Natural Product Sciences

The Korean Society of Pharmacognosy (한국생약학회)
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Pharmacognostical Evaluation of Trachyspermum roxburghianum (DC) Craib Fruits

  • Verma, Nitin (Institute of Pharmacy and Emerging Science (IPES), Baddi University of Emerging Science and Technology) ;
  • Khosa, R.L. (Department of Pharmacy, Bharat Institute of Technology)
  • Received : 2010.10.10
  • Accepted : 2011.02.11
  • Published : 2011.03.31
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Abstract

Sophisticated modern research tools for evaluation of medicinal plants are available but microscopic methods are one of the simplest and cheapest methods to establish the identity of the source materials. Pharmacognostical investigation of the dried, powdered and anatomical sections of the fruits of Trachyspermum roxburghianum (DC) Craib was carried out to determine its macro and microscopical characteristics along with its physical constants. Externally, the fruits, yellowish or greenish brown in colour are elongated, elliptical, slightly curved, prominently ridged and longitudinal. As seen in transectional views of the fruits from Trachyspermum roxburghianum, the mericarp has concave sides called commissural surfaces and a convex outer side called the dorsal surface. The mericarp has three primary ridges alternating with two secondary ridges on the dorsal side. On the commissural side, there are two primary ridges which are lateral in position and two secondary ridges in the commissural side. The seed is attached to the pericarp by a short stalk called a raphe. Circular, four-lobed calcium oxalate crystals are fairly abundant in the endosperm. Phytochemical studies revealed the presence of phenolic compounds, triterpenoids, proteins and sugars. The pharmacognostical profile of the fruits will assist in standardization for quality, purity and sample identification.

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References

  1. Anonymous, Wealth of India-A Dictionary of Indian Raw Materials and Industrial Products Vol-II, National Institute of Science Communication, CSIR, New Delhi (2001).
  2. Brain, K.R. and Turner, T.D., The practical Evaluation of Phytopharmaceuticals, Wright Scientechnica, Bristol, pp. 4-9 (1975a).
  3. Brain, K.R. and Turner, T.D., The practical Evaluation of Phytopharmaceuticals, Wright Scientechnica, Bristol, pp. 36-45 (1975b).
  4. Chase, C.R. and Pratt, R.J., Fluorescence of powdered vegetable drugs with particular reference to development of a system of identification, J. Am. Pharmacol. Assoc 38, 32 (1949).
  5. Harbone, J.B., methods of extraction and isolation. In: Phytochemical methods, Chapman & Hall, London, pp. 60-66 (1998).
  6. Indian Pharmacopoeia, 4th edn., Vol. II, Government of India, Ministry of Health and Welfare, Controller of Publications, New Delhi, pp. A53-A54 (1996).
  7. Johansen, D.A., Plant Microtechnique, McGraw Hill, New York, pp. 182 (1940).
  8. Kirtikar, K.R. and Basu, B.D., Indian Medicinal Plants, vol. II, L.M. Basu Pub. Allahabad, pp.1253 (2005)
  9. Kokoski, J., Kokoski, R., and Slama, F.J., Fluorescence of powdered vegetable drugs under ultraviolet radiation, J. Am. Pharmacol. Assoc. 47, 715 (1958).
  10. Samuelsson, G., Drugs of Natural Origin, Swedish Pharmaceutical Press, Sweden, pp. 38.
  11. WHO/PHARM/92.599/ rev.1. Quality Control Methods for Medicinal Plant Materials, Organization Mondiale De La Sante, Geneva, pp. 9, 22-34 (1992).