TY - JOUR
T1 - Acute colonic ischaemia in rats results in long-term structural changes without alterations of colonic sensitivity
AU - Ravnefjord, Anna
AU - Pettersson, Madeleine
AU - Rehnström, Erika
AU - Martinez, Vicente
PY - 2008/12/1
Y1 - 2008/12/1
N2 - Colonic ischaemia and mast cells have been involved in the pathophysiology of the functional gastrointestinal disorder irritable bowel syndrome, although the cause-effect relationships remain unknown. We assessed long-term histopathological and functional changes associated to an acute ischaemic episode (1 h) of the colon, followed by 8-week recovery, in rats. Functional colonic alterations [sensitivity during colorectal distension (CRD), compliance and propulsive motility] were assessed regularly during the recovery. Colonic histopathology (presence of inflammation, morphometric alterations and variations in neuronal density in the enteric nervous system) 8-week postischaemia was assessed. Following ischaemia, none of the functional parameters tested (motility, sensitivity and compliance) were affected. At necropsy, the colon presented an overall normal appearance with an increase in weight of the ischaemic area (mg/cm: 99 ± 6; P < 0.05 vs. control: 81 ± 4 or sham ischaemia: 81 ± 3). Histopathological evaluations revealed the presence of a local infiltrate of mast cells in the area of ischaemia (nb of mast cells: 142 ± 50; P < 0.05 vs. control, 31 ± 14 or sham ischaemia: 40 ± 16), without other significant alterations. Animals subjected to colonic ischaemia and treated 8 weeks later with the mast cell degranulator, compound 48/80, showed no changes in CRD-related pain responses. These studies show that acute colonic ischaemia is associated with the presence of a long-term local infiltration of mast cells, located within the serosa and muscle layers, despite the absence of functional changes, including colonic sensitivity. Considering the important pathophysiological functions of mast cells, the observed mast cell infiltration may be involved in ischaemia-induced functional changes yet to be characterized. © 2008 The Authors.
AB - Colonic ischaemia and mast cells have been involved in the pathophysiology of the functional gastrointestinal disorder irritable bowel syndrome, although the cause-effect relationships remain unknown. We assessed long-term histopathological and functional changes associated to an acute ischaemic episode (1 h) of the colon, followed by 8-week recovery, in rats. Functional colonic alterations [sensitivity during colorectal distension (CRD), compliance and propulsive motility] were assessed regularly during the recovery. Colonic histopathology (presence of inflammation, morphometric alterations and variations in neuronal density in the enteric nervous system) 8-week postischaemia was assessed. Following ischaemia, none of the functional parameters tested (motility, sensitivity and compliance) were affected. At necropsy, the colon presented an overall normal appearance with an increase in weight of the ischaemic area (mg/cm: 99 ± 6; P < 0.05 vs. control: 81 ± 4 or sham ischaemia: 81 ± 3). Histopathological evaluations revealed the presence of a local infiltrate of mast cells in the area of ischaemia (nb of mast cells: 142 ± 50; P < 0.05 vs. control, 31 ± 14 or sham ischaemia: 40 ± 16), without other significant alterations. Animals subjected to colonic ischaemia and treated 8 weeks later with the mast cell degranulator, compound 48/80, showed no changes in CRD-related pain responses. These studies show that acute colonic ischaemia is associated with the presence of a long-term local infiltration of mast cells, located within the serosa and muscle layers, despite the absence of functional changes, including colonic sensitivity. Considering the important pathophysiological functions of mast cells, the observed mast cell infiltration may be involved in ischaemia-induced functional changes yet to be characterized. © 2008 The Authors.
KW - Colon
KW - Colonic compliance
KW - Colorectal distension
KW - Irritable bowel syndrome
KW - Ischaemia
KW - Mast cells
KW - Visceral pain
U2 - 10.1111/j.1365-2613.2008.00623.x
DO - 10.1111/j.1365-2613.2008.00623.x
M3 - Article
SN - 0959-9673
VL - 89
SP - 476
EP - 489
JO - International Journal of Experimental Pathology
JF - International Journal of Experimental Pathology
ER -