Prostaglandin Production After Experimental Discectomy

Abstract

Study Design This study ascertained the effects of discectomy on prostaglandin synthesis. Objectives The purpose of these novel experiments was to measure the levels of two prostaglandins in lumbar epidural fluid obtained from an area subjected to discectomy. For comparison, lumbar epidural fluid from a site not disturbed by discectomy and fluid from a subcutaneous site were analyzed for the prostaglandins. Summary of Background Data Previous studies have shown that nuclear material obtained from degenerative discs manifests an extraordinarily high level of phospholipase A₂ activity. Others have hypothesized that the known inflammatory effects of phospholipase A₂ are due to the release of arachidonic acid, which is converted to various eicosanoids, including several algesic prostaglandins (PGI₂ and PGE₂). No previous study has continuously measured prostaglandin levels in epidural fluid or assessed the effect of discectomy on prostaglandin production. Methods An ultrafiltrate of lumbar epidural fluid of dogs was obtained from indwelling catheters located adjacent to spinal areas that were and were not subjected to discectomy as well as from subcutaneous tissue. The fluid was collected daily for 14 days and analyzed for PGE₂ and 6-keto PGF_1α (the stable metabolite of PGI₂) by radioimmunoassay. Results The concentration of 6-keto PGF_1α and PGE₂ in fluid collected during the first 24 hours was significantly higher in the area of discectomy than in the epidural region that was not subjected to discectomy and significantly higher than in fluid obtained from the subcutaneous site. The high level of these prostaglandins at the discectomy site fell rapidly, so that by the end of 48 hours the differences in values between spinal fluid from the discectomy and nondiscectomy regions were not statistically significant. The concentration of the prostaglandins in epidural fluid decreased with time and became minimal within the second week. Conclusion The removal of normal discs is accompanied for 24 hours by a marked rise in the synthesis of two prostaglandins known to produce pain. Because the concentration of prostaglandins in epidural fluid decreased rapidly thereafter, the initial surge obtained appears to be associated more with chemical factors such as phospholipase A₂ than with wound healing.