Combination of Wild ginger, Honey, and Probiotics as Growth Prometer Candidates : An in Vitro Study
Marlin Cindy Claudya Malelak(1), Agnesia Endang Tri Hastuti Wahyuni(2*), Agustina Dwi Wijayanti(3), Vinsa Cantya Prakasita(4)
(1) Program Studi Sain Veteriner Sekolah Pasca Sarjana Fakultas Kedokteran Hewan Universitas Gadjah Mada
(2) Departemen Mikrobiologi Fakultas Kedokteran Hewan Universitas Gadjah Mada
(3) Departemen Farmakologi Fakultas Kedokteran Hewan Universitas Gadjah Mada
(4) Departemen Biologi Fakultas Bioteknologi Universitas Kristen Duta Wacana Yogyakarta
(*) Corresponding Author
Abstract
Growth Promoter Antibiotics are used to prevent disease and promote growth and production in poultry. Repeated admnistration of feed can have a microorganic resistance effect, accumulation of antibiotic residues in animal and environmental products and imbalance of normal microflora in the intestine. The antibacterial and carbohydrate content of some natural ingredients can be potential as a replacement candidate for AGP. This study aims to determine the role of a combination of wild ginger, honey, and probiotics (Bacillus subtilis and Lactobacillus acidophilus) as AGP candiate in Vitro. The antibacterial activity of the combination of wild ginger and honey against pathogens (E. coli) and their use against probiotics was tested by disk diffusion method, while the calculation of optical density values to determine the minimum inhibitory concentration and minimum bactericidal concentration was carried out on E. coli. The ability of inhibition of probiotics against pathogens is also done by the disk diffusion method. The disk diffusion test results showed the best combination was extract of 25% wild ginger aquades + 100% Lombok honey with inhibition zone diameter (8,53 ±, 03). Optical density values indicate this combination is able to inhibit and kill E. coli (DO 0,00 ±, 002) and support B. subtilis (DO 0,18 ±, 002) and L. acidophilus (DO 0.25 ±, 005) significantly better than positive control. MIC value of wild ginger aquades extract and honey combination against E. coli is wild ginger aquades extract 3.13% + Lombok honey 25%, while MBC value is wild ginger aquades extract 6,25% + Lombok honey 25%. The combination of B. subtilis and L. acidophilus showed the largest inhibitory zone diameter against E. coli (7,30 ±, 02 mm) compared to individual colonies. The combination of wild ginger and honey, in addition to inhibiting also able to kill pathogens and support the growth of probiotics, so this formula can be used as one of the replacement candidates for AGP.
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Ajizah, A., Thihana., Mirhanuddin. (2007). Potensi Ekstrak Kayu Ulin (Euksideroxylon Zwageri ) Dalam Menghambat Pertumbuhan Bakteri Staphylococcus Aureus Secara In Vitro. Bioscientiae. 4 (1): 37-42. Amrie, A.G.A, Ivan., Anam, S., Ramadhanil. (2014). Uji Efektifitas Ekstrak Daun Dan Akar Harrisonia Perforata Merr. Terhadap Pertumbuhan Bakteri Vibrio Cholerae. Jurnal Of Natural Science. 3(3):331-340. Aristides, L. G. A., Paiao, F. G., Murate, L. S., Oba, A., dan Shimokomak, M. (2012). The effects of biotic additives on growth performance and meat qualities in broiler chickens. International Journal of Poultry Science, 11(9): 599–604. Ashayerizadeh, A., Dabiri, N., Mirzadeh K., dan Ghorbani, M. (2011). Effect of dietary supplementation of probiotic and prebiotic on growth indices and serum biochemical parameters of broiler chickens. J. Cell Anim. Biol. 5: 152-156. Astrini, D.,Wibowo, M.S., Nugrahani, I. (2014). Aktivitas Antibakteri Madu Terhadap Bakteri Gram Negatif Dan Gram Positif serta Potensinya Dibandingkan Terhadap Antibiotik Kloramfenikol, Oksitetrasiklin dan Gentamisin. Acta Pharmaceutica Indonesia, 39(3): 75. Bahri, S., Masbulan, E,, Kusumaningsih, A. (2005). Proses Praproduksi Sebagai Faktor Penting Dalam Menghasilkan Produk Ternak Yang Aman Untuk Manusia. J. Litbang Pertanian, 24(1). Bisping,W., Amtsberg, G.A. (1988). Color Atlas for The Diagnosis of Bacterial Pathogen in Animals. Paul Parey Scientific Publishers. Berlin and Hamburg : 160-168. Burt, S. (2004). Essential oils: Their antibacteral properties and potential applications in food-a review. International Journal of Food Microbiology 94: 223-253. Cavallini, D. C. U., Bedani, R., Bomdespacho, L. Q., Vendramini, R. C., dan Rossi, E. A. (2009). Effects of probiotic bacteria, isoflavones and simvastatin on lipid profile and atherosclerosis in cholesterol-fed rabbits: a randomized double-blind study. Lipids in Health and Disease, 8(1): 1–8. Cowan, M.M. (1999). Plant Products As Antimicrobial Agents. Clinical Microbiology Reviews, 12: 564 – 582. Dahl, T.A., W.R. Midden., dan P.E. Hartman. (1989). Comparison Of Killing Of Gramnegatif And Gram-Positif Bacteria By Pure Singlet Oxygen. J. Bacteriol. 171: 2188-2194. Deniz, G., A. Orman, F. Cetinkaya, H. Gencoglu, Y. Meral, And I. I. Turkmen. (2011). Effects Of Probiotic (Bacillus Subtilis DSM 17299) Supplementation On The Caecal Microflora And Performance In Broiler Chickens. Revue Méd. Vét. 162: 538–545. El-Naggar Moustofa, Y.M. (2004). Comperative study of probiotic cultures to control the growth of Escherichia coli O157:H7 and Salonella typhimurium. Biotechnology, 3 (2): 173-180. Food And Agriculture Organization Of The United Nations (FAO). (2016). Probiotics In Animal Nutrition – Production, Impact And Regulation By Yadav S. Bajagai, Athol V. Klieve, Peter J. Dart And Wayne L. Bryden. Editor Harinder P.S. Makkar. FAO Animal Production And Health Paper No. 179, Rome, 5: 15-31. FAO.( 2007). FAO Technical Meeting On Prebiotics. ISBN 92-5-105513-0. Fuller, R. (1989). Probiotic in Man and Animals. Journal of Applied Bacteriology. 66: 365-378. Gibson, G.R., dan M.B. Roberfroid. (1995). Dietary modulation of the human colonic microbiota: introducing the concept of prebiotics. J. Nutr. 125: 1401-1412. Gibson, G. R., Scott, K.P., Rastall, R.A., Tuohy, K.M., Hotchkiss, A., Ferrandon, A.D., Gareau, M., Murphy, E.F., Saulnier, D., Loh, G., Macfarlane, S., Delzenne, N., Ringel, Y., Kozianowski, G., Dickmann, R., Wijnkoop, I. L., Walker, C., and Buddington, R. (2010). Dietary prebiotics: current status and new definition. The Food Science and Technology Bulletin: Functional Foods, 7: 1–19. Hacek, M.D., Dressel C.D., dan Peterson, R.L. (1999). Highly Reproducible Bactericidal Activity Test Results by Using a Modified National Committee for Clinical Laboratory Standards Broth Macrodilution Technique. J Clin Microbiol. 37(6): 1881–1884. Hernani dan Hayani, E. (2001). Identification of Chemical Components on Red Ginger (Zingiber officinale var. Rubrum) by GC-MS. Proc. International Seminar on Natural Products Chemistry and Utilization of Natural Resources : 501-505. Hidayathulla, S., C.K. Keshava, dan K.R. Chandrashekar. (2011). Phytochemical Evaluation And Antibacterial Activity Of Pterospermum Diversifolium Blune. Int.J.Of Pharmacy And Pharmaceutical Sciences. 3(2): 165-167. Jagadesswari, S., Vidya, P. (2010). Isolation And Characterization Of Bacteriocin Producing Lactobacillus Sp. From Traditional Fermented Food. Electronic Journal Of Environmental Agricultural And Food Chemistry. 9(3):575-581. Jawetz, Melnick, dan Adelberg. (1996). Mikrobiologi Kedokteran, edisi 20. EGC. Jakarta. Karimah U. (2010). Isolasi Oligosakarida Madu Lokal Dan Analisis Aktivitas Prebiotiknya. Skripsi. Bogor. Fakultas Matematika Dan Ilmu Pengetahuan Alam. Institut Pertanian Bogor, Bogor. Karimah, U., Anggowo, Y.N., Falah, S., Suryani. (2011). Isolasi Oligosakarida Madu Lokal Dan Analisis Aktivitas Prebiotiknya. J Gizi Pangan. 6: 217–224. Kusuma, S.B. (2018). Pemanfaatan Kombinasi Jamu Lengkuas, Jahe, Temulawak Dan Madu Terhadap Produktivitas Ayam Broiler. Skripsi. Institut Pertanian Bogor, Bogor. Kwakman, P. H. S., dan Zaat, S. A. J. (2012). Antibacterial Components of Honey. IUBMB Life. 64(1): 48–55. Landry, B.K,U., Moumita, S., Jayabalan, R., François, Z.N. (2016). Honey, probiotics and prebiotics: Review. J Pharm Chem Biol Sci. 7: 24–28. Li, S., Yuan, W., Wang., P., Yang, P., Aggarwal, B. B. (2011). Chemical composition and product quality control of turmeric (C. longa L.). Pharm. crops. 2: 28-54. Lingga, M.E., dan Rustama, M.M. (2005). Uji Aktivitas Antibakteri Dari Ekstrak Air Dan Etanol Bawang Putih (Allium Sativum L.) Terhadap Bakteri Gram Negatif Dan Gram Positif Yang Diisolasi Dari Udang Dogol (Metapenaeus Monoceros), Udang Lobster (Panulirus Sp) Dan Udang Rebon (Mysis Dan Acetes). Jurnal Biotika. 5 (2). Madan, J., dan Singh, R. (2010). Formulation And Evaluation Of Aloevera Topical Gels, Int.J.Ph.Sci. 2 (2): 551-555. Manin, F. (2009). Potensi Lactobacillus acidophilus dan Lactobacillus fermentum dari Saluran Pencernaan Ayam Buras Asal Lahan Gambut sebagai Sumber Probiotik. Jurnal Ilmiah Ilmu-Ilmu Peternakan. 8 (5): 221-228. Molan, P.C. (2006). Using Honey in Wound Care. International Journal of Clinical Aromatheraphy France. 3(3): 21-24. Mountzouris, K. C., P. Tsitrsikos, I. Palamidi, A. Arvaniti, M. Mohnl, G. Schatzmayr, dan K. Fegeros. (2010). Effects Of Probiotic Inclusion Levels In Broiler Nutrition On Growth Performance, Nutrient Digestibility, Plasma Immunoglobulins, And Cecal Microflora Composition. Poult. Sci. 89: 58–67. Nadhilla, N.F. (2014). The Activity Of Antibacterial Agent Of Honey Against Staphylococcus Aureus. Jurnal Majority. 3(7): 96-98. Niamsa, N., dan Sittiwet C. (2009). Antimicrobial activity of curcuma longa aqueous extract. Journal of Pharmacology and Toxicology, 4: 173-177. Parwata, I.M., O.A., dan P.F.S. Dewi. (2008). Isolasi Dan Uji Aktivitas Antibakteri Minyak Atsiri Dari Rimpang Lengkuas (Alpina Galanga L). J.Kimia. 2(2): 100-104. Pelczar, M.J., dan E.C.S. Chan. (1986). Dasar-dasar mikrobiologi 2. Universitas Indonesia. Jakarta: 489-522. Prakasita, V.C., Asmara, W.,Widyarini, S., Wahyuni, A.E.T.H. (2019). Combinations Of Herbs Andprobiotics As An Alternative Growth Promoter : An In Vitro Study. Veterinary World. EISSN : 2231-0916. Priyatmoko, W. (2008). Aktivitas Antibakteri Karang Lunak Hasil Transplantasi (Sinularia Sp.) Pada Dua Kedalaman Berbeda Di Perairan Pulau Pramuka Kepulauan Seribu, Dki Jakarta. Fakultas Perikanan Dan Ilmu Kelautan Institut Pertanian Bogor. Bogor. Rosendale, D. I., Maddox, I. S., Miles, M. C., Rodier, M., Skinner, M., Sutherland, J. (2008). High-throughput microbial bioassays to screen potential New Zealand functional food ingredients intended to manage the growth of probiotic and pathogenic gut bacteria. International Journal of Food Science and Technology. 43: 2257–2267. Sidik, Mulayono, M.W., dan Muhtadi, A. (1995). Temulawak (Curcums xanthorrhiza Roxb). Yayasan Pengembangan dan Pemanfaatan Obat Bahan Alam. Jakarta. Sinha, B. B., Sampath, K. T., Khan, M. Y. (1986). Effect of feeding heat treated groundnut cake on growth and certain blood constituents in crossbred calves. Indian J. Nutr. Diet. 23 (2): 45-50. Soesanto, L. (2008). Pengantar Pengendalian Hayati Penyakit Tanaman. PT, Raja Grafindo Persada. Jakarta. Suranto, A. (2004). Khasiat Dan Manfaat Madu Herbal. Agromedia Pustaka. Jakarta. Vidanarachchi, J. K. (2006). Regulation of intestinal microflora and productivity of broiler chickens by prebiotic and bioactive plant extracts. Thesis. Faculty of Science, University of New England Armidale. Australia. Volk, W.A., dan Wheeler, M.F. (1993). Mikrobiologi Dasar III. Erlangga. Jakarta. Yang, C. M., G. T. Cao, P. R. Ferket, T. T. Liu, L. Zhou, L. Zhang, Y. P. Xiao, dan A. G. Chen. (2012). Effects Of Probiotic, Clostridium Butyricum, On Growth Performance, Immune Function, And Cecal Microflora In Broiler Chickens. Poult. Sci. 91: 2121–2129. Zhou, Q., Wang, S., Yang, G., Zhao, W., dan Li, H.L. (2016). Development and Evaluation of Herbal Formulation with Antipathogenic Activities and Probiotics Stimulatory Effect. Journal Integrative Agriculture. 15 (5): 1103-1111.
DOI: https://doi.org/10.22146/jsv.53256
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