Blood compatibility of polymers derived from natural materials

Fedel, Mariangela; Endoğan, Tuğba; Hasırcı, Nesrin; Maniglio, Devid; Morelli, Andrea; Chiellini, Emo; Motta, Antonella

doi:10.1177/0883911512446060

Cited by 32 publications

(15 citation statements)

References 51 publications

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“…From this perspective, SFP from silkworms is a useful protein‐based material due to its functional features. SFP has a unique combination of blood compatibility, good wet state mechanical strength, cell biocompatibility, water‐vapor permeability as well as resistance to early enzymatic degradation, which makes it a useful material for biomedical research 3–7…”

Section: Introductionmentioning

confidence: 99%

Ultrasound Sonication Effects on Silk Fibroin Protein

Samal

Kaplan

Chiellini

2013

Macro Materials & Eng

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The utilization of silk fibroin protein (SFP) in the field of biomaterials and tissue engineering plays an important role due to its promising mechanical, biological, and processing properties. In the present study, SFP solutions were exposed to ultrasound sonication to assess impact on molecular weight (Mw), sol–gel transition behavior, and physico‐chemical properties. The Mw of SFP was significantly reduced with sonication, determined by sodium dodecyl sulfate polyacrylamide gels (SDS–PAGE) gel electrophoresis. Sol–gel transitions were observed as SFP assembled to form a reversible SFP gel network at different concentrations and sonication time with the formation of a β‐sheet‐rich conformation in the gel state. The conformational changes and morphological properties were correlated over a range of SFP concentrations by circular dichroism (CD), UV spectroscopy, swelling and attenuated total reflectance fourier transformed infrared spectroscopy (ATR‐FTIR).

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Section: Introductionmentioning

confidence: 99%

Ultrasound Sonication Effects on Silk Fibroin Protein

Samal

Kaplan

Chiellini

2013

Macro Materials & Eng

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“…This unique polymeric system has shown promising embolic efficacy in small and large animal models, to staunch bleeding. Gelatin is a collagen‐derived degradation product and therefore can directly activate platelets . Silica, because of its charge, is known to activate coagulation factors .…”

Section: Hemostatic Materials and Technologies For Intravenous Applicmentioning

confidence: 99%

Biomaterials and Advanced Technologies for Hemostatic Management of Bleeding

et al. 2017

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Bleeding complications arising from trauma, surgery, and as congenital, disease-associated, or drug-induced blood disorders can cause significant morbidities and mortalities in civilian and military populations. Therefore, stoppage of bleeding (hemostasis) is of paramount clinical significance in prophylactic, surgical, and emergency scenarios. For externally accessible injuries, a variety of natural and synthetic biomaterials have undergone robust research, leading to hemostatic technologies including glues, bandages, tamponades, tourniquets, dressings, and procoagulant powders. In contrast, treatment of internal noncompressible hemorrhage still heavily depends on transfusion of whole blood or blood's hemostatic components (platelets, fibrinogen, and coagulation factors). Transfusion of platelets poses significant challenges of limited availability, high cost, contamination risks, short shelf-life, low portability, performance variability, and immunological side effects, while use of fibrinogen or coagulation factors provides only partial mechanisms for hemostasis. With such considerations, significant interdisciplinary research endeavors have been focused on developing materials and technologies that can be manufactured conveniently, sterilized to minimize contamination and enhance shelf-life, and administered intravenously to mimic, leverage, and amplify physiological hemostatic mechanisms. Here, a comprehensive review regarding the various topical, intracavitary, and intravenous hemostatic technologies in terms of materials, mechanisms, and state-of-art is provided, and challenges and opportunities to help advancement of the field are discussed.

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“…However, the blood compatibility of chitosan is complicate. First, the blood compatibility of chitosan is affected by the structure of chitosan, including degree of acetylation, molecular weight, crystallinity, and visual structure . Second, positively charged chitosan is easy to adsorb negative proteins which would cause platelets activation and thrombus formation.…”

Section: Introductionmentioning

confidence: 99%

Preparation and blood compatibility of electrospun nanofibrous CTS/PLA mats from chitosan nanopowders and poly(lactic acid)

et al. 2017

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Chitosan nanopowder (NCTS) was prepared through ball milling. NCTS was successfully electrospun to nanofibers with the assistance of poly(lactic acid) (PLA) to prepare electrospun mats (NCTS/PLA). Scanning electron microscope images revealed that there were no chitosan particles in NCTS/PLA, indicating NCTS had been stretched to nanofibers. The effects of the electrospinning parameters (voltage, distance, and NCTS amount) on the morphology of NCTS/PLA were investigated. X‐ray photoelectron spectroscopy verified the existence of chitosan in the mats. All the NCTS/PLA mats had a water contact angle higher than 130°, showing good hydrophobicity. NCTS/PLA expressed good blood compatibility according to the results of coagulation time and platelet adhesion experiment. NCTS/PLA had a little longer activated partial thrombin time than PLA and more NCTS leaded longer coagulation times. No platelets aggregation and deformation appeared on NCTS/PLA mats. POLYM. COMPOS., 39:E416–E425, 2018. © 2017 Society of Plastics Engineers

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Blood compatibility of polymers derived from natural materials

Cited by 32 publications

References 51 publications

Ultrasound Sonication Effects on Silk Fibroin Protein

Ultrasound Sonication Effects on Silk Fibroin Protein

Biomaterials and Advanced Technologies for Hemostatic Management of Bleeding

Preparation and blood compatibility of electrospun nanofibrous CTS/PLA mats from chitosan nanopowders and poly(lactic acid)

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