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Literaturni pregled peroralnih liofilizatov, njihove izdelave, optimizacije in metod za vrednotenje
ID Pokovec, Simona (Author), ID Ahlin Grabnar, Pegi (Mentor) More about this mentor... This link opens in a new window, ID Bjelošević, Maja (Comentor)

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Abstract
Peroralni liofilizati so trdne farmacevtske oblike, ki so namenjene aplikaciji v ustno votlino ali dispergiranju v vodi pred zaužitjem. Njihova značilnost je hiter razpad in s tem raztapljanje zdravilnih učinkovin, kar izboljša absorpcijo in biološko uporabnost. Namen dela je bil načrtovati razvoj peroralnih liofilizatov z olanzapinom. Uporabili smo pristop razvoja z vgrajeno kakovostjo. S pomočjo pregleda tržišča in proučevanja znanstvene literature smo vzpostavili prostor znanja. Ugotovili smo, da je trenutno na tržišču le 22 različnih peroralnih liofilizatov, največ je tistih z delovanjem na živčevje. Najpogosteje uporabljene pomožne snovi so: manitol, želatina, citronska kislina, NaOH, ksantan gumi, glicin in dekstran 70. Z namenom optimizacije se najpogosteje uporabljajo površinsko aktivne snovi in vodotopni polimeri. Določili smo ciljni kakovostni profil in nato izbrali kritične atribute kakovosti. To so: izgled, mehanska odpornost, raztapljanje, čas razpadnosti in zaostanek vlage. Za identifikacijo tveganj kakovosti smo uporabili diagram poteka in Ishikawa diagram, čemur je sledila analiza in ocena tveganj. Analiza potencialnih napak in njihovih posledic se je izkazala kot nezadostna, zato smo dodatno uporabili barvne matrike in barvno lestvico za določitev deskriptorjev tveganja. Kot kritične atribute vstopnih materialov smo določili: vrsto, % in intrinzično vsebnost vlage pomožnih snovi ter velikost delcev, kristaliničnost/ amorfnost in topnost zdravilne učinkovine. Kot kritične procesne parametre smo določili: hitrost ohlajanja polic, temperaturo polic, tlak v sušilni komori in čas primarnega sušenja ter temperaturo polic in čas sekundarnega sušenja. S pomočjo programa Minitab® in podatkov Katedre za farmacevtsko tehnologijo smo vzpostavili načrtovalni prostor in uporabili metodo linearne regresije ter faktorski načrt (2x4). Postavili smo model z dobro napovedno močjo in predlagali optimizirano formulacijo. Prišli smo do sledečih zaključkov: v formulaciji je optimalno 6 % pomožnih snovi, med njimi prevladuje manitol, višji % PVP K25 niso zaželeni, vsebovati mora več manitola kot PVP K25. Njuno razmerje je najmanj 1:5, čemur se približujejo rezultati. Za vgradnjo olanzapina je vsebnost želatine nujna, česar program ni bil zmožen prepoznati. Model predstavlja približek vrednosti, ki nam lahko pomagajo pri razvojnem delu ter preprečijo nepotreben vložek napora, časa in virov.

Language:Slovenian
Keywords:peroralni liofilizat, olanzapin, načrtovanje z vgrajeno kakovostjo, optimizacija
Work type:Master's thesis/paper
Organization:FFA - Faculty of Pharmacy
Year:2020
PID:20.500.12556/RUL-118107 This link opens in a new window
Publication date in RUL:20.08.2020
Views:1748
Downloads:272
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Secondary language

Language:English
Title:Literature overview of oral lyophilisates, their manufacture, optimization and evaluation methods
Abstract:
Oral lyophilisates are solid preparations intended to be placed in the mouth or to be dispersed in water before administration. They are characterized by fast disintegration and thus by rapid dissolution of active substances, which improves their absorption and bioavailability. In our thesis, our goal was to plan a development approach of oral lyophilisates containing olanzapine. We used a quality by design approach and established a knowledge space by market review and scientific literature study. Currently there are 22 oral lyophilisates on the market, most of them with the effect on the nervous system. The most commonly used excipients are mannitol, gelatin, citric acid, NaOH, xanthan gum, glycine and dextran 70. For optimization purposes most commonly surfactants and water-soluble polymers are being used. We determined the quality target product profile and selected critical quality attributes. These are: appearance, mechanical resistance, dissolution, disintegration time and residual moisture. Flow and Ishikawa charts were used for quality risk identification purposes, followed by risk analysis and assessment. Failure mode and effects analysis proved to be insufficient. Additionally, we used color matrices and a color scale to determine risk descriptors. The critical material attributes were selection, % and intrinsic moisture content of excipients, particle size, crystallinity/ amorphousness and solubility of the active substance. The selected critical process parameters were cooling rate; shelf temperature, drying chamber pressure and primary drying time; shelf temperature and secondary drying time. We used Minitab® software and data from the Department of Pharmaceutical Technology to establish a design space. We employed linear regression and factorial design (2x4) to set up a model with good predictive power and proposed an optimized formulation. We concluded that the formulation optimally contains 6 % of excipients, among which mannitol predominates, higher % PVP K25 are not desirable and it must contain a higher % of mannitol than PVP K25. Our results are approaching their optimal ratio which must be at least 1:5. Gelatin is essential for the incorporation of olanzapine, which we could not recognize with the use of the software. The model represents an approximation of values that can help in the pharmaceutical development and can also prevent unnecessary effort, time and resources investment.

Keywords:oral lyophilisate, olanzapine, quality by design, optimization

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