Reduction of retrosternal and pericardial adhesions with rapidly resorbable polymer films

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Original Articles: Cardiovascular

Reduction of retrosternal and pericardial adhesions with rapidly resorbable polymer films

Naoki Okuyama, MD^a, Catherine Y. Wang, MD^b, Eric A. Rose, MD^b, Kathleen E. Rodgers, PhD^a, Eli Pines, PhD^a, Gere S. diZerega, MD^a, Mehmet C. Oz, MD^b

^a Livingston Reproductive Biology Laboratory, Department of Obstetrics and Gynecology, University of Southern California, Los Angeles, California, USA
^b Division of Cardiovascular Surgery, Columbia University, New York, New York, USA

Address reprint requests to Dr Oz, Columbia-Presbyterian Medical Center, Milstein 7-435, 177 Fort Washington Ave, New York, NY 10032;
e-mail: mco2{at}columbia.edu

Background. The formation of postoperative cardiac adhesionsmakes a repeat sternotomy time consuming and dangerous. Manyattempts have been made to solve this problem by using eitherdrugs to inhibit fibrinolytic activity or different types ofpericardial substitutes. The results have not been satisfactory.

Methods. The efficacy of bioresorbable film prototypes madeof polyethylene glycol (EO) and polylactic acid (LA) (EO/LA= 1.5, 2.5, and 3.0) in the prevention of adhesions after cardiacoperations in canine models was tested. After desiccation andabrasion of the epicardium, a transparent bioresorbable filmwas placed over the heart. The pericardium was closed to allowintrapericardial adhesions (n = 32) or left open and attachedto the chest wall to induce retrosternal adhesions (n = 17).Postoperative recovery was similar among the groups. Retrosternaland pericardial adhesions were evaluated at necropsy 3 weekslater by assessing area, tenacity, and density of the adhesions.

Results. In the control dogs, tenacious, dense adhesions wereobserved. In contrast, adhesion formation was reduced at allsites covered by the films. The bioresorbable films were efficaciousin the reduction of adhesion formation between epicardium andpericardium or between epicardium and sternum after cardiacoperation. The EO/LA 1.5 film most effectively prevented theearly adhesions.

Conclusions. The bioresorbable films (EO/LA = 1.5, 2.5, and3.0) significantly reduced adhesion formation, with EO/LA =1.5 (Repel CV) being optimal. As the barrier was rapidly resorbed,the capsule formation induced by permanent barriers was avoided.

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