Brain Targeting of Quetiapine Fumarate via Intranasal Delivery of Loaded Lipospheres: Fabrication, In-Vitro Evaluation, Optimization, and In-Vivo Assessment

Randa Mohammed Zaki; Mohammed F. Aldawsari; Manal A. Alossaimi; Shaikah F. Alzaid; Vidya Devanathadesikan Seshadri; Alanood S. Almurshedi; Basmah Nasser Aldosari; Rehab Mohammad Yusif; Ossama M. Sayed

doi:10.3390/ph15091083

Brain Targeting of Quetiapine Fumarate via Intranasal Delivery of Loaded Lipospheres: Fabrication, In-Vitro Evaluation, Optimization, and In-Vivo Assessment

Randa Mohammed Zaki
, Mohammed F. Aldawsari
, Manal A. Alossaimi
, Shaikah F. Alzaid
, Vidya Devanathadesikan Seshadri
, Alanood S. Almurshedi
, Basmah Nasser Aldosari
, Rehab Mohammad Yusif
, Ossama M. Sayed

Research output: Contribution to journal › Article › peer-review

9 Scopus citations

Abstract

A liposphere system for intranasal delivery of quetiapine fumarate (QTF) was created to assess the potential for enhanced drug delivery. We investigated the effects of particle size, entrapment effectiveness, poly dispersibility index, and pluronic incorporation percentage on these variables. The optimal formula was examined using a TEM, and investigations into DSC, XRD, and FTIR were made. Optimized liposphere formulation in vitro dissolution investigation with a mean diameter of 294.4 ± 18.2 nm revealed about 80% drug release in 6 h. The intranasal injection of QTF-loaded lipospheres showed a shorter T_max compared to that of intranasal and oral suspension, per the findings of an in vivo tissue distribution investigation in Wistar mice. Lipospheres were able to achieve higher drug transport efficiency (DTE %) and direct nose-to-brain drug transfer (DTP %). A potentially effective method for delivering QTF to specific brain regions is the liposphere system.

Original language	English
Article number	1083
Journal	Pharmaceuticals
Volume	15
Issue number	9
DOIs	https://doi.org/10.3390/ph15091083
State	Published - Sep 2022

Keywords

DTE%
brain targeting
intranasal
lipospheres
quetiapine fumarate

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10.3390/ph15091083

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Zaki, R. M., Aldawsari, M. F., Alossaimi, M. A., Alzaid, S. F., Devanathadesikan Seshadri, V., Almurshedi, A. S., Aldosari, B. N., Yusif, R. M., & Sayed, O. M. (2022). Brain Targeting of Quetiapine Fumarate via Intranasal Delivery of Loaded Lipospheres: Fabrication, In-Vitro Evaluation, Optimization, and In-Vivo Assessment. Pharmaceuticals, 15(9), Article 1083. https://doi.org/10.3390/ph15091083

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title = "Brain Targeting of Quetiapine Fumarate via Intranasal Delivery of Loaded Lipospheres: Fabrication, In-Vitro Evaluation, Optimization, and In-Vivo Assessment",

abstract = "A liposphere system for intranasal delivery of quetiapine fumarate (QTF) was created to assess the potential for enhanced drug delivery. We investigated the effects of particle size, entrapment effectiveness, poly dispersibility index, and pluronic incorporation percentage on these variables. The optimal formula was examined using a TEM, and investigations into DSC, XRD, and FTIR were made. Optimized liposphere formulation in vitro dissolution investigation with a mean diameter of 294.4 ± 18.2 nm revealed about 80\% drug release in 6 h. The intranasal injection of QTF-loaded lipospheres showed a shorter Tmax compared to that of intranasal and oral suspension, per the findings of an in vivo tissue distribution investigation in Wistar mice. Lipospheres were able to achieve higher drug transport efficiency (DTE \%) and direct nose-to-brain drug transfer (DTP \%). A potentially effective method for delivering QTF to specific brain regions is the liposphere system.",

keywords = "DTE\%, brain targeting, intranasal, lipospheres, quetiapine fumarate",

author = "Zaki, \{Randa Mohammed\} and Aldawsari, \{Mohammed F.\} and Alossaimi, \{Manal A.\} and Alzaid, \{Shaikah F.\} and \{Devanathadesikan Seshadri\}, Vidya and Almurshedi, \{Alanood S.\} and Aldosari, \{Basmah Nasser\} and Yusif, \{Rehab Mohammad\} and Sayed, \{Ossama M.\}",

note = "Publisher Copyright: {\textcopyright} 2022 by the authors.",

year = "2022",

month = sep,

doi = "10.3390/ph15091083",

language = "English",

volume = "15",

journal = "Pharmaceuticals",

issn = "1424-8247",

publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",

number = "9",

}

Zaki, RM , Aldawsari, MF , Alossaimi, MA, Alzaid, SF, Devanathadesikan Seshadri, V, Almurshedi, AS, Aldosari, BN, Yusif, RM & Sayed, OM 2022, 'Brain Targeting of Quetiapine Fumarate via Intranasal Delivery of Loaded Lipospheres: Fabrication, In-Vitro Evaluation, Optimization, and In-Vivo Assessment', Pharmaceuticals, vol. 15, no. 9, 1083. https://doi.org/10.3390/ph15091083

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AU - Zaki, Randa Mohammed

AU - Aldawsari, Mohammed F.

AU - Alossaimi, Manal A.

AU - Alzaid, Shaikah F.

AU - Devanathadesikan Seshadri, Vidya

AU - Almurshedi, Alanood S.

AU - Aldosari, Basmah Nasser

AU - Yusif, Rehab Mohammad

AU - Sayed, Ossama M.

PY - 2022/9

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N2 - A liposphere system for intranasal delivery of quetiapine fumarate (QTF) was created to assess the potential for enhanced drug delivery. We investigated the effects of particle size, entrapment effectiveness, poly dispersibility index, and pluronic incorporation percentage on these variables. The optimal formula was examined using a TEM, and investigations into DSC, XRD, and FTIR were made. Optimized liposphere formulation in vitro dissolution investigation with a mean diameter of 294.4 ± 18.2 nm revealed about 80% drug release in 6 h. The intranasal injection of QTF-loaded lipospheres showed a shorter Tmax compared to that of intranasal and oral suspension, per the findings of an in vivo tissue distribution investigation in Wistar mice. Lipospheres were able to achieve higher drug transport efficiency (DTE %) and direct nose-to-brain drug transfer (DTP %). A potentially effective method for delivering QTF to specific brain regions is the liposphere system.

AB - A liposphere system for intranasal delivery of quetiapine fumarate (QTF) was created to assess the potential for enhanced drug delivery. We investigated the effects of particle size, entrapment effectiveness, poly dispersibility index, and pluronic incorporation percentage on these variables. The optimal formula was examined using a TEM, and investigations into DSC, XRD, and FTIR were made. Optimized liposphere formulation in vitro dissolution investigation with a mean diameter of 294.4 ± 18.2 nm revealed about 80% drug release in 6 h. The intranasal injection of QTF-loaded lipospheres showed a shorter Tmax compared to that of intranasal and oral suspension, per the findings of an in vivo tissue distribution investigation in Wistar mice. Lipospheres were able to achieve higher drug transport efficiency (DTE %) and direct nose-to-brain drug transfer (DTP %). A potentially effective method for delivering QTF to specific brain regions is the liposphere system.

KW - DTE%

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KW - intranasal

KW - lipospheres

KW - quetiapine fumarate

UR - https://www.scopus.com/pages/publications/85138609828

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DO - 10.3390/ph15091083

M3 - Article

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ER -

Brain Targeting of Quetiapine Fumarate via Intranasal Delivery of Loaded Lipospheres: Fabrication, In-Vitro Evaluation, Optimization, and In-Vivo Assessment

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Keywords

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