Vascular changes in the urinary bladder wall after irradiation (an experimental study in rabbits with angiography and scanning electron microscopy of vascular casts)

Radiation Induced Inflammatory Changes in the Mouse Bladder: The Role of Cyclooxygenase-2

PURPOSE

We assessed the effect of irradiation on COX-2 expression in blood vessels of the mouse bladder wall during the early and late radiation response phases. Vasodilatation was quantified as an additional marker of inflammation related to COX-2 activity.

MATERIALS AND METHODS

Female C3H/Neu mice were irradiated with a single dose of 20 Gy. The intensity of the COX-2 immunohistochemical staining signal was assessed using an arbitrary semiquantitative score of 0 to 3. To evaluate vasodilatation the percent of the bladder wall covered by the lumen of the blood vessels, depicted as vascular area, was determined.

RESULTS

Constitutive COX-2 expression was found in the tunica intima and media of bladder blood vessels. During the early response significant biphasic changes were detected in the COX-2 staining signal as well as in the vascular area with peak values on days 4 and 16 after irradiation. A significant association was found between vascular area and COX-2 expression in blood vessels during the early radiation response (p <0.0001). No changes in COX-2 expression were observed during the late phase, that is between days 90 and 360 after irradiation. Minor vasodilatation seen during the late phase did not correlate with COX-2 activity.

CONCLUSIONS

Irradiation resulted in pronounced COX-2 dependent inflammatory changes in the bladder wall during the early but not during the late radiation reaction. Therefore, a potential effect of COX-2 inhibition on early radiation side effects in the bladder can be proposed.