Design of High-Payload Ascorbyl Palmitate Nanosuspensions for Enhanced Skin Delivery

Park, Jun-Soo; Choi, Jun-Hyuk; Joung, Min-Yeong; Yang, In-Gyu; Choi, Yong-Seok; Kang, Myung-Joo; Ho, Myoung-Jin

doi:10.3390/pharmaceutics16020171

Pharmaceutics

2024

DOI: 10.3390/pharmaceutics16020171

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Design of High-Payload Ascorbyl Palmitate Nanosuspensions for Enhanced Skin Delivery

Jun-Soo Park,

Jun-Hyuk Choi,

Min-Yeong Joung

et al.

Abstract: A high-payload ascorbyl palmitate (AP) nanosuspension (NS) was designed to improve skin delivery following topical application. The AP-loaded NS systems were prepared using the bead-milling technique, and softly thickened into NS-loaded gel (NS-G) using hydrophilic polymers. The optimized NS-G system consisted of up to 75 mg/mL of AP, 0.5% w/v of polyoxyl-40 hydrogenated castor oil (Kolliphor® RH40) as the suspending agent, and 1.0% w/v of sodium carboxymethyl cellulose (Na.CMC 700 K) as the thickening agent, … Show more

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Cited by 2 publications

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In vitro assessment of skin permeation properties of enzymatically derived oil‐based fatty acid esters of vitamin C

Ćorović,

Veljković,

Milivojević

et al. 2024

Archiv der Pharmazie

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Current topical formulations containing vitamin C face limitations in therapeutic effectiveness due to the skin's selective properties that impede drug deposition. Consequently, the widespread use of toxic and irritating chemical permeation enhancers is common. Hereby, we investigated enzymatically derived fatty acid ascorbyl esters (FAAEs) obtained using natural oils for their skin permeation properties using the Strat‐M® skin model in a Franz cell diffusion study. By evaluating various cosmetic formulations without added enhancers, we found that emulgel is most suitable for enhancing the cutaneous and transdermal delivery of FAAEs. Furthermore, medium‐chain coconut oil‐derived FAAEs exhibited faster diffusion rates compared to sunflower oil‐based FAAEs with long‐side acyl residues, including the commonly applied ascorbyl palmitate. Experimental data were successfully fitted using the Peppas and Sahlin model, which accounted for a lag phase and the combined effect of Fickian diffusion and polymer relaxation. In the case of long‐chain esters, the lag phase was prolonged, and the calculated effective diffusion coefficients (Deff) were lower compared to medium‐chain FAAEs. Accordingly, the highest Deff value was observed for ascorbyl caprylate, being even 60 times higher than for ascorbyl palmitate. These results suggest the emerging potential of emulgel with incorporated coconut oil‐derived FAAEs for efficiently delivering vitamin C into the skin.

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In vitro assessment of skin permeation properties of enzymatically derived oil‐based fatty acid esters of vitamin C

Ćorović,

Veljković,

Milivojević

et al. 2024

Archiv der Pharmazie

View full text Add to dashboard Cite

show abstract

Key Challenges, Influencing Factors, and Future Perspectives of Nanosuspensions in Enhancing Brain Drug Delivery

Wang,

Yang,

Xue

et al. 2024

CPD

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Many brain diseases pose serious challenges to human life. Alzheimer's Disease (AD) and Parkinson's Disease (PD) are common neurodegenerative diseases that seriously threaten human health. Glioma is a common malignant tumor. However, drugs cannot cross physiological and pathological barriers and most therapeutic drugs cannot enter the brain because of the presence of the Blood-brain Barrier (BBB) and Blood- -brain Tumor Barrier (BBTB). How to enable drugs to penetrate the BBB to enter the brain, reduce systemic toxicity, and penetrate BBTB to exert therapeutic effects has become a challenge. Nanosuspension can successfully formulate drugs that are difficult to dissolve in water and oil by using surfactants as stabilizers, which is suitable for the brain target delivery of class II and IV drugs in the Biopharmaceutical Classification System (BCS). In nanosuspension drug delivery systems, the physical properties of nanostructures have a great impact on the accumulation of drugs at the target site, such as the brain. Optimizing the physical parameters of the nanosuspension can improve the efficiency of brain drug delivery and disease treatment. Therefore, the key challenges, influencing factors, and future perspectives of nanosuspension in enhancing brain drug delivery are summarized and reviewed here. This article aims to provide a better understanding of nanosuspension formulation technology used for brain delivery and strategies used to overcome various physiological barriers.

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Design of High-Payload Ascorbyl Palmitate Nanosuspensions for Enhanced Skin Delivery

Cited by 2 publications

References 62 publications

In vitro assessment of skin permeation properties of enzymatically derived oil‐based fatty acid esters of vitamin C

In vitro assessment of skin permeation properties of enzymatically derived oil‐based fatty acid esters of vitamin C

Key Challenges, Influencing Factors, and Future Perspectives of Nanosuspensions in Enhancing Brain Drug Delivery

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