Preučevanje fizikalne stabilnosti fenofibrata v trdnih disperzijah z mezoporozno siliko kot nosilcem zdravilne učinkovine

Matko, Klemen

Preučevanje fizikalne stabilnosti fenofibrata v trdnih disperzijah z mezoporozno siliko kot nosilcem zdravilne učinkovine
ID Matko, Klemen (Author), ID Planinšek, Odon (Mentor) More about this mentor... This link opens in a new window

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Abstract

Fenofibrat spada po biofarmacevtski klasifikaciji v razred II, kar pomeni, da je dobro permeabilen in slabo topen. Za izboljšanje biološke uporabnosti po peroralni aplikaciji, lahko uporabljamo pristope izboljševanja raztapljanja. Pri našem delu smo za ta namen izdelovali trdne disperzije, v katerih je nosilec učinkovine Syloid 244. Izdelali smo trdne disperzije s 50, 40, 30 in 20 % vsebnostjo fenofibrata in primerjali njegovo sproščanje. Ugotavljali smo kako uporaba različnih topil in različna temperatura odparevanja topila pri izdelavi trdne disperzije vpliva na njihove lastnosti. Vse trdne disperzije smo analizirali z diferenčno dinamično kalorimetrijo, s čimer smo ugotavljali ali je fenofibrat v amorfnem stanju. Disperzije smo postavili na enomesečno staranje pri temperaturi 40 °C in 75 % relativne vlažnosti zraka. Ponovno smo izvedli analizo s diferenčno dinamično kalorimetrijo in sproščali fenofibrat iz trdnih disperzij s 20 in 30 % vsebnostjo fenofibrata. Trdna disperzija s 30 % fenofibrata, ki je bila pripravljena v etil acetatu pri 93 °C, kaže najboljše lastnosti takoj po izdelavi in enomesečnem staranju. Iz nje smo s pomočjo granulata Avicel-a PH 101 in Syloid-a 244 stiskali tablete. Ugotovili smo, da se fenofibrat iz trdnih disperzij, ki so pripravljene z etil acetatom, bolje raztaplja kot iz tistih, ki so bile pripravljene z acetonom. Pri trdnih disperzijah, ki so pripravljene pri višji temperaturi, se fenofibrat bolje nalaga v pore Syloid-a, kar privede do manj sprememb s časom. Pri eksperimentalnem delu smo se odločili, da bomo pripravili po eno paralelko trdnih disperzij, saj so bili rezultati večinoma predvidljivi. Prihodnje raziskovanje se bo osredotočalo na bolj stabilne trdne disperzije. Da smo ohranili preglednost in se poglobili v analizo, smo se odločili, da izvedemo omejeno število eksperimentov, da naloga ne postane preobsežna.

Language:	Slovenian
Keywords:	fenofibrat, trdna disperzija, Syloid, sproščanje, stabilnost
Work type:	Master's thesis/paper
Organization:	FFA - Faculty of Pharmacy
Year:	2023
PID:	20.500.12556/RUL-151955
Publication date in RUL:	26.10.2023
Views:	497
Downloads:	117
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Abstract:
Language:	English
Title:	Studying the physical stability of fenofibrate in solid dispersions with mesoporous silica as the drug carrier
Fenofibrate is classified as Class II according to biopharmaceutical classification, indicating it has good permeability and poor solubility. To enhance its biological availability following oral administration, dissolution improvement approaches can be employed. In our work, we prepared solid dispersions in which the carrier of the active ingredient was Syloid 244. We manufactured solid dispersions with 50 %, 40 %, 30 %, and 20% fenofibrate content and compared its release. We investigated how the use of different solvents and varying solvent evaporation temperatures during the preparation of solid dispersions affect their properties. All solid dispersions were analyzed using differential scanning calorimetry to determine whether fenofibrate was in an amorphous state. The dispersions were subjected to one-month aging at a temperature of 40 °C and 75% relative humidity. We performed another analysis using differential scanning calorimetry and studied the release of fenofibrate from solid dispersions with 20 % and 30 % fenofibrate content. The solid dispersion with 30% fenofibrate, prepared in ethyl acetate at 93 °C, exhibited the best properties immediately after production and after one month of aging. Tablets were compressed from it using Avicel PH 101 and Syloid 244 as granulating agents We found that fenofibrate dissolves better from solid dispersions prepared with ethyl acetate than those prepared with acetone. In solid dispersions prepared at higher temperatures, fenofibrate deposits more efficiently into the pores of Syloid, leading to fewer changes over time. In the experimental work, we decided to prepare one sample of solid dispersions each, as the results were mostly predictable. Future research will focus on more stable solid dispersions. To maintain clarity and delve deeper into the analysis, we opted to conduct a limited number of experiments, so the task does not become overly extensive.
Keywords:	fenofibrate, solid dispersion, Syloid, dissolution, stability

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