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Proučevanje tehnologije izdelave in lastnosti hidrofilnih nanovlaken s slabo vodotopnimi zdravilnimi učinkovinami
ID Pikl, Katja (Author), ID Kocbek, Petra (Mentor) More about this mentor... This link opens in a new window

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Abstract
V zadnjih letih se povečuje delež novo odkritih zdravilnih učinkovin, ki izkazujejo slabo vodotopnost, kar močno otežuje razvoj zdravil. Nanovlakna zaradi svojih izjemnih lastnosti omogočajo, da se vgrajena slabo topna zdravilna učinkovina veliko bolje raztaplja v primerjavi s samo učinkovino. Namen magistrske naloge je bil proučiti tehnologije izdelave in lastnosti hidrofilnih nanovlaken z vgrajenimi slabo topnimi zdravilnimi učinkovinami. Po pregledu objavljenih člankov v podatkovni zbirki Pubmed smo našli 47 člankov, ki so ustrezali kriterijem za vključitev v raziskavo. Po analizi izbranih člankov smo ugotovili, da so raziskovalci poskušali izboljšati topnost različnim zdravilnim učinkovinam, med njimi so glede na terapevtsko področje prevladovale učinkovine s protivnetnim in protirevmatičnim delovanjem in glede na biofarmacevtski klasifikacijski sistem učinkovine iz razreda II. Za ogrodje nanovlaken so najpogosteje uporabili različne polimere in ciklodekstrine. Najpogosteje uporabljena polimera za izdelavo nanovlaken sta bila polivinilpirolidon in polietilenoksid. V nanovlakna so vgradili različne dežele zdravilne učinkovine: najpogosteje 10 % (m/m), pri 50 % (m/m) ali več pa se je potencialno pojavilo obarjanje raztopljene učinkovine. Z namenom dodatnega izboljšanja raztapljanja, povečanja procesibilnosti formulacije za izdelavo nanovlaken in zaščito vgrajene učinkovine so v formulacije vključili različne pomožne snovi, najpogosteje solubilizatorje. Za izdelavo nanovlaken so najpogosteje izbrali elektrostatsko sukanje, z modifikacijami klasične metode pa so uspeli izdelati kompleksnejša nanovlakna z izboljšanimi lastnostmi, hkrati pa so te metode omogočile proizvodnjo nanovlaken v večjem merilu. V več kot 70 % raziskav je med izdelavo nanovlaken prišlo do pretvorbe zdravilne učinkovine v stabilno amorfno obliko, kar je eden izmed pomembnejših razlogov za povečanje topnosti vgrajene učinkovine. Faktor izboljšanja raztapljanja v primerjavi s kristalno obliko učinkovine ali njeno fizikalno zmesjo je bil za večino formulacij najmanj 1, za kar je zaslužna velika specifična površina na enoto mase in porozna struktura mreže nanovlaken ter amorfna oblika vgrajene zdravilne učinkovine. Raziskovalci so večkrat izdelali oblike s takojšnjim sproščanjem kot s prirejenim, v 4 raziskavah so izdelali tudi končno farmacevtsko obliko. Zaključimo lahko, da hidrofilna nanovlakna predstavljajo obetaven pristop za izboljšanje topnosti in hitrosti raztapljanja slabo topnih zdravilnih učinkovin, vendar so za njihov prodor na trg in razširjeno uporabo potrebne še nadaljnje raziskave.

Language:Slovenian
Keywords:elektrostatsko sukanje, nanodostavni sistemi, nanovlakna, raztapljanje, topnost
Work type:Master's thesis/paper
Organization:FFA - Faculty of Pharmacy
Year:2021
PID:20.500.12556/RUL-131503 This link opens in a new window
Publication date in RUL:29.09.2021
Views:834
Downloads:175
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Secondary language

Language:English
Title:Investigation of technological production procedure and characteristics of poorly water-soluble drug-loaded hydrophilic nanofibers
Abstract:
In recent years, more and more newly discovered active pharmaceutical ingredients have poor water solubility, which makes further drug development challenging. Nanofibers, due to their remarkable properties, enable better dissolution of the incorporated poorly soluble drug compared to the pure drug. The aim of this master thesis was to investigate the technological procedures and characteristics of poorly water-soluble drug-loaded hydrophilic nanofibers. After reviewing the Pubmed database for published articles, we found 47 articles that met the inclusion criteria. The analysis of the selected articles revealed that scientists have tried to improve solubility of different active pharmaceutical ingredients, many of which belong to the therapeutic group of anti-inflammatory and anti-rheumatic drugs and to class II biopharmaceutical clasification system. Most commonly used materials for production of nanofibers were different polymers and cyclodextrins. Most commonly represented among polymers were polyvinylpyrrolidone and polyethyleneoxide. Nanofibers were loaded with different amounts of drug: most often 10 % (w/w), whereas precipitation of the dissolved drug may occur at drug content 50 % (w/w) or more. Various excipients, most commonly solubilizers, were incorporated to further improve the drug dissolution, increase the processability of the nanofiber formulation, and protect the incorporated drug. Electrospinning has been the most common method used to produce nanofibers. With modifications of the conventional method, scientiest have been able to produce more complex nanofibers with improved properties and to produce nanofibers on larger scale. In more than 70 % of the studies, the drug was converted into stable amorphous form during nanofiber fabrication, which was one of the most important reasons for incresed drug solubility. The dissolution enhancement factor was at least 1 in most formulations compared to the crystalline drug or its physical mixture. This is due to the high specific surface area per unit mass and the porous structure of the nanofiber web, as well as the amorphous form of the incorporated drug. The scientists have more often produced immediate-release rather than modified-release dosage forms. In four studies they have also produced final dosage form. In conclusion, hydrophilic nanofibers represent a promising approach to improve the solubility and dissolution rate of poorly water-soluble drugs, however further research is still needed for their market entry and widespread use.

Keywords:dissolution, electrospinning, nanodelivery systems, nanofibers, solubility

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