IN-VITRO ASSIMILATION OF TRIMYRISTIN IN THE SEEDS OF MYRISTICA FRAGRANS AND IN POLY HERBAL AYURVEDIC FORMULATION BY UFLC METHOD

Authors

  • N. Hima Sai Bindu
  • S. Rubesh Kumar

Keywords:

Trimyristin, Poweromin, Makaradhwaj vatti, UFLC, isocratic elution, validation and stress degradation

Abstract

The present study was aimed to develop a simple and validated chromatographic method for the estimation of Trimyristin in the API and in poly herbal Ayurvedic formulations by UFLC method, along with stress induced degradation studies of the drug and validate the method as per the ICH guidelines. The analysis was carried out under isocratic conditions using dichloromethane and acetonitrile in the ratio of 95:5 as mobile phase with a flow rate of 1.0 ml/min at 210nm. The method was simple, specific, precise, and accurate with retention times 0.904 and 0.906 minutes for the API and isolated product. The system obeys the Beer's law in the concentration range of 10-90μg/ml. The percentage recovery studies performed showed a percentage recovery of 98.3 -101.6%w/v and found to be linear with a correlation coefficient (r2) of 0.9993. The method was found to be precise with relative standard deviation of less than 2%, detection limit and quantitation limit was estimated to be 4.58μg/ml, 15.27μg/ml respectively. The method was found to be robust even by change in mobile phase ratio of ±5%, change in wavelength and change in flow rate of ±0.1 ml/min.  This validated method was sensitive and reproducible enough to be used for routine analysis of Poweromin tablet and Makaradhwaj vatti in time and cost effective manner.

Keywords: Trimyristin, Poweromin, Makaradhwaj vatti, UFLC, isocratic elution, validation and stress degradation

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References

Preetee Jaiswal, Pradeep Kumar, Vinay K Singh, Dinesh K Singh, Biological Effects of Myristica fragrans. ARBS Annual Review of Biomedical Sciences 2009;11 :21-29.

Maya KM, Zachariah TJ, Krishnamurthy B, Chemical composition of essential oil of nutmeg (Myristicin fragrans Houtt) accessions. J Spices Aromatic Crop 2004;13 :135:9.

Jinous Asgarpanah, Nastaran Kazemivash, Phytochemistry and pharmacologic properties of Myristica fragrans Houtt: A review. African Journal of Biotechnology 2012;11 : 12787-12793.

Muchtaridi, Anas Subarnas, Anton Apriyantono, Identification of Compounds in the Essential Oil of Nutmeg Seeds (Myristica fragrans Houtt.) That Inhibit Locomotor Activity in Mice. Int. J. Mol. Sci 2010;1 :4771-4781.

S.B. Kasture K.N. Gujar, Depressant Effect of Trimyristin and Its Inhibition by Some Antidepressants in Mice. Bioprospecting & Ethnopharmacology: Proc. WOCMAP III 2005;3 :147- 151.

Merck index. 14th ed., United States pharmaceutical company Merck & Co, 2006.

Roeland Rombaut, Nathalie De Clercq, Imogen Foubert, Koen Dewettinck, Triacylglycerol Analysis of Fats and Oils by Evaporative Light Scattering Detection. J Am Oil Chem Soc 2009;86 :19–25.

Dheeraj H Nagore, Vinod Kuber, Pankaj Patil, Tushar Deshmukh, Simultaneous assessment and validation of reverse phase-high performance liquid chromatography method for quercetin, eugenol, myristicin, and safrole from nutmeg, fruit and mace. Chron Young Sci 2013; 1 Suppl 1:9-17.

Deepa N. Sanghai, Pallavi S. Adhate, Saurabh K. Patil, Niraj N. Sanghai, Development of Analytical Techniques for Identification of Phytochemicals in Selected Herbal Drugs. Ijpsr 2011; 2 :2126-2131.

C. Randall Clark, Jack DeRuiter, Taylor Noggle, Analysis of 1-(3-Methoxy -4, 5 -Methylenediox Phenyl)-2-Propanamine(MMDA)Derivatives synthesized from Nutmeg Oil and 3 -Methoxy-4, 5-Me Thylene Dioxy Benzaldehyde. Journal of Chromatographic Science 1996;34 :35-42.

Mohd Abdul Rasheed Naikodi, Standardization of Unani Drug of Myristica Fragrans by Modern Analytical Techniques. Pharmaceutical methods 2011;7 :76-79.

Jian-Ping Hou, Hou Wu, Yi Wang, Xin-Chu Weng, Isolation of some Compounds from Nutmeg and their Antioxidant Activities. Czech J. Food Sci 2012;30 :164–170.

Bais S.K, Shirsat M, Pal U, Pal A, Significance of nutmeg oil as aroma therapy in hypertension: A Review. International J Pharmacy & Integrated Sciences 2010; 1 Suppl 1:55-58.

Text on validation of analytical procedures & Methodology ICH Harmonized tripartite guidelines. Q2 (R1). Geneva; 1994.

Validation of Analytical Procedures: Methodology (Q2B). ICH Harmonized Tripartite Guidelines. Geneva; 1996.

Published

01-09-2013

How to Cite

Sai Bindu, N. H., and S. Rubesh Kumar. “IN-VITRO ASSIMILATION OF TRIMYRISTIN IN THE SEEDS OF MYRISTICA FRAGRANS AND IN POLY HERBAL AYURVEDIC FORMULATION BY UFLC METHOD”. Asian Journal of Pharmaceutical and Clinical Research, vol. 6, no. 8, Sept. 2013, pp. 140-5, https://mail.innovareacademics.in/journals/index.php/ajpcr/article/view/372.

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