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Primerjava profilov nečistot ketoprofena v vzorcih, pripravljenih s tehnologijo iztiskanja talin in z diferenčno dinamično kalorimetrijo
ID Pečnik, Matija (Author), ID Dreu, Rok (Mentor) More about this mentor... This link opens in a new window, ID Lavrič, Zoran (Comentor)

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Abstract
V magistrski nalogi smo želeli postaviti novo metodo za oceno vsebnosti nečistot modelne učinkovine (ketoprofena) pri procesu iztiskanja talin oz. HME (ang. »Hot-melt extrusion«). Pripravili smo dvaindvajset zmesi, ki so vsebovale enak delež modelne zdravilne učinkovine in drsila (Syloid® 244 FP) ter različne deleže plastifikatorjev (Parteck® M200, Polyglykol® 3350 P) in polimerov. Sprva smo vsem dvaindvajsetim zmesem s pomočjo diferenčne dinamične kalorimetrije (DSC) določili temperaturo steklastega prehoda oz. tališča, ki smo jo v nadaljevanju uporabili za določitev primerne procesne temperature pri poskusih iztiskanja talin na eno- oz. dvovijačnem ekstrudorju. Poleg dvaindvajsetih iztisnjenih vzorcev na enovijačnem ekstrudorju smo iztisnili deset vzorcev pri 100 obratih na minuto (rpm) ter pet vzorcev pri 300 rpm na dvovijačnem ekstrudorju. Dobljenim iztiskancem smo nato z metodo tekočinske kromatografije visoke ločljivosti (HPLC) določili vsebnost ketoprofena in nečistot ter ocenili kristaliničnost učinkovine z zasledovanjem talilnega vrha ketoprofena v termogramu na DSC. V nadaljevanju smo zasnovali DSC metodo, kjer se manjša masa vzorca zmesi (⡈ 25 mg) v celici kalorimetra izpostavi podobni temperaturni obremenitvi kot med iztiskanjem talin v eno- in dvovijačnem ekstrudorju. Za optimizacijo postavljene DSC metode smo sprva na manjšem številu formulacij variirali trajanje izotermnega časovnega intervala segrevanja na DSC ter sestavo plina za prepihovanje merilne celice kalorimetra. Pri tem je bila temperatura izotermnega segrevanja v DSC metodi venomer enaka procesni temperaturi med iztiskanjem taline za vsako posamezno zmes. Primerljive profile nečistot ketoprofena za eno- in dvovijačni ekstrudor smo dobili ob uporabi povprečnega časa zadrževanja snovi v ekstrudorju in prepihovanju merilne celice z zrakom. Z rezultati smo potrdili zelo visoko stopnjo korelacije med nečistotami ketoprofena v praškastih zmeseh obdelanih na DSC in iztiskancih z enovijačnega (r=0,9600) ter dvovijačnega sistema (r=0,9879). Odsotnost talilnega vrha ketoprofena na DSC termogramih iztiskancev nakazuje, da se ketoprofen v trdnih disperzijah nahaja v amorfni obliki. Predstavljena DSC metoda predstavlja odlično izhodišče za postavitev presejalne metode za vrednotenje primernosti sestave vhodnih formulacij za procese iztiskanja talin. Hkrati omogoča tudi določitev zgornjih mej za vrednosti temperature in časa zadrževanja taline pri postavljanju eksperimentalnega prostora (ang. »design space«), kar ključno vpliva na vsebnost nečistot, kot enega izmed kritičnih parametrov kakovosti pri iztiskanju talin na proizvodni ravni.

Language:Slovenian
Keywords:iztiskanje talin, enovijačni ekstrudor, dvovijačni ekstrudor, diferenčna dinamična kalorimetrija, ketoprofen, nečistote, simulacija
Work type:Master's thesis/paper
Organization:FFA - Faculty of Pharmacy
Year:2023
PID:20.500.12556/RUL-147343 This link opens in a new window
Publication date in RUL:02.07.2023
Views:491
Downloads:17
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Secondary language

Language:English
Title:Comparison of ketoprofen impurity profiles in samples prepared by hot-melt extrusion and differential scanning calorimetry
Abstract:
In this master's thesis, we aimed to establish a new method for estimating the impurity content of a model drug (ketoprofen) in the hot-melt extrusion (HME) process. Twenty-two formulations were prepared containing equal proportions of the model drug and a lubricant (Syloid® 244 FP) with different proportions of plasticizers (Parteck® M200, Polyglycol® 3350 P) and polymers. First, the glass transition temperature or melting point of all twenty-two blends was measured by differential scanning calorimetry (DSC) to determine the appropriate process temperature for subsequent extrusion on a single- and twin-screw extruder. In addition to the twenty-two samples extruded on the single-screw extruder, ten samples were extruded at 100 rpm and five samples at 300 rpm on the twin-screw extruder. The resulting extrudates were then analysed for ketoprofen and its impurities by high-performance liquid chromatography (HPLC). Meanwhile, the crystallinity of the drug was evaluated by tracking the melting peak of ketoprofen in DSC thermograms. In addition, we developed a DSC method that mimics the conditions during extrusion in a single- and twin-screw extruder for a small amount of the blend (⡈ 25 mg). To optimise the setup of the DSC method, the isothermal heating interval of the DSC and the gas composition of the calorimeter cell were first varied on a small number of formulations. In all experiments, the temperatures during isothermal heating always corresponded to the process temperatures during extrusion for each sample. Comparable impurity profiles of ketoprofen for single- and twin-screw extrudates were obtained using an average residence time with air atmosphere in the calorimeter cell. The results confirmed a very high degree of correlation between the impurities of ketoprofen in the treated powder blends and extrudates on the single-screw extruder (r=0.9600) and on the twin screw extruder (r=0.9879). The absence of a melting peak of ketoprofen in the thermograms of the extrudates suggests that ketoprofen is completely amorphized in the resulting solid dispersions. Our method provides an excellent starting point for developing a screening method to evaluate the suitability of formulations with different compositions for extrusion. Our method can be used to determine upper limits for extrusion temperature and melt residence time when establishing a »design space«. Both temperature and residence time affect the level of impurities, which is a critical parameter in production-level melt extrusion.

Keywords:hot-melt extrusion, single-screw extruder, twin-screw extruder, differential scanning calorimetry, ketoprofen, impurities, simulation

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