5 results on '"Ji, Yanjing"'
Search Results
2. Fabrication of astaxanthin-loaded electrospun nanofiber-based mucoadhesive patches with water‐insoluble backing for the treatment of oral premalignant lesions.
- Author
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Zhang, Hui, Ji, Yanjing, Yuan, Changqing, Sun, Pei, Xu, Quanchen, Lin, Dongliang, Han, Zeyu, Xu, Xinkai, Zhou, Qihui, and Deng, Jing
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PRECANCEROUS conditions , *POLYCAPROLACTONE , *ORAL diseases , *TISSUE adhesions , *ASTAXANTHIN , *STEROID drugs , *ORAL mucosa - Abstract
[Display omitted] • Astaxanthin-loaded Janus nanofiber patches were prepared via electrospinning. • The saliva-insoluble PCL backing prevented drug loss in the oral cavity. • The patches showed a suitable astaxanthin release rate and permeated into buccal mucosa. • The patches greatly promoted the recovery of oral premalignant lesions. • The patches showed great potential for managing oral premalignant lesions. Oral premalignant lesions (OPL) are one of the most common oral diseases, affecting the quality of life and even leading to oral cancer. Current treatments commonly use steroids/retinoids in mouthwashes, films, or ointments. However, conventional drugs/formulations have significant side effects/limitations. Herein, astaxanthin-loaded polycaprolactone (PCL)/gelatin (GT) nanofiber-based mucoadhesive patches (PGA) with the water‐insoluble PCL nanofiber backing (PCL/PGA) are developed via electrospinning for the management of OPL. The saliva-insoluble PCL backing could greatly prevent drug loss after application in the oral cavity. The prepared PCL/PGA patches exhibit a suitable astaxanthin release rate for achieving high local drug concentration, which permeated into buccal mucosa. In addition, the developed thin patches display excellent wet tissue adhesion and great air permeability due to their high porosity. Notably, the in vivo experiment shows that the bioactive mucoadhesive patches significantly promote the recovery of OPL by suppressing the expression of Ki67 and cyclooxygenase-2 (COX-2), comparable to clinical tretinoin cream formulation. Also, the patches did not induce any side effects (i.e., hair loss and oral ulcers) compared to clinical tretinoin cream formulation. The results demonstrate that this novel electrospun mucoadhesive bilayer patch holds great potential for the treatment of OPL. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
3. A "green" all-organic heterostructure functionalized by self-assembled fullerene small molecule with enhanced photocatalytic activity.
- Author
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Liu, Xiaojie, Ji, Yanjing, Du, Yahui, Jing, Xin, Zhao, Yong, Dou, Keke, Yu, Liangmin, Chu, Lei, Zhou, Qihui, and Sun, Mingliang
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PHOTOCATALYSTS , *SMALL molecules , *HETEROJUNCTIONS , *ORGANIC semiconductors , *BUTYRATES , *HAZARDOUS substances , *FULLERENES - Abstract
[Display omitted] • All organic PC 71 BM/g-C 3 N 4 photocatalysts were constructed by in situ self-assembly. • The heterostructures possess satisfactory biocompatibility. • The PC 71 BM served as the electron acceptor and photosensitizer. • · O 2 - acted as the main active species in the degradation process. Photocatalysis has been reported as a potential water purification technology for combating the pathogenic bacteria and degrading the hazardous chemicals. The photoactive organic semiconductors as the emerging class of an alternative to the traditional developed inorganic semiconductors are being widely pursued due to their tunable structures and low toxicity. Herein, the all-organic [6,6] -phenyl C 71 butyric acid methyl ester (PC 71 BM)/g-C 3 N 4 heterostructure have been created by introducing self-assembled n-type fullerene small molecule to the g-C 3 N 4 surface in situ. The absorption edge of the heterostructures with PC 71 BM as the photosensitizer extend from 450 to 650 nm. Moreover, the charge separation and transfer efficiencies of the photocatalysts are greatly promoted even with 1.0% amount of PC 71 BM because of its low reorganization energy and high reduction potential. All of these superiorities endow the heterostructures with over 99.7% antibacterial rates toward E. coli and S. aureus and excellent performance against their biofilms after irradiation for 135 and 180 min, respectively. Additionally, the heterostructures achieve excellent photocatalytic degradation ability for Rhodamine B and tetracycline. Importantly, the in vitro experiments reveal that the as-prepared heterostructures possess satisfactory biocompatibility and their toxicity is negligible. This study provides a new perspective for designing ecofriendly all-organic heterostructures with high photocatalytic activity. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
4. Fucoidan as a marine-origin prebiotic modulates the growth and antibacterial ability of Lactobacillus rhamnosus.
- Author
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Zhu, Yanli, Liu, Lubin, Sun, Zhanyi, Ji, Yanjing, Wang, Danyang, Mei, Li, Shen, Peili, Li, Zhixin, Tang, Shang, Zhang, Hui, Zhou, Qihui, and Deng, Jing
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LACTOBACILLUS rhamnosus , *PATHOGENIC microorganisms , *BACTERIAL diseases , *PROBIOTICS , *AUTOCLAVES , *ABILITY - Abstract
Fucoidan has received much attention in healthy food and biomedicine owing to their unique (bio)physicochemical properties, particularly antibacterial and antiviral. Pathogenic microorganisms and probiotics are coexisting in many tissues (e.g., gut, oral, and vagina). However, the effect of fucoidan on probiotics has not been examined. Herein, fucoidan sterilized by different methods (i.e., 0.22 μm filter and high-temperature autoclave) is applied to explore its effect on the responses of Lactobacillus rhamnosus. It is found that high-temperature autoclave treatment causes the depolymerization of fucoidan. Further, the proliferation, morphology, and metabolism of probiotics are greatly dependent on the concentrations of fucoidan. The formation of probiotic biofilm is reduced with an increased concentration of fucoidan. Moreover, the antibacterial ability of probiotics initially increases and then decreases with an increased concentration of fucoidan. Thus, fucoidan could serve as a new marine-origin prebiotic, offering new insight into probiotic modulation and its application in inhibiting bacterial infections. • Depolymerized fucoidan with appropriate concentration promotes the growth of L. rhamnosus. • Depolymerized fucoidan affects the morphology and metabolism of L. rhamnosus. • Depolymerized fucoidan inhibits the formation of probiotic biofilm. • Depolymerized fucoidan enhances the antibacterial ability of L. rhamnosus. • Depolymerized fucoidan serves as a marine-origin prebiotic. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
5. A biodegradable antibacterial alginate/carboxymethyl chitosan/Kangfuxin sponges for promoting blood coagulation and full-thickness wound healing.
- Author
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He, Yun, Zhao, Wenwen, Dong, Zuoxiang, Ji, Yanjing, Li, Min, Hao, Yuanping, Zhang, Demeng, Yuan, Changqing, Deng, Jing, Zhao, Peng, and Zhou, Qihui
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WOUND healing , *BLOOD coagulation , *ALGINIC acid , *CHITOSAN , *CHINESE medicine - Abstract
Conventional wound-dressing materials with structural and functional deficiencies are not effective in promoting wound healing. The development of multifunctional wound dressings is emerging as a promising strategy to accelerate blood coagulation, inhibit bacterial infection, and trigger full-thickness wound into a regenerative process. Herein, multifunctional composite sponges were developed by incorporation of traditional Chinese medicine Kangfuxin (KFX) into alginate (AG)/carboxymethyl chitosan (CMC) via green crosslinking, electrostatic interaction, and freeze-drying methods. It is demonstrated that the AG/CMC/KFX (ACK) sponges exhibit a highly interconnected and porous structure, suitable water vapor transmittance, excellent elastic properties, antibacterial behavior, cytocompatibility, and rapid hemostasis. Further, in a rat full-thickness wounds model, the ACK sponge containing 10% KFX (ACK-10) significantly facilitates wound closure compared to the AC group and ACK sponge containing 5% and 15% KFX. Thus, the multifunctional ACK-10 composite sponge has great promise for the application of full-thickness wound healing. Unlabelled Image • Multifunctional alginate/carboxymethyl chitosan/kangfuxin sponges (ACK) were successfully fabricated. • ACK possessed a highly porous structure and excellent elastic properties. • ACK accelerated hemostasis and inhibited bacterial infection • ACK triggered the full-thickness wound into a regenerative process. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
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