 of 165 +/- 54 minutes; Te1/2 of 175 +/- 67 minutes). Atropine significantly lengthened all emptying times: 904 +/- 307 and 1461 +/- 684 minutes for Tr10% and Te90%, respectively; and 432 +/- 117 minutes for Tr1/2 and 473 +/- 190 minutes for Te1/2. CONCLUSIONS: We adapted and validated the 14C-octanoate gastric emptying breath test for application in rats.
Animals
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Atropine
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Benzethonium
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Breath Tests
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Caprylates
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Eating
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Gamma Cameras
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Gastric Emptying
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Humans
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Hydroxides
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Male
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Meals
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Rats
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Rats, Wistar
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Retention (Psychology)
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Spectrum Analysis
3.Gastrointestinal Motility Changes and Myenteric Plexus Alterations in Spontaneously Diabetic Biobreeding Rats.
Ingrid DEMEDTS ; Tatsuhiro MASAOKA ; Sebastien KINDT ; Gert DE HERTOGH ; Karel GEBOES ; Ricard FARRE ; Pieter VANDEN BERGHE ; Jan TACK
Journal of Neurogastroenterology and Motility 2013;19(2):161-170
BACKGROUND/AIMS: Type 1 diabetes is often accompanied by gastrointestinal motility disturbances. Vagal neuropathy, hyperglycemia, and alterations in the myenteric plexus have been proposed as underlying mechanism. We therefore studied the relationship between vagal function, gastrointestinal motiliy and characteristics of the enteric nervous system in the biobreeding (BB) rat known as model for spontaneous type 1 diabetes. METHODS: Gastric emptying breath test, small intestinal electromyography, relative risk-interval variability, histology and immunohistochemistry on antral and jejunal segments were performed at 1, 8 and 16 weeks after diabetes onset and on age-matched controls. RESULTS: We observed no consistent changes in relative risk-interval variability and gastric emptying rate. There was however, a loss of phases 3 with longer duration of diabetes on small intestinal electromyography. We found a progressive decrease of nitrergic neurons in the myenteric plexus of antrum and jejunum, while numbers of cholinergic nerve were not altered. In addition, a transient inflammatory infiltrate in jejunal wall was found in spontaneous diabetic BB rats at 8 weeks of diabetes. CONCLUSIONS: In diabetic BB rats, altered small intestinal motor control associated with a loss of myenteric nitric oxide synthase expression occurs, which does not depend on hyperglycemia or vagal dysfunction, and which is preceded by transient intestinal inflammation.
Animals
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Breath Tests
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Carbamates
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Diabetes Mellitus
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Electromyography
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Enteric Nervous System
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Gastric Emptying
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Gastrointestinal Motility
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Hyperglycemia
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Immunohistochemistry
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Inflammation
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Jejunum
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Myenteric Plexus
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Nitrergic Neurons
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Nitric Oxide Synthase
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Organometallic Compounds
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Rats
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Rats, Inbred BB