OBJECTIVE: To evaluate microdialysis as a method to assess different degrees of intestinal damage and recovery during ischemia and reperfusion; to evaluate information obtained from microdialysis catheters in the peritoneum, the gut wall, and the gut lumen. DESIGN: Randomized, controlled animal experiment. SETTING: University laboratory animal center. SUBJECTS: Twenty-seven domestic pigs. INTERVENTIONS: The superior mesenteric artery was cross-clamped for 60 mins (n = 14) or 120 mins (n = 10) followed by 2 or 4 hrs of reperfusion. Three pigs served as controls. MEASUREMENTS AND MAIN RESULTS: Intestinal mucosal integrity was assessed by morphometry, adenosine triphosphate in the gut wall, and permeability of C-polyethylene glycol. Lactate, glycerol, pyruvate, and glucose were measured by microdialysis. Changes in adenosine triphosphate, permeability, or lactate did not correlate to different extents of intestinal damage caused by 60 or 120 mins of ischemia. During the reperfusion period, pigs with 60 mins of intestinal ischemia showed a faster recovery of these variables than pigs with 120 mins of intestinal ischemia. Glycerol increased with increasing duration of the ischemic insult. After 60 mins of intestinal ischemia, glycerol in the gut lumen decreased toward baseline but remained high after 120 mins of intestinal ischemia. There was a good correlation between gut luminal glycerol and recovery of mucosal damage throughout the reperfusion period. In the peritoneal cavity, both glycerol and lactate decreased to baseline relatively shortly after onset of reperfusion independent of the duration of intestinal ischemia. CONCLUSIONS: Microdialysis of glycerol provides information about the extent and severity of intestinal damage after ischemia and about the ensuing recovery. The gut lumen is to be preferred as a site for placement of microdialysis catheters.
OBJECTIVE: To evaluate microdialysis as a method to assess different degrees of intestinal damage and recovery during ischemia and reperfusion; to evaluate information obtained from microdialysis catheters in the peritoneum, the gut wall, and the gut lumen. DESIGN: Randomized, controlled animal experiment. SETTING: University laboratory animal center. SUBJECTS: Twenty-seven domestic pigs. INTERVENTIONS: The superior mesenteric artery was cross-clamped for 60 mins (n = 14) or 120 mins (n = 10) followed by 2 or 4 hrs of reperfusion. Three pigs served as controls. MEASUREMENTS AND MAIN RESULTS: Intestinal mucosal integrity was assessed by morphometry, adenosine triphosphate in the gut wall, and permeability of C-polyethylene glycol. Lactate, glycerol, pyruvate, and glucose were measured by microdialysis. Changes in adenosine triphosphate, permeability, or lactate did not correlate to different extents of intestinal damage caused by 60 or 120 mins of ischemia. During the reperfusion period, pigs with 60 mins of intestinal ischemia showed a faster recovery of these variables than pigs with 120 mins of intestinal ischemia. Glycerol increased with increasing duration of the ischemic insult. After 60 mins of intestinal ischemia, glycerol in the gut lumen decreased toward baseline but remained high after 120 mins of intestinal ischemia. There was a good correlation between gut luminal glycerol and recovery of mucosal damage throughout the reperfusion period. In the peritoneal cavity, both glycerol and lactate decreased to baseline relatively shortly after onset of reperfusion independent of the duration of intestinal ischemia. CONCLUSIONS: Microdialysis of glycerol provides information about the extent and severity of intestinal damage after ischemia and about the ensuing recovery. The gut lumen is to be preferred as a site for placement of microdialysis catheters.
Authors: Chandra S Chaurasia; Markus Müller; Edward D Bashaw; Eva Benfeldt; Jan Bolinder; Ross Bullock; Peter M Bungay; Elizabeth C M DeLange; Hartmut Derendorf; William F Elmquist; Margareta Hammarlund-Udenaes; Christian Joukhadar; Dean L Kellogg; Craig E Lunte; Carl Henrik Nordstrom; Hans Rollema; Ronald J Sawchuk; Belinda W Y Cheung; Vinod P Shah; Lars Stahle; Urban Ungerstedt; Devin F Welty; Helen Yeo Journal: Pharm Res Date: 2007-03-27 Impact factor: 4.580
Authors: Christoph Meier; Claudio Contaldo; Rene Schramm; Joerg H Holstein; Juerg Hamacher; Michaela Amon; Guido A Wanner; Otmar Trentz; Michael D Menger Journal: Intensive Care Med Date: 2007-06-19 Impact factor: 41.787
Authors: Lauri Pynnönen; Minna Minkkinen; Anders Perner; Sari Räty; Isto Nordback; Juhani Sand; Jyrki Tenhunen Journal: BMC Gastroenterol Date: 2013-12-10 Impact factor: 3.067