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Multi-functional dual-layer nanofibrous membrane for prevention of postoperative pancreatic leakage

Postoperative pancreatic leakage due to pancreatitis in patients is a life-threatening surgical complication. The majority of commercial barriers are unable to meet the demands for pancreatic leakage due to poor adhesiveness, toxicity, and inability to degrade. In this study, we fabricated mitomycin...

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Published in:	Biomaterials 2024-06, Vol.307, p.122508-122508, Article 122508
Main Authors:	Shanto, Prayas Chakma, Fahad, Md Abdullah Al, Jung, Hae Il, Park, Myeongki, Kim, Hyeyoung, Bae, Sang Ho, Lee, Byong-Taek
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Language:	English
Subjects:	Alginate-gelatin-thrombin Electrospun dual membrane Molecular simulations Pancreatic leakage PCL-Gelatin-mitomycin-c
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creator	Shanto, Prayas Chakma Fahad, Md Abdullah Al Jung, Hae Il Park, Myeongki Kim, Hyeyoung Bae, Sang Ho Lee, Byong-Taek
description	Postoperative pancreatic leakage due to pancreatitis in patients is a life-threatening surgical complication. The majority of commercial barriers are unable to meet the demands for pancreatic leakage due to poor adhesiveness, toxicity, and inability to degrade. In this study, we fabricated mitomycin-c and thrombin-loaded multifunctional dual-layer nanofibrous membrane with a combination of alginate, PCL, and gelatin to resolve the leakage due to suture line disruption, promote hemostasis, wound healing, and prevent postoperative tissue adhesion. Electrospinning was used to fabricate the dual-layer system. The study results demonstrated that high gelatin and alginate content in the inner layer decreased the fiber diameter and water contact angle, and crosslinking allowed the membrane to be more hydrophilic, making it highly biodegradable, and adhering firmly to the tissue surfaces. The results of in vitro biocompatibility and hemostatic assay revealed that the dual-layer had a higher cell proliferation and showed effective hemostatic properties. Moreover, the in vivo studies and in silico molecular simulation indicated that the dual layer was covered at the wound site, prevented suture disruption and leakage, inhibited hemorrhage, and reduced postoperative tissue adhesion. Finally, the study results proved that dual-layer multifunctional nanofibrous membrane has a promising therapeutic potential in preventing postoperative pancreatic leakage.
doi_str_mv	10.1016/j.biomaterials.2024.122508
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The majority of commercial barriers are unable to meet the demands for pancreatic leakage due to poor adhesiveness, toxicity, and inability to degrade. In this study, we fabricated mitomycin-c and thrombin-loaded multifunctional dual-layer nanofibrous membrane with a combination of alginate, PCL, and gelatin to resolve the leakage due to suture line disruption, promote hemostasis, wound healing, and prevent postoperative tissue adhesion. Electrospinning was used to fabricate the dual-layer system. The study results demonstrated that high gelatin and alginate content in the inner layer decreased the fiber diameter and water contact angle, and crosslinking allowed the membrane to be more hydrophilic, making it highly biodegradable, and adhering firmly to the tissue surfaces. The results of in vitro biocompatibility and hemostatic assay revealed that the dual-layer had a higher cell proliferation and showed effective hemostatic properties. Moreover, the in vivo studies and in silico molecular simulation indicated that the dual layer was covered at the wound site, prevented suture disruption and leakage, inhibited hemorrhage, and reduced postoperative tissue adhesion. Finally, the study results proved that dual-layer multifunctional nanofibrous membrane has a promising therapeutic potential in preventing postoperative pancreatic leakage.</description><identifier>ISSN: 0142-9612</identifier><identifier>EISSN: 1878-5905</identifier><identifier>DOI: 10.1016/j.biomaterials.2024.122508</identifier><identifier>PMID: 38394713</identifier><language>eng</language><publisher>Netherlands: Elsevier Ltd</publisher><subject>Alginate-gelatin-thrombin ; Electrospun dual membrane ; Molecular simulations ; Pancreatic leakage ; PCL-Gelatin-mitomycin-c</subject><ispartof>Biomaterials, 2024-06, Vol.307, p.122508-122508, Article 122508</ispartof><rights>2024 Elsevier Ltd</rights><rights>Copyright © 2024 Elsevier Ltd. 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subjects	Alginate-gelatin-thrombin Electrospun dual membrane Molecular simulations Pancreatic leakage PCL-Gelatin-mitomycin-c
title	Multi-functional dual-layer nanofibrous membrane for prevention of postoperative pancreatic leakage
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