mixed micelle
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2021 ◽  
Vol 37 (6) ◽  
pp. 1376-1386
Author(s):  
V.C. Ezhilrani ◽  
Vigneshwari. R ◽  
Sasmita Dash

The interaction studies of drug ciprofloxacin with two mixed micellar systems are reported. The mixed micelles comprise a nonionic hydrophobic surfactant, pluronic L-81, an anionic surfactant, Ammonium dodecyl sulfate (ADS); and a cationic surfactant, Cetylpyridinium bromide (CPB). The various combinations chosen were L-81-ADS and L-81-CPB. The properties of both the mixed micelles were compared. Spectrophotometric, conductometric, co-solvent effect, and Infrared studies were used for the investigations. The studies were carried out in a wide range of mixed micellar concentrations in the post micellar region of the individual surfactants. The solubilization of drug CPX in the L-81-ADS was higher than that in L-81-CPB mixed micelle, as evidenced by UV studies. Ethanol and ethylene glycol were found to be effective co-solvents for both the mixed micellar systems. The conductivity studies of CPX with ADS and CPB surfactants, displayed a higher value of conductance for CPX and ADS, from 0.37µs-1 to 0.74µs-1 compared to CPX and CPB. The drug-mixed micelle displayed a higher molecular weight complex formation as seen from the IR spectra.


Nanomaterials ◽  
2021 ◽  
Vol 11 (12) ◽  
pp. 3288
Author(s):  
Ádám Juhász ◽  
László Seres ◽  
Norbert Varga ◽  
Ditta Ungor ◽  
Marek Wojnicki ◽  
...  

While numerous papers have been published according to the binary surfactant mixtures, only a few articles provide deeper information on the composition dependence of the micellization, and even less work attempts to apply the enhanced feature of the mixed micelles. The most important parameter of the self-assembled surfactants is the critical micelle concentration (cmc), which quantifies the tendency to associate, and provides the Gibbs energy of micellization. Several techniques are known for determining the cmc, but the isothermal titration calorimetry (ITC) can be used to measure both cmc and enthalpy change (ΔmicH) accompanying micelle formation. Outcomes of our calorimetric investigations were evaluated using a self-developed routine for handling ITC data and the thermodynamic parameters of mixed micelle formation were obtained from the nonlinear modelling of temperature- and composition- dependent enthalpograms. In the investigated temperature and micelle mole fractions interval, we observed some intervals where the cmc is lower than the ideal mixing model predicted value. These equimolar binary surfactant mixtures showed higher solubilization ability for poorly water-soluble model drugs than their individual compounds. Thus, the rapid and fairly accurate calorimetric analysis of mixed micelles can lead to the successful design of a nanoscale drug carrier.


2021 ◽  
Vol 901 ◽  
pp. 98-103
Author(s):  
Sunee Channarong ◽  
Parapat Sobharaksha ◽  
Chanchai Sardseangjun ◽  
Panipak Vasvid

Abstract The aim of this study was to fabricate curcumin-loaded polymeric mixed micelle which was a new nanocarrier of therpeutic agent for skin uses. Curcumin was extracted from dried turmeric rhizomes using ethanol and recrystallized. The purity of curcumin was 79±3.6 %w/w. Six curcumin-loaded polymeric micelles (PM1-PM6) were prepared by simple dissolution method using poloxamer 407 (5% and 10%) as a main core structure. PEG-40 hydrogenated castor oil (PEG-40HCO) was incorporated at two percentages (2.5% and 5.0%) to study the effect on the nanoparticle characteristics. The average particle sizes of PM1-PM6 were in the range of 33.3±6.6 nm to 171.3±52.8 nm. The entrapment efficiency and the loading capacity of curcumin were in the range of 47.45%-77.35% and 0.048%w/w-0.078%w/w, respectively. When PEG-40HCO was incorporated in to the polymeric micelles, the particle size decreased and the entrapment efficiency increased. Thus, PM4 and PM5 were selected for further study. Moisturizing antioxidant creams containing 0.005%w/w of curcumin loaded in PM4, PM5 and curcumin simply dissolved in propylene glycol (PG) were formulated. The resulted formulations showed good spreadability and good characteristics. After being subjected to accelerated test, all of the formulations remained with characteristic color, pH and showed no phase separation. The stability data showed that the moisturizing antioxidant creams were stable for the whole 3 months after storage at accelerated temperature (45°C/75%RH). The study demonstrated that polymeric mixed micelle spontaneously encapsulated a poorly water-soluble curcumin and increased the solubility up to 250 folds. The developed moisturizing cream containing 0.005%w/w of curcumin resulted a greenish-yellow color preparation. It had tolerable physicochemical properties based on curcumin content, pH and viscosity under the harsh condition. The cream also had satisfactory antioxidant activity, which can be regarded as an effective and acceptable therapeutic or skincare products for topical uses.


Author(s):  
Arun Kumar Jannu ◽  
Eswara Rao Puppala ◽  
Basveshwar Gawali ◽  
N.P. Syamprasad ◽  
Amit Alexander ◽  
...  

2021 ◽  
Vol 19 (4) ◽  
pp. 20-26
Author(s):  
Inaam H. Ali ◽  
Sameer H. Kareem ◽  
Fouad A.A. AL-Saady

In the current work, we discuss the mixed micelles and thermodynamic micellization of aqueous binary mixture of polyoxyethylene - 20 sorbitan-monododecanoate (Tween 20) as nonionic surfactant and Benzyldimethylhexadecyl ammonium chloride (HDBAC) as cationic surfactant using conductivity and surface tension (γ) estimations in the temperatures range (288 -318K). Critical micelle concentration (CMC) and variables of micellization, like the standard thermodynamic functions: Gibbs free energy (Δ𝐺𝑚 ⁰ ), enthalpyΔ𝐻𝑚 ⁰ ) and entropy (Δ𝑆𝑚 ⁰ ) were calculated using the variation of conductivity and γ with molar concentration and the variation of ln XCMC with temperature. The experimental CMC values were applied to calculate the mole fractions of surfactant in the mixed micelle (𝑋1 𝑚 ), the β parameter and the coefficient of activity f1and f2, using the equations proposed by Clint and Rubingh, which indicate the β parameter, is always negative. In addition, the results of thermodynamic parameters show that ΔG⁰m are negative for both individual and mixture of HDBAC-Tween20 surfactants and the values negatively increased with increasing temperature while its negative values decreasing with decreasing initial mole fraction of HDBAC.


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