References
- Batik BR, Dey AK, Das PC (1981): Helicteres isora Linn.; a new source of diosgenin. Ind J of Chem, Sect. B, 20B: 938–939.
- Bean MF, Antoun M, Abrmson D, Chang CJ, McLaughlin JL, Cassady TM (1985): Cucurbitacin B and isocucurbitacin B: cytotoxic components of Helicteres isora. J Nat Prod 48: 500.
- Holmann RR, Turner RC (1991): Oral agents and insulin in treatment of NIDDM. In: Pickup J, Williams G, Eds., Text-book of Diabetes. Oxford Blackwell, pp. 467-469.
- Kameswara Rao B, Gin i R, Kesavulu IV11VI, Appa Rao Ch (1997): Herbal medicine: in the management of diabetes mellitus. Manpar Vaidhya Patrika I (4,5): 33–35.
- Kamiya K, Saiki Y, Hama T, Fujimoto Y, Endang H, Umar M, Satake T (2001): Flavonoid glucuronides from Helicteres isora. Phytochemistry 57: 297–301.
- Kirthikar KR, Basu BD, An ICS (1981): Indian Medicinal Plants, Vol. 1, II, Allahabad Lalit Mohan Basu, India, pp. 370–372.
- Pohocha N, Grampurohit ND (2001): Antispasmodic activity of the fruits of Helicteres isora Linn. Phytother Res 15: 49–52.
- Romesh P, Yuvarajan CR (1995): A new flavone methyl ester from Helicteres isora. J Nat Prod 58: 1242–1243.
- Saraswathi Bai N (1954): Chemical investigation of the stem bark of Helicteres isora. Bull Cent Res Inst, University Travancore, Trivandrum, Sect A, 3: 89–107.
- Satake T, Kamiya K, Saiki Y, Hama T, Fujimoto Y, Kitanaka S, Kimura Y, Uzawa J, Endang H, Umar M (1999): Studies on the constituents of fruits of Helicteres isora. Chem Pharm Bull 47: 1444–1447.
- Singh SB, Singh AK, Thakur RS (1984): Chemical constituents of leaves of Helicteres isora. Ind J Pharm Sci 46: 148–149.
- Tezuka Y, Terazono M, Kusumoto TI, Kawashima Y, Hatanaka Y, Kadota S, Hattori M, Namba T, Kikuchi T (1999): Helisterculins A and B, two new (7.5', 8.2')-neolignans and helisorin, the first (6.4', 7.5', 8.2')-neolignan from the Indonesian medicinal plant Helicteres isora. Hely Chem Acta 82: 408–417.
- Trease EG, Evans WC (1983): Textbook of Pharmacognosy, 12th ed., Oxford Alden Press, p. 539.
- Trinder P (1969): Determination of glucose in blood using glucose oxidase with an alternative oxygen acceptor. Ann Clin Biochem 6: 24–27.