J Microencapsul. 2016 Aug 24:1-31.
Transfollicular enhancement of methyl myristate loaded in cationic niosomes incorporated in hair lotion.
Manosroi J1,2,3,4, Chankhampan C2,3,4, Chaikul P1,5, Manosroi W6, Manosroi A1,2,3,4.
Hair lotion containing methyl myristate loaded in cationic niosomes (HL-MMnio) composed of Brij72/cholesterol/DDAB at 7:3:0.65 molar ratio was developed. The remaining percentages of MM loaded in cationic niosomes in hair lotion were higher than free MM in hair lotion of about 1.2 times. The cumulative amounts in rat skin and the receiver compartment of MM loaded in cationic niosomes incorporated in hair lotion were higher than those of free MM in hair lotion of 1.45 and 1.32 times, respectively. HL-MMnio showed very slightly irritation on rabbit skin, which was disappeared after 4 days. For melanogenesis induction in C57BL/6 mice with aged-induced gray body coat hairs, the highest pigmentation scores of HL-MMnio applied on the dorsal area were observed after 21 days, while hair lotion containing the free MM indicated after 35 days. This study has suggested that HL-MMnio was the high potential formulation for canities treatment.
PMID: 27556271
J Biomed Nanotechnol. 2013 Apr;9(4):626-38.
Melanogenesis of methyl myristate loaded niosomes in B16F10 melanoma cells.
Manosroi A1, Chaikul P, Abe M, Manosroi W, Manosroi J.
The objective of this study was to compare the charge effect of methyl myristate loaded in neutral (Brij 72/cholesterol at 7:3), cationic (Brij 72/cholesterol/dimethyl dioctadecyl ammonium bromide at 7:3:0.65) and anionic niosomes (Brij 72/cholesterol/dicetyl phosphate at 7:3:0.65) for physicochemical characteristics, cytotoxicity in fibroblasts and B16F10 melanoma cells as well as melanogenesis induction activity. The maximum loading and percentage entrapment of methyl myristate were 4.5, 90.68 +/- 7.95 in neutral; 11.0, 92.54 +/- 6.32 in cationic and 0.1% w/w, 74.43 +/- 1.86% in anionic niosomes, respectively. All methyl myristate loaded niosomes were in unilamellar structure under transmission electron microscope and in nanosize at initial and after 3-month storage. The percentages of methyl myristate remaining in all niosomes kept at 4 +/- 2, 30 +/- 2 and 45 +/- 2 degrees C for 3 months were about 82, 74 and 72%, respectively, while the dry free methyl myristate indicated 97.82 +/- 1.74, 96.56 +/- 2.91 and 91.39 +/- 4.32%, respectively. Blank neutral, blank cationic and methyl myristate loaded neutral and cationic niosomes exhibited moderate cytotoxicity in fibroblasts and B16F10 melanoma cells at 56.64 +/- 3.19, 59.72 +/- 1.51; 73.81 +/- 2.86, 82.51 +/- 0.20; 47.34 +/- 2.13, 52.67 +/-2.78 and 73.20 +/- 3.49, 84.34 +/- 2.75% cell viability, respectively. Blank anionic and methyl myristate loaded anionic niosomes indicated no cytotoxicity in both cells. Cytotoxic ratio of cell viability in normal and cancer cells of all niosomes indicated no toxic effect to normal cells. Methyl myristate loaded cationic niosomes demonstrated the highest melanin induction with tyrosinase activity of 1.42 and 1.70 folds of the control and 1.14 and 1.59 folds higher than theophylline, respectively. This study has suggested the potential of methyl myristate loaded cationic niosomes for canities treatment.
PMID: 23621022
Synonyms:
("Methyl Myristate" OR "Methyl-Myristate" OR "Methyl Tetradecanoate" OR "Tetradecanoic Acid Methyl Ester" OR "Methyltetradecanoate")
