Evaluation of stability and size distribution of sunflower oil-coated micro bubbles for localized drug delivery

Evaluation of stability and size distribution of sunflower oil-coated micro bubbles for localized drug delivery

Micro bubbles were initially introduced as contrast agents for ultrasound examinations as they are able to modify the signal-to-noise ratio in imaging, thus improving the assessment of clinical information on human tissue. Recent developments have demonstrated the feasibility of using these bubbles...

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Bibliographic Details
Published in:Biomedical engineering online Vol. 11; no. 1; p. 71
Main Authors: Filho, Walter Duarte de Araujo, Schneider, Fábio Kurt, Morales, Rigoberto E M
Format: Journal Article
Language:English
Published: England BioMed Central Ltd 20-09-2012
BioMed Central
BMC
Subjects:
Air flow
Biocompatibility
Bubbles
Coatings
Contrast media
Drug Carriers - chemistry
Drug delivery
Drug delivery systems
Drugs
Gas flow
Gases
Helianthus
Hydrodynamics
imaging
Internet
Lipids
Microbubbles
Microfluidic Analytical Techniques
Molecular weight
Oil
Permeability
Physiological aspects
Plant Oils - chemistry
Pressure
Rapid prototyping
Size distribution
Standard deviation
Strangulation
Sunflower Oil
Sunflower seed oil
Therapeutic applications
Ultrasonic imaging
Ultrasound
Vegetable oils
Vehicles
Viscosity
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Summary:Micro bubbles were initially introduced as contrast agents for ultrasound examinations as they are able to modify the signal-to-noise ratio in imaging, thus improving the assessment of clinical information on human tissue. Recent developments have demonstrated the feasibility of using these bubbles as drug carriers in localized delivery. In micro fluidics devices for generation of micro bubbles, the bubbles are formed at interface of liquid gas through a strangulation process. A device that uses these features can produce micro bubbles with small size dispersion in a single step. A T-junction micro fluidic device constructed using 3D prototyping was made for the production of mono dispersed micro bubbles. These micro bubbles use sunflower oil as a lipid layer. Stability studies for micro bubbles with diameters different generated from a liquid phase of the same viscosity were conducted to evaluate whether micro bubbles can be used as drug carriers. The biocompatibility of coating layer, the ability to withstand environmental pressure variations combined with echogenicity, are key factors that they can safely play the role of drug transporters. The normal distribution curve with small dispersion of the diameter of bubbles validates the process of generating micro bubbles with low value of variation coefficient, i.e., 0.381 at 1.90%. The results also showed the feasibility of using sunflower oil as the lipid matrix with stable population of bubbles over 217 minutes for micro bubbles with an average diameter of 313.04 μm and 121 minutes for micro bubbles with an average diameter of 73.74 μm, considering bubbles with air as gaseous phase. The results indicate that the micro fluidic device designed can be used for producing micro bubbles with low variation coefficient using sunflower oil as a coating of micro bubbles. These carriers were stable for periods of time that are long enough for clinical applications even when regular air is used as the gas phase. Improved stability can be achieved when biocompatible gas with lower permeability is used.
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ISSN:1475-925X
1475-925X
DOI:10.1186/1475-925X-11-71