Etoposide Amorphous Nanopowder for Improved Oral Bioavailability: Formulation Development, Optimization, in vitro and in vivo Evaluation.

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Tytuł:: Etoposide Amorphous Nanopowder for Improved Oral Bioavailability: Formulation Development, Optimization, in vitro and in vivo Evaluation.
Autorzy:: Wang Y; School of Pharmacy, Jilin University, Changchun, People's Republic of China.
Wang S; School of Pharmacy, Jilin University, Changchun, People's Republic of China.
Xu Y; School of Pharmacy, Jilin University, Changchun, People's Republic of China.
Wang P; School of Pharmacy, Jilin University, Changchun, People's Republic of China.
Li S; School of Pharmacy, Jilin University, Changchun, People's Republic of China.
Liu L; School of Pharmacy, Jilin University, Changchun, People's Republic of China.
Liu M; School of Pharmacy, Jilin University, Changchun, People's Republic of China.
Jin X; School of Pharmacy, Jilin University, Changchun, People's Republic of China.
Źródło:: International journal of nanomedicine [Int J Nanomedicine] 2020 Oct 08; Vol. 15, pp. 7601-7613. Date of Electronic Publication: 2020 Oct 08 (Print Publication: 2020).
Typ publikacji:: Journal Article
Język:: English
Imprint Name(s):: Original Publication: Auckland : DOVE Medical Press,
MeSH Terms:: Drug Compounding*
Etoposide/*administration & dosage
Etoposide/*pharmacology
Nanoparticles/*chemistry
Administration, Oral ; Analysis of Variance ; Animals ; Biological Availability ; Calorimetry, Differential Scanning ; Crystallization ; Etoposide/chemistry ; Etoposide/pharmacokinetics ; Freeze Drying ; Male ; Models, Statistical ; Particle Size ; Permeability ; Powders ; Rats, Sprague-Dawley ; Solubility ; Solvents ; Suspensions ; X-Ray Diffraction
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Contributed Indexing:: Keywords: amorphous nanopowder; bioavailability enhancement; etoposide; oral absorption; poor aqueous solubility
Substance Nomenclature:: 0 (Powders)
0 (Solvents)
0 (Suspensions)
6PLQ3CP4P3 (Etoposide)
Entry Date(s):: Date Created: 20201029 Date Completed: 20201120 Latest Revision: 20220417
Update Code:: 20240105
PubMed Central ID:: PMC7549503
DOI:: 10.2147/IJN.S265817
PMID:: 33116490
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Introduction: Etoposide refers to a derivative of podophyllotoxin, which plays an important role in the treatment of cancer due to its prominent anti-tumor effect. As a BCS IV drug, etoposide exhibits insufficient aqueous solubility and permeability, thereby limiting its oral absorption. To enhance the oral bioavailability of etoposide, this study developed an amorphous nanopowder.
Methods: Based on preliminary screening and experimental design, the stabilizer and preparation process of etoposide nanosuspension were explored. Subsequently, using a Box-Behnken design, the effects of independent factors (ultrasonication time, ratio of two phases and stabilizer concentration) on response variables (particle size and polydispersity index) were studied, and then the formulation was optimized. Finally, nanosuspension was further freeze dried with 1% of mannitol resulting in the formation of etoposide amorphous nanopowder.
Results: The optimized etoposide nanopowder showed as spherical particles with an average particle size and polydispersity index of 211.7 ± 10.4 nm and 0.125 ± 0.028. X-ray powder diffraction and differential scanning calorimetry confirmed the ETO in the nanopowder was amorphous. Compared with coarse powder and physical mixture, etoposide nanopowder achieved significantly enhanced saturated solubility and dissolution in various pH environments. The C max and AUC 0-t of etoposide nanopowder after oral administration in rats were respectively 2.21 and 2.13 times higher than the crude etoposide suspension. Additionally, the T max value of nanopowder was 0.25 h, compared with 0.5 h of reference group.
Discussion: In the present study, the optimized amorphous nanopowder could significantly facilitate the dissolution and oral absorption of etoposide and might act as an effective delivery method to enhance its oral bioavailability.
Competing Interests: The authors report no conflicts of interest for this work.
(© 2020 Wang et al.)

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