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Int J Basic Sci Med. 2017;2(1): 58-70. doi: 10.15171/ijbsm.2017.12

Review article

Evaluation of Mechanical Properties and Medical Applications of Polycaprolactone Small Diameter Artificial Blood Vessels

Mahnazsadat Mirbagheri 1,2,3, Davod Mohebbi-kalhori 1,2,4,5 * , Nafiseh Jirofti 1,2,6 *

Cited by CrossRef: 20


1- Jirofti N, Mohebbi-Kalhori D, Samimi A, Hadjizadeh A, Kazemzadeh G. Small-diameter vascular graft using co-electrospun composite PCL/PU nanofibers. Biomed Mater. 2018;13(5):055014 [Crossref]
2- Jirofti N, Golandi M, Movaffagh J, Ahmadi F, Kalalinia F. Improvement of the Wound-Healing Process by Curcumin-Loaded Chitosan/Collagen Blend Electrospun Nanofibers: In Vitro and In Vivo Studies. ACS Biomater Sci Eng. 2021;7(8):3886 [Crossref]
3- Malik S, Sundarrajan S, Hussain T, Nazir A, Berto F, Ramakrishna S. Electrospun biomimetic polymer nanofibers as vascular grafts. Mat Design & Process Comms. 2021;3(6) [Crossref]
4- Nazarkina Z, Chelobanov B, Kuznetsov K, Shutov A, Romanova I, Karpenko A, Laktionov P. Influence of Elongation of Paclitaxel-Eluting Electrospun-Produced Stent Coating on Paclitaxel Release and Transport through the Arterial Wall after Stenting. Polymers. 2021;13(7):1165 [Crossref]
5- Kalalinia F, Taherzadeh Z, Jirofti N, Amiri N, Foroghinia N, Beheshti M, Bazzaz B, Hashemi M, Shahroodi A, Pishavar E, Tabassi S, Movaffagh J. Evaluation of wound healing efficiency of vancomycin-loaded electrospun chitosan/poly ethylene oxide nanofibers in full thickness wound model of rat. International Journal of Biological Macromolecules. 2021;177:100 [Crossref]
6- Kazemzadeh G, Jirofti N, Mohebbi-Kalhori D, Sarhaddi F, Taheri R. Pathological examination of blended and co-electrospinning hybrid polycaprolactone/polyurethane nanofibers for soft tissue engineering applications. Journal of Industrial Textiles. 2022;:152808372210740 [Crossref]
7- Jose A, Hazeena S, Lakshmi N, B A, Madhavan A, Sirohi R, Tarafdar A, Sindhu R, Awasthi M, Pandey A, Binod P. Bacterial biopolymers: From production to applications in biomedicine. Sustainable Chemistry and Pharmacy. 2022;25:100582 [Crossref]
8- Tran N, Huynh T, Phan B, Dang N, Phan T, Ha H, Truong L, Huynh P, Tran N, Vo V, Ha P, Nguyen T. Conjugated Linoleic Acid Grafting Improved Hemocompatibility of the Polycaprolactone Electrospun Membrane. International Journal of Polymer Science. 2020;2020:1 [Crossref]
9- Birer M, Acartürk F. Telmisartan loaded polycaprolactone/gelatin-based electrospun vascular scaffolds. International Journal of Polymeric Materials and Polymeric Biomaterials. 2022;71(11):858 [Crossref]
10- Horakova J, Mikes P, Saman A, Jencova V, Klapstova A, Svarcova T, Ackermann M, Novotny V, Suchy T, Lukas D. The effect of ethylene oxide sterilization on electrospun vascular grafts made from biodegradable polyesters. Materials Science and Engineering: C. 2018;92:132 [Crossref]
11- Khodadoust M, Mohebbi-Kalhori D, Jirofti N. Fabrication and Characterization of Electrospun Bi-Hybrid PU/PET Scaffolds for Small-Diameter Vascular Grafts Applications. Cardiovasc Eng Tech. 2018;9(1):73 [Crossref]
12- Jirofti N, Mohebbi-Kalhori D, Samimi A, Hadjizadeh A, Kazemzadeh G. Fabrication and characterization of a novel compliant small-diameter PET/PU/PCL triad-hybrid vascular graft. Biomed Mater. 2020;15(5):055004 [Crossref]
13- F, Semnani D, Khorasani S, Varshosaz J, Khalili S, Mohammadi S, Kaviannasab E. Polycaprolactone–Gelatin Membranes in Controlled Drug Delivery of 5-Fluorouracil. Polym Sci Ser A. 2020;62(6):636 [Crossref]
14- Chlanda A, Kijeńska-Gawrońska E, Zdunek J, Swieszkowski W. Internal nanocrystalline structure and stiffness alterations of electrospun polycaprolactone-based mats after six months of in vitro degradation. An atomic force microscopy assay. Journal of the Mechanical Behavior of Biomedical Materials. 2020;101:103437 [Crossref]
15- Nazarkina Z, Chelobanov B, Chernonosova V, Romanova I, Karpenko A, Laktionov P. Sirolimus-Eluting Electrospun-Produced Matrices as Coatings for Vascular Stents: Dependence of Drug Release on Matrix Structure and Composition of the External Environment. Materials. 2020;13(12):2692 [Crossref]
16- Fraj A, Jaâfar F, Marti M, Coderch L, Ladhari N. A comparative study of oregano (Origanum vulgare L.) essential oil-based polycaprolactone nanocapsules/ microspheres: Preparation, physicochemical characterization, and storage stability. Industrial Crops and Products. 2019;140:111669 [Crossref]
17- Sharma D, Saha S, Satapathy B. Recent advances in polymer scaffolds for biomedical applications. Journal of Biomaterials Science, Polymer Edition. 2022;33(3):342 [Crossref]
18- Rostam-Alilou A, Jafari H, Zolfagharian A, Serjouei A, Bodaghi M. Experimentally validated vibro-acoustic modeling of 3D bio-printed grafts for potential use in human tympanic membrane regeneration. Bioprinting. 2022;25:e00186 [Crossref]
19- Deshmukh A, Jain P, Chauhan P, Aminabhavi T, Petwal V, Verma V. Effect of electron beam irradiation induced grafting of sialic acid onto polycaprolactone – Feasibility study. Materials Science for Energy Technologies. 2018;1(1):77 [Crossref]
20- Jirofti N, Mohebbi-Kalhori D, Masoumi R. Enhancing biocompatibility of PCL/PU nano-structures to control the water wettability by NaOH hydrolysis treatment for tissue engineering applications. Journal of Industrial Textiles. 2020;:152808372096326 [Crossref]
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