Interactions Of Cholesterol Reducing Agent Simvastatin With Phospholipid Model Membranes

Kocak, Mustafa

01 January 2007

Interactions of simvastatin with zwitterionic dipalmitoyl phosphotidylcholine (DPPC) multilamellar liposomes were investigated as a function of temperature and simvastatin concentration. And acyl chain length effect on the simvastatin-model membrane interactions was monitored with DPPC and dimyristoyl phosphotidylcholine (DMPC) lipids. All studies were carried out by two non-invasive techniques, namely Fourier transform infrared (FTIR) spectroscopy, and differential scanning calorimetry (DSC). The results showed that as simvastatin concentration increased, the main phase transition temperature decreased, the main phase transition curve broadened, and the characteristic pretransition was disappeared for both DMPC and DPPC model membranes. All concentrations of simvastatin disordered and decreased the fluidity of phospholipid membranes. Analysis of C=O stretching band showed that simvastatin either strengthen the existing hydrogen bonds of the glycerol skeleton closer to the head groups or caused the formation of new hydrogen bonds. A dehydration effect caused by simvastatin around the PO2- functional groups in the polar part of the lipids was monitored. This dehydration effect in the gel phase was more profound than in the liquid crystalline phase for 1, 6, and 12 mol% of simvastatin concentrations. DSC peaks broadened and shifted to lower temperature values by increasing the simvastatin concentration. For both lipids, simvastatin-induced lateral phase separation was observed in the DSC thermograms. Any change caused by the acyl chain length difference of DMPC and DPPC lipids was not observed on the simvastatin-membrane interactions. Also, for both of the lipids similar trends were observed in the FTIR and DSC results. More profound effects of simvastatin on the less stable DMPC membranes were observed.

QH General Biology 301-705

Magnetic Ionic Liquids in Solutions and Emulsions

Bruno, Simon

January 2022

This research thesis reports experimental work done to design a stable magneticmicroemulsion of ionic liquid in 2-ethylhexyl laurate with the help of an ionic surfactant andan alcohol co-surfactant. The ionic liquids tested were based on a 1,3-dialkylimidazoliumcation with different alkyl chain lengths and a tetrachloroferrate anion ([FeCl4]+) to ensure theemulsion is sensitive to applied magnetic fields. Tests of solubility of these ionic liquids havebeen performed in different solvents and oils. Emulsification tests have been done withdifferent dispersing medium, surfactants as well as with different components quantities tofind the best composition possible. Polarity and chain length of alkyl radicals in ionic liquidsand hydrocarbons in alcohol co-surfactants were proved to affect the emulsification process.Shorter chains, and higher polarity of [C1C2im]+ [FeCl4]- (at 1wt%) combined with [C1C12im]+[FeCl4]- surfactant (between 3 and 5wt%) and non-polar 1-Hexanol co-surfactant (at 10 wt%)were the best combination to create a stable magnetic microemulsion in 2-ethylhexyl laurate. Applications for this microemulsion could vary from improved oil recovery to transport ofmaterials in liquid medium for examples and have all in common a better and tunablecontrollability of the used liquid via magnetic fields. / Denna forskningsuppsats rapporterar experimentellt arbete som gjorts för att designa enstabil magnetisk mikroemulsion av jonisk vätska i 2-EtylHexyllaurat med hjälp av ett jonisktytaktivt ämne och ett alkoholsamverkande ytaktivt ämne. De joniska vätskorna som testadesvar baserade på en 1,3-dialkylimidazoliumkatjon med olika alkylkedjelängder och entetraklorferratanjon ([FeCl4]+) för att säkerställa att emulsionen är känslig för applicerademagnetfält. Tester av lösligheten av dessa joniska vätskor har utförts i olika lösningsmedel ocholjor. Emulgeringstester har gjorts med olika dispergeringsmedium, ytaktiva ämnen samt medolika mängd komponenter för att hitta bästa möjliga sammansättning. Polaritet ochkedjelängd för alkylradikaler i joniska vätskor och kolväten i alkoholsamverkande ytaktivaämnen visade sig påverka emulgeringsprocessen. Kortare kedjor och högre polaritet för[C1C2im]+[FeCl4]- (vid 1 wt%) kombinerat med [C1C12im]+[FeCl4]- ytaktivt ämne (mellan 3 och 5 wt%) och opolär 1-hexanol medytaktivt medel (vid 10 wt% var den bästa kombinationen föratt skapa en stabil magnetisk mikroemulsion i 2-EtylHexyllaurat. Tillämpningar för denna mikroemulsion kan variera från förbättrad oljeutvinning tilltransport av material i flytande medium till exempel och har alla gemensamt en bättre ochavstämbar styrbarhet av den använda vätskan via magnetfält.

ionic liquids

microemulsion

magnetic response

surfactant

co-surfactant

imidazolium cation

polarity

chain length effect

joniska vätskor

mikroemulsion

magnetisk respons

surfaktant

co-surfaktant

imidazoliumkatjon

polaritet

kedjelängdseffekt

Other Materials Engineering

Annan materialteknik