1) The document discusses herbal drugs and herbal-mediated silver nanoparticles as potential treatments for diabetes.
2) It describes the green synthesis method used to create herbal-mediated silver nanoparticles (HMSNPs) and various characterization techniques.
3) The synthesized HMSNPs are proposed to be biodegradable, biocompatible and non-toxic with potential for treating diabetes due to an ability to enter biological cell membranes.
Introduction to Sports Injuries by- Dr. Anjali Rai
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Herbal drug and herbal mediated silver nanoparticles by akshay kakde
1. âHerbal drug and herbal mediated silver
nanoparticles as anti-diabetics: A new
horizonâ
Presented by: Mr. Akshay G. Kakde
M. Pharm Sem-III
Quality Assurance Technique
Guide : Dr. Santosh S. Bhujbal Co-Guide : Dr. Rabindra K. Nanda
Dr. D. Y. Patil Institute of Pharmaceutical Sciences and Research, Pimpri, Pune:411018.
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2. âHerbal drug and herbal mediated silver
nanoparticles as anti-diabetics: A new
horizonâ
ďAuthor - Shanker kalakotla, Sandhya Rani, Pravallika P L.
Centre for Pharmaceutical Sciences, Institute of Science and Technology,
JNT University Hyderabad, Kukatpally, Telangana, India.
ďPublishing Journal - International Journal of Pharmaceutical
Sciences Review and Research.
ďIndexing â SciVerse Scopus , Index Copernicus, Google scholar
ďImpact factor - 2.5
ďDate of publishing - April 2015. 2
3. Abstract
⢠Objective â To study the synthesis of silver
nanoparticles in treatment of diabetes.
⢠Method â Green synthesis method use to formulate
herbal mediated silver nano particles was discussed.
⢠Result - Author concluded study by suggesting
synthesis & various characterization method of
HMSNPs(Herbal Mediated Silver Nanoparticles) &
their pharmacological application to treat the
diabetes.
⢠Conclusion - Synthesized and formulated herbal
mediated silver nanoparticles are biodegradable,
biocompatible and non-toxic and has greater ability
to enter biological cell membrane.
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4. Introduction
⢠Diabetes is metabolic disorder caused by dysfunction of β
cell of pancreas lead to â in production of the hormone
insulin or â resistance to the action of insulin in peripheral
tissues.
⢠It categorized into 2 types. Type 1 diabetes develops when
the bodyâs errant immune system damages and destroys the
pancreatic β cell that produce the blood glucose regulating
hormone insulin.
⢠Type 2 diabetes is cause due to progressive insulin
resistance/ insensitiveness with an ensuing reduction in the
ability of the pancreatic hormone to suppress hepatic glucose
output.
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5. What is Nanotechnology
⢠It is defined as the âInternational design, characterization
and production of materials, structures and system by
controlling their size and shape in the nano scale ranging
from 1-100 nm.â
⢠Nanoparticles are similar to biological molecule and
system so, they are potentially useful for medical
application.
⢠It show the completely new or improved properties such
as size, distribution and morphology of the particles.
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6. Why nanoparticles unique from normal
size particles?
ďIt has specific surface area, size and shape due to there
unique physicochemical properties.
ďNano crystalline silver particles have been providing
application in filed of high sensitivity bio molecular
detection, diagnostics, antimicrobials therapeutics.
ďSilver has good inhibitory action to the microbial strain
against bacteria present in medical and industrial process.
ďThe present scenario especially the SNPâs have been playing
important role in herbal nano technology to prevent chronic
diseases like diabetes and cancer.
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7. Why Silver ??
ďPure silver has highest
electrical and thermal
conductivity of all metals
and the lowest contact
resistance.
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ď Metallic silver itself
insoluble in water, but
metallic salts such as AgNo3
& Silver chloride are soluble
in water (WHO 2002).
8. Need of green synthesis
ďThe need for synthesis of nanoparticles due the
physical and chemical processes are costly.
ďChemical synthesis method leads to presence of
some of toxic chemicals absorbed on the surface
that they have adverse effect in medical application.
ďGreen synthesis provides advancement over
chemical and physical method as it is cost effective,
environment friendly, easily scaled up for large
scale synthesis.
ďIn this method there is no need to use high pressure,
energy, temperature and toxic chemicals.
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9. Synthesis of HMSNPâs
ďThe NPs can synthesized using various methods.
Among them chemical method required short time
period and quantity of nanoparticles
ďThe â in demand of âGreen nanotechnologyâ.
ďPlant extract provide good effect with nanoparticles
and free from toxic chemicals.
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15. Silver nanoparticles
ďThe main advantage of using plant extract for silver
nanoparticle synthesis is easily available, safe and
nontoxic and have a broad variety in that can aid in
the reduction of silver ions.
ďThe reduction of silver ions due to phytochemicals.
ďThe main phytochemicals involved are terpenoids,
flavones, ketones, aldehydes, amides and carboxylic
acid.
ďFlavones, organic acids and Quinone are water
soluble phytochemicals that are responsible for
immediate reduction of the ions.
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16. Images of Silver Nanoparticles
Fig (A & B) : AFM images of silver nanoparticles.
Fig (C): TEM image of silver nanoparticles.
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17. Application of silver nano particles
ďNPâs are of great interest due to their extremely
small size and large surface.
ďNPâs leads to both chemical and physical
differences in their properties compared to bulk of
the same chemical composition, such as mechanical,
biological and steric properties, catalytic activity,
thermal and electrical conductivity, optical
absorption and melting point.
ďDesigning and production of materials with novel
applications can be results by controlling shape and
size at nanometer scale.
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18. Application of HMSNPâs
Herbal mediated silver
nanoparticles
(HMSNPâs)
Biotechn
ology/Mi
crobiolic
al
Medical
Physical
/Optical
HMSNPs used as
antimicrobial/ anti
bacterial
HMSNPs used to
treat Diabetes,
cancer etc.
Emission
scattering and
spectroscopy
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19. Conclusion
ďHMSNPs : Scope of future research.
ďIt is safe, non toxic, save time and economical.
ďIt is also having high efficacy and therapeutic
effect.
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20. References
⢠Cooke DW, Plotnick L. Type 1 diabetes mellitus in
pediatrics. Pediatrics Revisions, 29, 2008, 374-384.
⢠Terminology for nanomaterials. Publicly available
specification136. London: British Standards Institute,
2007.
⢠Kaviya S, S.J., Viswanathan B., âGreen Synthesis of
silvernanoparticles using Polyalthia longifolia Leaf
extract along with Dsorbitol.âJournal of
nanotechnology, 3, 2011, 1-5.
⢠Chen X, S.H.J., âNanosilver: Nanoproducts in Medical
Applicationsâ. Toxicology Letters, 176, 2008, 1-12.
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21. ⢠Garima Singhal, R.B., Kunal Kasariya, Ashish Ranjan
Sharma,Rajendra Pal Singh, âBiosynthesis of silver
nanoparticles using Ocimum sanctum (Tulsi) leaf extract and
screening its antimicrobialactivityâ. Journal of Nanoparticle
Research, 13, 2011, 2981-2988.
⢠Sastry M, Khan MI, Kumar R., âMicrobial nanoparticle
production in Nanobiotechnology.â Nano biotechnology,
85(2), 2003, 163-169.
⢠Elumalai EK, P.T., Hemachandran J, Vivivan Therasa S,
Thirumalai T, David E., âExtracellular synthesis of silver
nanoparticles using leaves of Euphorbia hirta and their
antibacterial activities.â Journal of Pharmaceutical Sciences,
2(9), 2010, 549-554.
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