Liposomes as a topical delivery system: the role of size on transport studied by the EPR imaging method

The relative contribution of the liposome size, lamellarity, composition and charge to the transport into the skin of drug, which was applied entrapped in liposomes is a subject of some controversy. In this study the influence of liposome size on the transport of hydrophilic substance was investigat...

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Bibliographic Details
Published inJournal of controlled release Vol. 59; no. 1; pp. 87 - 97
Main Authors Šentjurc, M, Vrhovnik, K, Kristl, J
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 01.05.1999
Elsevier
Subjects
1,2-Dipalmitoylphosphatidylcholine - chemistry
Administration, Topical
Animals
Biological and medical sciences
Biological Transport
Chemical Phenomena
Chemistry, Physical
Drug Delivery Systems
Electron paramagnetic resonance imaging
Electron Spin Resonance Spectroscopy - methods
General pharmacology
Liposome
Liposomes - chemistry
Medical sciences
Particle Size
Pharmaceutical technology. Pharmaceutical industry
Pharmacology. Drug treatments
Phosphatidylcholines - chemistry
Size
Skin
Skin - metabolism
Skin Absorption
Spin Labels
Swine
Transport
Liposome
Skin
Transport
Size
Electron paramagnetic resonance imaging
Encapsulation
Particle size
Pharmaceutical technology
Biological transport
Lipids
Drug carrier
In vitro
Pig
Vertebrata
Mammalia
Animal
Dosage form
Artiodactyla
Electron paramagnetic resonance
Ungulata
Online AccessGet full text
ISSN0168-3659
1873-4995
DOI10.1016/S0168-3659(98)00181-3

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Abstract The relative contribution of the liposome size, lamellarity, composition and charge to the transport into the skin of drug, which was applied entrapped in liposomes is a subject of some controversy. In this study the influence of liposome size on the transport of hydrophilic substance was investigated. For this purpose liposomes composed of dipalmitoylphosphatidylcholine (DPPC), or non-hydrogenated soya lecithin (NSL) or hydrogenated soya lecithin (HSL), all in combination with 30% cholesterol, as well as of two types of niosomes: from glyceryl distearate or PEG stearate in combination with 45% of cholesterol and 10% of lipoaminosalt were prepared and their physical characteristics (size, polydispersity index, zeta potential, entrapped volume) were determined. Their size was varied by extrusion and by sonication. The transport of the entrapped spin labeled hydrophilic compounds into the skin was measured by electron paramagnetic resonance imaging methods. No significant transport into the deeper skin layers (more than 100 μm deep) was observed for NSL liposomes, irrespective of vesicle size. For all other vesicular systems some transport into the deeper skin layers was observed, which did not depend on vesicle size, significantly until the vesicle diameter of approximately 200 nm was reached. However, for small vesicles (with diameter less than 200 nm) the transport is significantly decreased. We have proven that small vesicles are not stable and disintegrate immediately in contact with other surfaces. As a consequence, they lose an important influence on the topical delivery of the entrapped hydrophilic substances.
AbstractList The relative contribution of the liposome size, lamellarity, composition and charge to the transport into the skin of drug, which was applied entrapped in liposomes is a subject of some controversy. In this study the influence of liposome size on the transport of hydrophilic substance was investigated. For this purpose liposomes composed of dipalmitoylphosphatidylcholine (DPPC), or non-hydrogenated soya lecithin (NSL) or hydrogenated soya lecithin (HSL), all in combination with 30% cholesterol, as well as of two types of niosomes: from glyceryl distearate or PEG stearate in combination with 45% of cholesterol and 10% of lipoaminosalt were prepared and their physical characteristics (size, polydispersity index, zeta potential, entrapped volume) were determined. Their size was varied by extrusion and by sonication. The transport of the entrapped spin labeled hydrophilic compounds into the skin was measured by electron paramagnetic resonance imaging methods. No significant transport into the deeper skin layers (more than 100 μm deep) was observed for NSL liposomes, irrespective of vesicle size. For all other vesicular systems some transport into the deeper skin layers was observed, which did not depend on vesicle size, significantly until the vesicle diameter of approximately 200 nm was reached. However, for small vesicles (with diameter less than 200 nm) the transport is significantly decreased. We have proven that small vesicles are not stable and disintegrate immediately in contact with other surfaces. As a consequence, they lose an important influence on the topical delivery of the entrapped hydrophilic substances.
The relative contribution of the liposome size, lamellarity, composition and charge to the transport into the skin of drug, which was applied entrapped in liposomes is a subject of some controversy. In this study the influence of liposome size on the transport of hydrophilic substance was investigated. For this purpose liposomes composed of dipalmitoylphosphatidylcholine (DPPC), or non-hydrogenated soya lecithin (NSL) or hydrogenated soya lecithin (HSL), all in combination with 30% cholesterol, as well as of two types of niosomes: from glyceryl distearate or PEG stearate in combination with 45% of cholesterol and 10% of lipoaminosalt were prepared and their physical characteristics (size, polydispersity index, zeta potential, entrapped volume) were determined. Their size was varied by extrusion and by sonication. The transport of the entrapped spin labeled hydrophilic compounds into the skin was measured by electron paramagnetic resonance imaging methods. No significant transport into the deeper skin layers (more than 100 microm deep) was observed for NSL liposomes, irrespective of vesicle size. For all other vesicular systems some transport into the deeper skin layers was observed, which did not depend on vesicle size, significantly until the vesicle diameter of approximately 200 nm was reached. However, for small vesicles (with diameter less than 200 nm) the transport is significantly decreased. We have proven that small vesicles are not stable and disintegrate immediately in contact with other surfaces. As a consequence, they lose an important influence on the topical delivery of the entrapped hydrophilic substances.The relative contribution of the liposome size, lamellarity, composition and charge to the transport into the skin of drug, which was applied entrapped in liposomes is a subject of some controversy. In this study the influence of liposome size on the transport of hydrophilic substance was investigated. For this purpose liposomes composed of dipalmitoylphosphatidylcholine (DPPC), or non-hydrogenated soya lecithin (NSL) or hydrogenated soya lecithin (HSL), all in combination with 30% cholesterol, as well as of two types of niosomes: from glyceryl distearate or PEG stearate in combination with 45% of cholesterol and 10% of lipoaminosalt were prepared and their physical characteristics (size, polydispersity index, zeta potential, entrapped volume) were determined. Their size was varied by extrusion and by sonication. The transport of the entrapped spin labeled hydrophilic compounds into the skin was measured by electron paramagnetic resonance imaging methods. No significant transport into the deeper skin layers (more than 100 microm deep) was observed for NSL liposomes, irrespective of vesicle size. For all other vesicular systems some transport into the deeper skin layers was observed, which did not depend on vesicle size, significantly until the vesicle diameter of approximately 200 nm was reached. However, for small vesicles (with diameter less than 200 nm) the transport is significantly decreased. We have proven that small vesicles are not stable and disintegrate immediately in contact with other surfaces. As a consequence, they lose an important influence on the topical delivery of the entrapped hydrophilic substances.
The relative contribution of the liposome size, lamellarity, composition and charge to the transport into the skin of drug, which was applied entrapped in liposomes is a subject of some controversy. In this study the influence of liposome size on the transport of hydrophilic substance was investigated. For this purpose liposomes composed of dipalmitoylphosphatidylcholine (DPPC), or non-hydrogenated soya lecithin (NSL) or hydrogenated soya lecithin (HSL), all in combination with 30% cholesterol, as well as of two types of niosomes: from glyceryl distearate or PEG stearate in combination with 45% of cholesterol and 10% of lipoaminosalt were prepared and their physical characteristics (size, polydispersity index, zeta potential, entrapped volume) were determined. Their size was varied by extrusion and by sonication. The transport of the entrapped spin labeled hydrophilic compounds into the skin was measured by electron paramagnetic resonance imaging methods. No significant transport into the deeper skin layers (more than 100 microm deep) was observed for NSL liposomes, irrespective of vesicle size. For all other vesicular systems some transport into the deeper skin layers was observed, which did not depend on vesicle size, significantly until the vesicle diameter of approximately 200 nm was reached. However, for small vesicles (with diameter less than 200 nm) the transport is significantly decreased. We have proven that small vesicles are not stable and disintegrate immediately in contact with other surfaces. As a consequence, they lose an important influence on the topical delivery of the entrapped hydrophilic substances.
Author Šentjurc, M
Vrhovnik, K
Kristl, J
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  surname: Šentjurc
  fullname: Šentjurc, M
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  surname: Vrhovnik
  fullname: Vrhovnik, K
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  surname: Kristl
  fullname: Kristl, J
  organization: University of Ljubljana, Faculty of Pharmacy, Aškerceva 7, 1000 Ljubljana, Slovenia
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https://www.ncbi.nlm.nih.gov/pubmed/10210725$$D View this record in MEDLINE/PubMed
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Issue 1
Keywords Liposome
Skin
Transport
Size
Electron paramagnetic resonance imaging
Encapsulation
Particle size
Pharmaceutical technology
Biological transport
Lipids
Drug carrier
In vitro
Pig
Vertebrata
Mammalia
Animal
Dosage form
Artiodactyla
Electron paramagnetic resonance
Ungulata
Language English
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Snippet The relative contribution of the liposome size, lamellarity, composition and charge to the transport into the skin of drug, which was applied entrapped in...
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SubjectTerms 1,2-Dipalmitoylphosphatidylcholine - chemistry
Administration, Topical
Animals
Biological and medical sciences
Biological Transport
Chemical Phenomena
Chemistry, Physical
Drug Delivery Systems
Electron paramagnetic resonance imaging
Electron Spin Resonance Spectroscopy - methods
General pharmacology
Liposome
Liposomes - chemistry
Medical sciences
Particle Size
Pharmaceutical technology. Pharmaceutical industry
Pharmacology. Drug treatments
Phosphatidylcholines - chemistry
Size
Skin
Skin - metabolism
Skin Absorption
Spin Labels
Swine
Transport
Title Liposomes as a topical delivery system: the role of size on transport studied by the EPR imaging method
URI https://dx.doi.org/10.1016/S0168-3659(98)00181-3
https://www.ncbi.nlm.nih.gov/pubmed/10210725
https://www.proquest.com/docview/69703310
Volume 59
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