The Characteristics of Liquid Soap with Additional Variations of Moringa Seed Extract (Moringa oleifera L.)
Abstract
Soap is a cleaning compound formed from the reaction between fatty acid compounds and alkaline bases. Various types of soap have been circulating in the market, one of which is liquid soap. Liquid soap that has antibacterial abilities is needed by many people. Moringa seed extract is one of the natural ingredients that can be used as an active ingredient in making liquid soap because it can inhibit bacterial growth. This study aims to determine the effect of variations in the addition of extracts and to obtain the best extract concentration treatment on physical, chemical, and organoleptic. The addition of moringa seed extract used was administered at 3%, 5%, and 7%. Data analysis was carried out by applying the ANOVA (Analysis of Variance) with a significant level of 5%. The De Garmo method was used to formulate the best liquid soap recommendation among various treatments. The results showed that the addition of moringa seed extract had a significant effect on the parameters of free alkali content, viscosity, specific gravity, antibacterial activity, and organoleptic. The best recommendation for liquid soap is a soap with a concentration of 7% with specific gravity characteristics of 1.066 g/ml, the viscosity of 1.983 cP, pH value of 10.53, foaming power of 5.63 cm, foam stability of 94.64%, and free alkali content of 0.023%, and the antibacterial ability against S. aureus bacteria (clear zone) was 19.17 mm.
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Agusta, W. T, “Formulasi Sediaan Sabun Cair Antibakteri Minyak Atsiri Daun Kemangi (Ocimum americanum L.) dan Uji Terhadap Bakteri Staphylococcus epidermidis Dan Staphylococcus aureus,” Jurnal Of Pharmacy UNTAN, vol. 1, pp. 1-14, 2016
Duraisamy , A., V. Krishnan and Balakrishnan, K. P, “Bioprospecting and New Cosmetic Product Development: A Brief Review On The Current Status,” International Journal of Natural Product Research, vol 1 no.3, pp. 26-37, 2011
Nurhadi, S.C., Natural Gel Bath Soap with Microalgae Active Ingredient Chlorella pyrenoidosa and Lavandula lativoila Chaix Essential Oil, Malang: Ma Chug University, 2012
Rahayu, S.R, Study of the Potential of Moringa Seeds as Coagulants, Bogor: Bogor Agricultural University, 2011.
Wigunarti, A. H., Pujiyanto, S., dan Suprihadi, A, “Antibacterial
Activity tested of Moringa Seed Extract (Moringa oleifera L.) Staphylococcus aureus and Escherichia coli bacteria,” Berkala Bioteknologi, vol 2 (2), pp. 5 – 12, 2019.
Novita, Willia, “Test Antibacterial Activity of Betel Leaf Fraction Against The Growth of Streptococcus Mutans Bacteria In Vitro,” Jambi Medical Journal, vol 4(2), pp. 140-155, 2016
Nurmila and Kusdiyantini, “Analysis of Escherichia coli, Staphylococcus aureus, and Salmonella sp. on snacks,” Berkala Bioteknologi, vol 1(1), pp. 6-11, 2018
Widiyanti, Rahma Ayu, “Utilization of Coconut Into Vco (Virgin Coconut Oil) as a Health Antibiotic in An Effort to Support The Vision of a Healthy Indonesia 2015,” Prosiding Seminar Nasional Pendidikan Biologi, pp. 577 – 584, 2015
Kristian, J., Zain, S., Nurjanah, S., Widyasanti, A., dan Putri, S. H. 2016. Pengaruh Lama Ekstraksi Terhadap Rendemen dan Mutu Minyak Bunga Melati Putih Menggunakan Metode Ekstraksi Pelarut Menguap (Solvent Extraction). Jurnal Teknotan 10(2): 34 – 43
Badan Standarisasi Nasional. 1996. Standar Mutu Sabun Mandi Cair SNI 06-4085-1996. Jakarta: Dewan Standarisasi Nasional
Badan Standarisasi Nasional. 2016. SNI 3532:2016 Tentang Sabun Mandi Padat. Jakarta: Dewan Standarisasi Nasional
Widyasanti, A., Ramadha, C.A. 2018. Pengaruh Imbangan Aquadest dalam Pembuatan Sabun Mandi Cair Berbahan Virgin Coconut Oil (VCO). Agrisaintifika: Jurnal Ilmu-ilmu Pertanian 2(1): 35 – 50
Hutauruk, H. P., Yamlean, P. V. Y., dan Wiyono, W. 2020. Formulasi Dan Uji Aktivitas Sabun Cair Ekstrak Etanol Herba Seledri (Apium graveolens L) Terhadap Bakteri Staphylococcus aureus. Jurnal Ilmiah Farmasi 9(1): 73 – 81
Kasenda, Jessica Ch., Yamlean, p. V. Y. Dan Lolo, W. A. 2016. Formulasi dan Pengujian Aktivitas Antibakteri Sabun Cair Ekstrak Etanol Daun Ekor Kucing Terhadap Pertumbuhan Bakteri Staphylococcus aureus. Jurnal Ilmiah Farmasi 5(3): 40 – 47
Kiswandono, A. A. 2011. Perbandingan Ekstraksi yang Berbeda pada Daun Kelor Terhadap Rendemen Ekstrak dan Senyawa Bioaktif yang Dihasilkan. Jurnal Sains Natural Universitas Nusa Bangsa 1(1): 45-51
Nurzaman, Fulka, “Identifikasi Kandungan Saponin dalam Ekstrak Kamboja MErah (Plumeria rubra L.) dan Daya Surfaktan dalam Sediaan Kosmetik,” The Indonesian Pharmaceutical Journal,vol 8, pp. 85-93, 2018
Qisti, R. 2009. Sifat Kimia Sabun Transparan dengan Penambahan Madu Pada Konsentrasi yang Berbeda. Jurnal E-Biomedik 4(1)): 34 – 42
Dimpudus, S. A., Yamlean, P. V. Y. Dan Yudistira, A. 2017. Formulasi Sediaan Sabun Cair Antiseptik Ekstrak Etanol Bunga Pacar Air (Impatiens balsamina L.) dan Uji Efektivitasnya Terhadap Bakteri Staphylococcus aureus Secara In Vitro. Pharmacon (Jurnal Ilmiah Farmasi) 6(3): 208 – 215
Hermani, Bunasor, T. K., Fitriati. 2010. Formula Sabun Transparan Anti Jamur dengan Bahan Aktif Ekstrak Lengkuas (Alpinia galangan L. Swartz). Bulletin of Reasearch on Spice and Medicinal Crops 21(2): 192 – 205
Murti, I. K. A. Y., I. P. S. A. Putra. Suputri, N. N. K. T., Wijayanti, N. P. D., dan Yusdiantara, P. S. 2017. Optimassi Konsentrasi Olive Oil Terhadap Stabilitas Fisik Sediaan Sabun Cair. Jurnal Farmasi Udayana 6(2): 15 – 22
Widyasanti, A., Qurratu’ain, Y., & Nurjanah, S. 2017. Pembuatan Sabun Mandi Cair Berbasis Minyak Kelapa Murni (VCO) Dengan Penambahan Minyak Biji Kelor (Moringa oleifera Lam). Chimica et Natura Acta, 5(2), 77–84.
Uzwatania, F., Ginantaka, A., dan Awaludin. 2018. Analisis Preferensi Dan Tingkat Kesukaan Konsumen Terhadap Sabun Mandi Alami Halal. Jurnal Pertanian 9(2): 108 – 114
Lubis, Nur A. 2018. Pengaruh Kekentalan Cairan Terhadap Waktu Jatuh Benda Menggunakan Falling Ball Method. Jurnal Ilmu Fisika dan Teknologi 2(2): 26 – 31
Surilayani, D., Sumarni, E., dan Irnawati, R. 2019. Karakteristik Mutu Sabun Padat Transparan Rumput Laut (Kappaphycus alvarezii) Dengan Perbedaan Konsentrasi Gliserin. Jurnal Perikanan dan Kelautan 9(1): 69 – 79.
Sara Avilés-Gaxiola, Josefina León-Félix, Yazmín B. Jiménez-Nevárez, Miguel A. Angulo-Escalante, Rosalio Ramos-Payán, Juventino Colado-VelázquezIII, J. BasilioHeredia. 2021. Antioxidant and anti-inflammatory properties of novel peptides from Moringa oleifera Lam. Leaves. South African Journal of Botany (141): 466-473
Yongai Xiong, Muhammad Shahid Riaz Rajoka, Hafiza Mahreen Mehwish, MengXun Zhang, Ning Liang, Chenyang Li, Zhendan He. 2021. Virucidal activity of Moringa A from Moringa oleifera seeds against Influenza A Viruses by regulating TFEB. International Immunopharmacology (95). Doi: 10.1016/j.intimp.2021.107561
Andrew Setiawan Rusdianto, Winda Amilia, Vina Julie Dwi Sinta. 2021. The Optimization Of Cellulose Content In Tobacco Stems (Nicotiana tabaccum L.) With Acid Extraction Method And Alkaline Extraction Method. International Journal of Food, Agriculture, and Natural Resources 2 (2): 13-19.
DOI: https://doi.org/10.46676/ij-fanres.v2i3.43
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