Application of Chitosan and Its Derivative Polymers in Clinical Medicine and Agriculture

Zhang, Meng; Zhang, Fengshi; Li, Ci; An, Heng; Wan, Teng; Zhang, Peixun

doi:10.3390/polym14050958

Cited by 66 publications

(33 citation statements)

References 100 publications

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“…Because of their high chemical resistance, flexibility, and low density [2], polymers are popular in many fields, including biomedicine, industry, and agriculture. However, some polymers have drawbacks, such as poor adhesion, wettability [3], and low surface free energy, all of which are caused by low surface polar groups, making them unsuitable for some applications. As a result, we need to adjust the surface qualities using a variety of methods, including "wet chemical processing-plasma processing, ion enforcement, flame spraying, and radiation."…”

Section: Introductionmentioning

confidence: 99%

Microwave plasma discharge-assisted surface modification of PVA films: coatings and food packaging

2022

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In this study, polyvinyl alcohol (PVA) film was treated with low-cost microwave oven oxygen plasma. A number of several types of microscopies, including scanning electron microscopy, atomic force microscopy, X-ray photoelectron spectroscopy (XPS), contact angle and work of adhesion, were utilized in order to investigate the impact that the plasma had on the PVA film. After plasma treatment, it was discovered that the contact angle had decreased from 39° ± 0.4 to 20.8° ± 0.2, which suggests that the surface property had changed to a hydrophilic state due to increased hydroxyl groups (C=O, O=C–O) according to our finding from the results of XPS. The increase in surface roughness was observed. Recent research suggests that the properties of PVA can be modified by adjusting the degree of oxidation, which could lead to new improvements in applications based on PVA. This could pave the way for food packaging, air-conditioner panels, and coating applications.

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Section: Introductionmentioning

confidence: 99%

Microwave plasma discharge-assisted surface modification of PVA films: coatings and food packaging

2022

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“…Chitosan (Cht), the biopolymer that is derived from chitin deacetylation, is reported to possess numerous bioactivities and potentialities for applications as a human-friendly compound [ 14 ]. Cht has numerous extraordinary attributes, e.g., its cost-effectiveness, biocompatibility, biosafety, biodegradability and molecules-carrying activities, which enabled its applications in environmental, biomedical, therapeutic, and nutritional aspects [ 14 , 15 ]. The Cht antimicrobial potentialities were demonstrated toward diverse microbial genera/species from bacteria, yeast or fungi [ 15 ].…”

Section: Introductionmentioning

confidence: 99%

Innovative Approach for Controlling Black Rot of Persimmon Fruits by Means of Nanobiotechnology from Nanochitosan and Rosmarinic Acid-Mediated Selenium Nanoparticles

et al. 2022

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The protection of persimmon fruits (Diospyros kaki L.) from postharvest fungal infestation with Alternaria alternata (A. alternate; black rot) is a major agricultural and economic demand worldwide. Edible coatings (ECs) based on biopolymers and phytocompounds were proposed to maintain fruit quality, especially with nanomaterials’ applications. Chitosan nanoparticles (NCt), rosmarinic acid bio-mediated selenium nanoparticles (RA/SeNPs) and their composites were produced, characterized and evaluated as ECs for managing persimmon black rot. The constructed NCt, RA/SeNPs and NCt/RA/SeNPs composite had diminished particles’ size diameters. The ECs solution of 1% NCt and NCt/RA/SeNPs composite led to a significant reduction of A. alternata radial growth in vitro, with 77.4 and 97.2%, respectively. The most powerful ECs formula contained 10 mg/mL from NCt/RA/SeNPs composite, which significantly reduced fungal growth than imazalil fungicide. The coating of persimmon with nanoparticles-based ECs resulted in a significant reduction of black rot disease severity and incidence in artificially infected fruits; the treatment with 1% of NCt/RA/SeNPs could completely (100%) hinder disease incidence and severity in coated fruits, whereas imazalil reduced them by 88.6 and 73.4%, respectively. The firmness of fruits is greatly augmented after ECs treatments, particularly with formulated coatings with 1% NCt/RA/SeNPs composite, which maintain fruits firmness by 85.7%. The produced ECs in the current study, based on NCt/RA/SeNPs composite, are greatly recommended as innovatively constructed human-friendly matrix to suppress the postharvest destructive fungi (A. alternata) and maintain the shelf-life and quality of persimmon fruits.

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“…Chitosans are de-acetylated biopolymers that are derived principally from chitin and possess numerous bioactivities and applications as human-friendly molecules [1]. Chitosans are extraordinary agents for employment in nutrition, pharmaceutics, biomedicine, therapeutic, antimicrobial, anticancer, food preservation and drug-carrying branches [1][2][3][4]. The entire bioactivities of chitosan are influentially augmented via its transformation to "nano" forms due to the significant increment of particles' surfaces and reactivity [5,6].…”

Section: Introductionmentioning

confidence: 99%

“…The entire bioactivities of chitosan are influentially augmented via its transformation to "nano" forms due to the significant increment of particles' surfaces and reactivity [5,6]. The diverse chitosan bases include crustacean waste (the accustomed source), fungi biomass or insect skeletons [3,7,8]. Honeybee (Apis mellifera L.) is an insect that could provide humans with numerous valuable products.…”

Section: Introductionmentioning

confidence: 99%

Application of Nanocomposites from Bees Products and Nano-Selenium in Edible Coating for Catfish Fillets Biopreservation

et al. 2022

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Bee products, e.g., chitosan and propolis (Pro), have extraordinary importance in many disciplines including food biopreservation. Fish meat is highly susceptible to vast spoilage, especially catfish (Clarias gariepinus) products. The current work involved the extraction of bees’ chitosan nanoparticles (BCht), Pro, Pro-mediated SeNPs and their composites, to evaluate them as potential antimicrobial and preservative nano-compounds, for the preservation of catfish fillets and augment their quality. BCht was extracted from bees (Apis mellifera) corpses and had a 151.9 nm mean particle diameter. The Pro was used for biosynthesis of SeNPs, which had 11.2 nm mean diameters. The entire compounds/composites exhibited powerful antibacterial acts against Escherichia coli, Staphylococcus aureus and Salmonella typhimurium, where S aureus had the uppermost resistance. BCht/Pro/SeNPs were the most forceful toward all bacterial strains. The constructed edible coatings (ECs) from produced compounds/composites (BCht, Pro, Pro/SeNPs, Pro/BCht and BCht/Pro/SeNPs) had elevated efficiency for preserving catfish fillets during cold storages for 7 days. The microbiological (total counts, psychrophilic bacteria, yeast and molds), spoilage chemical parameters (TVB-N, TBARS) and sensorial attributes (appearance, odor, color, overall quality) of ECs-treated fillets indicated the nanocomposite's efficiency for protecting the fish from microbial growth, the progress of chemical spoilage indicators and maintaining the sensorial quality of treated stored fillets. The most effective nanocomposite for maintaining the entire fillet’s quality was the BCht/Pro/SeNP. The based ECs on BNCt, Pro/SeNPs and their nanocomposites could be endorsed for prospective employment in the biopreservation of various seafoods.

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Application of Chitosan and Its Derivative Polymers in Clinical Medicine and Agriculture

Cited by 66 publications

References 100 publications

Microwave plasma discharge-assisted surface modification of PVA films: coatings and food packaging

Microwave plasma discharge-assisted surface modification of PVA films: coatings and food packaging

Innovative Approach for Controlling Black Rot of Persimmon Fruits by Means of Nanobiotechnology from Nanochitosan and Rosmarinic Acid-Mediated Selenium Nanoparticles

Application of Nanocomposites from Bees Products and Nano-Selenium in Edible Coating for Catfish Fillets Biopreservation

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