Author
Zhiwen Zhang
Bio: Zhiwen Zhang is an academic researcher from Ludong University. The author has contributed to research in topics: Metal ions in aqueous solution & Antimicrobial. The author has an hindex of 1, co-authored 2 publications receiving 12 citations.
Papers
More filters
TL;DR: In this paper, a review of the basic types of antimicrobial peptides (including poly(amino acid)s, short AMPs, and lipopeptides) and factors to optimize antimicrobial effects is presented.
76 citations
TL;DR: In this paper, a new peptide Fmoc-FFWDD-OH was designed and synthesized, which could form a stable hydrogel induced by rare earth metal ions, including Tb3+, Eu3+, and La3+.
Abstract: Metal ion-induced peptide assembly is an interesting field. As compared to traditional antibacterial Ag+, rare earth metal ions possess the advantage of antibacterial performance with photostability and low toxicity. Herein, a new peptide Fmoc-FFWDD-OH was designed and synthesized, which could form a stable hydrogel induced by rare earth metal ions, including Tb3+, Eu3+, and La3+. The mechanical properties were characterized by rheological measurements, and they exhibited elasticity-dominating properties. Transmission electron microscopy (TEM) images showed a large number of nanoscale fiber structures formed in the hydrogel. Circular dichroism (CD) spectra, Fourier transform infrared (FT-IR) spectra, ThT assays, and X-ray diffraction (XRD) pattern illustrated the formation mechanism of the fiber structure. The rare earth ion-induced peptide hydrogel was proved to possess good antibacterial performance on Escherichia coli (E. coli) with excellent biocompatibility. The introduction of rare earth metal ions may have some potential applications in the biological antibacterial and medical fields.
19 citations
Cited by
More filters
TL;DR: In this paper, the progress in the field of bioadhesive hydrogels is summarized and outlooked, with the aim of providing a valuable reference for the progress of the field.
57 citations
TL;DR: Protein-polymer hydrogels have gained significant progress in various fields, such as tissue engineering, drug delivery and encapsulation, wearable sensors, adsorption, and other applications as discussed by the authors.
31 citations
TL;DR: Protein-polymer hydrogels have gained significant progress in various fields, such as tissue engineering, drug delivery and encapsulation, wearable sensors, adsorption, and other applications as mentioned in this paper .
31 citations
TL;DR: The potential of emerging microfluidic technologies providing new insights into density, shape, and size of live cells, starting from heterogeneous or 3D cultured samples is discussed in this article.
Abstract: Antibiotic resistance is creating enormous attention on the development of new antibiotic-free therapy strategies for bacterial diseases. Mesenchymal stromal stem cells (MSCs) are the most promising candidates in current clinical trials and included in several cell-therapy protocols. Together with the well-known immunomodulatory and regenerative potential of the MSC secretome, these cells have shown direct and indirect anti-bacterial effects. However, the low reproducibility and standardization of MSCs from different sources are the current limitations prior to the purification of cell-free secreted antimicrobial peptides and exosomes. In order to improve MSC characterization, novel label-free functional tests, evaluating the biophysical properties of the cells, will be advantageous for their cell profiling, population sorting, and quality control. We discuss the potential of emerging microfluidic technologies providing new insights into density, shape, and size of live cells, starting from heterogeneous or 3D cultured samples. The prospective application of these technologies to studying MSC populations may contribute to developing new biopharmaceutical strategies with a view to naturally overcoming bacterial defense mechanisms.
24 citations
TL;DR: The review summarizes and discusses the progress on multifunctional wound dressings with anti-inflammatory, antioxidant, antibacterial, pro-angiogenic and tissue adhesive functions in detail, and the various responsive mechanisms of the smart multifunctionsal wound dressing are analyzed in detail.
Abstract: As the prevalence of diabetes increases year by year and the aging population continues to intensify in the world, chronic wounds such as diabetic foot ulcers and pressure ulcers have become serious problems that threaten people's health, and have brought an enormous burden to the world healthcare system. Conventional clinical treatment of chronic wounds relies on non-specific topical care (including debridement, infection/inflammation control, and frequent wound dressing changes), which can alleviate disease progression and reduce patient suffering to a certain extent, but the overall cure rate is less than 50% and the recurrence rate is high. Traditional wound dressings such as gauze, hydrocolloids, films and foams are single-function, acting as a physical barrier or absorbing exudates, and cannot meet all the needs of the entire chronic wound healing process. Recently, a large number of novel functional dressings have been reported for chronic wound repair. Based on the progress on wound dressings in recent years and the relevant research experience of our group, the review summarizes and discusses the progress on multifunctional wound dressings (such as microneedles, sponges and hydrogels) with anti-inflammatory, antioxidant, antibacterial, pro-angiogenic and tissue adhesive functions in detail. At the same time, the various responsive mechanisms (in vivo microenvironment or in vitro stimulation) of the smart multifunctional wound dressing are also analyzed in detail. It is expected that the review could provide some inspiration and suggestions for research on dressings for chronic wound treatment.
20 citations