Context: Strobilanthus callosus Nees and Strobilanthus ixiocephala Benth belongs to family Acanthaceae. The plants have been the subject of scientific research which confirms its use in folk medicine as anti‑inflammatory drugs showing potent anti‑rheumatic effects. Previous research claims the anti‑inflammatory and anti‑arthritic activities of Lupeol and 19α‑H Lupeol isolated from Strobilanthus callosus and Strobilanthus ixiocephala roots. Based on the literature cited, the unexplored parts stems and leaves of the two species were selected for the present study. Aim: The present study is designed to isolate steroidal and alkaloidal components from the two
species Strobilanthus callosus and Strobilanthus ixiocephala using the unexplored parts viz. stems and leaves and to investigate its anti‑inflammatory effect. Settings and Design: The anti‑inflammatory effect was investigated employing subacute anti‑inflammatory models namely cotton pellet granuloma and carrageenan‑induced rat paw edema. Materials and Methods: Anti‑inflammatory activity was carried out using isolated test components RVS‑A (Lupeol), RVS‑C (Doctriacantone) and standard drug Diclofenac sodium (10 mg/kg). Results: The present study has dealt up with isolation of two phytoconstituents Lupeol and Dotriacontane which gave marked anti‑inflammatory activity at the dose 20 mg/kg in both the models Carrageenan induced rat paw edema and Cotton pellet granuloma. Conclusion: The results confirm that the mechanism of the anti‑inflammatory effect of RVS‑A (Lupeol) and RVS‑C
(Doctriacantone) involves reduction of prostaglandins through inhibition of cyclooxygenase and suppression of proliferative phase of sub acute inflammation. Thus the steroidal and alkaloidal components Lupeol and Doctriacantone isolated from Strobilanthus callosus Nees and Strobilanthus ixiocephala Benth shows marked anti‑inflammatory activity.
Key words: Acanthaceae, anti‑inflammatory, Strobilanthus callosus Nees, Strobilanthus ixiocephala Benth

Sagreiya KP, Singh B. Botanical and Standardised Hindi Names of

Important and Common Forest Plants of Madhya Pradesh. Gwalior

Government: Regional press; 1958,525.

Hooker JD. The Flora of British India. London: Reer and Co; 1875,

Vol. 1;1875;527.

Anonymous. The Wealth of India, Raw Materials. New Delhi:

Publication and Information Directorate, CSIR; 1976, Vol. 10; 57-8.

Kirtikar KR. The Poisonous Plants of Bombay. vol. VI. Jodhpur:

India Scientific Publishers: 2003,300.

Kirtikar KR, Basu BD. Indian Medicinal Plants. 2nd ed, vol. I.

New Delhi: Published by Bishen Singh; 1933, 340-5.

Nadkarni KM. Indian Materia Medica. Bombay: Popular Book

Depot; 1954, Vol. 1; 1172.

Chopra RN, Nayar SL, Chopra IC. Glossary of Indian Medicinal

Plants. New Delhi: PID; 1956, 235.

Santapau H. The flora of Khandala on the western ghats of India.

nd ed, vol. 16. Calcutta: Govt. of India Press; 1960, 1-3.

Agarwal RB, Rangari VD. Phytochemical investigation and

evaluation of anti‑inflammatory and anti‑arthritic activities of

essential oil of Strobilanthus ixiocephala Benth. Indian J Exp Biol

;41:890‑4.

Agarwal RB, Rangari VD. Antiinflammatory and antiarthritic

activities of Lupeol and 19α‑H Lupeol isolated from Strobilanthus

callosus and Strobilanthus ixiocephala Roots. Indian J Pharmacol

;35:384‑7.

Pandey DJ, Anand IS. Isolation and high‑performance thin layer

chromatographic estimation of Lupeol from Oxystelma esculentum.

Pharm Methods 2011;2:99‑5.

Jamal AK, Yaacob WA, Din LB. A Chemical study on Phyllanthus

reticulates. J Phys Sci 2008;19:45‑0.

Elvira E, KovaÄ B, Kemal D, Zdenka K, Emin S. Identification

And Isolation of Pharmacologically Active Triterpenes in Betuale

cortex, Betula pendula Roth., Betulaceae. Bosn J Basic Med Sci 2009;

:31‑8.

Higuchi CT, Sannomiya M, Pavan FR, Leite SRA, Sato DN,

Franzblau SG, et al. Byrsonima fagifolia Niedenzu Apolar

Compounds with Antitubercular Activity. Evid Based Complement

Alternat Med 2011;2011:128349.

Winter CA, Risley EA, Nuss GW. Carrageenin‑induced oedemas

in hind paw of the rat as an assay for anti‑inflammatory drugs.

Proc Soc Exp Biol Med 1962;111:544‑7.

Winter CA, Porter CC. Effect of alteration inside chain

upon anti‑inflammatory and liver glycogen activities of

hydrocortisone ester. J Am Pharm Assoc Am Pharm Assoc (Baltim)

;46:515‑9.

Turner RA. Screening Methods in Pharmacology. vol. 1. U.S.A

(NY): Academic press; 1965; 105-8.

Perianayagam JB, Sharma SK, Pillai KK. Anti‑inflammatory activity

of Trichodesma indicum root extract in experimental animals.

J Ethnopharmacol 2006;104:410‑4.

Vinegar R, Scheirber W, Hugo R. Biphasic development of

carageenin edema in rat. J Pharmacol Exp Ther 1969;166:96‑3.

Fernandes JC, Spindola H, DeSousa V, Santos‑Silva A,

Pintado ME, Malcata FX, et al. Anti‑Inflammatory Activity of

Chitooligosaccharides in vivo. Mar Drugs 2010;8:1763‑8.

Swingle KF, Shideman FE. Phases of the inflammatory response to

subcutaneous implantation of a cotton pellet and their modification

by certain antiinflammatory agents. J Pharmacol Exp Ther

;183:226‑4.

Kavimani S, Vetrichelvan T, Ilango R, Jaykar B. Antiinflammatory

activity of the volatile oil of Toddalia asiatica. Indian J Pharm Sci

;58:67‑70.