Optimization of Trigona Honey and Coating Material Formulations for Antioxidants and Physical Properties of Microencapsulation of Coriander Seed Extract Using the D-Optimal Mixture Method

  • Irfan Muttaqin Student Magister Teknologi Pangan Universitas Pasundan, Bandung, Indonesia
  • Yusman Taufik Lecturer Magister Teknologi Pangan Universitas Pasundan, Bandung, Indonesia
  • Yusep Ikrawani Lecturer Magister Teknologi Pangan Universitas Pasundan, Bandung, Indonesia
DOI: https://doi.org/10.46729/ijstm.v4i4.870
Keywords: Seed extract, coriander, Design Expert, antioxidant and microencapsulation.

Abstract

The purpose of this study was to produce an optimal formulation of coriander seed extract microencapsulation products using the Mixture D-Optimal Design Expert program.The study consists of two stages. The first stage was the analysis of the coriander seed extract powder using the spray drying method without the use of coating materials and honey. The second stage was to determine the optimal formula using the D-Optimal Mixture method of Design Expert program through measurement of chemical responses (antioxidant activity, and water content), physical response. (particle size). The optimum formula obtained based on the Design Expert program with the D-Optimal Mixture method has a desirability value of 1 with the prediction value of each response being 395.124 ppm antioxidant activity, 2.329 % water content, and 2.967 µm particle size.

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References

Abrahao, F. R., Rocha, L. C. R., Santos, T. A., Carmo, E. L. do, Pereira, L. A. S., Borges, S. V., Pereira, R. G. F. A.,

& Botrel, D. A. 2019. Microencapsulation of bioactive compounds from espresso spent coffee by spray drying.

LebensmittelWissenschaft und -Technologie, 103, 116–124.

Burlando, B., & Cornara, L. 2013. Honey in dermatology and skin care.review.J Cosmetic Dermatol, 12(4), 306-313.

Baena, CM, Foxwll, M,, Wright, D., and Villamiz, L. 2019. Microencapsulation of Rhizobium Leguminosarum Bv.

Trifolii with Guar Gum : Preliminary Approach Using Spray Drying,Journal of Biotechnology,302.February,32– 41

Chen, L., J. Chen, J. Ren, and M. Zhao. 2011. Modifications of soy protein isolates using combined extrusion pretreatment and controlled enzymatic hydrolysis for improved emulsifying properties. Food Hydrocolloid Journal.

:887-897

Desmawarni. 2007. Effect of coating material composition and spray drying conditions on the characteristics of

ginger oleoresin microcapsules. Thesis. Bogor Agricultural Institute, Bogor

Eteraf-Oskouei, T., & Najafi, M. 2013. Traditional and modern use of natural honey in human disease. review. Iran J

Basic Med Sci, 16(6), 731-742.

Fasikhatun, T. 2010. Effect of Concentration of Maltodextrin and Gum Arabic on Microencapsulated Characteristics

of Red Palm Oil by Spray Drying Method. Thesis. Bogor (ID): Bogor Agricultural Institute

Gharsallaoui, A., Roudaut, G., Chambin, O., Voilley, A., Saurel, R. 2007. Applications of spray-drying in

microencapsulation of food ingredients. an overview. Food Res Int 40: 1107-1121.

Jyothi, N.V.N., Muthu. P. P., Suhas, N. S., Surya, K. P., Seetha, P. R., & Srawan, G., Y. 2010. Microencapsulation

Techniques, Factor Influenching Encapsulation Efficiecy. Journal of Microencapsulation, 27(3): 187-197

International Journal of Science, Technology & Management ISSN: 2722 - 4015

http://ijstm.inarah.co.id

Jalil, M., Kasmuri, A., and Hadi, H. 2017. Stingless bee honey, the natural wound healer. a review. Skin

Pharmacology and Physiology 30: 66-75.

Khalil, M. I., & Sulaiman, S. A. 2010. The potential role of honey and its polyphenols in preventing heart diseases. a

review. Afr J Tradit Complement Altern Med. 7(4), 315-321.

Laribi, B., Kouki, K., M'Hamdi, M., & Bettaieb, T. 2015. Coriander (Coriandrum sativum L.) and its bioactive

constituents. Phytotherapy, 103, 9-26.

Simanjuntak, M. 2007. Optimization of the red palm oil microencapsulation formulation using maltodextrin, gelatin,

and carboxymethyl cellulose with a thin layer drying process. Skripsi. Institut Pertanian Bogor.

Selim, K. A., Khalil, K., Abdel-Bary, M, and Abdel-Azeim, N. 2008. Extraction, encapsulation and utilization of red

pigments from roselle (Hibiscus sabdariffa L.) as natural food colourants. Alex. J. Sci. &Technnol. Special volume

Conference, pp. 7-20.

Saikia, S., Mahnot, N. K., dan Mahanta, C. L. 2015. Optimisation of phenolic extraction from Averrhoa carambola

pomace by response surface methodology and its microencapsulation by spray and freeze drying. Food Chemistry

(1): 144- 152.

Tiaraswara, R. A., Y. Taufik, dan L. H. Afrianti. 2016. Optimization of Hard Candy Formulation of Mulberry Leaf

Extract (Morus sp.) Using the D-Optimal Design Expert Method. Skripsi. Universitas Pasundan.

Wangensteen, H., Samuelsen, AB, Malterud, KE 2004. Antioxidant activity in extracts from coriander. Food Chem,

:293–297

Wathoni, N., Shan, CY, Shan, WY, Rostianawati, T., Indradi, RB, Pratiwi, R., and Muchtaridi, M. 2019.

Characterization and Antioxidant Activity of Pectin from Indonesian Mangosteen (Garcinia Mangostana L.) Rind ,

Heliyon.

Published
2023-07-23
How to Cite
Muttaqin, I., Taufik, Y., & Ikrawani, Y. (2023). Optimization of Trigona Honey and Coating Material Formulations for Antioxidants and Physical Properties of Microencapsulation of Coriander Seed Extract Using the D-Optimal Mixture Method. International Journal of Science, Technology & Management, 4(4), 826-833. https://doi.org/10.46729/ijstm.v4i4.870
Issue
Vol. 4 No. 4 (2023): July 2023
Section
Articles
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