In a pathological condition such as diabetes, the increase of oxidative stress may decrease endogenous antioxidant activities, so the body cannot detoxify free radicals and prevent cell damage. The yellow velvet leaf is one of the natural antioxidant sources. This research investigates anti-hyperglycemic activities of ethanol extracts from yellow velvet leaves and SOD and GPx activities, the antioxidant enzymes. This experimental laboratory research used a posttest only group design. This research subjects were 25 alloxan-induced white male rats of Wistar strains conditioned as the type 2 Diabetes Mellitus (DM). The rats were clustered into five groups: the group I was the no-treatment control group, the group II was the positive control group given glibenclamide 0.45 mg/kg BW(rat's body weight) as the treatment, and group III, IV, and V were the experimental groups treated with yellow velvet leaf ethanol extracts with the doses of 32.5 mg/kg BW, 65 mg/kg BW and 130 mg/kg BW respectively. The activity tests of SOD and GPx, furthermore, were conducted. The results revealed that the dose of 130 mg was the most effective in increasing SOD and GPx activities. The increase of SOD and GPx levels also influenced the blood glucose level, which decreased significantly on 130mg. When the blood sugar level decreases, the stress oxidative itself can be reduced, increasing the endogenous antioxidant activities. It was concluded that the ethanol extract of yellow velvet leaf (Limnocharis flava) on the dose of 130mg/kg BW has a significant influence on SOD and GPx activities in alloxan-induced diabetic RA, and not significantly different from glibenclamide

Bunting, K., Wang, J. K, and Shannan, M. F., 2006, Control of Interleukin-2-gene Transcription: A Paradigm for Inducible, Tissue Specific Gene Expression, Elsevier Academic Press, 74: 105-145.

Fatmawati, Emi. 2008. “Pengaruh lama pemberian ekstrak daun sambiloto (Andrigraphis paniculata Ness.) terhadap kadar kolesterol, LDL (Low Density Lipoprotein), HDL (High Density Lipoprotein) dan Trigliserida Darah Tikus (Rattus norvegicus) Diabetes.†Undergraduate, Universitas Islam Negeri Maulana Malik Ibrahim. http://etheses.uin-malang.ac.id/4530/.

Hastuti, Andriana Murdi, and Ninik Rustanti. “Pengaruh Penambahan Kayu Manis Terhadap Aktivitas Antioksidan Dan Kadar Gula Total Minuman Fungsional Secang Dan Daun Stevia Sebagai Alternatif Minuman Bagi Penderita Diabetes Melitus Tipe 2.†PhD Thesis, Diponegoro University, 2014.

Monroy M, Mejia C. 2013. "Oxidative Stress in Diabetes Mellitus and the Role of Vitamins with Antioxidant Actions. Intech. 2013;9:209-231."

Nugraha, Roni. 2014. “PerubahanKomposisi Kimia, AktivitasAntioksidan, Vitamin C Dan Mineral TanamanGenjer (Limnocharis Flava) AkibatPengukusan.†DepartemenTeknologi Hasil Perairan, FakultasPerikanan Dan IlmuKelautan, InstitutPertanian Bogor 3: 185–95.

Nurjanah, Nurjanah, Agoes M. Jacoeb, Roni Nugraha, Marisa Permatasari, and Tri KalbuArdiningrumSejati. 2014. “PerubahanKomposisi Kimia, AktivitasAntioksidan, Vitamin C Dan Mineral TanamanGenjer (Limnocharis Flava) AkibatPengukusan.†Asian Journal of Innovation and Entrepreneurship 3 (03): 185–195.

Ooh, Keng-fei. 2015. "HPLC Profiling of Phenolic Acids and Flavonoids and Evaluation of anti-lipoxygenase and Antioxidant Activities of Aquatic Vegetable Limnocharis Flava". Department of Chemical Science, Faculty of Science 2.

Parawansah, Parawansah, SifakGiatna, and Muhammad Ilyas Yusuf. 2015. “Uji EfekAntidiabetikEkstrakDaunAndong (Cordyline Fruticosa L. A. Cheval) Mus Musculus Yang DiinduksiStreptozotosin | Parawansah | MEDULA.†2015. http://ojs.uho.ac.id/index.php/medula/article/view/2545.

Rajendiran, Deepa, Packirisamy, Subbulakshmi, Gunasekaran, Krishnamoorthy, 2018. "A Review on Role of Antioxidants in Diabetes". Asian Journal of Pharmaceutical and Clinical Research. Vol 11, issue 2, 2018.

Rotblatt M, Zimet I. Evidence-based herbal medicine. London: Haney &Belfus, INC; 2002.

Soegondo, S. 2005. “Diabetes Melitus : Penatalaksanaan Terpadu.†Balai Penerbit FKUI, Jakarta.

Szkudelski, T. 2001."The Mechanism of Alloxan and Streptozotocin Action in B Cells of the Rat Pancreas". Physiol Res2001;50(6):537-46.

Weber KS, Setchell KD, Stocco DM, Lephart ED. 2001, Dietary soy Phytoestrogens decrease testosterone levels and prostate weight without altering LH, prostate 5alpha-reductase ortesticular steroidogenic acuteregulatory peptide levels in adult male Sprague-Dawley rats. J. Endocrinol. 170: 591-599.

Zakaria, Fransiska R., Endang Prangdimurti, GA Kadek Diah Puspawati, Ridwan Thahir, and Suismono Suismono. 2012. “Diet Berbasis Sorgum (Sorghum Bicolor L Moench) Memperbaiki Proliferasi Limfosit Limfa Dan Kapasitas Antioksidan Hati Tikus.†JURNAL PANGAN 20 (3): 209–222.