In Vitro and In Vivo Studies of Biodegradability and Biocompatibility of Poly(εCL)-<i>b</i>-Poly(EtOEP)-Based Films

In Vitro and In Vivo Studies of Biodegradability and Biocompatibility of Poly(εCL)-<i>b</i>-Poly(EtOEP)-Based Films

The control of surface bioadhesive properties of the subcutaneous implants is essential for the development of biosensors and controlled drug release devices. Poly(alkyl ethylene phosphate)-based (co)polymers are structurally versatile, biocompatible and biodegradable, and may be regarded as an alte...

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Main Authors: Ilya Nifant’ev, Andrey Shlyakhtin, Pavel Komarov, Alexander Tavtorkin, Evgeniya Kananykhina, Andrey Elchaninov, Polina Vishnyakova, Timur Fatkhudinov, Pavel Ivchenko
Format: Article
Language:English
Published: MDPI AG 2020-12-01
Series:Polymers
Subjects:
polyesters
polyphosphoesters
polycaprolactone
protein adsorption
ring-opening polymerization
cytotoxicity
Online Access:https://www.mdpi.com/2073-4360/12/12/3039
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spelling doaj-6d0f598e085c4611bee221cef2a4edfe2020-12-19T00:05:05ZengMDPI AGPolymers2073-43602020-12-01123039303910.3390/polym12123039In Vitro and In Vivo Studies of Biodegradability and Biocompatibility of Poly(εCL)-<i>b</i>-Poly(EtOEP)-Based FilmsIlya Nifant’ev0Andrey Shlyakhtin1Pavel Komarov2Alexander Tavtorkin3Evgeniya Kananykhina4Andrey Elchaninov5Polina Vishnyakova6Timur Fatkhudinov7Pavel Ivchenko8Chemistry Department, M.V. Lomonosov Moscow State University, 1-3 Leninskie Gory, 119991 Moscow, RussiaChemistry Department, M.V. Lomonosov Moscow State University, 1-3 Leninskie Gory, 119991 Moscow, RussiaA.V. Topchiev Institute of Petrochemical Synthesis RAS, 29 Leninsky Pr., 119991 Moscow, RussiaA.V. Topchiev Institute of Petrochemical Synthesis RAS, 29 Leninsky Pr., 119991 Moscow, RussiaResearch Institute of Human Morphology, 3 Tsyurupy St., 117418 Moscow, RussiaNational Medical Research Center for Obstetrics Gynecology and Perinatology Named after Academician V.I. Kulakov of Ministry of Healthcare of Russian Federation, 4 Oparina Str., 117997 Moscow, RussiaNational Medical Research Center for Obstetrics Gynecology and Perinatology Named after Academician V.I. Kulakov of Ministry of Healthcare of Russian Federation, 4 Oparina Str., 117997 Moscow, RussiaResearch Institute of Human Morphology, 3 Tsyurupy St., 117418 Moscow, RussiaChemistry Department, M.V. Lomonosov Moscow State University, 1-3 Leninskie Gory, 119991 Moscow, RussiaThe control of surface bioadhesive properties of the subcutaneous implants is essential for the development of biosensors and controlled drug release devices. Poly(alkyl ethylene phosphate)-based (co)polymers are structurally versatile, biocompatible and biodegradable, and may be regarded as an alternative to poly(ethylene glycol) (PEG) copolymers in the creation of antiadhesive materials. The present work reports the synthesis of block copolymers of ε-caprolactone (εCL) and 2-ethoxy-1,3,2-dioxaphospholane-2-oxide (ethyl ethylene phosphate, EtOEP) with different content of EtOEP fragments, preparation of polymer films, and the results of the study of the impact of EtOEP/εCL ratio on the hydrophilicity (contact angle of wetting), hydrolytic stability, cytotoxicity, protein and cell adhesion, and cell proliferation using umbilical cord multipotent stem cells. It was found that the increase of EtOEP/εCL ratio results in increase of hydrophilicity of the polymer films with lowering of the protein and cell adhesion. MTT cytotoxicity test showed no significant deviations in toxicity of poly(εCL) and poly(εCL)-<i>b</i>-poly(EtOEP)-based films. The influence of the length of poly(EtOEP)chain in block-copolymers on fibrotic reactions was analyzed using subcutaneous implantation experiments (Wistar line rats), the increase of the width of the fibrous capsule correlated with higher EtOEP/εCL ratio. However, the copolymer-based film with highest content of polyphosphate had been subjected to faster degradation with a formation of developed contact surface of poly(εCL). The rate of the degradation of polyphosphate in vivo was significantly higher than the rate of the degradation of polyphosphate in vitro, which only confirms an objective value of in vivo experiments in the development of polymer materials for biomedical applications.https://www.mdpi.com/2073-4360/12/12/3039polyesterspolyphosphoesterspolycaprolactoneprotein adsorptionring-opening polymerizationcytotoxicity
collection DOAJ
language English
format Article
sources DOAJ
author Ilya Nifant’ev
Andrey Shlyakhtin
Pavel Komarov
Alexander Tavtorkin
Evgeniya Kananykhina
Andrey Elchaninov
Polina Vishnyakova
Timur Fatkhudinov
Pavel Ivchenko
spellingShingle Ilya Nifant’ev
Andrey Shlyakhtin
Pavel Komarov
Alexander Tavtorkin
Evgeniya Kananykhina
Andrey Elchaninov
Polina Vishnyakova
Timur Fatkhudinov
Pavel Ivchenko
In Vitro and In Vivo Studies of Biodegradability and Biocompatibility of Poly(εCL)-<i>b</i>-Poly(EtOEP)-Based Films
Polymers
polyesters
polyphosphoesters
polycaprolactone
protein adsorption
ring-opening polymerization
cytotoxicity
author_facet Ilya Nifant’ev
Andrey Shlyakhtin
Pavel Komarov
Alexander Tavtorkin
Evgeniya Kananykhina
Andrey Elchaninov
Polina Vishnyakova
Timur Fatkhudinov
Pavel Ivchenko
author_sort Ilya Nifant’ev
title In Vitro and In Vivo Studies of Biodegradability and Biocompatibility of Poly(εCL)-<i>b</i>-Poly(EtOEP)-Based Films
title_short In Vitro and In Vivo Studies of Biodegradability and Biocompatibility of Poly(εCL)-<i>b</i>-Poly(EtOEP)-Based Films
title_full In Vitro and In Vivo Studies of Biodegradability and Biocompatibility of Poly(εCL)-<i>b</i>-Poly(EtOEP)-Based Films
title_fullStr In Vitro and In Vivo Studies of Biodegradability and Biocompatibility of Poly(εCL)-<i>b</i>-Poly(EtOEP)-Based Films
title_full_unstemmed In Vitro and In Vivo Studies of Biodegradability and Biocompatibility of Poly(εCL)-<i>b</i>-Poly(EtOEP)-Based Films
title_sort in vitro and in vivo studies of biodegradability and biocompatibility of poly(εcl)-<i>b</i>-poly(etoep)-based films
publisher MDPI AG
series Polymers
issn 2073-4360
publishDate 2020-12-01
description The control of surface bioadhesive properties of the subcutaneous implants is essential for the development of biosensors and controlled drug release devices. Poly(alkyl ethylene phosphate)-based (co)polymers are structurally versatile, biocompatible and biodegradable, and may be regarded as an alternative to poly(ethylene glycol) (PEG) copolymers in the creation of antiadhesive materials. The present work reports the synthesis of block copolymers of ε-caprolactone (εCL) and 2-ethoxy-1,3,2-dioxaphospholane-2-oxide (ethyl ethylene phosphate, EtOEP) with different content of EtOEP fragments, preparation of polymer films, and the results of the study of the impact of EtOEP/εCL ratio on the hydrophilicity (contact angle of wetting), hydrolytic stability, cytotoxicity, protein and cell adhesion, and cell proliferation using umbilical cord multipotent stem cells. It was found that the increase of EtOEP/εCL ratio results in increase of hydrophilicity of the polymer films with lowering of the protein and cell adhesion. MTT cytotoxicity test showed no significant deviations in toxicity of poly(εCL) and poly(εCL)-<i>b</i>-poly(EtOEP)-based films. The influence of the length of poly(EtOEP)chain in block-copolymers on fibrotic reactions was analyzed using subcutaneous implantation experiments (Wistar line rats), the increase of the width of the fibrous capsule correlated with higher EtOEP/εCL ratio. However, the copolymer-based film with highest content of polyphosphate had been subjected to faster degradation with a formation of developed contact surface of poly(εCL). The rate of the degradation of polyphosphate in vivo was significantly higher than the rate of the degradation of polyphosphate in vitro, which only confirms an objective value of in vivo experiments in the development of polymer materials for biomedical applications.
topic polyesters
polyphosphoesters
polycaprolactone
protein adsorption
ring-opening polymerization
cytotoxicity
url https://www.mdpi.com/2073-4360/12/12/3039
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