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  • Title: Remote efficacy for two different forms of hyaluronate-based adhesion barriers.
    Author: Greenawalt KE, Colt MJ, Corazzini RL, Syrkina OL, Jozefiak TH.
    Journal: J Invest Surg; 2012 Jun; 25(3):174-80. PubMed ID: 22583014.
    Abstract:
    BACKGROUND: Chemically modified sodium hyaluronate and carboxymethylcellulose (HA/CMC) membrane clinically reduces adhesion formation following surgery but was not designed for laparoscopic use. HA/CMC powder of identical chemical composition has been developed to allow for application laparoscopically. We compared the adhesion reduction efficacy of HA/CMC powder and film when applied directly to or remote from sites of surgical trauma. We also investigated the effect of the powder on wound healing. MATERIALS AND METHODS: Two animal models of adhesion formation were used to evaluate efficacy: a rat peritoneal sidewall defect model and a rabbit cecal abrasion/sidewall defect model. The products were applied directly to the defect or the contralateral sidewall. Adhesions were examined seven days after surgery. In a separate study, the effect of the powder on healing was evaluated at 5, 7, and 28 days using a rat incisional wound strength model. RESULTS: HA/CMC powder and film, when applied directly to the peritoneal defect, significantly reduced adhesions relative to the untreated control in both models. Remote applications of HA/CMC powder also reduced adhesions. In contrast, remote applications of HA/CMC film had no effect. HA/CMC powder did not significantly alter incisional wound strength at any of the timepoints tested. CONCLUSION: In our preclinical models, HA/CMC powder had similar adhesion reduction efficacy to HA/CMC film when applied directly to sites of trauma. In addition, HA/CMC powder reduced adhesions remote from the application site. Importantly, HA/CMC powder did not impair incisional wound healing. On the basis of these results, future investigation of HA/CMC powder is warranted.
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