Objectives: Thoracic reintervention is a common treatment; however, preventing adhesion of the lung to the thoracic cavity wall remains a problem. This study aimed to investigate the effect on pleural adhesion of covering the postoperative pleural injury site with cross-linked gelatin glue (gelatin plus glutaraldehyde, hereafter 'gelatin glue') and to evaluate the proliferation of healing cells on gelatin glue.
Methods: We created a rat incisional lung-wound model and compared the effects of sealing the wound with gelatin glue (group A, n = 5), fibrin glue (group B, n = 5) or fibrin glue with a polyglycolic acid sheet (group C, n = 5). Adhesions were assessed 28 days postoperatively and compared among the groups using the Karacam's scoring method. Lung-wound healing was studied histologically at day 7 postoperatively. Mesothelial cell proliferation was investigated on gelatin and fibrin glues in vitro.
Results: There were no or few adhesions of the chest wall in group A. The adhesion scores (mean ± standard deviation) were 1.2 ± 0.4, 2.6 ± 1.4 and 3.2 ± 1.2 in groups A, B and C, respectively (A vs C, P = 0.0496). During the healing process, the gelatin glue surface was covered by mesothelial-like cells. Proliferation of cultured mesothelial cells was promoted on the gelatin glue compared with the fibrin glue.
Conclusions: Covering lung wounds with the gelatin glue reduced adhesions and promoted the growth of healing cells compared with the fibrin glue. These findings suggest that the gelatin glue may help prevent adhesions and thus be a therapeutically effective biomaterial in lung surgery.
Keywords: Antiadhesion; Biomaterial; Gelatin glue; Mesothelial cell; Pleura.
© The Author(s) 2019. Published by Oxford University Press on behalf of the European Association for Cardio-Thoracic Surgery. All rights reserved.