Dual-Step Controlled Release of Berberine Hydrochloride from the Trans-Scale Hybrids of Nanofibers and Microparticles

Zhou, Jianfeng; Dai, Yelin; Fu, Junhao; Yan, Chen‐Hua; Yu, Deng‐Guang; Yi, Tao

doi:10.3390/biom13061011

Cited by 33 publications

(22 citation statements)

References 100 publications

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“…Processability plays a pivotal role in the commercialisation of MOPs, enabling the expansion of their potential applications and enhancing their overall performance. 81,82 Therefore, we tested the potential processability of Ag 2 O@UMOPs. As shown in Fig.…”

Section: Resultsmentioning

confidence: 99%

Silver oxide decorated urchin-like microporous organic polymer composites as versatile antibacterial organic coating materials

Zhang,

Tang,

Liao

et al. 2024

J. Mater. Chem. B

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Section: Resultsmentioning

confidence: 99%

Silver oxide decorated urchin-like microporous organic polymer composites as versatile antibacterial organic coating materials

Zhang,

Tang,

Liao

et al. 2024

J. Mater. Chem. B

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“…In further study, lower cost for AP‐based encapsulation systems is worth considering in industry production. Furthermore, new kinds of pharmaceutical excipients are always highly desired (Weiss et al., 2006; Zhou, Wang, et al., 2023). The foodborne components are important sources as demonstrated here.…”

Section: Resultsmentioning

confidence: 99%

Apricot polysaccharides as new carriers to make curcumin nanoparticles and improve its stability and antibacterial activity

Zhou,

Huang,

et al. 2024

Journal of Food Science

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Apricot polysaccharides (APs) as new types of natural carriers for encapsulating and delivering active pharmaceutical ingredients can achieve high‐value utilization of apricot pulp and improve the solubility, the stability, and the antibacterial activity of insoluble compounds simultaneously. In this research, the purified APs reacted with bovine serum albumin (BSA) by the Maillard reaction, and with d‐α‐tocopheryl succinate (TOS) and pheophorbide A (PheoA) by grafting to fabricate two materials for the preparation of curcumin (Cur)‐encapsulated AP–BSA nanoparticles (CABNs) and Cur‐embedded TOS–AP–PheoA micelles (CTAPMs), respectively. The biological activities of two Cur nano‐delivery systems were evaluated. APs consisted of arabinose (22.36%), galactose (7.88%), glucose (34.46%), and galacturonic acid (31.32%) after the optimized extraction. Transmission electron microscopy characterization of CABNs and CTAPMs displayed a discrete and non‐aggregated morphology with a spherical shape. Compared to the unencapsulated Cur, the release rates of CABNs and CTAPMs decreased from 87% to 70% at 3 h and from 92% to 25% at 48 h, respectively. The antioxidant capacities of CABNs and CTAPMs were significantly improved. The CTAPMs exhibited a better antibacterial effect against Escherichia coli than CABNs due to the synergistic photosensitive effect between Cur and PheoA.

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“…Electrospinning of natural and synthetic polymers is a scalable and cost-effective method to obtain flexible nonwoven nanofibers having different functional structures such as core–shell, trilayer core–shell, core–shell with a Janus core, Janus, and monolithic hybrids for different kinds of medical and wound-dressing applications. The electrospinning process allows the large-scale production of functional materials and the creation of therapeutic agent-loaded complex nanostructures for the delivery of active materials representing two directions of electrospinning. , However, a combination of different electrospinning techniques can enrich the existing method for creating more and more functional nanomaterials . In the healing process of large wounds and skin injuries such as burns and abrasions, these membranes are commonly applied .…”

Section: Introductionmentioning

confidence: 99%

“…The nanofibrous structure increases skin growth. If incorporated within the fibers, a drug , or antibacterial NPs can be discharged into the curative wound in a regulated and homogeneous way. , These promising characteristics make electrospun membranes ideal platforms for developing new hybrid materials for rapid wound healing and antimicrobial effects. , …”

Section: Introductionmentioning

confidence: 99%

“…The electrospinning process allows the large-scale production of functional materials and the creation of therapeutic agent-loaded complex nanostructures for the delivery of active materials representing two directions of electrospinning. 10,11 However, a combination of different electrospinning techniques can enrich the existing method for creating more and more functional nanomaterials. 12 In the healing process of large wounds and skin injuries such as burns and abrasions, these membranes are commonly applied.…”

Section: Introductionmentioning

confidence: 99%

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Chitosan-Stabilized CuO Nanostructure-Functionalized UV-Crosslinked PVA/Chitosan Electrospun Membrane as Enhanced Wound Dressing

Khan,

Arafat,

Rashid

et al. 2024

ACS Appl. Bio Mater.

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Electrospun nanofibrous membranes are of great interest for tissue engineering, active material delivery, and wound dressing. These nanofibers possess unique three-dimensional (3D) interconnected porous structures that result in a higher surface-area-to-volume ratio and porosity. This study was carried out to prepare nanofibrous membranes by electrospinning a blend of PVA/chitosan polymeric solution functionalized with different ratios of copper oxide. Chitosan-stabilized CuO nanoparticles (CH-CuO NPs) were biosynthesized successfully utilizing chitosan as the capping and reducing agent. XRD analysis confirmed the monoclinic structure of CH-CuO NPs. In addition, the electrospun nanofibrous membranes were UV-crosslinked for a definite time. The membranes containing CH-CuO NPs were characterized by X-ray diffraction (XRD), scanning electron microscopy (SEM), differential scanning calorimetry (DSC), Fourier transform infrared (FTIR) spectroscopy, ultraviolet−visible (UV−vis) spectrophotometry, and dynamic light scattering (DLS). SEM results showed the nanosize of the fiber diameter in the range of 147−207 nm. The FTIR spectroscopy results indicated the successful incorporation of CH-CuO NPs into the PVA/chitosan nanofibrous membranes. DSC analysis proved the enhanced thermal stability of the nanofibrous membranes due to UV-crosslinking. Swelling and degradation tests were carried out to ensure membrane stability. Greater antimicrobial activity was observed in the nanoparticle-loaded membrane. An in vitro release study of Cu 2+ ions from the membrane was carried out for 24 h. The cytotoxicity of CH-CuO NP-incorporated membranes was investigated to estimate the safe dose of nanoparticles. An in vivo test using the CH-CuO NP-loaded PVA/chitosan membrane was conducted on a mice model, in which wound healing occurred in approximately 12 days. These results confirmed that the biocompatible, nontoxic nanofibrous membranes are ideal for wounddressing applications.

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Dual-Step Controlled Release of Berberine Hydrochloride from the Trans-Scale Hybrids of Nanofibers and Microparticles

Cited by 33 publications

References 100 publications

Silver oxide decorated urchin-like microporous organic polymer composites as versatile antibacterial organic coating materials

Silver oxide decorated urchin-like microporous organic polymer composites as versatile antibacterial organic coating materials

Apricot polysaccharides as new carriers to make curcumin nanoparticles and improve its stability and antibacterial activity

Chitosan-Stabilized CuO Nanostructure-Functionalized UV-Crosslinked PVA/Chitosan Electrospun Membrane as Enhanced Wound Dressing

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