Evaluation of the Effect of Titatnium Dioxide Nanoparticles/Gelatin Composite on Infected Skin Wound Healing; An Animal Model Study

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Nikpasand Amin; PARVIZI MOHAMMAD REZA

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Journal Paper

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Journal: Bulletin of Emergency And Trauma Year:2019 | Volume:7 | Issue:4 Page(s): 366-372

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Information Journal Paper

Title

Evaluation of the Effect of Titatnium Dioxide Nanoparticles/Gelatin Composite on Infected Skin Wound Healing; An Animal Model Study

Author(s)

Nikpasand Amin | PARVIZI MOHAMMAD REZA | Issue Writer Certificate

Keywords

Wound

Titanium dioxide

Gelatin

Nanoparticle

Rat

Abstract

Objective: To evaluate effects of Titanium dioxide /Gelatin nanocomposite on Wound healing in mice as a model study. Methods: Fifty male Rats were randomized into five groups of ten animals each. In group I, 0. 1 mL sterile saline 0. 9% solution was added to the Wounds with no infection. In group II, the Wounds were infected with MRSA and only treated with 0. 1 mL the sterile saline 0. 9% solution. In group III, infected Wounds were treated with Gelatin. In group IV, animals with infected Wounds were treated with 0. 1 mL Titanium dioxide Nanoparticles. In group V, animals with infected Wounds were treated with Titanium dioxide /Gelatin nanocomposite. Wound size was measured on 2, 6, 10, 14, 18 and 20 days after surgery. Results: Reduction in Wound area indicated that there was significant difference between group IV and other groups (p<0. 05). Quantitative histological and morphometric studies and mean rank of the qualitative studies demonstRated that there was significant difference between group IV and other groups (p<0. 05). Conclusion: Titatnium dioxide Nanoparticles/Gelatin composite offered potential advantages in Wound healing acceleRation and fibroblast prolifeRation on early days of healing phases. AcceleRation in Wound repair could be associated with earlier Wound contraction and stability of damaged area by rearrangement of granulation tissue and collagen fibers.

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References

Evaluation of application of chitosan/nano selenium biodegradable film on full thickness excisional wound healing in rats

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APA: Copy

Nikpasand, Amin, & PARVIZI, MOHAMMAD REZA. (2019). Evaluation of the Effect of Titatnium Dioxide Nanoparticles/Gelatin Composite on Infected Skin Wound Healing; An Animal Model Study. BULLETIN OF EMERGENCY AND TRAUMA BEAT, 7(4), 366-372. SID. https://sid.ir/paper/335203/en

Vancouver: Copy

Nikpasand Amin, PARVIZI MOHAMMAD REZA. Evaluation of the Effect of Titatnium Dioxide Nanoparticles/Gelatin Composite on Infected Skin Wound Healing; An Animal Model Study. BULLETIN OF EMERGENCY AND TRAUMA BEAT[Internet]. 2019;7(4):366-372. Available from: https://sid.ir/paper/335203/en

IEEE: Copy

Amin Nikpasand, and MOHAMMAD REZA PARVIZI, “Evaluation of the Effect of Titatnium Dioxide Nanoparticles/Gelatin Composite on Infected Skin Wound Healing; An Animal Model Study,” BULLETIN OF EMERGENCY AND TRAUMA BEAT, vol. 7, no. 4, pp. 366–372, 2019, [Online]. Available: https://sid.ir/paper/335203/en

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