Self-Assembling Drug Formulations with Tunable Permeability and Biodegradability
This review focuses on key topics in the field of drug delivery related to the design of nanocarriers answering the biomedicine criteria, including biocompatibility, biodegradability, low toxicity, and the ability to overcome biological barriers. For these reasons, much attention is paid to the amph...
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2021
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oai:doaj.org-article:ea713ebd76bf4212947fc39a26e273ee2021-11-25T18:27:14ZSelf-Assembling Drug Formulations with Tunable Permeability and Biodegradability10.3390/molecules262267861420-3049https://doaj.org/article/ea713ebd76bf4212947fc39a26e273ee2021-11-01T00:00:00Zhttps://www.mdpi.com/1420-3049/26/22/6786https://doaj.org/toc/1420-3049This review focuses on key topics in the field of drug delivery related to the design of nanocarriers answering the biomedicine criteria, including biocompatibility, biodegradability, low toxicity, and the ability to overcome biological barriers. For these reasons, much attention is paid to the amphiphile-based carriers composed of natural building blocks, lipids, and their structural analogues and synthetic surfactants that are capable of self-assembly with the formation of a variety of supramolecular aggregates. The latter are dynamic structures that can be used as nanocontainers for hydrophobic drugs to increase their solubility and bioavailability. In this section, biodegradable cationic surfactants bearing cleavable fragments are discussed, with ester- and carbamate-containing analogs, as well as amino acid derivatives received special attention. Drug delivery through the biological barriers is a challenging task, which is highlighted by the example of transdermal method of drug administration. In this paper, nonionic surfactants are primarily discussed, including their application for the fabrication of nanocarriers, their surfactant-skin interactions, the mechanisms of modulating their permeability, and the factors controlling drug encapsulation, release, and targeted delivery. Different types of nanocarriers are covered, including niosomes, transfersomes, invasomes and chitosomes, with their morphological specificity, beneficial characteristics and limitations discussed.Gulnara GaynanovaLeysan VasilevaRuslan KashapovDarya KuznetsovaRushana KushnazarovaAnna TyryshkinaElmira VasilievaKonstantin PetrovLucia ZakharovaOleg SinyashinMDPI AGarticlebiological barriersurfactantnanocontainernanoparticlemicelleniosomeOrganic chemistryQD241-441ENMolecules, Vol 26, Iss 6786, p 6786 (2021) |
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| collection |
DOAJ |
| language |
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| topic |
biological barrier surfactant nanocontainer nanoparticle micelle niosome Organic chemistry QD241-441 |
| spellingShingle |
biological barrier surfactant nanocontainer nanoparticle micelle niosome Organic chemistry QD241-441 Gulnara Gaynanova Leysan Vasileva Ruslan Kashapov Darya Kuznetsova Rushana Kushnazarova Anna Tyryshkina Elmira Vasilieva Konstantin Petrov Lucia Zakharova Oleg Sinyashin Self-Assembling Drug Formulations with Tunable Permeability and Biodegradability |
| description |
This review focuses on key topics in the field of drug delivery related to the design of nanocarriers answering the biomedicine criteria, including biocompatibility, biodegradability, low toxicity, and the ability to overcome biological barriers. For these reasons, much attention is paid to the amphiphile-based carriers composed of natural building blocks, lipids, and their structural analogues and synthetic surfactants that are capable of self-assembly with the formation of a variety of supramolecular aggregates. The latter are dynamic structures that can be used as nanocontainers for hydrophobic drugs to increase their solubility and bioavailability. In this section, biodegradable cationic surfactants bearing cleavable fragments are discussed, with ester- and carbamate-containing analogs, as well as amino acid derivatives received special attention. Drug delivery through the biological barriers is a challenging task, which is highlighted by the example of transdermal method of drug administration. In this paper, nonionic surfactants are primarily discussed, including their application for the fabrication of nanocarriers, their surfactant-skin interactions, the mechanisms of modulating their permeability, and the factors controlling drug encapsulation, release, and targeted delivery. Different types of nanocarriers are covered, including niosomes, transfersomes, invasomes and chitosomes, with their morphological specificity, beneficial characteristics and limitations discussed. |
| format |
article |
| author |
Gulnara Gaynanova Leysan Vasileva Ruslan Kashapov Darya Kuznetsova Rushana Kushnazarova Anna Tyryshkina Elmira Vasilieva Konstantin Petrov Lucia Zakharova Oleg Sinyashin |
| author_facet |
Gulnara Gaynanova Leysan Vasileva Ruslan Kashapov Darya Kuznetsova Rushana Kushnazarova Anna Tyryshkina Elmira Vasilieva Konstantin Petrov Lucia Zakharova Oleg Sinyashin |
| author_sort |
Gulnara Gaynanova |
| title |
Self-Assembling Drug Formulations with Tunable Permeability and Biodegradability |
| title_short |
Self-Assembling Drug Formulations with Tunable Permeability and Biodegradability |
| title_full |
Self-Assembling Drug Formulations with Tunable Permeability and Biodegradability |
| title_fullStr |
Self-Assembling Drug Formulations with Tunable Permeability and Biodegradability |
| title_full_unstemmed |
Self-Assembling Drug Formulations with Tunable Permeability and Biodegradability |
| title_sort |
self-assembling drug formulations with tunable permeability and biodegradability |
| publisher |
MDPI AG |
| publishDate |
2021 |
| url |
https://doaj.org/article/ea713ebd76bf4212947fc39a26e273ee |
| work_keys_str_mv |
AT gulnaragaynanova selfassemblingdrugformulationswithtunablepermeabilityandbiodegradability AT leysanvasileva selfassemblingdrugformulationswithtunablepermeabilityandbiodegradability AT ruslankashapov selfassemblingdrugformulationswithtunablepermeabilityandbiodegradability AT daryakuznetsova selfassemblingdrugformulationswithtunablepermeabilityandbiodegradability AT rushanakushnazarova selfassemblingdrugformulationswithtunablepermeabilityandbiodegradability AT annatyryshkina selfassemblingdrugformulationswithtunablepermeabilityandbiodegradability AT elmiravasilieva selfassemblingdrugformulationswithtunablepermeabilityandbiodegradability AT konstantinpetrov selfassemblingdrugformulationswithtunablepermeabilityandbiodegradability AT luciazakharova selfassemblingdrugformulationswithtunablepermeabilityandbiodegradability AT olegsinyashin selfassemblingdrugformulationswithtunablepermeabilityandbiodegradability |
| _version_ |
1718411167532056576 |