Micelarna solubilizacija holesterola pomoću okso derivata žučnih kiselina / Micellar solubilization of cholesterol by oxo-derivatives of bile acids

Farkaš Zita

08 July 2015

<p>Doktorska disertacija razmatra solubilizaciju holesterola pomoću okso derivata žučnih kiselina, upoređuje okso derivate žučnih&nbsp; kiselina&nbsp; sa hidroksi-derivatima istih u solubilizaciji holesterola i ispituje uticaj okso derivata na vijabilnost ćelijske membrane.&nbsp; Takođe, ispituje pKa vrednost različitih okso-derivata žučnih kiselina sa ciljem da se odredi kiselinska konstanta ovih slabih organskih kiselina. Cilj određivanja pKa vrednosti jeste determinacija rastvorljivosti žučnih kiselina. Kada se primenjuju oralno u raznim farmaceutsko-tehnolo&scaron;kim formulacijama, one se primenjuju u obliku soli, koje su rastvorne u vodi. Međutim, u kiseloj sredini želuca može doći do taloženja žučne kiseline i do daljeg sprečavanja delovanja soli žučne kiseline kao solubilizatora određenih farmacutski aktivnih supstanci. Doktorska disertacija ispituje i kritičnu micelarnu koncentraciju me&scaron;ovitih micela natrijumovih soli 3 žučne kiseline (holne, deoksiholne i 7-oksodeoksiholne kiseline) i natrijum-dodecil-sulfata u različitim molskim udelima na temperaturama od 0 do 50&deg;C pomoću spektrofluorifotometra pirenskom metodom.</p> / <p>The PhD thesis discusses solubilization of cholesterol by using oxo derivatives of bile acids and compares it&nbsp; with the hydroxy-derivatives of the same in the solubilization of cholesterol, and examines the impact of the oxo derivatives to the viability of the cell membrane. Also, the pKa value of different&nbsp; tested oxo-derivatives of&nbsp; bile acids is determined. The aim of determining the pKa values is to determine the solubility of bile acids. When administered orally in various pharmaceutical-technological formulations, they are applied in the form of salts, that are soluble in water. However, the acidic medium of the stomach may cause precipitation of a bile salt and further prevent the action of bile acid salts as a solubilizers of specific pharmaceutically active substances. The PhD&nbsp;&nbsp; thesis examined the the critical micelle concentration of the mixed micelles of sodium salt of 3 bile acid (cholic, deoxycholic, and 7-oksodeoksiholne acid) and sodium dodecyl sulphate at various temperatures, the mole fractions ranging from 0 to 50 &deg;C using the method of spectrofluoriphotometry by pirene as a probe molecule.</p>

Synthesis and characterization of polymacromonomers based on polyethers

Mendrek, Aleksandra

24 April 2006

The synthesis and polymerization of macromonomers containing a polymerizable styrene head group and a tail of ethylene oxide derivatives of different character were investigated. The synthesis of macromonomers was based on living anionic polymerization of oxiranes. Two monomers were used: 1-ethoxyethyl glycidyl ether (glycidol acetal), which after hydrolysis forms hydrophilic glycidol blocks and glycidyl phenyl ether forming hydrophobic blocks. Polymerizable double bonds were introduced by terminating the living chain with p-(chloromethyl)styrene. However, MALDI-TOF-MS end group analysis showed that all synthesized macromonomers were a mixture of the macromonomer and the non-functionalized oligomer. The degree of functionalization varied from 55 to 75 %. The obtained macromonomers showed amphiphilic properties and formed micelles in water. The determined critical micellization (CMC) concentration for poly(glycidol) macromonomer (DP = 50) was ca. 10 g/L, while the poly(glycidol) block macromonomers with hydrophobic spacer showed CMC on the level 0,7 g/L. The conventional free radical and controlled free radical polymerisation (ATRP) were used for preparation of polymacromonomers with different properties. The radical polymerization of the macromonomers was carried out in water using AVA as initiator and in the mixture of water/benzene (10/1 v/v) using AIBN. Core-shell polymers of different character and molar masses with polydispersity indices from 1,4 -3,0 were obtained. The ATRP carried out in water using PEO macroinitiator led to polymacromonomers with polydispersity indices from 1,1 to 1,3 and desiried molecular weight. In all cases the conversion of macromonomer (able to polymerization) was close to 100%. The polymerization product could easily be separated from the unable to reaction residue.

Makromonomere

Mizellen

Polymakromonomere

anionische Polymerisation

bürsten-artig

anionic polymerisation

brushlike

macromonomers

micells

polymacromonomers

ddc:540

rvk:VK 8007

Anionische Polymerisation

Bürstenpolymere

Lebende Polymere

Micelle

Synthesis and characterization of polymacromonomers based on polyethers

Mendrek, Aleksandra

23 May 2006

The synthesis and polymerization of macromonomers containing a polymerizable styrene head group and a tail of ethylene oxide derivatives of different character were investigated. The synthesis of macromonomers was based on living anionic polymerization of oxiranes. Two monomers were used: 1-ethoxyethyl glycidyl ether (glycidol acetal), which after hydrolysis forms hydrophilic glycidol blocks and glycidyl phenyl ether forming hydrophobic blocks. Polymerizable double bonds were introduced by terminating the living chain with p-(chloromethyl)styrene. However, MALDI-TOF-MS end group analysis showed that all synthesized macromonomers were a mixture of the macromonomer and the non-functionalized oligomer. The degree of functionalization varied from 55 to 75 %. The obtained macromonomers showed amphiphilic properties and formed micelles in water. The determined critical micellization (CMC) concentration for poly(glycidol) macromonomer (DP = 50) was ca. 10 g/L, while the poly(glycidol) block macromonomers with hydrophobic spacer showed CMC on the level 0,7 g/L. The conventional free radical and controlled free radical polymerisation (ATRP) were used for preparation of polymacromonomers with different properties. The radical polymerization of the macromonomers was carried out in water using AVA as initiator and in the mixture of water/benzene (10/1 v/v) using AIBN. Core-shell polymers of different character and molar masses with polydispersity indices from 1,4 -3,0 were obtained. The ATRP carried out in water using PEO macroinitiator led to polymacromonomers with polydispersity indices from 1,1 to 1,3 and desiried molecular weight. In all cases the conversion of macromonomer (able to polymerization) was close to 100%. The polymerization product could easily be separated from the unable to reaction residue.

info:eu-repo/classification/ddc/540

ddc:540