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. 2024 Mar;32(3):101984.
doi: 10.1016/j.jsps.2024.101984. Epub 2024 Feb 10.

Optimized Ribociclib nanostructured lipid carrier for the amelioration of skin cancer: Inferences from ex-vivo skin permeation and dermatokinetic studies

Mohammed F Aldawsari  1 Mohammad Azhar Kamal  1 Mohamed F Balaha  2   3 Talha Jawaid  4 Mohammed Jafar  5 Sana Hashmi  6 Majid Ahmad Ganaie  7 Aftab Alam  8
Affiliations

Optimized Ribociclib nanostructured lipid carrier for the amelioration of skin cancer: Inferences from ex-vivo skin permeation and dermatokinetic studies

Mohammed F Aldawsari et al. Saudi Pharm J. 2024 Mar.

Abstract

Current research focuses on explicitly developing and evaluating nanostructured lipidic carriers (NLCs) for the chemotherapeutic drug Ribociclib (RCB) via the topical route to surmount the inherent bioavailability shortcomings. The absolute oral bioavailability has not been determined, but using a physiologically based pharmacokinetic model it was predicted that 65.8 % of the standard dose of RCB (600 mg) would be absorbed mainly in the small intestine. RCB-NLCs were produced using the solvent evaporation method, and Box-Behnken Design (BBD) was employed to optimize composition. The prepared NLCs had an average PS of 79.29 ± 3.53 nm, PDI of 0.242 ± 0.021, and a %EE of 86.07 ± 3.14. The TEM analysis disclosed the spherical form and non-aggregative nature of the NLCs. The outcomes of an in-vitro release investigation presented cumulative drug release of 84.97 ± 3.37 % in 24 h, significantly higher than that from the RCB suspension (RCB-SUS). Ex-vivo skin permeation investigations on rodent (Swiss albino mice) revealed that RCB-NLCs have 1.91 times increases in skin permeability comparable to RCB-SUS. Compared to RCB-SUS, RCB-NLCs were able to penetrate deeper into the epidermis membrane than RCB-SUS as per the findings of confocal microscopy. In dermatokinetic study, higher amount of RCB was maintained in both the layers of mice's skin when treated with RCB-NLCs gel comparable to the RCB-SUS gel preparation. The in-vitro, ex-vivo, CLSM, and dermatokinetics data demonstrated a significant possibility for this novel RCB formulation to be effective against skin cancer.

Keywords: BoxBehnken Design; CLSM; Dermatokinetics; Nanostructured Lipidic Carriers; Ribociclib; Skin cancer.

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Conflict of interest statement

The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

Figures

Fig. 1
Fig. 1
Solubility of RCB in different solid-lipids.
Fig. 2
Fig. 2
Solubility of RCB in different liquid-lipids.
Fig. 3
Fig. 3
Representation of (A) 3D surface plot, (B) Predicted level vs Actual level, (C) perturbation graph t, (D) residual level vs. run graph on the effect of independent levels on particle size.
Fig. 4
Fig. 4
Representation of (A) 3D surface plot, (B) Predicted level vs Actual level, (C) perturbation graph, (D) residual level vs. run graph on the impact of independent levels on EE.
Fig. 5
Fig. 5
Average particle size of the RCB-NLCs using zetasizer.
Fig. 6
Fig. 6
(A) Zeta Potential, (B) TEM of optimized RCB-NLCs preparation.
Fig. 7
Fig. 7
In-vitroRCB release from RCB-NLCs and RCB-SUS at pH 5.5 and 6.8.
Fig. 8
Fig. 8
Texture analyzer image of RCB-NLCs gel.
Fig. 9
Fig. 9
Ex vivo graphs show cumulative amount of RCB permeated through skin using RCB-NLCs Gel and RCB-SUS Gel.
Fig. 10
Fig. 10
Confocal laser microscopy of (A) Rhodamine-B-solution with RCB-SUS Gel and (B) Rhodamine-B-loaded RCB-NLCs Gel.
Fig. 11
Fig. 11
The variation of RCB concentration on (A) Epidermis and (B) Dermis.
See this image and copyright information in PMC

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