Red Palm Oil (RPO) is the result of refining from Crude Palm Oil (CPO) which still maintains a high level of phytonutrients that are beneficial for health. The benefits of RPO can be used as a nutraceutical source, because RPO acts as a provitamin A and vitamin E. The addition of Lactic Acid Bacteria (LAB) in a product functions as a probiotic with metabolite activity that can inhibit pathogenic microorganism thereby increasing the durability of a product. The addition of LAB to RPO is expected to increase the nutraceutical value by adding probiotic properties to RPO products. Microencapsulation technology can protect the bioactive content of essential oils against unwanted chemical interactions with other components and provide increased stability during processing. This research is expected to be able to provide information about the potential raw material of fermented RPO as a nutraceutical source by showing the profile of RPO before and after the fermentation process, chemical and physical properties of the microencapsulant. The microencapsulation technique used is the extrusion method. Fermentation of the bioactive compound ingredients in RPO using L. casei has a significant effect. RPO after fermentation using L. casei (Red-PalmZym) produces major compounds in the form of 9-Octadecenoic acid, methyl ester, (E)- Fermentation of RPO with L. casei increases the components of chemical compounds contained therein. The stability of the RPO microencapsulated before fermentation provided an effective protection against oxidative damage to the oil and proved that the microencapsulation process can reduce the level of damage to the oil.

Botrel, D. A., Fernandes, R., Borges, S.,Yoshida, M. I. (2014) Influence of wall matrix systems on the properties of spray-dried microparticles containing fish oil, Food Research International, 62, pp. 344–352. doi: 10.1016/j.foodres.2014.02.003.

Budijanto, S., Andarwulan, N. and Herawati, D. (2012) Teori dan Praktek Kimia dan Teknologi Lipida. Institut Pertanian Bogor.

Chávarri, M., Maranon, I., Ares, R., Ibanez, F., Marzo, F. (2010) Microencapsulation of a probiotic and prebiotic in alginate-chitosan capsules improves survival in simulated gastro-intestinal conditions, International Journal of Food Microbiology, 142(1–2), pp. 185–189. doi: 10.1016/j.ijfoodmicro.2010.06.022.

Distantina, S. et al. (2013) Preparation and characterization of glutaraldehyde-crosslinked kappa carrageenan hydrogel, Engineering Journal, 17(3), pp. 57–66. doi: 10.4186/ej.2013.17.3.57.

Distantina, S., Rahayu, F. and Zalfa, T. H. G. (2018) Bead Gel dari Karagenan- Carboxymethylcellulose dengan Crosslinking Glutaraldehid sebagai Controlled Release Urea, Prosiding Seminar Nasional Teknik Kimia “Kejuangan”, (April), pp. 1–8.

Dwiyanti, H. et al. (2014) Penambahan cpo dan rpo sebagai sumber provitamin a terhadap retensi karoten, sifat fisik, dan penerimaan gula kelapa, Jurnal Teknologi Industri Pertanian, 24(1), pp. 28–33.

Ebara, M. et al. (2014) Smart Biomaterials. New York: Spinger.

Eva, Y., Mulyati, A. H., Nuraeni. (2017) Kualitas Minyak Goreng Curah yang Berada di Pusat Pasar Tradisional di Daerah Jabodetabek pada Berbagai Penyimpanan, Ekologia, 2(1), pp. 1–118.

Fasikhatun, T. (2010) Pengaruh Konsentrasi Maltodekstrin dan Gum Arab Terhadap Karakteristik Mikroenkapsulat Minyak Sawit Merah dengan Metode Spray Drying. Skripsi. Institut Pertanian Bogor.

Frediansyah, A., Nurhayati, R. and Romadhoni, F. (2017) Enhancement of Antioxidant Activity , α-Glucosidase and α- Amylase Inhibitory Activities by Spontaneous and Bacterial Monoculture Fermentation of Indonesian Black Grape Juices, AIP Conference Proceedings, 18(1), pp. 1–9. doi: 10.1063/1.4973149.

Ggassi, G. K. and Vandamme, T. (2012) Probiotic encapsulation technology: microencapsulation to release into gut, Pharmaceutical, 4, pp. 149–163.

Hartono, H. S., Soetjipto, H. and Kristijanto, A. I. (2017) Extraction and Chemical Compounds Identification of Red Rice Bran Oil Using Gas Chromatography – Mass Spectrometry (Gc-Ms) Method, Jurnal Eksakta, 17(2), pp. 98–110. doi: 10.20885/eksakta.vol17.iss2.art2.

Hasibuan, H. A. (2021) Potensi minyak sawit merah sebagai pangan fungsional dan nutrasetikal, Jurnal Warta PPKS, 26(3), pp. 178–184.

Hasibuan, N. E., Tamrin and Muis, Y. (2017) Mikroenkapsulasi minyak ikan pora-pora (mystacoleucus padangensis) menggunakan metode spray drying untuk aplikasi nutrisi makanan, Jurnal Kimia Mulawarman, 14(2), pp. 108–114.

Hasrini, R. F. et al. (2017) Mikroenkapsulasi Minyak Sawit Mentah Dengan Penyalut Maltodekstrin dan Isolat Protein Kedelai, Jurnal Teknologi dan Industri Pangan, 28(1), pp. 10–19.

Jafari, S. M. et al. (2011) Encapsulation Efficiency of Food Flavours and Oils during Spray Drying, Journal Drying Technology, 26(1), pp. 816–835.

Ketaren, S. (2005) Minyak dan Lemak Pangan. Jakarta: Universitas Indonesia Press.

Kholisoh, G. (2016) Uji Viabilitas Enkapsulasi Lactobacillus casei menggunakan Matriks Kappa Karaginan Terhadap Simulasi Cairan Asam Lambung. Skripsi. UIN Syarif Hidayatullah.

Khotimah, H. et al. (2018) Pemanfaatan Bakteri Asam Laktat yang Di Isolasi Dari Saluran Pencernaan Ayam Lokal Untuk Pembuatan VCO Secara Fermentasi, Bioma : Berkala Ilmiah Biologi, 20(1), p. 35. doi: 10.14710/bioma.20.1.35-39.

Latifah, N. and Estiasih, T. (2016) Microencapsulation Unsaponifiable Fractions from Palm Fatty Acid Distillate ( PFAD ) using Spray Drying Me, Jurnal Pangan dan Agroindustri, 4(1), pp. 84–88.

Lee, W. J. et al. (2018) Microencapsulation of red palm oil as an oil-in-water emulsion with supercritical carbon dioxide solution-enhanced dispersion, Journal of Food Engineering, 222, pp. 100–109. doi: 10.1016/j.jfoodeng.2017.11.011.

Marpaung, A. L., Tafzi, F. and Rahmayani, I. (2021) Pengaruh Perbandingan Maltodekstrin dan Gum Arab pada Mikroenkapsulasi Ekstrak Daun Duku Kumpeh, Jurnal Teknologi Pertanian, 2(1), pp. 1–10.

Maulidna (2020) Mikroenkapsulasi Minyak Atsiri Rimpang Bungle (Zingiber cassumunar roxb) dengan Matriks Pati Batang Kelapa Sawit-Kitosan dengan Pengikat Silang Glutaraldehid. Skripsi. Universitas Medan.

Maulidyawati (2009) Mikroenkapsulasi Ibuprofen dengan Penyalut Polipapduan Poli (Asam Laktat) dan Polikaprolakton. Skripsi. Institut Pertanian Bogor.

Mawarni, S. A. and Yuwono, S. S. (2018) Pengaruh Lama Pemasakan Dan Konsentrasi Karagenan Fruit( Belimbing Dan Apel ) Effect of Cooking Time and Carrageenan Concentration on Physical , Chemical , and Organoleptic Properties of Mix Fruit Sheet Jam (Starfruit and Apple), Jurnal Pangan dan Agroindustri, 6(2), pp. 33–41.

Montesqrit and Ovianti, R. (2013) Pengaruh Suhu dan Lama Penyimpanan terhadap Stabilitas Minyak Ikan dan Mikrokapsul Minyak Ikan, Jurnal Peternakan Indonesia, 15(1), pp. 62–68.

Muchtadi, T. R. et al. (2015) Kondisi Homogenisasi dan Prapeningkatan Skala Proses Mikroenkapsulasi Minyak Sawit, Jurnal Teknologi dan Industri Pangan, 25(3), pp. 248–259.

Nguyen, T. N. Q. (2016) Effect of Wall Material on the Property of Gac Oil Spray-dried Power, Journal of Nutrition & Food Sciences, 06(05), pp. 10–13. doi: 10.4172/2155-9600.1000544.

Nurpalah, R., Kusmiati, M. and Novitriani, K. (2017) Pengaruh Virgin Coconut Oil ( Vco ) Yang Dibuat Melalui Teknik Fermentasi Menggunakan Bakteri Lactobacillus Casei Galur Komersial Yakult Terhadap Kadar Glukosa Dan Kolesterol Darah Mencit Jantan, Jurnal Kesehatan Bakti Husada, 17(1), pp. 148–156.

Pegg, R. B. (2005) Lipid Oxidation/Stability: Measurent of Primary Oxidation Product. Di dalam Wrolstad RE (ed.), handbook of Food Analytical Chemistry: Water, Proteins, Lipids and Carbohydrates. New Jersey: Wiley Interscience.

Pradikaningrum, H. (2015) Uji viabilitas mikroenkapsulasi Lactobacillus casei menggunakan matrik kitosan. Skripsi. UIN Syarif Hidayatullah.

Prakash, S. et al. (2011) The gut microbiota and human health with an emphasis on the use of microencapsulated bacterial cells, Journal of Biomedicine and Biotechnology, 2011. doi: 10.1155/2011/981214.

Putri, D. N., Wibowo, Y. M. N. and Harini, N. (2021) Karakteristik Mikrokapsul Minyak Ekstrak dari Kepala Kakap Merah pada Beberapa Rasio Bahan Penyalut, Jurnal Teknologi Pertanian, 22(2), pp. 89–100.

Rahmadi, A. et al. (2013) Physicochemical and Antibacterial Characteristics of Virgin Coconut Oil Fermented with Lactic Acid Bacteria, Jurnal Teknologi dan Industri Pangan, 24(2), pp. 178–183. doi: 10.6066/jtip.2013.24.2.178.

Rokka, S. and Rantamaki, P. (2010) Protecting Probiotic Bacteria by Microencapsulation: Challenges for Industrial Applications, European Food Research and technology, 231(1).

Rooyen, J. V (2013) Bioactive Compounds in Red Palm Oil Can Modulate Mechanisms of Actions in In Vitro Anoxic Perfused Rat Hearts. In Bioactive Food as DietaryInterventions for Cardiovascular Disease. Elseiver.

Santini, A., Tenore, G. C. and Novellino, E. (2017) Nutraceuticals: A paradigm of proactive medicine, European Journal of Pharmaceutical Sciences, 96, pp. 53–61. doi: 10.1016/j.ejps.2016.09.003.

Sathasivam, T. et al. (2018) Encapsulation of red palm oil in carboxymethyl sago cellulose beads by emulsification and vibration technology: Physicochemical characterization and in vitro digestion, Journal of Food Engineering, 231, pp. 10–21. doi: 10.1016/j.jfoodeng.2018.03.008.

Setijawati, D., Firdaus, M. and Kartikaningsih, K. (2014) The Effect of Lactobacillus Acidophilus Microcapsule Which Encapsulated by Kappa Caragenan Toward in Vivo Functional Test, Research Journal of Life Science, 1(1), pp. 27–36. doi: 10.21776/ub.rjls.2014.001.01.5.

Shahidi, F. (2012) Nutraceuticals, functional foods and dietary supplements in health and disease, Journal of Food and Drug Analysis, 20(SUPPL.1), pp. 226–230. doi: 10.38212/2224-6614.2144.

Siddique, B. M. et al. (2010) Physico-chemical properties of blends of palm olein with other vegetable oils, Journal Grasas Y Aceites, 61(4), pp. 423–429.

Solanki, H. K. et al. (2013) Development of Microencapsulation Delivery System for Long-Term Preservation of Probiotics as Biotherapeutics Agent, BioMed Research International, 1(1), pp. 1–21.

Sumarna, D. (2019) Studi Metode Pengolahan Minyak Sawit Merah ( Red Palm Oil ) Dari Crude Palm Oil (CPO), Prosiding Seminar Nasional Kimia, 1(August), pp. 1–10.

Supriyadi and Rujita, A. S. (2012) Karakteristik Mikrokapsul Minyak Atsiri Lengkuas dengan Maltodekstrin sebagai Enkapsulan, Jurnal Teknologi dan Industri Pangan, 24(2), pp. 201–208.

Suroso and Sulistijowati, A. (2013) Kualitas Minyak Goreng Habis Pakai Ditinjau dari Bilangan Peroksida , Bilangan Asam dan Kadar Air, Jurnal Kefarmasian Indonesia, 1(1), pp. 77–88.

Suryani, N. and Ofa, S. B. (2019) Microenkapsulation Viability Test Of Lactobacillus Casei Using Sodium Alginate Matric, JFL Jurnal Farmasi Lampung, 8(1).

Urnemi, S. et al. (2012) Potensi Bakteri Asam Laktat Sebagai Kandidat Probiotik Antimikroba Patogen Asal fermentasi Kakao Varietas Criollo, Jurnal riset teknologi industri, 6(12), pp. 67–76.

Vrolijk, M. F. et al. (2015) The shifting perception on antioxidants : The case of vitamin E and β - carotene, Redox Biology, 4(1), pp. 272–278. doi: 10.1016/j.redox.2014.12.017.

Wallert, M. et al. (2014) Regulatory metabolites of vitamin E and their putative relevance for atherogenesis, Redox Biology, 2(1), pp. 495–503. doi: 10.1016/j.redox.2014.02.002.

Yuliasari, S. et al. (2016) Karakteristik Enkapsulat Minyak Sawit Merah Dengan Pengayaan Β-Karoten, Informatika Pertanian, 25(1), p. 107. doi: 10.21082/ip.v25n1.2016.p107-116.