FORMULATION AND EVALUATION OF DASATINIB LOADED SOLID LIPID NANOPARTICLES
By: Yasmin Begum, M.
Contributor(s): Gudipati, Prathyusha Reddy.
Publisher: M P Innovare Academic Sciences Pvt Ltd 2018Edition: Vol.10(12).Description: 14-20p.Subject(s): PHARMACEUTICSOnline resources: Click here In: International journal of pharmacy and pharmaceutical scienceSummary: Objective: Method s: SLNs consist of a solid lipid matrix where the drug was incorporated . Surfactants of GRAS grade were used t o avoid aggregation and to stabilize the SLNs. DST -SLN s formulations of varying con centrations were prepared by high -speed homogenization technique and evaluated for drug excipients compatibility study, poly -dispersity index, particle size analysis, surface morphology, zeta potential , and drug release features. The aim of present work wa s to formulate and evaluate Dasatinib (DST) loaded solid lipid nanoparticles (SLNs) as a potential antic ancer drug delivery system by enhancing its solubility. Result s: It was observed that DST -SLNs with optimum quantities o f poloxome r: lecithin ratio showed 88.06% drug release in 6h with good entrapment efficiency of 76.9±0.84 % . Particle size, Polydispersity index, zeta potential and drug entrapment efficiency for the optimized formula tion was found to be optimum . Stability studies revealed that the entrapment efficiency of the SLN dispersion stored in 4 °C was stable. Conclusio n : Thus, it can be concluded that the formulations of DST loaded SLNs are suitable carriers for improving the solubility and dissolution related problems.Item type | Current location | Call number | Status | Date due | Barcode | Item holds |
---|---|---|---|---|---|---|
Articles Abstract Database | School of Pharmacy Archieval Section | Not for loan | 2020950 |
Objective:
Method
s:
SLNs consist of a solid lipid matrix
where the drug
was
incorporated
. Surfactants of GRAS grade were used t
o avoid aggregation and to
stabilize the SLNs.
DST
-SLN
s formulations of varying con
centrations were prepared by high
-speed
homogenization technique and evaluated for
drug excipients compatibility study, poly
-dispersity index, particle size analysis, surface
morphology, zeta potential
, and
drug release features.
The aim of present work wa
s to formulate and
evaluate
Dasatinib
(DST)
loaded solid lipid nanoparticles
(SLNs)
as a potential antic
ancer
drug delivery system
by enhancing its solubility.
Result
s:
It was observed that
DST
-SLNs with optimum
quantities o
f poloxome
r: lecithin ratio showed 88.06% drug release
in 6h
with good
entrapment efficiency of 76.9±0.84 %
. Particle size, Polydispersity
index, zeta potential and drug entrapment efficiency for the optimized
formula
tion was found to be
optimum
. Stability studies
revealed that the entrapment efficiency of the SLN dispersion stored in 4
°C was stable.
Conclusio
n
:
Thus, it can be concluded that
the
formulations
of
DST loaded SLNs
are suitable carriers for improving the
solubility and dissolution
related problems.
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