Experimental Study of Intraparenchymal Fibrinogen and Topical Thrombin to Seal Pleural Defects

Experimental Study of Intraparenchymal Fibrinogen and Topical Thrombin to Seal Pleural Defects

Fibrin sealants are used to close surgical pleural defects, but may detach, causing a postoperative air-leak. We investigated a new means of applying fibrin glue for closing pleural defects. Pleural defects (10-mm and 4-mm diameters, respectively) were created in swine and rats via thoracotomy. They...

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Bibliographic Details
Published in:The Tokai journal of experimental and clinical medicine Vol. 41; no. 4; p. 185
Main Authors: Yamamoto, Jun, Kohno, Mitsutomo, Izawa, Naoko, Ema, Toshinari, Hato, Tai, Kamiyama, Ikuo, Ohtsuka, Takashi, Watanabe, Masazumi
Format: Journal Article
Language:English
Published: Japan 20-12-2016
Subjects:
Anastomotic Leak - prevention & control
Anastomotic Leak - therapy
Animals
Female
Fibrin Tissue Adhesive - administration & dosage
Fibrinogen - administration & dosage
Injections
Male
Models, Animal
Pleura
Postoperative Complications - prevention & control
Postoperative Complications - therapy
Rats, Wistar
Solutions
Swine
Thrombin - administration & dosage
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Summary:Fibrin sealants are used to close surgical pleural defects, but may detach, causing a postoperative air-leak. We investigated a new means of applying fibrin glue for closing pleural defects. Pleural defects (10-mm and 4-mm diameters, respectively) were created in swine and rats via thoracotomy. They were sealed by a) injection of a fibrinogen solution into the lung parenchyma after instillation of a thrombin solution onto the pleural defect (group A), b) fibrinogen and thrombin spray (group B), c) fibrinogen instillation and a thrombin-dipped polyglycolic acid sheet (group C), or d) fibrin glue-coated collagen fleece (group D). Resistance to airway pressure was compared and the sealed areas were histologically examined. In group A, the minimum seal-breaking airway pressure was consistently > 40 cmH2O, versus 37.2 ± 3.6 cmH2O in group B, 37.2 ± 4.0 cmH2O in group C, and 39.0 ± 1.7 cmH2O in group D, which was statistically significant. Histologically, the fibrin layer infiltrated the lung parenchyma and covered the defect in group A, but not in the other groups. The intraparenchymal injection of fibrinogen combined with instillation of thrombin created an effective fibrin layer associated with early pleural regeneration that reliably prevented pleural air leaks.
ISSN:2185-2243