The skin of salmon (Oncorhynchus nerka), a by-product of the fillet process line, could serve as an excellent source of aquatic collagen. It was possible to apply active collagen from salmon fish as well as the formulation of clay mask material. Collagen helped in the regeneration and replacement of dead and old cells for improving skin texture and integrity to maintain young and healthy skin. The purpose of this study was to find out which formulations produced the superior physical properties of salmonid collagen clay masks. Extraction of salmon skin purity was conducted by conventional extraction process. Salmon rind was pretreated with 0.5 M acetic acid. The collagen subunits extracted were then analyzed on sodium dodecyl sulfate-polyacrylamide gel (SDSPAGE) to determine the peptide chains. The collagen yield of the conventional method was 35.6%. The soluble collagen was extracted as a raw material for cosmetic material such as clay masks. Clay mask formulations contained collagen as a key ingredient due to their significant advantages as natural moisturizers. The best formulation of salmonid collagen clay mask was an F3 preparation with a kaolin concentration of 25% and a bentonite concentration of 1%.  F3 preparation was more preferred by respondents with good resulting odor, color, and texture parameters.

Keywords: Clay, Collagen, Cosmetics, Extract, Salmon, Mask

Addor, F. a. S. A., Vieira, J. C. & Melo, C. S. A. (2018). ‘Improvement of dermal parameters in aged skin after oral use of a nutrient supplement’. Clinical, Cosmetic and Investigational Dermatology, 11, 195.

Arvanitoyannis, I. S. & Kassaveti, A. (2008), ‘Fish industry waste: treatments, environmental impacts, current and potential uses’. International Journal of Food Science & Technology, 43, 726-745.

Clapp, J. M., & Giaccotto, C. (1998). Residential hedonic models: A rational expectations approach to age effects. Journal of Urban Economics, 44(3), 415-437. https://doi.org/10.1006/juec.1997.2076

Fauziah, DW (2018). Effect of Kaolin and Bentonite Base on Physical Properties of Combination Mud Mask of Olive Oil (Olive Oil) and Green Tea (Camelia sinensis). Journal of Pharmacy Science and Health, 3 (2), 9–13.

Fauzi, Y., Widyastuti, Y. E., Satyawibawa, I., & Hartono, R. (2012). Kelapa Sawit: Budidaya, Pemanfaatan Hasil dan Limbah, Analisis Usaha dan Pemasaran. Penebar Swadaya. Jakarta.234.

Fernandes, R., Neto, R. C., Paschoal, C., Rohling, J. & Bezerra, C. (2008), ‘Collagen films from swim bladders: preparation method and properties’. Colloids and Surfaces B: Biointerfaces, 62, 17-21.

Gomez-Guillen, M. C., Turnay, J., Fernandez-Dıaz, M., Ulmo, N., Lizarbe, M. A. & Montero, P. (2002), ‘Structural and physical properties of gelatin extracted from different marine species: a comparative study’. Food Hydrocolloids, 16, 25-34.

Harborne, J. B. (1987). Metode Fitokimia: Penuntun cara modern menganalisis tumbuhan. Bandung. Penerbit ITB, 78.

Jafari, H., Lista, A., Siekapen, M. M., Ghaffari-Bohlouli, P., Nie, L., Alimoradi, H. & Shavandi, A. (2020), ‘Fish Collagen: extraction, characterization, and applications for biomaterials engineering’. Polymers, 12, 2230.

Kuncari, E. S., I. Iskandarsyah, P. Praptiwi. 2014. Evaluasi, Uji Stabilitas Fisik dan Sineresis Sediaan Gel yang Mengandung Minoksidil, Apigenin dan Perasan Herba Seledri (Apium graveolens L.). Buletin Penelitian Kesehatan. 42 (4): 213-222.

Liang, J., Pei, X.-R., Zhang, Z.-F., Wang, N., Wang, J.-B. & Li, Y. (2012), ‘A chronic oral toxicity study of marine collagen peptides preparation from chum salmon (Oncorhynchus keta) skin using Sprague-Dawley rat’. Marine Drugs, 10, 20-34.

Li, P.-H., Lu, W.-C., Chan, Y.-J., Ko, W.-C., Jung, C.-C., Le Huynh, D. T. & Ji, Y.-X. (2020), ‘Extraction and characterization of collagen from sea cucumber (Holothuria cinerascens) and its potential application in moisturizing cosmetics’. Aquaculture, 515, 734590.

Mo, W. Y., Man, Y. B. & Wong, M. H. (2018), ‘Use of food waste, fish waste and food processing waste for China's aquaculture industry: Needs and challenge’. Science of the Total Environment, 613, 635-643.

Nagai, T., Yamashita, E., Taniguchi, K., Kanamori, N. & Suzuki, N. (2001), ‘Isolation and characterisation of collagen from the outer skin waste material of cuttlefish (Sepia lycidas)’. Food Chemistry, 72, 425-429.

Peng, Y.; Glattauer, V.; Werkmeister, J.A.; Ramshaw, J.A. Evaluation for collagen products for cosmetic application. Int. J. Cosmet. Sci. 2004. 26, 313. [CrossRef]

Petcharat, T., Benjakul, S., Karnjanapratum, S. & Nalinanon, S. (2020), ‘Ultrasound‐assisted extraction of collagen from clown featherback (Chitala ornata) skin: yield and molecular characteristics’. Journal of the Science of Food and Agriculture.

Raman, M. & Gopakumar, K. (2018b), ‘Fish collagen and its applications in food and pharmaceutical industry: A review’. EC Nutr, 13, 752-767.

Reiger, MM (2000). Harry's Cosmetology 8th ed. Chemical Publishing Co. Inc. New York 523-572.

Roininen, K., Lähteenmäki, L., & Tuorila, H. (1999). Quantification of consumer attitudes to health and hedonic characteristics of foods. Appetite, 33(1), 71-88. https://doi.org/10.1006/appe.1999.0232

Rowe, R.C. et Al. (2009). Handbook Of Pharmaceutical Excipients, 6th Ed, The Pharmaceutical Press, London.

Santoso, U., Y. Fenita dan Kususiyah. 2017. Effect of fermented Sauropus androgynus leaf extract on the chemical composition of broiler meat. Pak. J. Nutr., 16: 306-313.

Schmidt, M., Dornelles, R., Mello, R., Kubota, E., Mazutti, M., Kempka, A. & Demiate, I. (2016), ‘Collagen extraction process’. International Food Research Journal, 23.

Senaratne, L.; Park, P.-J.; Kim, S.-K. Isolation and characterization of collagen from brown backed toadfish (Lagocephalus gloveri) skin. Bioresour. Technol. 2006, 97, 191–197. [CrossRef] [PubMed]

Septiani, S. N., Wathoni & Mita, S. R., 2011. Formulasi Sediaan Masker Antioksidan dari Ekstrak Etanol Biji Melinjo (Gnetum Gnemon Linn.). Jurnal Unpad, pp. 4-24.

Sianipar, K. M. (2018). Formulasi dan Efektivitas Masker Clay yang Mengandung Minyak Zaitun Murni Sebagai Anti-Aging. Universitas Sumatera Utara

Silva, T. H., Moreira-Silva, J., Marques, A. L., Domingues, A., Bayon, Y. & Reis, R. L. (2014), ‘Marine origin collagens and its potential applications’. Marine Drugs, 12, 5881-5901.

Venkatesan, J.; Anil, S.; Kim, S.-K.; Shim, M.S. Marine fish proteins and peptides for cosmeceuticals: A review. Mar. Drugs. 2017, 15, 143. [CrossRef] [PubMed]

Wasitaatmadja. 1997.Penuntun Kosmetik Medik, Universitas Indonesia. Jakarta.

Zou, Y., Wang, L., Cai, P., Li, P., Zhang, M., Sun, Z., Sun, C., Xu, W. & Wang, D. (2017), ‘Effect of ultrasound assisted extraction on the physicochemical and functional properties of collagen from soft-shelled turtle calipash’. International Journal of Biological Macromolecules, 105, 1602-1610.