Solid lipid nanoparticles
NIVETASINGH
19,318 views
14 slides
Apr 08, 2017
Slide 1 of 14
1
2
3
4
5
6
7
8
9
10
11
12
13
14
About This Presentation
Revolution in the field of drug delivery and healthcare
Slide Content
Formulation and Characterization of Solid Lipid Nanoparticles NIVETA SINGH M.Tech Scholar Dept. of Biomedical Engg.
CONTENTS Introduction Definition of Solid lipid Nanoparticles Significance of Lipid Based systems Types of Solid lipid Nanoparticles Method of Preparation of SLNs Characterization of SLN Principle of drug release from SLNs Advantages and Disadvantages Applications of SLNs
Definition of Solid lipid Nanoparticles (SLNs) Solid lipid nanoparticles(SLNs) are sub-micron colloidal carriers ranging from 50-1000 nm, which are composed of a physiological lipid dispersed in water or in aqueous surfactant solution. They consist of macromolecular materials in which the active component is dissolved, entrapped, or to which the active component is adsorbed or attached. SLNs are generally spherical in shape and diameter range from 10-1000 nm. Solid lipid nanoparticles were initially designed to overcome the disadvantages associated with the liquid state of the oil droplets. Solid lipid nanoparticles were discovered by Gasco and Muller in 1991. INTRODUCTION
Significance of Lipid Based Systems Lipids enhance oral bioavailability of drugs Better control over drug release kinetics Much easier to manufacture than bio polymer NPs Wider range of base materials(lipids) Very high long-term stability Chemical protection of labile incorporated compounds No special solvents required A pplication versatility
Types of Solid Lipid Nanoparticles Solid lipid Nanoparticles can be divided into 3 types on the basis of drug loading: SLN Type I (homogeneous matrix model) II. SLN Type II (drug-enriched shell model) III. SLN Type III (drug-enriched core model)
Methods of preparation of Solid Lipid NPs High Pressure Homogenization a) Hot homogenization b)Cold homogenization Ultrasonication/ high speed homogenization a) Probe U ltrasonication b) Bath Ultrasonication Solvent evaporation method Solvent emulsification-diffusion method 5. Micro emulsion based method
HOT HOMOGENIZATION METHOD
COLD HOMOGENIZATION METHOD
Organic Phase Aqueous Phase COARSE EMULSION OBTAINED BATH SONICATION NANOPARTICLES OBTAINED CENTRIFUGE Preparation of Nanoparticles:
Characterization of Solid Lipid NPs Determination of particle size and morphology - SEM -TEM - PCS/DLS Measurement of Zeta Potential - Zeta potential under 30 mV are required for full electrostatic stabilization - Allows predictions about the storage stability of colloidal dispersions Measurement of degree of Crystallinity and lipid Modification - DSC - X-ray scattering used to investigate status of lipid - IR Proper characterization of the formulations is necessary to control the product quality, stability and release kinetics thus accurate and sensitive characterization methods should be used.
Principles of drug release from SLNs The general drug principles of drug release from lipid nanoparticles are as follows: Crystallinity behavior of the lipid and high mobility of the drug lead to fast drug release. Crystallization degree and mobility of drug are inversely proportional to each other. Slow drug release can be achieved when drug is homogenously dispersed in the lipid matrix. It depends on the type and the drug entrapment model of SLN Higher surface area due to smaller particle size in the nanometer size range gives higher drug release.
Advantages of Solid lipid NPs Excellent biocompatibility Improve stability of pharmaceuticals High and enhanced drug content Easy to scale up and sterilize Enhanced bioavailability of entrapped bioactive compounds Chemical protection of labile incorporated compounds Much easier to manufacture than bio polymeric NPs Disadvantages of Solid Lipid NPs Poor drug loading capacity Drug expulsion after polymeric transition during storage Relatively high water content of the dispersions( 70-99.9 %) Low capacity to load hydrophilic drugs due to partitioning effects during the production process.
SLN as potential new adjuvant for vaccines SLNs in cancer chemotherapy SLN as targeted carrier for anticancer drug to solid tumor SLNs for delivering peptides and proteins SLNs for targeted brain drug delivery SLNs for ultrasonic drug and gene delivery SLN in cosmetic and dermatological preparations SLN form an excellent carrier system for Bioactive compounds Applications of SLNs
Tags
Categories
HealthcareDownload
Download Slideshow Get the original presentation fileQuick Actions
Statistics
- Views 19,318
- Slides 14
- Favorites 31
- Age 3159 days
Related Slideshows
36
Clinical approach Dyspnoea A simple and practical approach.pptx
ShajahanPS
23 views
238
Cancer Awareness therapy for public by Dr Kanhu Charan Patro
kanhucpatro
23 views
41
Prof Satyadas Memorial oration Kozhikode.pptx
ShajahanPS
18 views
26
Viral Conjunctivitis and it;s managment.pptx
ZaidAzhar
33 views
30
Essential Thrombocythemia 15 Years of Experience at the Hematology Department, Algies, Algeria.pdf
sbelakehal
29 views
10
Hypertension sign symptoms cmdt style with regime
androiddabest
30 views