Your search keyword '"Wu, Hang"' showing total 6 results

1. A chitosan-based light-curing hydrogel dressing for accelerated healing of infected wounds.

Author

Wu, Hang, Zhu, Liang, Xie, Lei, Zhou, Taiyu, Yu, Tengbo, and Zhang, Yingze

Published

2024

2. A conductive gelatin methacrylamide hydrogel for synergistic therapy of osteosarcoma and potential bone regeneration.

Author

Liu, Xiuying, Zhang, Yu, Wu, Hang, Tang, Jingwen, Zhou, Jiao, Zhao, Jiulong, and Wang, Shige

Subjects

*BONE regeneration, *POLYPYRROLE, *HYDROGELS, *DOXORUBICIN, *ACRYLAMIDE, *GELATIN, *OSTEOSARCOMA, *PHOTOTHERMAL conversion

Abstract

In this study, a methacrylic gelatin/oxidized dextran/montmorillonite‑strontium/polypyrrole (GOMP) hydrogel was prepared. The GOMP hydrogel had dual network structure which was formed through photoinitiator-initiated double bond polymerization and Schiff base reaction. The network structure led to a sustained release of the antitumor drug, doxorubicin (DOX). Polypyrrole introduced the conductivity and high photothermal conversion capacity to the GOMP hydrogel, which showed a photothermal conversion efficiency of 31.61 % under 808 nm laser radiation. The GOMP hydrogel had good swelling properties in solvents. Further study showed that the GOMP hydrogel had good biocompatibility and excellent biodegradability in vitro and in vivo. The experiments of in vitro tumor therapy and in vivo anti-tumor recurrence indicated that the DOX-loaded GOMP hydrogel had synergistic effects on tumor cell apoptosis based on chemotherapy and photothermal therapy. In addition, montmorillonite‑strontium (MMT-Sr) doped in the hydrogel not only improved the mechanical properties of the hydrogel but also promoted potential bone regeneration. The multifunctional DOX-loaded GOMP hydrogel with bone regeneration, photothermal therapy, and chemotherapy functions has great potential application for treating osteosarcoma. [ABSTRACT FROM AUTHOR]

Published

2023

3. An injectable anti-microbial and adhesive hydrogel for the effective noncompressible visceral hemostasis and wound repair.

Author

Chen, Zheng, Wu, Hang, Wang, Haibin, Zaldivar-Silva, Dionisio, Agüero, Lissette, Liu, Yanfang, Zhang, Zhirui, Yin, Yichen, Qiu, Biwei, Zhao, Jiulong, Lu, Xuhua, and Wang, Shige

Subjects

*HYDROGELS, *SYSTOLIC blood pressure, *HEMOSTASIS, *HYPERTENSION, *TISSUE adhesions, *BORAX

Abstract

An in-situ formed hemostatic hydrogel (GelMA/OD/Borax) was prepared for the emergency wound hemostasis and anti-inflammation applications. Gelatin was chosen as the backbone and modified with methacrylic anhydride (MA) to synthesize GelMA, which showed the admirable UV light activatable polymerizing ability. Aldehyde groups, which cross-linked with the -NH 2 on the tissue surface and afforded the tissue adhesion, were produced by oxidizing the o-hydroxyl groups of dextran. Further, the sodium tetraborate formed dynamic boric acid ester bonds with the oxidized dextran (OD). With this triple-network structure, the as-prepared hydrogel presented excellent hemostatic capacity and surmounted a high blood pressure of 165 mmHg, which is higher than the threshold systolic blood pressure of healthy adults (i.e., 120 mmHg). The mechanical property, morphology, biocompatibility and degradation of the hydrogel were character Borax, the hydrogel successfully blocked the bleeding and accelerated the wound healing. This research provides a new modality for the design of a multifunctional hemostatic hydrogel for effective hemostasis and wound healing. • GelMA/OD/Borax hydrogel is reported for the wound hemostasis and anti-inflammation. • The hemostatic hydrogel can surmount a high blood pressure of 165 mmHg. • The hydrogel is biocompatible, degradable, and has a good antibacterial capacity. • The hydrogel can accelerate the wound healing. [ABSTRACT FROM AUTHOR]

Published

2021

4. Multifunctional carboxymethyl chitosan/oxidized dextran/sodium alginate hydrogels as dressing for hemostasis and closure of infected wounds.

Author

Xie, Mengmeng, Zeng, Yanbo, Wu, Hang, Wang, Shige, and Zhao, Jiulong

Subjects

*CARBOXYMETHYL compounds, *SODIUM alginate, *DEXTRAN, *CHITOSAN, *HEMOSTASIS, *ERYTHROCYTES, *WOUND healing

Abstract

Massive bleeding is a great threat to the life safety of patients, which is a challenging clinical problem. Therefore, it is urgent to develop a kind of multifunctional dressing material with hemostatic ability and antibacterial performance to promote wound healing and repair. To resolve this issue, in this study, a carboxymethyl chitosan (CMCS)/sodium alginate (SA)/oxidized dextran (ODE) (CSO) multifunctional hydrogel was developed. The hydrogel could rapidly gel through Schiff base reaction and amide reaction and firmly adhere to the skin at the wound, to realize the fast hemostasis. Importantly, it was verified that the hydrogel could prevent the Staphylococcus aureus -caused wound infection, owing to the antibacterial effect of CMCS and ODE. In addition, the CSO hydrogel had good water retention capacity and was able to mimic the three-dimensional structure of the natural extracellular matrix, thereby promoting wound repair in mice. In vitro whole-blood clotting assay demonstrated that red blood cells could be adhered to the surface of hydrogel, showing good hemostasis in rat liver injury and tail amputation models. Together with the biocompatible feature, CSO hydrogel holds a great application prospect in hemostasis and wound healing. • Carboxymethyl chitosan/sodium alginate/oxidized dextran hydrogel was prepared. • The hydrogel had excellent adhesion, mechanical properties and biodegradability. • The hydrogel could firmly adhere to the skin at the wound. • The hydrogel reduced the blood loss on rat liver injury and tail bleeding models. [ABSTRACT FROM AUTHOR]

Published

2022

5. Preparation of Bi-based hydrogel for multi-modal tumor therapy.

Author

Luo, Keyi, Wu, Hang, Chen, Yongkang, Li, Jinfeng, Zhou, Lingling, Yang, Fan, Huang, Mingxian, An, Xiao, and Wang, Shige

Subjects

*COMBINED modality therapy, *COMPUTED tomography, *IMAGE intensifiers, *IRON oxide nanoparticles, *TUMOR microenvironment, *GELATION, *COBALT chloride

Abstract

[Display omitted] • Bi3+ induces the gelatinization of ALG and reacts with Na 2 S. • The Bi 2 S 3 NPs enable the CT imaging and the enhancement of tumor RT. • The sensitized RT enhances the hypoxia of TME and activates TPZ. • The Bi 2 S 3 NPs generate the hyperthermia to eradicate the cancer cells. Radiotherapy (RT) is becoming a pervasive therapeutic pattern in clinical cancer therapy. However, the hypoxic microenvironment of tumors has a strong resistance to radiotherapy and could lead to a potential recurrence and metastasis after the treatment. Therefore, the use of synergistic strategies for improving and supplementing the RT efficiency is important. Herein, a novel Bi 2 S 3 /alginate (ALG) hydrogel containing tirapazamine (TPZ) was designed for the effective suppression of tumor recurrence, by introducing Bi3+ into the ALG, Na 2 S and TPZ solution. In this formulation, Bi3+ was used to crosslink with the ALG to form the hydrogel and react with S2− to simultaneously form Bi 2 S 3 nanoparticles in the hydrogel matrix. The resulting Bi 2 S 3 nanoparticles not only exhibit the superb radiosensitization effect to boost the effective eradication of tumors during RT but also manifest an excellent photothermal transforming performance for tumor hyperthermia and computed tomography (CT) imaging capacity for tumor monitoring. Furthermore, the RT caused hypoxia could activate the reductive prodrug TPZ and enhance its therapeutic efficiency. The reported hydrogel system provides an efficient and safe therapeutic strategy for current local tumor therapy. [ABSTRACT FROM AUTHOR]

Published

2021

6. Sodium alginate hydrogel containing platelet-rich plasma for wound healing.

Author

Wang, Ting, Yi, Wanwan, Zhang, Yu, Wu, Hang, Fan, Hengwei, Zhao, Jiulong, and Wang, Shige

Subjects

*WOUND healing, *PLATELET-rich plasma, *VASCULAR endothelial growth factors, *SODIUM alginate, *HYDROGELS, *EPIDERMAL growth factor

Abstract

Recently, the healing of chronic wounds such as extensive burns has become a serious and intractable clinical problem. Avoiding wound infection and retaining an appropriate level of moisture around wounds are significant challenges in wound care. Herein, a dual-network hydrogel composed of sodium alginate (SA) and platelet-rich plasma (PRP) was designed to facilitate the wound healing. The preparation of hydrogel was achieved through a simple one-step thrombin activation process. The morphological characterization results revealed the three-dimensional network structure of the hydrogel. Then, certain levels of epidermal growth factor (EGF) and vascular endothelial growth factor (VEGF) were detected in phosphate buffer solution (PBS) cultured hydrogel, which led to the possibility of cell proliferation and vascular regeneration. When topically applied to the wound skin of rats, the hydrogel presented high wound closure effectiveness. In conclusion, this strategy provides a simple and feasible approach to overcoming the shortcomings of conventional wound dressings. [Display omitted] • A dual-network hydrogel composed of sodium alginate and platelet-rich plasma. • The hydrogel releases epidermal growth and vascular endothelial growth factors. • The hydrogel presents high wound closure and wound healing effectiveness. [ABSTRACT FROM AUTHOR]

Published

2023