Single-component solid lipid nanocarriers prepared with ultra-long chain amphiphilic lipids

Wei Wei; Xiaonan Lu; Zegao Wang; Bianca Pérez; Jingying Liu; Chengyu Wu; Mingdong Dong; Fengqin Feng; Huiling Mu; Zheng Guo

doi:10.1016/j.jcis.2017.06.022

Single-component solid lipid nanocarriers prepared with ultra-long chain amphiphilic lipids

Wei Wei, Xiaonan Lu, Zegao Wang, Bianca Pérez, Jingying Liu, Chengyu Wu, Mingdong Dong, Fengqin Feng, Huiling Mu, Zheng Guo

6 Citationer (Scopus)

Abstract

HYPOTHESIS: Synthetic sugar alcohol mono-behenates with high melting points, surface activity and resistance to enzymatic lipolysis, are expected to form stable single-component solid lipid nanocarriers (SC-SLNs). The preparation methods and the polar head group of the molecules should affect the size and drug encapsulation efficiency.

EXPERIMENTS: SC-SLNs of sugar alcohol mono-behenates with varied polar heads were prepared using emulsification-diffusion method and melting-probe sonication method. Model lipophilic drug fenofibrate was formulated into nanocarriers. The drug release was assessed using the lipolysis model. The structure and drug distribution of the nanocarriers were studied using AFM and TEM.

FINDINGS: Both the polar head group of the molecules and the preparation methods affect the particle size and size distribution. Nanocarriers prepared with sorbitol mono-behenates showed the smallest mean size (∼100nm with PdI of 0.26). In addition, they displayed high entrapment efficiency of fenofibrate (95%) and long term drug release. Nanocarriers prepared by emulsification-diffusion method entrapped fenofibrate into lipid bilayers. In contrast, Nanocarriers prepared by melting-probe sonication method had a micelle structure with fenofibrate incorporated into a lipid monolayer. This study provides an insight into the systematic development of novel amphiphilic lipids for solid lipid-based drug delivery system.

Originalsprog	Engelsk
Tidsskrift	Journal of Colloid and Interface Science
Vol/bind	505
Sider (fra-til)	392-401
Antal sider	10
ISSN	0021-9797
DOI	https://doi.org/10.1016/j.jcis.2017.06.022
Status	Udgivet - 1 nov. 2017

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10.1016/j.jcis.2017.06.022

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title = "Single-component solid lipid nanocarriers prepared with ultra-long chain amphiphilic lipids",

abstract = "HYPOTHESIS: Synthetic sugar alcohol mono-behenates with high melting points, surface activity and resistance to enzymatic lipolysis, are expected to form stable single-component solid lipid nanocarriers (SC-SLNs). The preparation methods and the polar head group of the molecules should affect the size and drug encapsulation efficiency.EXPERIMENTS: SC-SLNs of sugar alcohol mono-behenates with varied polar heads were prepared using emulsification-diffusion method and melting-probe sonication method. Model lipophilic drug fenofibrate was formulated into nanocarriers. The drug release was assessed using the lipolysis model. The structure and drug distribution of the nanocarriers were studied using AFM and TEM.FINDINGS: Both the polar head group of the molecules and the preparation methods affect the particle size and size distribution. Nanocarriers prepared with sorbitol mono-behenates showed the smallest mean size (∼100nm with PdI of 0.26). In addition, they displayed high entrapment efficiency of fenofibrate (95%) and long term drug release. Nanocarriers prepared by emulsification-diffusion method entrapped fenofibrate into lipid bilayers. In contrast, Nanocarriers prepared by melting-probe sonication method had a micelle structure with fenofibrate incorporated into a lipid monolayer. This study provides an insight into the systematic development of novel amphiphilic lipids for solid lipid-based drug delivery system.",

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author = "Wei Wei and Xiaonan Lu and Zegao Wang and Bianca P{\'e}rez and Jingying Liu and Chengyu Wu and Mingdong Dong and Fengqin Feng and Huiling Mu and Zheng Guo",

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doi = "10.1016/j.jcis.2017.06.022",

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TY - JOUR

T1 - Single-component solid lipid nanocarriers prepared with ultra-long chain amphiphilic lipids

AU - Wei, Wei

AU - Lu, Xiaonan

AU - Wang, Zegao

AU - Pérez, Bianca

AU - Liu, Jingying

AU - Wu, Chengyu

AU - Dong, Mingdong

AU - Feng, Fengqin

AU - Mu, Huiling

AU - Guo, Zheng

PY - 2017/11/1

Y1 - 2017/11/1

N2 - HYPOTHESIS: Synthetic sugar alcohol mono-behenates with high melting points, surface activity and resistance to enzymatic lipolysis, are expected to form stable single-component solid lipid nanocarriers (SC-SLNs). The preparation methods and the polar head group of the molecules should affect the size and drug encapsulation efficiency.EXPERIMENTS: SC-SLNs of sugar alcohol mono-behenates with varied polar heads were prepared using emulsification-diffusion method and melting-probe sonication method. Model lipophilic drug fenofibrate was formulated into nanocarriers. The drug release was assessed using the lipolysis model. The structure and drug distribution of the nanocarriers were studied using AFM and TEM.FINDINGS: Both the polar head group of the molecules and the preparation methods affect the particle size and size distribution. Nanocarriers prepared with sorbitol mono-behenates showed the smallest mean size (∼100nm with PdI of 0.26). In addition, they displayed high entrapment efficiency of fenofibrate (95%) and long term drug release. Nanocarriers prepared by emulsification-diffusion method entrapped fenofibrate into lipid bilayers. In contrast, Nanocarriers prepared by melting-probe sonication method had a micelle structure with fenofibrate incorporated into a lipid monolayer. This study provides an insight into the systematic development of novel amphiphilic lipids for solid lipid-based drug delivery system.

AB - HYPOTHESIS: Synthetic sugar alcohol mono-behenates with high melting points, surface activity and resistance to enzymatic lipolysis, are expected to form stable single-component solid lipid nanocarriers (SC-SLNs). The preparation methods and the polar head group of the molecules should affect the size and drug encapsulation efficiency.EXPERIMENTS: SC-SLNs of sugar alcohol mono-behenates with varied polar heads were prepared using emulsification-diffusion method and melting-probe sonication method. Model lipophilic drug fenofibrate was formulated into nanocarriers. The drug release was assessed using the lipolysis model. The structure and drug distribution of the nanocarriers were studied using AFM and TEM.FINDINGS: Both the polar head group of the molecules and the preparation methods affect the particle size and size distribution. Nanocarriers prepared with sorbitol mono-behenates showed the smallest mean size (∼100nm with PdI of 0.26). In addition, they displayed high entrapment efficiency of fenofibrate (95%) and long term drug release. Nanocarriers prepared by emulsification-diffusion method entrapped fenofibrate into lipid bilayers. In contrast, Nanocarriers prepared by melting-probe sonication method had a micelle structure with fenofibrate incorporated into a lipid monolayer. This study provides an insight into the systematic development of novel amphiphilic lipids for solid lipid-based drug delivery system.

KW - Journal Article

U2 - 10.1016/j.jcis.2017.06.022

DO - 10.1016/j.jcis.2017.06.022

M3 - Journal article

C2 - 28623698

SN - 0021-9797

VL - 505

SP - 392

EP - 401

JO - Journal of Colloid and Interface Science

JF - Journal of Colloid and Interface Science

ER -

Single-component solid lipid nanocarriers prepared with ultra-long chain amphiphilic lipids

Abstract

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