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8 results on '"Tian-Cai Sun"'

1. Icy core–shell composite nanofibers with cooling, antibacterial and healing properties for outdoor burns

Author

Tian-Cai Sun, Xiao-Han Bai, Guo-Ting Cheng, Yi-Ning Ding, Zi-Yi Zhou, Bing-Chang Wang, Lei Xu, Seeram Ramakrishna, Jun Zhang, and Yun-Ze Long

Subjects
Biomaterials, Colloid and Surface Chemistry, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials
Abstract

Burns are usually difficult to treat because their susceptibe to bacterial infections. When burns is accompanied by hyperthermia, the heat accumulated on the skin will causes extensive tissue damage. Most dressings focus on the treatment process, while ignoring the first-aid treatment to remove hyperthermia. To make matters worse, when outdoors, it is hard to find clean water to wash and cool the burned area. A dressing which can simultaneously realize first-time cooling and repairing treatment of the burned area can shorten treatment time, and is especially beneficial for outdoor use. In this study, a handheld coaxial electrospinning device is developed for preparing platelet-rich plasma @Polycaprolactone-epsilon polylysine (PRP@PCL/ε-PL) core-shell nanofibers. The nanofibers can be synchronously transformed into ice fibers during the spinning process, and directly deposited on the skin. The whole process is convenient to use outdoor. Via dual cooling mechanisms, first aid can take away the excessive heat in the burn area by nanofibers. These core-shell nanofibers also show its excellent antimicrobial and tissue regeneration-promoting properties. Therefore, it achieves first-time cooling and repair treatment of the burned area at the same time. Moreover, due to direct in-situ deposition of this handheld coaxial electrospinning, better antimicrobial properties, and faster healing performance are achieved. By using this integrated strategy that combines cooling, antibacterial and healing promotion, the burn recovery time is shortened from 21 days to 14 days.

Published
2023

2. A nanofiber hydrogel derived entirely from ocean biomass for wound healing

Author

Tian-Cai Sun, Bing-Yu Yan, Xu-Chao Ning, Zhi-Yue Tang, Chao Hui, Mao-zhi Hu, Seeram Ramakrishna, Yun-Ze Long, and Jun Zhang

Subjects
General Engineering, General Materials Science, Bioengineering, General Chemistry, Atomic and Molecular Physics, and Optics
Abstract

Crustaceans and fish scales in the marine food industry are basically thrown away as waste. This not only wastes resources but also causes environmental pollution. While reducing pollution and waste, biological activity and storage of materials are urgent issues to be solved. In this study, by first preparing dry fibers and then making hydrogels, we prepared a fish scale/sodium alginate/chitosan nanofiber hydrogel (FS-P) by cross-linking the nanofibers

Published
2023

4. Synergistic antibacterial polyacrylonitrile/gelatin nanofibers coated with metal-organic frameworks for accelerating wound repair

Author

Yi-Ning Ding, Yun-Ze Long, Zhi-Kai Cao, Jun Yang, Chun-Li Liu, Jun Zhang, Tian-Cai Sun, Seeram Ramakrishna, and Xiao-Han Bai

Subjects
Male, food.ingredient, Materials science, Secondary growth, Acrylic Resins, Nanofibers, Microbial Sensitivity Tests, Antibacterial effect, Biochemistry, Gelatin, Rats, Sprague-Dawley, chemistry.chemical_compound, food, Coated Materials, Biocompatible, X-Ray Diffraction, Structural Biology, Spectroscopy, Fourier Transform Infrared, Animals, Particle Size, Molecular Biology, Metal-Organic Frameworks, Wound Healing, Doping, Polyacrylonitrile, Drug Synergism, General Medicine, Hydrogen-Ion Concentration, Anti-Bacterial Agents, Disease Models, Animal, Drug Liberation, chemistry, Chemical engineering, Nanofiber, Nanoparticles, Metal-organic framework, Wound healing
Abstract

Bacterial infections prolong the wound healing time and increase the suffering of patients, thus it is important to develop wound dressing that can inhibit bacterial infection. Herein, we use two methods including “doping method” and “secondary growth method” to prepare ZIF-8@gentamicin embedded in and coated on polyacrylonitrile/gelatin (PG) nanofibers, separately. Composite nanofibers prepared by the secondary growth method achieve higher drug loading than that of the doping method, and the release rate can be adjusted by pH. Simultaneously increasing drug loading and regulating its release rate are achieved in the secondary growth method, which cannot be achieved by the doping method. Furthermore, synergistic antibacterial property occurs in the composite nanofibers prepared by the secondary growth method, and gentamicin loaded on ZIF-8 promotes the antibacterial effect, which shows better antibacterial effect than the doping method. As a result, during the wound infection of mouse, composite nanofibers prepared by the secondary growth method exhibit a faster recovery effect than the doping method, which effectively shortened the wound healing time from 21 days to 16 days.

Published
2021

6. Cool and hot chitosan/platelet-derived growth factor nanofibers for outdoors burns

Author

Tian-Cai Sun, Bing-Yu Yan, Xu-Chao Ning, Chao Hui, Lei Xu, Yi-Ning Ding, Xing-Long Yang, Seeram Ramakrishna, Yun-Ze Long, and Jun Zhang

Subjects
Platelet-Derived Growth Factor, Chitosan, Hot Temperature, Structural Biology, Nanofibers, Animals, Water, General Medicine, Burns, Molecular Biology, Biochemistry
Abstract

Burns and scalds are thermal injuries caused by a large amount of heat accumulation in local tissues. The first cooling emergency is a key step. However, it is hard that in outdoors to find clean water to cool the scald tissue sites. Moreover, most dressings are concentrated on the treatment process today, neglecting the emergency treatment of temperature reduction. In this study, we imported refrigeration in the electrospinning process while using dirty water, rainwater and even urine of outdoors, so that the cooled sterile fibers were directly deposited on the burn and scald wounds, and the cooling emergency was achieved through the dual cooling mechanism. Since this fiber which is made up of cheap fish gelatin contains CuS adopting the green method, it can generate heat and effectively kill bacteria under the irradiation of an illumination lamp at the front end of a spinning device. As a result of the direct deposition, there is an excellent fit between the fibrous membrane and the skin, which reduces the air gap to achieve a better and quick cooling and heating effects. On the same Chitosan/Platelet-derived Growth Factor fiber membrane, this method of cooling first and heating second can shorten the recovery time from 30 days to 21 days. Thus, this treatment strategy has a great potential application prospect in the field of outdoor burn treatment.

Published
2022

8. Effects of Tianmagouteng particles on brain cognitive function in spontaneously hypertensive rats with hyperactivity of liver-yang: A [F-18] FDG micro-PET imaging study

Author

Feng-Jiao Wang, Xiu-Jing Zhang, Yong-De Wang, Jing Liu, Tian-Cai Sun, and Zi-Wang Liu

Subjects
Male, medicine.medical_specialty, Cerebellum, Pathology, medicine.medical_treatment, Thalamus, Morris water navigation task, Hippocampus, 030204 cardiovascular system & hematology, Corpus callosum, Amygdala, Rats, Sprague-Dawley, Random Allocation, 03 medical and health sciences, Cognition, 0302 clinical medicine, Fluorodeoxyglucose F18, Rats, Inbred SHR, Internal medicine, medicine, Animals, Cognitive Dysfunction, Maze Learning, Saline, Pharmacology, business.industry, Dentate gyrus, Brain, General Medicine, Rats, Glucose, Endocrinology, medicine.anatomical_structure, Liver, Positron-Emission Tomography, Hypertension, business, 030217 neurology & neurosurgery, Drugs, Chinese Herbal
Abstract

Objective To collect visualized proof of Tianmagouteng particles (TMGTP) in alleviating cognitive dysfunction and to explore its effects on brain activity in spontaneously hypertensive rats (SHRs) with hyperactivity of liver-yang (Gan Yang Shang Kang, GYSK). Methods Sixteen SHRs were randomized into treatment group and non-treatment. The SHR with GYSK was induced by gavaging aconite decoction (10 mL/kg at 0.2 g/mL). After the SHR models were prepared, the rats in the treatment group were administered TMGTP (10 mL/kg) once a day for 14 days.The rats in the non-treatment group or normal rats (control group) received an equivalent volume of saline. Morris water maze test was conducted before and after the treatment to observe cognitive function. Fluorine 18-deoxy glucose [F-18]FDG micro-PET brain imaging scans was performed after treatment. Data were analyzed with two-sample t -test ( P Results Compared with the non-treatment group, the escape latency significantly decreased but the frequency of entrance into the target zone significantly increased in the treatment group. Consistent with the alteration of cognitive functions, TMGTP induced strong brain activity in the following sites: right dorsolateral nucleus and ventrolateral nucleus of thalamus, amygdala, left met thalamus, cerebellum leaflets, original crack, front cone crack, loop-shaped leaflets; but deactivation of right medial frontal gyrus, bilateral corpus callosum, hippocampus, and left dentate gyrus. Conclusion TMGTP could alleviate cognitive dysfunction in SHRs with GYSK, which was possibly by inducing alteration of glucose metabolism in different brain regions with corresponding functions.

Published
2017

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