PHARMACOGNOSTICAL CHARACTERIZATION AND PHYTOCHEMICAL ANALYSIS OF WITHANIA SOMNIFERA DUNAL ROOT FROM NORTHERN INDIA

Authors

  • RASHMI SHARMA Saraswathi College of Pharmacy, Hapur, Uttar Pradesh, India.
  • NITIN KUMAR Saraswathi College of Pharmacy, Hapur, Uttar Pradesh, India.
  • DHRUV JINDAL Saraswathi College of Pharmacy, Hapur, Uttar Pradesh, India.
  • PUNIT KUMAR Saraswathi College of Pharmacy, Hapur, Uttar Pradesh, India.

DOI:

https://doi.org/10.22159/ajpcr.2026v19i3.57492

Keywords:

Withania somnifera, Pharmacognostical standardization, Phytochemical screening, Safety evaluation

Abstract

Objective: The present study aims to establish the pharmacognostical characterization and phytochemical standardization of Withania somnifera Dunal root collected from Northern India.

Methods: The root material was subjected to evaluation following the World Health Organization (WHO) and Ayurvedic Pharmacopoeia protocols. Successive extractions were carried out using petroleum ether, chloroform, alcohol, hydro-alcohol (1:1), and water. Preliminary phytochemical profiling and TLC fingerprinting were performed on solvent extracts. Safety parameters including heavy metals, aflatoxins (AFs), microbial load, and pesticide residues were assessed using validated analytical methods. The combined results were used to establish reproducible pharmacognostical and phytochemical standards for Northern Indian root material.

Results: The root showed a characteristic grayish-yellow color, bitter taste, cylindrical morphology, and fibrous fracture. Microscopical examination revealed cork cells, parenchyma, xylem vessels, and abundant starch grains. The pharmacognostic analysis showed foreign matter (0.19±0.02%), swelling index (3.9±0.3 mL/g), bitterness value (2.9±0.4 units/g), total ash (6.6±0.1%), acid-insoluble ash (0.56±0.04%), water-soluble ash (1.7±0.2%), and moisture content (4.46± 0.04%), all within acceptable limits for crude herbal materials. Extractive values were found to be highest in hydro-alcoholic hot and successive extracts, 13.46±0.21% and 19.59±0.18%, respectively. However, cold extractive value was comparatively high inaqueous extract (9.7±0.1%), which is higher than extractive values reported in several earlier studies on W. somnifera from other Indian regions. Preliminary phytochemical screening confirmed the presence of alkaloids, flavonoids, tannins, saponins, and steroids. TLC revealed distinct spots with retention factor (Rf) values ranging from 0.12 to 0.93. Total tannin content was 8.176 mg/g. Heavy metals, AFs, microbial contamination, and pesticide residues were all within WHO permissible limits ensuring sample safety.

Conclusion: The analytical findings establish a comprehensive pharmacognostical and phytochemical profile of W. somnifera root from Northern India. The comparatively high hydroalcoholic extractive values and complex TLC fingerprint of polar extracts represent useful diagnostic markers for this regional chemotype and support its safe inclusion in pharmacopeial monographs and quality control of herbal formulations.

Downloads

Download data is not yet available.

References

1. Bashir A, Nabi M, Tabassum N, Afzal S, Ayoub M. An updated review on phytochemistry and molecular targets of Withania somnifera (L.) Dunal (Ashwagandha). Front Pharmacol. 2023 Mar 29;14:1049334. doi: 10.3389/fphar.2023.1049334, PMID 37063285

2. Saleem S, Muhammad G, Hussain MA, Altaf M, Bukhari SN, Withaniasomnifera L. Withania somnifera L.: Insights into the phytochemical profile, therapeutic potential, clinical trials, and future prospective. Iran J Basic Med Sci. 2020 Dec;23(12):1501-26. doi: 10.22038/IJBMS.2020.44254.10378, PMID 33489024

3. Mikulska P, Malinowska M, Ignacyk M, Szustowski P, Nowak J, Pesta K, et al. Ashwagandha (Withania somnifera)-current research on the health-promoting activities: A narrative review. Pharmaceutics. 2023 Apr;15(4):1057. doi: 10.3390/pharmaceutics15041057, PMID 37111543

4. Singh G, Kumar P. Arora D. Withanolides: Bioactive steroidal lactones of Withania somnifera-their chemistry, pharmacology and therapeutic potential. Phytother Res. 2022 Apr;36(4):1473-93.

5. Choudhary B, Shetty A, Langade DG. Quantitative estimation of withanolide A and withaferin A in Ashwagandha (Withania somnifera) root extracts by HPLC for quality control. J Appl Pharm Sci. 2021 Jun;11(6):115-21.

6. Uddin Q, Samiulla L, Singh VK, Jamil SS. Phytochemical and pharmacological profile of Withania somnifera Dunal: Areview. J Appl Pharm Sci. 2020 Feb;10(2):160-72.

7. Pant J, Ripudhaman R. Review on standardization of Ayurvedic medicine. J Pharm Res Int. 2021 Dec;33(57A):194-9. doi: 10.9734/ jpri/2021/v33i57A33986

8. Kaur P, Rana AC, Seth N. Quality control and standardization of herbal drugs: A review. Int J Pharm Sci Res. 2021 Oct;12(10):5135-44.

9. World Health Organization. WHO Guidelines for the Assessment of Herbal Medicines. Geneva: WHO Press; 2022.

10. Singh R, Ghosh S, Srivastava N, Verma R. Modern analytical approaches for the standardization of herbal materials: Ensuring quality and safety. J Appl Pharm Sci. 2023 Jun;13(6):12-22.

11. Bhatia A, Singh B, Arora R. Current perspectives on the standardization of Withania somnifera root and its preparations. J Ethnopharmacol. 2021 Oct;276:114182.

12. Dhankhar S, Ruhil S, Balhara M, Dhankhar S, Chhillar AK. Pharmacognostical standardization and HPTLC fingerprinting of Withania somnifera roots from different Indian regions. Pharmacogn J. 2022 Dec;14(6):758-65.

13. Pandey M, Rastogi S, Rawat AK. Quality control and standardization of herbal formulations: A comprehensive review. J Ayurveda Integr Med. 2023 Jan-Mar;14(1):100673.

14. Subramanian R, Kumaravel R, Venkatesh P. Influence of extraction solvents on phytochemical composition and antioxidant potential of Withania somnifera root. Phytochem Lett. 2020 Mar;35:81-7.

15. Dandekar DS, Gaikwad N, Kanase D, Kadam S. Importance of pharmacognostical and phytochemical evaluation in herbal standardization: A practical approach. J Pharm Pharmacogn Res. 2024 Apr;12(2):180-91.

16. Khandelwal KR. Practical Pharmacognosy: Techniques and Experiments. 19th ed. Pune: Nirali Prakashan; 2008.

17. World Health Organization. Quality Control Methods for Herbal Materials. Geneva: WHO Press; 1998.

18. Kokate CK, Purohit AP, Gokhale SB. Pharmacognosy. 46th ed. Pune: Nirali Prakashan; 2005.

19. Anonymous. Ministry of Health and Family Welfare, Government of India. The Ayurvedic Pharmacopoeia of India. Part I., Vol. I. New Delhi: Ministry of Health and Family Welfare; 1996.

20. Mukherjee PK. Quality Control of Herbal Drugs: An Approach to Evaluation of Botanicals. New Delhi: Business Horizons; 2002.

21. Stahl E. Thin Layer Chromatography: A Laboratory Handbook. 2nd ed. Berlin: Springer-Verlag; 1965.

22. Harborne JB. Phytochemical Methods: A Guide to Modern Techniques of Plant Analysis. 3rd ed. London: Chapman & Hall; 1998.

23. European Pharmacopoeia Commission. European Pharmacopoeia 10.0: Microbial Contamination Testing. Strasbourg: Council of Europe; 2020.

24. Lakshmi Prabha M, Ramesh M, Ayyasamy PM. Heavy metal determination using AAS in medicinal plants: Method validation and optimization. J Pharm Sci Res. 2013;5(8):152-8.

25. Lakshmi Prabha M, Ayyasamy PM. Assessment of toxic heavy metals by AAS in herbal drugs. Int J Pharm Sci Rev Res. 2015;31(2):123-8.

26. Indian Pharmacopoeia Commission. Indian Pharmacopoeia 2018. Vol. 1. Ghaziabad: IPC; 2018.

27. Saebø IP, Haug T, Mæhre HK, et al. Optimization of the hemolysis assay for the assessment of food-related and natural product extracts. Food Chem Toxicol. 2023;172:113398.

28. Greco I, Lim DJ, Steffensen M, et al. Correlation between hemolytic activity, cytotoxicity and antimicrobial activity of peptide-based compounds. Sci Rep. 2020;10:16611.

29. Qin XY, Feng R, Zhou H, Pan HQ, Wang H, Huang XJ, et al. Detection of total aflatoxins in herbal medicines based on lateral flow assay with contamination ratio model. Molecules. 2024;29(24):5827. doi: 10.3390/molecules29245827, PMID 39769917

30. Victor Jeyaraj SV, Loy MJ, Goh KW, Lean YL, Chan SY, Ming LC. Aflatoxin tests in herbal products and its quantification: latest updates. Front Nutr. 2022;9:956077. doi: 10.3389/fnut.2022.956077, PMID 36159500

31. Sáyago-Ayerdi SG, Venema K. Tannins. In: Mérillon JM, Ramawat KG, editors. Bioactive Molecules in Food. Cham: Springer; 2019. p. 1-32.

32. Pandey KB, Rizvi SI. Plant polyphenols as dietary antioxidants in human health and disease. Oxid Med Cell Longev. 2009;2(5):270-8. doi: 10.4161/oxim.2.5.9498, PMID 20716914

33. Thirugnanasambantham P, Senthil K. In vitro and omics technologies opens a new avenue for deciphering withanolide metabolism in Withania somnifera. Int J Pharm Pharm Sci. 2016 Jul 1:17-26.

34. Priya S, Jyothi D, Lobo CL. Development and characterization of plant oil-based potent anticholinesterase microemulsion containing Withania somnifera extract with enhanced transdermal delivery of phytoconstituents for the treatment of cognitive disorders. Int J Appl Pharm. 2023;15(1):166-72.

35. Putra PW, Jawi IM, Subawa AA, Astawa NM, Indrayani AW, Widhiantara IG, et al. Phytochemicals of Beluntas (Pluchea indica (L.) Less.) and their health benefits. J Appl Pharm Sci. 2025 Jun 5;15(7):037-47.

Published

07-03-2026

How to Cite

RASHMI SHARMA, et al. “PHARMACOGNOSTICAL CHARACTERIZATION AND PHYTOCHEMICAL ANALYSIS OF WITHANIA SOMNIFERA DUNAL ROOT FROM NORTHERN INDIA”. Asian Journal of Pharmaceutical and Clinical Research, vol. 19, no. 3, Mar. 2026, pp. 80-90, doi:10.22159/ajpcr.2026v19i3.57492.

Issue

Vol 19 Issue 3 March 2026

Section

Original Article(s)

Copyright (c) 2026 Prof. (Dr.) Rashmi Sharma, Prof. (Dr.) Nitin kumar, Dhruv Jindal, Punit kumar

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

The publication is licensed under CC By and is open access. Copyright is with author and allowed to retain publishing rights without restrictions.