Fabrication and In Vitro/Vivo Evaluation of Drug Nanocrystals Self-Stabilized Pickering Emulsion for Oral Delivery of Quercetin

Wang, Zhe; Dai, Bo; Tang, Xiao‐Han; Che, Zhi-Hui; Hu, Fei; Shen, Chengying; Wu, Wei; Shen, Biao; Yuan, Hailong

doi:10.3390/pharmaceutics14050897

Cited by 10 publications

(7 citation statements)

References 55 publications

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“…As shown in Figure 4 A, the XRD spectra at 10–30° showed a series of sharp peaks, indicating the crystalline nature of quercetin. The typic peaks of the native quercetin are mainly at 2

of 6.3–7.3°, 10.8°, 12.5°, 13.6–14.3°, 15.7–18.0°, 24.4°, and 27.3°, which represented the crystalline part of quercetin [ 25 ]. Compared with the native quercetin, the quercetin particles obtained by antisolvent precipitation have the same diffraction peaks of 12.5°, 13.6–14.3°, 24.4°, and 27.3°, but have almost no diffraction peaks of 6.3–7.3°, 10.9°, and 15.7–18.0°.…”

Section: Resultsmentioning

confidence: 99%

“…Zhang et al found that puerarin nanocrystals obtained using high pressure homogenization can stabilize oil-in-water Pickering emulsions [ 24 ]. Wang et al reported that quercetin nanocrystals obtained by high pressure homogenization could be used for the stabilization of oil-in-water Pickering emulsions [ 25 ]. Silybin nanocrystals with 340 nm were also fabricated using high-pressure homogenization methods under >80 MPa [ 26 ].…”

Section: Introductionmentioning

confidence: 99%

“…The inherent crystalline nature of flavonoids makes them excellent candidates for stabilizing Pickering emulsions (particle-stabilized emulsions) if they have proper surface wettability. Although some recent studies have successively found that flavonoids can stabilize Pickering emulsions, most of these flavonoids are used in their native state or are high-pressure processed [ 17 , 18 , 25 ]. The effect of antisolvent precipitation on the performance of flavonoids (e.g., quercetin) in Pickering emulsion stabilization have been less frequently studied.…”

Section: Introductionmentioning

confidence: 99%

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Preparation and Characterization of a Novel Natural Quercetin Self-Stabilizing Pickering Emulsion

Wei

et al. 2023

Foods

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In contrast to their well-known physiological properties, phytochemicals, such as flavonoids, have been less frequently examined for their physiochemical properties (e.g., surface activity). A natural quercetin self-stabilizing Pickering emulsion was fabricated and characterized in the present study. The antisolvent precipitation method was used to modify quercetin (in dihydrate form), and the obtained particles were characterized by light microscope, atom force microscope, XRD, and contact angle. The antisolvent treatment was found to reduce the particle size, crystallinity, and surface hydrophobicity of quercetin. We then examined the effects of the antisolvent ratio, particle concentration, and oil fraction on the properties of the quercetin particle-stabilized emulsions. In addition, increasing the antisolvent ratio (1:1~1:10) effectively improved the emulsification performance of the quercetin particles. The emulsion showed good storage stability, and the particle size of the emulsion decreased with the rising particle concentration and increased with the rising oil phase ratio. The findings indicate that natural quercetin treated with antisolvent method has a good ability to stabilize Pickering emulsion, and this emulsion may have good prospective application potential for the development of novel and functional emulsion foods.

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“…As shown in Figure 4 A, the XRD spectra at 10–30° showed a series of sharp peaks, indicating the crystalline nature of quercetin. The typic peaks of the native quercetin are mainly at 2

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Preparation and Characterization of a Novel Natural Quercetin Self-Stabilizing Pickering Emulsion

Wei

et al. 2023

Foods

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“…In another study, anti-solvent crystallisation method was used to develop quercetin nanocrystals by Li et al The prepared nanocrystals showed 24.6 ± 1.9 mV zeta potential, and enhanced bioavailability of quercetin [53]. Wang et al formulated quercetin nanocrystals using HPH method, and the developed quercetin nanocrystals showed 20.15% drug release, enhanced stability and therapeutic effect of quercetin [54].…”

Section: Quercetin Nanocrystalmentioning

confidence: 99%

“…A study was conducted on rats by Wang et al with a 50 mg kg −1 dose of quercetin encapsulated nanocrystal formulation. The result reported a higher plasma concentration of quercetin and enhanced bioavailability as compared to quercetin coarse powder suspension [54]. Ly et al evaluated the anti-cancer potential of quercetin-NPs by performing trials on female BALB/c nude mice.…”

Section: Pre-clinical Studies Conducted On Quercetin Nanoformulationsmentioning

confidence: 99%

Quercetin nanoformulations: recent advancements and therapeutic applications

Kaur,

Goyal,

Rai

et al. 2023

Adv. Nat. Sci: Nanosci. Nanotechnol.

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Quercetin is a natural bioflavonoid and is an inevitable part of a person’s daily diet. It exhibits anti-inflammatory, anti-oxidant, anti-cancer, anti-microbial effects and is used for the treatment of several diseases like cancer, cardiovascular ailments, and microbial infections. The major limitations of quercetin are low water solubility, less chemical stability, low bioavailability, and short biological half-life. All these major drawbacks can be overcome by its encapsulation in various nanocarriers (nanoparticles, nanoliposomes, nanocrystals, nanomicelles, etc). Such quercetin encapsulated nanoformulations displayed enhanced solubility, stability, bioavailability, high encapsulation efficiency, controlled drug release and extended systemic circulation time period. Quercetin loaded nanocarriers can easily pass across different barriers like blood brain barrier (BBB), skin barriers, mucosal membrane, hence providing target site specific delivery. They also exhibited improved therapeutic effects such as enhanced anti-cancer, anti-diabetic, anti-microbial, anti-inflammatory, anti-psoriasis, anti-oxidant, anti-asthmatic, anti-acne, skin-whitening, hepatoprotective, photoprotective, neuroprotective, nephroprotective and cardioprotective actions. Major health issues associated with nanoformulations are risk of cytotoxicity, oxidative stress, DNA damage, and mutations that can be minimised with continual advancements in nanotechniques. The present review discusses quercetin, its historical background, pharmacokinetics, mechanism of action, and therapeutic applications with major emphasis on the quercetin nanoformulations such as nanoparticles, nanoemulsions, nanoliposomes, nanocrystals, nanosuspensions and nanomicelles that enhances its physicochemical stability, solubility, and therapeutic applications. Also this review includes different quercetin nanoformulations developed for colon cancer and colorectal cancer treatment, brief description of pre-clinical & clinical studies, toxicological concerns, challenges & opportunities, future aspects, patents and marketed quercetin products.

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Simple preparation and greatly improved oral bioavailability: The supersaturated drug delivery system of quercetin based on PVP K30

Li,

et al. 2024

Drug Deliv. and Transl. Res.

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Fabrication and In Vitro/Vivo Evaluation of Drug Nanocrystals Self-Stabilized Pickering Emulsion for Oral Delivery of Quercetin

Cited by 10 publications

References 55 publications

Preparation and Characterization of a Novel Natural Quercetin Self-Stabilizing Pickering Emulsion

Preparation and Characterization of a Novel Natural Quercetin Self-Stabilizing Pickering Emulsion

Quercetin nanoformulations: recent advancements and therapeutic applications

Simple preparation and greatly improved oral bioavailability: The supersaturated drug delivery system of quercetin based on PVP K30

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