Podporna analitska orodja za raziskavo dinamike procesa izdelave liposomov

Hrlec, Maja

Podrobno

Podporna analitska orodja za raziskavo dinamike procesa izdelave liposomov
ID Hrlec, Maja (Avtor), ID Janković, Biljana (Mentor) Več o mentorju... Povezava se odpre v novem oknu

, ID Aničić, Nemanja (Komentor)

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Izvleček

Za spremljanje kompleksne procesne dinamike izdelave liposomov smo razvili analitska orodja, ki temeljijo na znanih metodah s področja karakterizacije liposomov, centrifugiranju in ultracentrifugiranju disperzij liposomov. Lipidni prah, pripravljen s tehnologijo sušenja z razprševanjem, smo omočili in hidratirali ter tako dobili začetno disperzijo liposomov. Z optičnim mikroskopom smo v disperzijah poleg liposomov ugotovili prisotnost optično gostih delcev. Te smo z uporabo centrifugalne sile posedli iz disperzij in jih tako ločili od liposomov. Nastala oborina, ki smo jo dispergirali v pufru (pH65 °C = 5,5), je imela bistveno nižje masno razmerje zdravilna učinkovina : fosfolipidi v primerjavi s končnim liofilizatom po procesu membranske filtracije in je tako predstavljala neželeno frakcijo v disperziji. Z optimiziranjem procesov omočenja in hidratacije lipidnega prahu smo skušali zmanjšati količino oborine. Sistematično smo ovrednotili vplive pH pufrne raztopine, časa mešanja med hidratacijo lipidnega prahu, vrste mešala in vrste lipidnega prahu ter s pomočjo multivariantne podatkovne analize določili prevladujoče vplive. Pokazali smo tudi uporabnost centrifugiranja za raziskovanje procesov omočenja in hidratiranja lipidnega prahu pri prenosu iz laboratorijskega v industrijsko merilo. Pripravi začetnih disperzij liposomov je sledilo visokotlačno homogeniziranje disperzij z namenom zmanjšanja velikosti liposomov ter membranska filtracija z namenom zagotavljanja sterilnosti končnega izdelka. Disperzije liposomov iz različnih faz procesa visokotlačne homogenizacije smo ultracentrifugirali in oborine dispergirali v pufru (pH65 °C = 5,5). S kromatografskimi metodami in AF4-MALS metodo smo dokazali, da delci v oborini niso bili liposomi. UV VIS spektrofotometrično metodo na osnovi spremembe absorbance zdravilne učinkovine smo prepoznali kot potencialno metodo za kvantifikacijo količine zdravilne učinkovine v dispergirani oborini in tudi kot metodo za kvantifikacijo količine (neželene) oborine v disperzijah med procesom visokotlačne homogenizacije, kajti masno razmerje zdravilna učinkovina : fosfolipidi v oborini se tekom visokotlačne homogenizacije ni spreminjalo. Med drugim smo za zagotavljanje izvedljivosti membranske filtracije disperzij liposomov dokazali uporabnost vrednotenja količine oborine v disperzijah po visokotlačni homogenizaciji. Za dodatno razumevanje procesa membranske filtracije disperzij smo uporabili AF4 MALS metodo na osnovi radija giracije delcev v dispergirani oborini.

Jezik:	Slovenski jezik
Ključne besede:	Centrifugiranje, liposomi, membranska filtracija, podporna analitska orodja, ultracentrifugiranje, visokotlačna homogenizacija
Vrsta gradiva:	Magistrsko delo/naloga
Organizacija:	FFA - Fakulteta za farmacijo
Leto izida:	2025
PID:	20.500.12556/RUL-167962
Datum objave v RUL:	21.03.2025
Število ogledov:	401
Število prenosov:	0
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Sekundarni jezik

Izvleček:
Jezik:	Angleški jezik
Naslov:	Supportive analytical tools for investigation of process dynamics of liposome preparation
To investigate the complex process dynamics of liposome preparation, we’ve developed the analytical tools based on well known methods in the field of liposome characterisation, centrifugation and ultracentrifugation of liposome dispersions. The lipid powder prepared by spray-drying technology was wetted and hydrated to produce the initial liposome dispersion. The presence of optically dense particles in the dispersions, in addition to the liposomes, was detected using an optical microscope. These particles were separated from liposomes in the dispersions using centrifugal force. The resulting sediment dispersed in the buffer (pH65 °C = 5,5) had a significantly lower drug substance : phospholipid mass ratio compared to the (final) lyophilisate after the membrane filtration process and thus represented an unwanted fraction in the dispersion. By optimising the wetting and hydration processes of the lipid powder, we sought to reduce the amount of sediment. The individual impacts of pH buffer solution, mixing time during hydration of the lipid powder, type of stirrer and type of lipid powder were systematically evaluated, and the most significant impacts were determined by multivariate data analysis. We have also shown the applicability of centrifugation for the investigation of wetting and hydration processes of the lipid powder when scaling up to production. Preparation of the initial liposome dispersions was followed by high-pressure homogenisation of the dispersions to reduce size of the liposomes and membrane filtration to ensure sterility of the final product. The liposome dispersions from the different stages of the high pressure homogenisation process were ultracentrifuged and the sediment was dispersed in the buffer (pH65 °C = 5,5). Chromatographic and AF4-MALS methods were used to prove that the particles in the sediment were not liposomes. The UV VIS spectrophotometry based on the change in absorbance of the drug substance was identified as a potential method for quantification of the amount of drug substance in the dispersed sediment and also as a method for quantification of the amount of (unwanted) sediment in the dispersions during the high-pressure homogenisation process, as the mass ratio of drug substance : phospholipids in the sediment did not change during the high pressure homogenisation process. Furthermore, we demonstrated the usefulness of quantification of the sediment in dispersions after the high-pressure homogenisation process to ensure the feasibility of membrane filtration of the liposome dispersions. To further understand the membrane filtration process of dispersions, we have applied AF4 MALS method based on the radius of gyration of the particles in the dispersed sediment.
Ključne besede:	Centrifugation, high-pressure homogenization, liposomes, sterile filtration, supportive analytical tools, ultracentrifugation

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