This study aimed to evaluate the properties of low-fat cottage cheese with the addition of herbs. We conducted an experiment with nine treatments, namely P1: whole-milk cottage cheese; P2: low-fat cottage cheese; P3: low-fat cottage cheese + 20% bidara leaf extract; P4: low-fat cottage cheese + 20% bay leaf extract; P5: low-fat cottage cheese + 20% moringa oleifera leaf extract; P6: Low-fat cottage cheese + 10% bidara leaf extract + 10% bay leaf extract; P7: low-fat cottage cheese + 10% bidara leaf extract + 10% moringa oleifera leaf extract; P8: low-fat cottage cheese + 10% bay leaf extract + 10% moringa oleifera leaf extract; and P9: low-fat cottage cheese + 6.67% bidara leaf extract + 6.67% bay leaf extract + 6.67% moringa oleifera leaf extract. The microbial profile of cheese showed that the total LAB count was retained at 6.23-7.25 log CFU/g. While herb-fortified cottage cheese contained a significantly higher level of antioxidants, the lowest cholesterol level was observed in cottage cheese fortified with 20% bidara leaf extract. The general fatty acids in cheese without herb addition were saturated fatty acids (51.94%) and unsaturated fatty acids (15.67%), with palmitic acid being the most predominant fatty acid (36.62%). In conclusion, herbs can improve antioxidant levels and retain total fatty acid in low-fat cottage cheese.

Alexa, E., C. Danciu, I. Cocan, M. Negrea, A. Morar, D. Obistioiu, D. Dogaru, A. Berbecea, and I. Radulov. 2018. Chemical composition and antimicrobial potential of Satureja hortensis L. in fresh cow cheese. Journal of Food Quality. 2018: 1-10.

AOAC. 2006. Official Methods of Analysis of AOAC, 18^th ed. AOAC International, Gaithersburg.

Barriuso, B., D. Ansorena, M. I. Calvo, R. Y. Cavero, and I. Astiasarán. 2015. Role of Melissa officinalis in cholesterol oxidation: Antioxidant effect in model systems and application in beef patties. Food Res.Int. 2015: 133-140.

Barriuso, B., L. R. B. Mariutti, D. Ansorena, I. Astiasarán, and N. Bragagnolo. 2015. Solanum sessiliflorum (mana‐cubiu) antioxidant protective effect toward cholesterol oxidation: Influence of docosahexaenoic acid. European Journal of Lipid Science and Technology. 118: 1125-1131.

Blaya, J., Z. Barzideh, and G. LaPointe. 2018. Symposium review: Interaction of starter cultures and nonstarter lactic acid bacteria in the cheese environment. Journal of Dairy Science: 101: 1-19.

Brinza, I., R. S. Boiangiu, M. Hancianu, O. Cioanca, I. E. Orhan, and L. Hritcu. 2021. Bay Leaf (Laurus Nobilis L.) Incense Improved Scopolamine-Induced Amnesic Rats by Restoring Cholinergic Dysfunction and Brain Antioxidant Status. Antioxidants. 10: 1-15.

de Oliveira, V. S., F. S. Ferreira, M. C. R. Cople, T. d. S. Labre, I. M. Augusta, O. D. Gamallo, and T. Saldanha. 2018. Use of natural antioxidants in the inhibition of cholesterol oxidation: A review. Comprehensive Reviews in Food Science and Food Safety. 17: 1465-1483.

El-Sayed, S. M., and A. M. Youssef. 2019. Potential application of herbs and spices and their effects in functional dairy products. Heliyon. 5: 1-7.

Hasneen, D. F., N. L. Zaki, M. S. Abbas, A. S. Soliman, I. S. Ashoush, and A. E. Fayed. 2020. Comparative evaluation of some herbs and their suitability for skimmed milk yoghurt and cast Kariesh cheese fortification as functional foods. Annals of Agricultural Sciences. 65: 6-12.

Hendrawati, Aziza, L. O. Sumarlin, and Y. N. Azizah. 2020. Formulation, antioxidant and antibacteria activities of peel-off gel mask, enriched with bidara leaf (Ziziphus spina-christi L.) extract. International Journal of GEOMATE. 18: 66-72.

Hidayati, M. D., T. Ersam, K. Shimizu, and S. Fatmawati. 2017. Antioxidant activity of Syzygium polyanthum extracts. Indonesian Journal of Chemistry. 17: 49-53.

Josipović, R., Z. Medverec Knežević, J. Frece, K. Markov, S. Kazazić, and J. Mrvčić. 2015. Improved properties and microbiological safety of novel cottage cheese containing spices. Food technology and biotechnology. 53: 454-462.

Kisadere, I., R. Irkin, and H. Tavsanli. 2018. The effects of different organic acid treatments on some microflora and pathogen listeria monocytogenes of white brine cheese. Kafkas Universitesi Veteriner Fakultesi Dergisi. 25: 201-207.

Kose, S., and E. Ocak. 2020. Determination of antioxidant and antimicrobial activity of Herby cheese. Journal of Food Processing and Preservation. 44: 1-12.

Kumar, Y., D. N. Yadav, T. Ahmad, and K. Narsaiah. 2015. Recent trends in the use of natural antioxidants for meat and meat products. Comprehensive Reviews in Food Science and Food Safety. 14: 796-812.

Kusuma, I. W., H. Kuspradini, E. T. Arung, F. Aryani, Y. H. Min, J. S. Kim, and Y. U. Kim. 2011. Biological activity and phytochemical analysis of three Indonesian medicinal plants, Murraya koenigii, Syzygium polyanthum and Zingiber purpurea. Journal of Acupuncture and Meridian Studies. 4: 75-79.

Marinho, M. T., A. A. F. Zielinski, I. M. Demiate, L. D. S. Bersot, D. Granato, and A. Nogueira. 2015. Ripened semihard cheese covered with lard and dehydrated rosemary (Rosmarinus officinalis L.) leaves: processing, characterization, and quality traits. Journal of Food Science. 80(9): S2045-S2054.Markiewicz-Kęszycka, M., G. Czyżak-Runowska, P. Lipińska, and J. Wójtowski. 2013. Fatty acid profile of milk-a review. Bulletin of the Veterinary Institute in Pulawy. 57: 135-139.

Medina-Meza, I. G., and C. Barnaba. 2013. Kinetics of cholesterol oxidation in model systems and foods: current status. Food Engineering Reviews. 5: 171-184.

Nudda, A., G. Battacone, O. B. Neto, A. Cannas, A. H. D. Francesconi, A. S. Atzori, and G. Pulina. 2014. Feeding strategies to design the fatty acid profile of sheep milk and cheese. Revista Brasileira de Zootecnia. 43: 445-456.

Oliveira, R., M. Faria, R. Silva, L. Bezerra, G. Carvalho, A. Pinheiro, J. Simionato, and A. Leão. 2015. Fatty acid profile of milk and cheese from dairy cows supplemented a diet with palm kernel cake. Molecules. 20: 15434-15448.

Paszczyk, B., and J. Łuczyńska. 2020. The comparison of fatty acid composition and lipid quality indices in hard cow, sheep, and goat cheeses. Foods. 9: 1-14.

Payet, B., A. Shum Cheong Sing, and J. Smadja. 2005. Assessment of antioxidant activity of cane brown sugars by ABTS and DPPH radical scavenging assays: determination of their polyphenolic and volatile constituents. Journal of agricultural and food chemistry. 53: 10074-10079.

Pombal, S., J. G. Lourenco, P. Rocha, D. Ettlin, and J. M. Rodilla. 2017. Comparison of a New Total Fat Quantification Method in Cheese using Microwave Assisted Extraction (MAE) and Soxhlet. Brazilian Journal of Analytical Chemistry. 4: 10-15.

Prandini, A., S. Sigolo, G. Tansini, N. Brogna, and G. Piva. 2007. Different level of conjugated linoleic acid (CLA) in dairy products from Italy. J. Food Compos. Anal. 20: 472-479.

Raeisi, S., M. Sharifi-Rad, S. Y. Quek, B. Shabanpour, and J. Sharifi-Rad. 2016. Evaluation of antioxidant and antimicrobial effects of shallot (Allium ascalonicum L.) fruit and ajwain (Trachyspermum ammi (L.) Sprague) seed extracts in semi-fried coated rainbow trout (Oncorhynchus mykiss) fillets for shelf-life extension. LWT-Food Sci.Technol. 65: 112-121.

Ritota, M., and P. Manzi. 2020. Natural preservatives from plant in cheese making. Animals. 10: 1-16.

Setyawardani, T., and J. Sumarmono. 2015. Chemical and microbiological characteristics of goat milk kefir during storage under different temperatures. Journal of Indonesian Tropical Animal Agriculture. 40: 183-187.

Setyawardani, T., K. Widayaka, J. Sumarmono, A. H. D. Rahardjo, S. S. Santosa, and M. Sulistyowati. 2018. Texture, hedonic test and fatty acid profile of goat cheese with L. plantarum TW14 and L. rhamnosus TW2 isolates stored at different temperature conditions. Journal of the Indonesian Tropical Animal Agriculture. 43: 230-237.

Shahidi, F., and P. Ambigaipalan. 2015. Phenolics and polyphenolics in foods, beverages and spices: Antioxidant activity and health effects–A review. Journal of Functional Foods. 18: 820-897.

Souza, E. L. d., T. L. M. Stamford, E. d. O. Lima, V. N. Trajano, and J. M. Barbosa Filho. 2005. Antimicrobial effectiveness of spices: an approach for use in food conservation systems. Brazilian Archives of Biology and Technology. 48: 549-558.

Sumarmono, J., and M. Sulistyowati. 2015. Fatty acids profiles of fresh milk, yogurt and concentrated yogurt from peranakan etawah goat milk. Procedia Food Science. 3: 216-222.

Tapsell, L. C., I. Hemphill, L. Cobiac, D. R. Sullivan, M. Fenech, C. S. Patch, S. Roodenrys, J. B. Keogh, P. M. Clifton, P. G. Williams, V. A. Fazio, and K. E. Inge. 2006. Health benefits of herbs and spices: the past, the present, the future. Medical Journal of Australia. 185: S1-S24.

Tayel, A. A., H. Hussein, N. M. Sorour, and W. F. El‐Tras. 2015. Foodborne pathogens prevention and sensory attributes enhancement in processed cheese via flavoring with plant extracts. J. Food Sc. 80: M2886-M2891.

Topnikova, E. V., V. A. Mordvinova, G. M. Sviridenko, and E. S. Danilova. 2019. Study of fatty acid composition of milk for cheese production. Food Systems. 2: 34-37.

Viji, P., P. K. Binsi, S. Visnuvinayagam, J. Bindu, C. N. Ravishankar, and T. K. Srinivasa Gopal. 2015. Efficacy of mint (Mentha arvensis) leaf and citrus (Citrus aurantium) peel extracts as natural preservatives for shelf life extension of chill stored Indian mackerel. Journal of food science and technology. 52: 6278-6289.

Xu, Y-B., G-L. Chen, and M-Q. Guo. 2019. Antioxidant and Anti-Inflammatory Activities of the Crude Extracts of Moringa oleifera from Kenya and Their Correlations with Flavonoids. Antioxidants 8: 1-12.

Yadav, M., S. Chatterji, S.K. Gupta, and G. Watal. 2014. Preliminary phytochemical screening of six medicinal plants used in traditional medicine. International Journal of Pharmacy and Pharmaceutical Sciences. 6: 539-542.