Design and Development of Brahmi Extract Loaded Nanofibers for Cognitive Disorder and Its Optimization

Authors

  • Shete Sanmati D.  Rajarambapu College of Pharmacy, Kasegaon, Dist - Sangli, Maharashtra, India
  • Amane Nikita B.  Rajarambapu College of Pharmacy, Kasegaon, Dist - Sangli, Maharashtra, India
  • Desai Punam S.  Rajarambapu College of Pharmacy, Kasegaon, Dist - Sangli, Maharashtra, India
  • Dr. Salunkhe .V. R.  Rajarambapu College of Pharmacy, Kasegaon, Dist - Sangli, Maharashtra, India
  • Dr. Magdum C. S.  Rajarambapu College of Pharmacy, Kasegaon, Dist - Sangli, Maharashtra, India

DOI:

https://doi.org//10.32628/IJSRST196526

Keywords:

Cognitive disorders, brahmi extract loaded PVP nanofibers, Scanning electron microscopy, Zeta potential, In-Vitro drug release, drug entrapment efficiency practical yield, XRD, FTIR.

Abstract

Cognitive disorders (CDs), also known as neurocognitive disorders (NCDs) are a category of mental health disorders that primarily affect cognitive abilities including learning, memory, perception, and problem solving. Global population with depression ranges mostly between 2% and 6% around the world today. Mental health disorders are also attributed to significant number of indirect deaths through suicide and self-harm. The aim of designing a drug delivery system is to enable drug release at a controlled rate over a desired period. nanofibers, with their large specific surface areas, can improve the solubility and dissolution rates of drugs, thereby resulting in fast release of poorly soluble active drugs. Drug release from nanofibers in terms of processing setup and modulate the release kinetics, to achieve site of action with increased plasma half life and resulting increasing residence time of drug in plasma, slowing down rapid renal clearance and helping extended presence of drug at the site of action and also minimize the toxicity of drug. Bacopa monniera an Ayurvedic drug which is mainly used for health practices. Polyvinylpyrrolidone as synthetic polymer was preferably used as a carrier for preparation of nanofibers. Nanofibers mainly prepared by using synthetic polymer because it does not have any toxic effect. Pre-formulation studies were carried out. Experimental design based on trial and error base. Total three batches were prepared using chitosan, cellulose acetate and Polyvinylpyrrolidone.FT-IR Spectroscopy study showed that there was no interaction between drug and polymer. Nanofibers were prepared by using electrospinning method. After preparation of nanofibers were subjected to various evolution parameters includes practical yield, in-vitro drug release, drug entrapment efficiency, SEM,XRD, Zeta Potential, FTIR. The formulations were optimized with respect to In-Vitro drug release and drug entrapment efficiency. Among the all formulations, the Brahmi Extract loaded PVP nanofibers batch F1 containing 300mg of brahmi extract and 600 mg polymer was optimized because this batch showed 97.57% drug release,99.24% drug entrapment efficiency,-26.4mV Zeta potential of the optimized batch which is mainly used to check the stability of the nanofibers formulation. An optimized formulation brahmi extract loaded nanofibers batch F1 is well acceptable, pleasant, palatable and with better compliance.

References

  1. A. Mohamed," Modafinil has the potential for addiction" AJOB Neuroscience, 2012;3, P: 36–38.
  2. S. Darke, S. Kaye, R. McKetin, J. Duflou, "Physical and psychological harms of psychostimulant use", National Drug and Alcohol Research Center, 2007, P: 248.
  3. S. Bell, J. Lucke, W. Hall, "Lessons for enhancement from the history of cocaine and amphetamine use",AJOB Neurosci., 2012; 3,P:24–29.
  4. DG. Blazer, CF. Federspiel WA. Ray, W. Schaffner, "The risk of anticholinergic toxicity in the elderly: A study of prescribing practices in two populations", J Gerontol.,1983; 38,P:31–35.
  5. YB. Tripathi, S. Chaurasia, E. Tripathi, A. Upadhyay, GP. Dubey, "Bacopa monniera Linn. as an antioxidant: Mechanism of action",Indian J Exp Biol. 1996;34,P:523–526.
  6. T. Ghosh, TK. Maity, M. Das, A. Bose, DK. Dash, "In vitro antioxidant and hepatoprotective activity of ethanolic extract of Bacopa monnieri", IJPT,2007;6,P:77–85.
  7. M. Rastogi, R.Ojha, PC. Prabu, DP. Devi, A. Agrawal, GP. Dubey, "Prevention of age-associated neurodegeneration and promotion of healthy brain ageing in female Wistar rats by long term use of bacosides", Journal of Biogerontology.,2012; 13,P:183–195.
  8. Barrett SC. Strother JL. Taxonomy and natural history of Bacopa in California. Syst Bot.1978; 5,P:408–419.
  9. B. Moosmann, C. Behl, "Antioxidants as treatment for neurodegenerative disorders", Expert Opin Investig Drugs, 2002; 11,P:1407–35.
  10. M.Berger, M. Can, "oxidative damage is treated nutritionally" Clin Nutr, 2005; 24,P:172–83.
  11. R.A.Floyd, "Antioxidants, oxidative stress and degenerative neurological disorders" Proc Soc Exp Biol Med. 1999;P:236–45. Dr.Somkant V. Jawarkar, Sanmati D. Shete, Dr. Sandeep R. Kane, "Green Synthesis of silver Nanoparticles using Bacopa Monneeri leat extract and assessment of their DPPH activity" Indo American Journal of Pharmaceutical Research, vol 8, 2019,P:1876-1883.
  12. Dr.Somkant V. Jawarkar, Sanmati D. Shete, Dr. Sandeep R. Kane, "Green Synthesis of silver Nanoparticles using Bacopa Monneeri leat extract and assessment of their DPPH activity" Indo American Journal of Pharmaceutical Research, vol 8, 2019,P:1876-1883.
  13. S. Ramakrishna, "A review on electrospinning design and nano-fiber assemblies", Nanotechnology, 2006, 17(14), P:89-106.
  14. J. Doshi, D H. Reneker, "Electrospinning process and applications of electrospun fibers",Journal of Electrostat, 1995, 35(2-3)P:151-160.
  15. D. H. Reneker, I. Chun, "Nanometer diameter fibres of polymers, produced by electrospinning", Nanotechnology, 1996, 7(3),P: 216-223.
  16. A. L. Yarin, S. Koombhongse, D. H. Reneker, "Bending instability in electro-spinning of nanofibers", journal of Appl Phys, 2001, 89(5),P:3018-3026.
  17. T Subbiah, G S Bhat, R W Tock, "Electrospinning of nanofibers",Journal of Appl Polym Sci, 2005, 96(2),P:557-569.
  18. V. Hasirci, E. Vrana, P. Zorlutuna "Nanobiomaterials: a review of the existing science and technology and new approaches", Journal of Biomaterial Sci. Polym.Edn, 17 (11), 2006, P: 1241-1268.
  19. T. Subbiah, G.S. Bhat, RW. Tock, S. Parameswaran, S.S. Ramkumar, " Electrospinning of nanofiber",. Journal of Appl Polym Sci,96, 2005,P:557-569.
  20. W.E. Teo, S. Ramakrishna, "A review on electro spinning design and nanofibers assemblies" Jounal of Nanotechnology, 17,2006, P:89-106.
  21. Amandeep Singh, Singh Narinder," Recent Review on Nanofiber for drug delivery system" World Journal of Pharmaceutical Research, April 2017, Volume 6, P:611-631.
  22. F A A Ruiter, C Alexander, F R A J Rose and J I Segal "A design of experiments approach to identify the influencing parameters that determine poly-D,L-lactic acid (PDLLA) electrospun scaffold morphologies" IOP Publication Ltd Biomedical Materials, Volume 12( 5),P:148-65
  23. N. Bhardwaj, & S.C Kundu, "Electrospinning: A fascinating fiber fabrication technique", Biotechnology Advances, 2010, P:325-347.
  24. Nick Tucker, Jonathan J. Stanger, Mark Staiger ",History of the science and technology of electrospinning",2012,AJRS.
  25. Electrospintech.com/espinhistory.html.

International Journal of Scientific Research in Science and Technology

Downloads

Published

2019-10-30

Issue

Volume 6, Issue 6, November-December-2019

Section

Research Articles

License

Copyright (c) IJSRST

Creative Commons License

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

How to Cite

[1]
Shete Sanmati D., Amane Nikita B., Desai Punam S., Dr. Salunkhe .V. R., Dr. Magdum C. S., " Design and Development of Brahmi Extract Loaded Nanofibers for Cognitive Disorder and Its Optimization, International Journal of Scientific Research in Science and Technology(IJSRST), Online ISSN : 2395-602X, Print ISSN : 2395-6011, Volume 6, Issue 6, pp.104-115, November-December-2019. Available at doi : https://doi.org/10.32628/IJSRST196526