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Obraba tablet kot funkcija njihove sestave, oblike in natezne trdnosti
ID Laneger, Katja (Author), ID Dreu, Rok (Mentor) More about this mentor... This link opens in a new window

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Abstract
Tablete so trdna enoodmerna peroralna farmacevtska oblika in predstavljajo najbolj razširjeno farmacevtsko obliko zdravil, saj poleg drugih prednosti omogočajo enostavno uporabo. Namen magistrske naloge je bil ugotoviti, kako sestava, oblika tablete in natezna trdnost vplivajo na krušljivost tablet, izdelanih s postopkom direktnega tabletiranja. Krušljivost je lastnost, ki predstavlja merilo, kako odporna je tableta na mehanski stres med samo proizvodnjo, shranjevanjem, transportom in rokovanjem pri uporabi. Krušljivost ne sme biti previsoka, saj to napoveduje poškodbe tablete še preden le-ta prispe do končnega uporabnika. Tablete smo izdelali s tabletirko na udarec. V preliminarni študiji smo ugotavljali primerno sestavo treh različnih oblik tablet z enako maso. Spreminjali smo vrsto polnila, delež in vrsto drsil, delež in vrsta veziva pa sta bili v idealnem primeru konstantni. Izbrali smo polnila z različnimi mehanskimi lastnostmi: mikrokristalna celuloza (plastična deformacija), laktoza monohidrat (deloma plastična deformacija in fragmentacija) in preželatiniran škrob (plastično-elastična deformacija). Tip polnila je bil izbran tako, da je bila v vseh primerih velikost delcev približno 100 μm. Med tabletiranjem smo pri vseh zmeseh želeli doseči tri enake vrednosti natezne trdnosti, pri čemer je bila najnižja 1 MPa, saj ta v praksi omogoča izvedbo postopka filmskega oblaganja tablet. V osrednjem delu študije smo pripravili serije tablet glede na izbrane formulacije treh polnil, za katere smo v preliminarni študiji ugotovili, da so najbolj primerne za strukturirano spreminjanje izbranih faktorjev. Upoštevaje rezultate preliminarne študije, smo pri tabletiranju s tremi oblikami pečatov spreminjali položaj zgornjega pečata, da smo dosegli izbrane vrednosti natezne trdnosti ter položaj spodnjega pečata, s katerim smo korigirali maso tablet na 300 mg +/- 3 mg. Ploščate okrogle tablete so se tekom študije izkazale za najbolj krušljivo obliko, kar lahko pojasnimo z ostrimi pravokotnimi robovi, ki so manj izraženi pri obliki kapsule in okroglih bikonveksnih tabletah. Polnilo tablete, ki se je v študiji izkazalo za najslabšega, je bila laktoza. Tablete, izdelane z laktozo, so bile neodvisno od oblike najbolj krušljive. Razlog je osnovni mehanizem deformacije - fragmentacija. Najmanj krušljive so tablete iz celuloze, kar prav tako lahko pojasnimo z mehanizmom deformacije, ki je v tem primeru plastična deformacija. Višja kot je sila stiskanja, višja je natezna trdnost in nižja je krušljivost. Glede hitrosti vrtenja bobna lahko rečemo, da višja hitrost vrtenja pomeni večji kot padca tablet. Vpliva hitrosti bobna na krušljivost tablet ne moremo enoznačno opisati.

Language:Slovenian
Keywords:tablete, krušljivost, natezna trdnost, oblika tablet, polnila
Work type:Master's thesis/paper
Organization:FFA - Faculty of Pharmacy
Year:2022
PID:20.500.12556/RUL-136796 This link opens in a new window
Publication date in RUL:21.05.2022
Views:838
Downloads:52
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Secondary language

Language:English
Title:Tablet attrition as a function of their composition, shape and tensile strength
Abstract:
Tablets are a solid, single dose oral pharmaceutical dosage form and are the most widely used dosage form for medication, as they offer, among other benefits, ease of use. The purpose of this thesis was to determine how tablet composition, shape and tensile strength influence the friability of tablets made with direct compression. The friability is a characteristic that provides a measure of how resistant a tablet is to mechanical stress during the production, storage, distribution, and handling in use. Friability should not be too high, as this predicts damage to the tablet before it reaches the end user. The tablets were produced with a single punch tablet press. In a preliminary study, we researched the appropriate composition of three different shapes of tablets with the same mass. The type of filler, the proportion and type of glidants were varied and the proportion and type of binder were ideally kept constant. Fillers with different mechanical properties were selected: plastically deformable microcrystalline cellulose, plastic and brittle lactose monohydrate and plastic-elastic pregelatinized starch. The filler type was chosen so that the particle size was approximately 100 μm in all cases. During tableting, we wanted to achieve three equal values of tensile strength in all mixtures, with the lowest being 1 MPa, which allows the film coating process to be carried out in practise. In the main part of the study, batches of tablets were prepared according to the formulations of the three fillers, derived in the preliminary study in a way to be suitable for structured variation of the selected factors. According to the results of the preliminary study, during the compression utilizing three different shapes of punches, the position of the upper punch was adjusted to achieve selected tensile strength values. With the lower punch, the mass of the tablets was adjusted to 300 mg +/- 3 mg. The flat-round shaped tablets proved to be the most friable, which can be explained by the sharp rectangular edges, which are less pronounced in caplets and round biconvex shaped tablets. The filler that performed the worst in the study was lactose. Tablets made from lactose were most friable regardless of the shape. The reason for their friability is the basic mechanism of deformation – fragmentation. The least friable tablets showed to be microcrystalline cellulose tablets, which can be explained with another mechanism of deformation, which is plastic deformation. Use of higher compression forces results in higher tensile strength and lower friability of tablets. We can note that a higher rotational speed of the abrasion tester drum increases the angle under which tablets fall within the drum. From the results of the study, we cannot establish a correlation between the speeds of the apparatus drum and the friability of tablets.

Keywords:tablets, friability, tensile strength, tablet shape, fillers

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