Formulation of a 7,2′,4′-trihydroxyflavanone oil-in-water microemulsion using aqua coconut oil: Characterization, stability, and antibrowning effects on fresh apple juice

[1]  Qin Zhu,et al.  Preparation of steppogenin and ascorbic acid, vitamin E, butylated hydroxytoluene oil-in-water microemulsions: Characterization, stability, and antibrowning effects for fresh apple juice. , 2017, Food chemistry.

[2]  K. Mearow,et al.  Coconut oil protects cortical neurons from amyloid beta toxicity by enhancing signaling of cell survival pathways , 2017, Neurochemistry International.

[3]  Zong-Ping Zheng,et al.  Characterization of a New Flavone and Tyrosinase Inhibition Constituents from the Twigs of Morus alba L. , 2016, Molecules.

[4]  Xiong Fu,et al.  Preparation and Characterization of Microemulsions of Myricetin for Improving Its Antiproliferative and Antioxidative Activities and Oral Bioavailability. , 2016, Journal of agricultural and food chemistry.

[5]  Jie Chen,et al.  Preparation of tyrosinase inhibitors and antibrowning agents using green technology. , 2016, Food chemistry.

[6]  Qin Zhu,et al.  Encapsulation artocarpanone and ascorbic acid in O/W microemulsions: Preparation, characterization, and antibrowning effects in apple juice. , 2016, Food chemistry.

[7]  P. Boonme,et al.  Formation of microemulsions for using as cosmeceutical delivery systems: effects of various components and characteristics of some formulations , 2016, Drug Delivery and Translational Research.

[8]  S. Sahoo,et al.  Effect of microemulsion in topical sertaconazole hydrogel: in vitro and in vivo study , 2016, Drug delivery.

[9]  O. Lee,et al.  Development and validation of an analytical method for the determination of 4-hexylresorcinol in food. , 2016, Food chemistry.

[10]  P. K. P. Kumar,et al.  Physicochemical characteristics of commercial coconut oils produced in India , 2015 .

[11]  A. Misra,et al.  Amphotericin B topical microemulsion: formulation, characterization and evaluation. , 2014, Colloids and surfaces. B, Biointerfaces.

[12]  Feng-qin Feng,et al.  Microstructure characterization of a food-grade U-type microemulsion system by differential scanning calorimetry and electrical conductivity techniques. , 2013, Food chemistry.

[13]  S. Arunima,et al.  Effect of virgin coconut oil enriched diet on the antioxidant status and paraoxonase 1 activity in ameliorating the oxidative stress in rats - a comparative study. , 2013, Food & function.

[14]  Yifen Lin,et al.  Inhibitory effects of propyl gallate on tyrosinase and its application in controlling pericarp browning of harvested longan fruits. , 2013, Journal of agricultural and food chemistry.

[15]  Jie Chen,et al.  Characterization of tyrosinase inhibitors in the twigs of Cudrania tricuspidata and their structure-activity relationship study. , 2013, Fitoterapia.

[16]  Chi-Tang Ho,et al.  Tyrosinase inhibitory components of immature calamondin peel. , 2012, Food chemistry.

[17]  S. Supapvanich,et al.  Physicochemical changes in fresh-cut wax apple (Syzygium samarangenese [Blume] Merrill & L.M. Perry) during storage. , 2011, Food chemistry.

[18]  Mushir M. Ali,et al.  Study of surfactant combinations and development of a novel nanoemulsion for minimising variations in bioavailability of ezetimibe. , 2010, Colloids and surfaces. B, Biointerfaces.

[19]  J. Calixto,et al.  Anti-inflammatory effect of quercetin-loaded microemulsion in the airways allergic inflammatory model in mice. , 2010, Pharmacological research.

[20]  G. Krishna,et al.  Coconut Oil: Chemistry, Production and Its Applications- A Review , 2010 .

[21]  J. Hemavathy,et al.  Fatty Acid Composition, Oxidative Stability, and Radical Scavenging Activity of Vegetable Oil Blends with Coconut Oil , 2009 .

[22]  M. Fanun Microemulsions Formation on Water/Nonionic Surfactant/Peppermint Oil Mixtures , 2009 .

[23]  Y. Zhu,et al.  Preparation and characterization of glucose-sensitive hydrogel submicron particles using inverse microemulsions , 2006 .

[24]  J. H. Yoon Park,et al.  Inhibition of hydrogen peroxide-induced endothelial apoptosis by 2',4',7-trihydroxyflavanone, a flavonoid form. , 2004, Journal of medicinal food.

[25]  S. Benita,et al.  Self-emulsifying drug delivery systems (SEDDS) for improved oral delivery of lipophilic drugs. , 2004, Biomedicine & pharmacotherapy = Biomedecine & pharmacotherapie.

[26]  F. H. Ferretti,et al.  A theoretical and experimental study on the solubility, dissolution rate, structure and dipolar moment of flavone in ethanol , 2002 .

[27]  K. Shin,et al.  Synthesis of flavonoids and their effects on aldose reductase and sorbitol accumulation in streptozotocin‐induced diabetic rat tissues , 2001, The Journal of pharmacy and pharmacology.

[28]  N. Garti,et al.  Improved oil solubilization in oil/water food grade microemulsions in the presence of polyols and ethanol. , 2001, Journal of agricultural and food chemistry.

[29]  S. P. Moulik,et al.  Structure, dynamics and transport properties of microemulsions , 1998 .

[30]  C. Triggs,et al.  Influence of Pigment Composition on Skin Color in a Wide Range of Fruit and Vegetables , 1997 .

[31]  C. Solans,et al.  Industrial applications of microemulsions , 1997 .

[32]  T. Fukai,et al.  Components of the root bark of Morus cathayana. 1. Structures of five new isoprenylated flavonoids, sanggenols A - E and a diprenyl-2-arylbenzofuran, mulberrofuran V , 1996 .

[33]  M. Lawrence,et al.  Investigations into the formation and characterization of phospholipid microemulsions. I. Pseudo-ternary phase diagrams of systems containing water-lecithin-alcohol-isopropyl myristate , 1993 .

[34]  W. S. Otwell,et al.  Inhibition of enzymatic browning in foods and beverages. , 1992, Critical reviews in food science and nutrition.

[35]  L. M. Prince Microemulsions : theory and practice , 1977 .