Collagen levels are normalized after decompression of experimentally obstructed colon.

AIM: Our aim was to define the dynamics in collagen concentrations in the large bowel wall following decompression of experimental obstruction.
METHOD: Colonic obstruction was created in 28 male rats by the placement of a silicone ring around the distal colon. The ring was removed after 4 days to mimic endoscopical decompression by stent deployment. Colon circumference and collagen concentration were measured proximal to the obstructed segment immediately and at 3 and 10 days after decompression. The corresponding colonic sites of 23 sham-operated and eight nonoperated control animals were subjected to identical analyses.
RESULTS: Four days of obstruction resulted in a more than twofold increase in colonic circumference (20 vs 8 mm), with a concomitant 43% reduction (P = 0.001) in collagen concentration in the bowel wall proximal to the obstruction compared with sham animals. Three days after decompression, collagen concentrations remained reduced (P < 0.05), while there was no significant difference after 10 days with either sham-operated or nonoperated controls. Colonic circumference of the obstructed colon remained slightly distended (11 mm) on day 10 and tended to correlate (r(S) = 0.51, P = 0.053) with total matrix metalloproteinase activity.
CONCLUSION: The marked reduction in collagen concentration in an experimentally obstructed colon is normalized 10 days after decompression. These findings may have clinical implications for the timing of surgical resection.