In our study, Wister outbred rats underwent laparotomy and excision of a portion of their peritoneum to initiate adhesion formation process. One of six different hemostatic agents, namely, activated starch microspheres (Arista AH; Medafor Inc., Minneapolis, MN), glutaraldehyde activated collagen (BioGlue; Cryolife Inc., Kennesaw, GA), thrombin coated collagen microspheres (FloSeal; Baxter Inc., Deerfield, IL), thrombin activated fibrin polymer (Tisseel, Baxter), polyethylene glycol polymer (CoSeal, Baxter), or oxidized cellulose (Surgicel; Ethicon Inc., Somerville, NJ), was placed in the area of peritoneal defect. All animals were sacrificed on post-op day 7 and strength and extent of adhesion formation was determined. Histopathological examination of rat caecum was also performed.
Arista and CoSeal showed significantly lower adhesion formation than controls (P < 0.05). Higher adhesion scores were seen in BioGlue (P < 0.05) treated rats. Additionally, histopathologic examination showed that BioGlue caused statistically more inflammation and necrosis than controls (P < 0.05). Total adhesion score increased with residual amount of agent present at 7 d.
Use of Arista and CoSeal may help in reducing peritoneal adhesions after intra-abdominal surgeries. Furthermore, there appears to be a relationship between the creation of inflammation and necrosis in tissues and the eventual formation of adhesions. This could aid in improving the design of these agents in the future.