Dissertation > Excellent graduate degree dissertation topics show

Preparation of Electrospun Nanoscale Silver I Carbon Nanofibers Composite Dressing and Research on Antibacterial Property

Author: XuYaFei
Tutor: YuJiaAo
School: Jilin University
Course: Surgery
Keywords: carbon fiber nanoscale silver dressing antibacterial test
CLC: R644
Type: Master's thesis
Year: 2012
Downloads: 105
Quote: 0
Read: Download Dissertation

Abstract


1. Researching BackgroundEvery year, there are millions of people who are burned or scalded because of hot water,flames and boiling oil around the world. Medical dressing can provide a perfect environmentfor the burning surface and plays an key role in wound healing. Though many wounddressing have been used in clinical practice, few could satisfy so many requirements ofwound healing. For example, cotton swab can absorb liquid on the wound, but isn’tcompetent in disinfection and wound healing promotion. Another example, animal skin(hogskin) can promote the growth of tissue, but it is expensive to be used widely. So what is finewound dressing comes to tow aspects, disinfection and wound healing promotion.Nanofiber structure prepared through electrospinning technology has similarity withnatural extracellular matrixc(EMC), which is continuous microfiber and has high ratio insurface volume, interspace and variable pore size distribution. It is confirmed by experimentsthat it can simulate EMC structure, stimulate cells to synthetize cell factors and growthfactors and promote wound healing. It has wide source and can be prepared ahead of time.According to biological functions, all kinds of imitated ravine organization structure can bemade. However, nanofiber dressing alone doesn’t have antibacterial capacity. So only bychoosing proper antimicrobial Ag+ents and combining it with nanofiber dressing, can perfectburning wound dressing be made. As to antimicrobial Ag+ents, nanoscale silver has betterantibacterial capacity which has super resistance to medicine and allergy and is safer. Manykinds of nanofiber dressing and nanoscale silver have been put into clinical practice.2. Researching Purpose\2.1Through preparing nanofiber dressing and nanoscale silver using electrospinningtechnology, we can observe the macro and micro structures.2.2Though in vitro experiments, study its antibacterial capacity for further study inpreparation of burning wound dressing which provide a experimental basis for further studyand clinical practice.3. Researching Steps and MethodsIn the research polyacrylonitrile(PAN) was used for precursor, by applyingelectrostatic spinning technology and high temperature carbonization method carbon nanofibers were prepared. But whether this material can meet the requirements of perfectburning dressing is still unknown, so antibacterial activity of such composite fiber dressingis to be evaluated.3.1The preparation and detect of nanoscale silver/carbon nanofibers composite. In theresearch polyacrylonitrile(PAN) was used for precursor. Use15kv spinning voltAg+e, witha distance of15cm between pin head and receiver board. By pre-oxidation and thermalcracking, PAN nanofiber becomes carbonized into carbon nanofibers. Assisted by silvermirror reaction, nanoscale silver/carbon nanofibers composite is prepared.3.2Use scanning electron microscopy(SEM) to observe its micro structure. Use EDXspectrum to analysis whether there is nanoscale dilver on the surface.3.3Research on the antibacterial capacity of nanoscale silver/carbon nanofibers composite.By using Kirby-Baucer method, antibacterial extrasomatic test was conducted with these twosamples and gentamicin scraps of paper and urgotul. Watching the composite dressing’santibiotic property on one week.4. Results of the researchThe main results and conclusions are as follows:4.1In the research polyacrylonitrile(PAN) was used for precursor, by applyingelectrostatic spinning technology and high temperature carbonization method carbonnanofibers were prepared.4.2The morphological characterization of nanoscale silver/carbon nanofibers composite:the diameter of carbon nanofiber is200nm~300nm, fibers are relatively straight, discrete andsmooth on the surface. By silver mirror reaction at room temperature, the diameter increasedto300nm~400nm, and its surface became rough. EDX spectrum showed that on the surfaceof carbon fiber there is a layer of nanoscale silver granules.4.3Using Kirby-Baucer method proved:1)nanoscale silver/carbon nanofibers compositeand urgotul have good effects on Staphylococcus aureus, E.coli and pseudomonas aeruginosa,but inferior to standard susceptibility paper of antimicrobial Ag+ents.2) the nanoscale silver/carbon nanofibers composite and urgotul had good antimicrobial effects to Staphylococcusaureus,E.coli and Pseudomonas aeruginosa;the composite nanofibers was better than urgotulat Pae and Sau.3) In the test, nanofibers are showed to have antibacterial capacity.By using Kirby-Baucer method, with a week’s continuous observation, we find thecomposite has obvious effect on Pseudomonas aeruginosa, with days go on, its effectdeclines till the third day, but has lasting effect on Staphylococcus aureus and E.coli in a week.5. Conclusion:Nanoscale silver/carbon nanofibers composite has similar porous structure as that ofECM at nano-level, has good antibacterial capacity and histocompatibility. This studyprovides a new method for burning surface dressing.

Related Dissertations

  1. Study of Interaction between Epoxy Molecules and Carbon Fiber Surface with Molecular Simulation,TB332
  2. Development of Functional Automotive Interior Textiles,TS106.6
  3. Carbon fiber reinforced epoxy resin surface treatment and interfacial properties of composite materials,TB332
  4. TiH2 Decomposition Kinetics and Preparation of Aluminum Foam Reinforced by Copper-coated Carbon Fibers,TB383.4
  5. Study on Oxidation of Organic Pollutants Catalyzed by Activated Carbon Fiber Supported Cobalt Phthalocyanine,X50
  6. Static Pushover Test on FRP-retrofitted RC Columns with Sustained Loading,TU375.3
  7. Experimental Study on the Hysteretic Behavior of Preloaded Concrete Columns with CFRP Confinement,TU375.3
  8. Method and Application on Compensation of Ore-dressing Process Integrated Production Indices Decomposition,TP311.13
  9. Study on Dressing Device and Process for Diamond Roller Wheel,TG743
  10. The Dispersion and Its Evaluation of Fiber in the Theroplastic Composites by Wet Process,TB332
  11. The Development of a Diamond Wheel Dressing Tool,TG743
  12. Atmospheric Pressure Plasma Surface Modification of Carbom Fibers and Numerical Simulation of the Discharge,TQ342.742
  13. Design and Realization of Monitoring System for Iron Dressing Production Process,TP277
  14. Carbon fiber material in the functional application and development of clothing,TS941.4
  15. Preparation and Evaluation of Antibacterial Bacterial Cellulose Membranes Impregnated Silver Nanoparticles,TB383.1
  16. Study on Relife Grinding Theory of Hob Cutters and Dressing Machine Design for Form-grinding Wheels,TG743
  17. Advanced Development of Carbon Nanotube-PVA-rh-EGF Combined Wound Dressing,R318.08
  18. Pediatric pneumonia the dressing chest therapy clinical efficacy and safety of skin observational study,R272
  19. An effective hemorrhoid cream in a mixed Milligan postoperative clinical research,R269
  20. The Study of Coal Processing System Reform in Tang Shan Mining Company Based on the Sustainable Development,TD94
  21. Low-grade phosphate rock flotation tailings byproduct magnesium phosphate fertilizer technology research,TQ442

CLC: > Medicine, health > Surgery > Traumatology > Burns and scalds ( burns )
© 2012 www.DissertationTopic.Net  Mobile