Departemen Kesehatan Republik Indonesia, 1979, Farmakope Indonesia Edisi III, Jakarta, Direktorat Jenderal Pengawasan Obat dan Makanan Republik Indonesia. Fletcher, P.D.I., and Suhling, K., 1998, Interaction Between Weakly Charged Oil- in-Water Microemulsion Droplets, Langmuir, 1415: 4065-4069. Fulekar, M.H., 2010, Nanotechnology: Importance and Applications, I.K International Publishing House Pvt.Ltd., New Delhi, p.1. Gediya, S.K., 2011, Herbal Plants: Used as a Cosmetics, Journal Nature Product Plants Resources, India. Gupta, P.K., Pandit, J.K., Kumar, A., Swaroop, P., and Gupta, S., 2010, Pharmaceutical Nanotechnology Novel Nanoemulsion: High Emulsification Preparation, Evaluation, and Application, The Pharma Research, 3: 117-138. Huynh-Ba, K., 2008, Handbook of Stability Testing in Pharmaceutical Development, Springer, New York, pp. 34, 359, 365-366. Jaworska, M., Sikora, E., and Ogonowski, J., 2014, The Influence of Glicerides Oil Phase on OW Nanoemulsion Formation by PIC Method, Per. Pol. Chem. Eng., 581: 43-48. Jurenka, J.M.T., 2008, Therapeutic Applications of Pomegranate Punica granatum L.: A Review, Alternative Medicine Review, 132:128-129. Khoddami, A., Man, Y.B.C., and Roberts, T.H., 2014, Physco-chemical Properties and Fatty Acid Profile of Seed Oil from Pomegranate Punica granatum L. Extracted by Cold Pressing, Eur. J. Lipid Sci. Technol., 1165:553-562. Lachman, L., Lieberman, H.A., and Kanig, J.L., 1994, Teori dan Praktek Farmasi Industri, Edisi III, UI Press, Jakarta, hal. 643-716. Lawrence, M.J., and Ress, G.D., 2000, Microemulsion-based Media as Novel Drug Delivery Systems, Adv. Drug Delivery Rev., 451: 89-121. Lima, G.P.P., and Vianello, F., 2013, Food Quality, Safety, and Technology, Springer, New York, p.4. Mackler, A.M., Heber, D., and Cooper, E.L., 2013, Pomegranate: Its Health and Biomedical Potential, Evidence-Based Complementary and Alternative Medicine, 12013:1-2. Marina, A.M., Man, Y.B.C., Nazimah, S.A.H., and Amin, I., 2009, Chemical Properties of Virgin Coconut Oil, J Am Oil Chem Soc, 861: 301-307. Martin, F., Swarbrick, J., and Cammarata, J., 2008, Farmasi Fisik : Dasar-Dasar Farmasi Fisik Dalam Ilmu Farmasetika, Edisi Ketiga, Jilid 2, UI Press, Jakarta, hal. 724, 725. McClements, D.J., and Rao, J.J., 2011, Food-Grade Microemulsions and Nanoemulsions: Role of Oil Phase Composition on Formation and Stability, Food Hydrocolloids, 292012: 326-334. Melo, I.L.M., 2012, Evaluation of the Effects of Pomegranate Seed Oil Punica granatum L. on Tissue Lipid Profile and its Influence on Biochemical Parameters in Oxidative Processes of Rats, Pharmaceutical Science Faculty of San Paolo, San Paolo. Melo, I.L.P., Carvalho, E.B.T., and Filho, J.M., 2014, Pomegranate Seed Oil Punica Granatum L.: A Source of Punicic Acid Conjugated α- Linolenic Acid, J Hum Nutr Food Sci, 21: 1024. Myers, D., 2006, Surfactant Science and Technology, Third Edition, John Wiley and Sons, Inc., New Jersey, pp. 28-30. Nielloud, F., and Marti, G., 2000, Pharmaceutical Emulsions and Suspensions, Marcel Dekker Inc, New York, pp. 1-13. Pardo, G.D., McClements, D.J., 2014, Nutraceutical Delivery Systems: Resveratrol Encapsulation in Grape Seed Oil Nanoemulsions Formed by Spontaneous Emulsification, Food Chemistry, 1672015: 205-212. Patel, H.C., Parmar, G., Seth, A.K., Patel, J.D., and Patel, S.R., 2013, Formulation and Evaluation of OW Nanoemulsion of Ketoconazole, Pharma Science Monitor, 44:338-351. Qian, C., and McClements, D.J., 2011, Formation of Nanoemulsions Stabilized by Model Food-Grade Emulsifiers Using High-Pressure Homogenization : Factors Affecting Particle Size, Food Hyrocolloids, 252011: 1000- 1008. Qusti, S.Y., Khatwa, A.N.A., and Lahwa, M.A.B., 2010, Screening Of Antioxidant Activity And Phenolic Content Of Selected Food Items Cited In The Holy Quran, EJBS, 21: 40-51. Resende, K.X., Correa, M.A., Oliveira, A.G., and Scarpa, M.V., 2008, Effect of Cosurfactant on the Supramolecular Structure and Physicochemical Properties of Non-Ionic Biocompatible Microemulsions, Brazilian Journal of Pharmaceutical Science, 441: 35-42. Rowe, R.C., Sheskey, P.J., and Quinn, M.E., 2009, Handbook of Pharmaceutical Excipients Sixth Edition, Pharmaceutical Press, London, pp.549-553, 675-678, 766-770. Salager, J.L., 2002, Surfactant Types and Uses, Laboratorio FIRP, Venezuela, pp.28-34. Salim, N., Basri, M., Rahman, M.B.A., Abdullah, D.K., Basri, H., and Salleh, A.B., 2011, Phase Behavior, Formation and Characterization of Palm- Based Esters Nanoemulsion Formulation Containing Ibuprofen, J Nanomedicine Nanotechnology, 24: 113-117. Schramm, L.L., 2000, Surfactants: Fundamentals and Applications in the Petroleum Industry, Cambridge University Press, United Kingdom, pp. 9-10. Segalowicz, L., and Leser, M.E., 2010, Delivery System for Liquid Food Products, Current Opinion in Colloid and Interface Science, 15: 61-72. Silvia, A.P.C., Nunes, B.R., Oliveira, M.C., Koester, L.S., Mayogra, P., Bassani, V.L., et al., 2009, Development of Topical Nanoemulsions Containing the Isoflavone Genistein, Pharmazie, 64:32-35. Sinko, J.S., Eds, 2006, Martin’s Physical Pharmacy and Pharmaceutical Sciences : Physical Chemical and Biopharmaceutical Principles in The Pharmaceutical Sciences, Lippincott William and Wilkins, USA. Soni, G.C., Prajapati, S.S.K., and Chaudhri, N., 2014, Self Nanoemulsion: Advance Form Of Drug Delivery System, World Journal of Pharmacy and Pharmaceutical Sciences, 310: 410-436. Suciati, T., Aliyandi, A., and Satrialdi, 2014, Development of Transdermal Nanoemulsion Formulation for Simultaneous Delivery of Protein Vaccine and Artin-M Adjuvant, International Journal of Pharmacy and Pharmaceutical Science, 66:536-541. Tadros, T.F., 2013, Emulsion Formation, Stability, and Rheology, Wiley-VCH Verlag GmbH Co, Germany, pp. 3-4. Tadros, T.F., Izquierdo, P., Esquena, J., and Solans, C., 2004, Formation and Stability of Nanoemulsions, Advances in Colloid and Interface Science,

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