Razvoj in vrednotenje bioadhezivnih nanovlaken za bukalno uporabo

Virant, Urška

Razvoj in vrednotenje bioadhezivnih nanovlaken za bukalno uporabo
ID Virant, Urška (Author), ID Kocbek, Petra (Mentor) More about this mentor... This link opens in a new window

, ID Potrč, Tanja (Co-mentor)

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Abstract

Slaba topnost in nizka hitrost raztapljanja zdravilnih učinkovin sta dva velika izziva v farmacevtski industriji, zato razvijajo številne pristope za njuno izboljšanje, med katere sodijo tudi nanotehnološki pristopi (npr. izdelava nanovlaken). Namen magistrske naloge je bil izdelati bioadhezivna polimerna nanovlakna s podaljšanim sproščanjem karvedilola, ki glede na biofarmacevtski klasifikacijski sistem spada med učinkovine razreda II, za katere je značilna slaba topnost in dobra permeabilnost. Z metodo elektrostatskega sukanja smo izdelali gladka polimerna vlakna s premeri nanometrskih velikosti z nekaj nepravilnostmi v strukturi. Kot osnovni gradnik nanovlaken smo uporabili hidrofilen polimer z bioadhezivnimi lastnostmi, in sicer polivinilpirolidon K90. Za dosego podaljšanega sproščanja smo osnovni formulaciji nanovlaken dodali v vodi netopen polimer Eudragit® RL PO. Dodali smo ga v različnih deležih. Ugotovili smo, da večji kot je njegov delež v formulaciji, počasneje se karvedilol sprošča. Z izdelavo nanovlaken smo želeli povečati topnost karvedilola, zato smo s testom topnosti preučili, kakšen je vpliv dostavnega sistema na topnost učinkovine v primerjavi z njeno topnostjo v obliki fizikalne zmesi z enako sestavo. Ugotovili smo, da se z vgrajevanjem v nanovlakna na osnovi polivinilpirolidona K90 topnost karvedilola poveča ~ 8-krat, medtem ko se z vgrajevanjem v nanovlakna z dodatkom Eudragita® RL PO poveča ~ 4-krat. Prav tako smo z nanovlakni uspeli doseči stanje prenasičenja, ki je trajalo ves čas izvajanja testa (26 h). Z reološkimi meritvami smo želeli ovrednotiti bioadhezivnost formulacije nanovlaken, zato smo izvedli klasičen rotacijski test z zveznim spreminjanjem strižne hitrosti. Z njim smo ugotavljali, ali so med komponentami, ki sestavljajo nanovlakna, in komercialno dostopnim mucinom tipa II iz prašičjega želodca kakšne interakcije. Za oba gradnika nanovlaken, tako polivinilpirolidon K90 kot Eudragit® RL PO, smo ob združitvi z raztopino mucina izračunali pozitiven reološki sinergizem, zato lahko zaključimo, da imata oba polimera mukoadhezivne lastnosti, in sklepamo, da imajo verjetno tudi izdelana nanovlakna mukoadhezivne lastnosti. V nadaljnjih raziskavah bi bilo z ustreznimi metodami smiselno neposredno raziskati mukoadhezivnost nanovlaken ter na podlagi rezultatov optimizirati formulacijo tako, da bi dosegli ustrezno jakost in trajanje adhezije.

Language:	Slovenian
Keywords:	karvedilol, mukoadhezija, nanovlakna, podaljšano sproščanje, topnost
Work type:	Master's thesis/paper
Organization:	FFA - Faculty of Pharmacy
Year:	2021
PID:	20.500.12556/RUL-131161
Publication date in RUL:	23.09.2021
Views:	518
Downloads:	95
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Abstract:
Language:	English
Title:	Development and characterization of bioadhesive nanofibers for buccal application
Poor solubility and low dissolution rate of drug substances are two major challenges in the pharmaceutical industry, therefore, many approaches are being developed to improve them, including nanotechnological ones (e.g., nanofiber fabrication). The aim of this Master's thesis was to develop bioadhesive polymer nanofibers with prolonged carvedilol release. According to the biopharmaceutical classification system, carvedilol belongs to class II drugs with poor solubility and good permeability. By electrospinning we produced smooth thin polymer fibers, with nanosized diameter and with some irregularities in the structure. A hydrophilic polymer with bioadhesive properties, namely polyvinylpyrrolidone K90, was used as a key building block for the production of nanofibers. The water-insoluble polymer Eudragit® RL PO was added to the nanofiber formulation to achieve prolonged drug release. We added it in different amounts. We have shown that higher amount of Eudragit® RL PO in the formulation results in the slower carvedilol release. By incorporation of carvedilol into nanofibers, we wanted to increase its solubility. We performed the solubility test to examine the effect of the delivery system on the solubility of the active ingredient compared to its solubility in a form of physical mixture with the same composition. The solubility of carvedilol was increased ~ 8-times by polyvinylpyrrolidone K90 nanofiber formulation and ~ 4-times by nanofiber formulation with Eudragit® RL PO. By nanofiber formulation, we achieved also supersaturation state, which lasted throughout the test (26 h). We evaluated the bioadhesive potential of nanofiber formulation by rheological measurements, thus we performed rotational experiments with a controlled shear rate. Rotational experiments were used for investigating of interactions between the polymers and commercially available mucin from porcine stomach (type II). Positive rheological synergism was calculated for both polymers, namely polyvinylpyrrolidone K90 and Eudragit® RL PO when combined with a mucin solution, which indicates mucoadhesive properties of both polymers. Based on the obtained results, we can conclude that nanofibers based on polyvinylpyrrolidone K90 and Eudragita® RL PO also have mucoadhesive properties. In further research, it would be worth to explore the mucoadhesive properties of nanofibers by a suitable direct method and, based on the results obtained, to optimize the formulation in order to achieve adequate strength and duration of adhesion.
Keywords:	carvedilol, mucoadhesion, nanofibers, prolonged release, solubility

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