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Title

Effect of cold atmospheric plasma/NO gas application with different exposure times on healing in wounds with tissue loss in diabetic rats

Journal title

Polish Journal of Veterinary Sciences

Yearbook

2023

Volume

vol. 26

Issue

No 3

Authors

Tatlıcıoğlu, G. ; Çürükoğlu, A. ; Akan, G. ; Yeşilovalı, G. ; Öğütçü, G. ; Aktaş, R. ; Kükner, A. ; Temizel, M. ; Sarıtaş, Z.K. ; Özgencil, F.E.

Affiliation

Tatlıcıoğlu, G. : Surgery Department, Near East University, Faculty of Veterinary Medicine, Yakın Doğu St, VIC: 99138 Nicosia / TRNC Mersin 10 – Turkey ; Çürükoğlu, A. : Surgery Department, Near East University, Faculty of Veterinary Medicine, Yakın Doğu St, VIC: 99138 Nicosia / TRNC Mersin 10 – Turkey ; Yeşilovalı, G. : Surgery Department, Near East University, Faculty of Veterinary Medicine, Yakın Doğu St, VIC: 99138 Nicosia / TRNC Mersin 10 – Turkey ; Aktaş, R. : Surgery Department, Near East University, Faculty of Veterinary Medicine, Yakın Doğu St, VIC: 99138 Nicosia / TRNC Mersin 10 – Turkey ; Özgencil, F.E. : Surgery Department, Near East University, Faculty of Veterinary Medicine, Yakın Doğu St, VIC: 99138 Nicosia / TRNC Mersin 10 – Turkey ; Akan, G. : DESAM Institute, Near East University, Yakın Doğu St, VIC: 99138 Nicosia / TRNC Mersin 10 – Turkey ; Öğütçü, G. : Histology Department, Near East University, Faculty of Medicine, Yakın Doğu St, VIC: 99138 Nicosia / TRNC Mersin 10 – Turkey ; Kükner, A. : Histology Department, Near East University, Faculty of Medicine, Yakın Doğu St, VIC: 99138 Nicosia / TRNC Mersin 10 – Turkey ; Temizel, M. : Experimental Animal Research Center, Near East University Faculty of Veterinary Medicine, Yakın Doğu St, VIC: 99138 Nicosia / TRNC Mersin 10- Turkey ; Sarıtaş, Z.K. : Surgery Department, Afyon Kocatepe University, Faculty of Veterinary Medicine, ANS Campus, Erenler, Afyonkarahisar/Turkey

Keywords

cold atmospheric plasma ; diabetic wound healing ; nitric oxide ; rat

Divisions of PAS

Nauki Biologiczne i Rolnicze

Coverage

441–447

Publisher

Polish Academy of Sciences Committee of Veterinary Sciences ; University of Warmia and Mazury in Olsztyn

Bibliography

  1. Ahmed R, Augustine R, Chaudhry M, Akhtar UA, Zahid AA, Tariq M, Falahati M, Ahmad IS, Hasan A (2022) Nitric oxide-releasing biomateri-als for promoting wound healing in impaired diabetic wounds: State of the art and recent trends. Biomed Pharmacother 149: 112707.
  2. Anuk T, Öztürk S, Özaydın İ, Kahramanca Ş, Yayla S, Aksoy, Demirkan I (2016) Comparison of Three Fixation Methods for the prevention of wound contractions in diabetic and non-diabetic mice with full-thickness skin excision. Kafkas Univ Vet Fak Derg 22: 647-651.
  3. Bae SH, Bae YC, Nam SB, Choi SJ (2012) A skin fixation method for decreasing the influence of wound contraction on wound healing in a rat model. Arch Plast Surg 39: 457-462.
  4. Bryan NS (2015) Nitric oxide enhancement strategies. Future Sci OA 1: FSO48.
  5. Burgess JL, Wyant WA, Abujamra B, Kirsner RS, Jozic I (2021) Diabetic wound-healing science. Medicina (Kaunas) 57: 1072.
  6. Caskey RC, Liechty KW (2013) Novel animal models for tracking the fate and contributions of bone marrow derived cells in diabetic healing. Methods: 99-115.
  7. Förstermann U, Sessa WC (2012) Nitric oxide synthases: Regulation and function. Eur Heart J 33: 829-837
  8. Fridman G, Friedman G, Gutsol A, Shekhter AB, Vasilets VN, Fridman A (2008) Applied Plasma Medicine. Plasma Process Polym 5: 503-533.
  9. Ghaffari A, Jalili R, Ghaffari M, Miller C, Ghahary A (2007) Efficacy of gaseous nitric oxide in the treatment of skin and soft tissue infec-tions. Wound Repair Regen 15: 368-377.
  10. Ghaffari A, Miller CC, McMullin B, Ghahary A (2006) Potential application of gaseous nitric oxide as a topical antimicrobial agent. Nitric Ox-ide 14: 21-29.
  11. Ghaffari A, Neil DH, Ardakani A, Road J, Ghahary A, Miller CC (2005) A direct nitric oxide gas delivery system for bacterial and mammalian cell cultures. Nitric Oxide 12: 129-140.
  12. Gronbach M, Mitrach F, Lidzba V, Müller B, Möller S, Rother S, Schulz-Siegmund M (2020) Scavenging of Dickkopf-1 by macromer-based biomaterials covalently decorated with sulfated hyaluronan displays pro-osteogenic effects. Acta Biomater 114: 76-89.
  13. Güngör GÇ, Gültekin Ç, Kükner A, Etikan İ, Temizel M, Özgencil FE (2022) Effect of topical insulin and ozonized cream for the treatment of full-thickness dermal burn injuries: A clinical and histopathological study in diabetic rats. Pak Vet J 42: 229-235.
  14. Krausz A, Friedman AJ (2015) Nitric oxide as a surgical adjuvant. Future Sci OA 1: FSO56.
  15. Luo JD, Chen AF (2005) Nitric oxide: A newly discovered function on wound healing. Acta Pharmacol Sin 26: 259-264.
  16. Malone-Povolny MJ, Maloney SE, Schoenfisch MH (2019) Nitric oxide therapy for diabetic wound healing. Adv Healthc Mater 8: e1801210.
  17. Grada A, Mervis J, Falanga V (2018) Research techniques made simple: Animal models of wound healing. J Invest Dermatol 138: 2095-2105..
  18. Mieczkowski M, Mrozikiewicz-Rakowska B, Kowara M, Kleibert M, Czupryniak L (2022) The problem of wound healing in diabetes-from mo-lecular pathways to the design of an animal model. Int J Mol Sci 23: 7930.
  19. Miersch S, Espey MG, Chaube R, Akarca A, Tweten R, Ananvoranich S, Mutus B (2008) Plasma membrane cholesterol content affects nitric oxide diffusion dynamics and signaling. J Biol Chem 283: 18513-18521.
  20. Miller CC, Miller MK, Ghaffari A, Kunimoto B (2004) Treatment of chronic nonhealing leg ulceration with gaseous nitric oxide: A case study. J Cutan Med Surg 8: 233-238.
  21. Pekshev AV, Shekhter AB, Vagapov AB, Sharapov NA, Vanin AF (2018) Study of plasma-chemical NO-containing gas flow for treatment of wounds and inflammatory processes. Nitric Oxide 73: 74-80.
  22. Powers JG, Higham C, Broussard K, Phillips TJ (2016) Wound healing and treating wounds: Chronic wound care and management. J Am Acad Dermatol 74: 607-625.
  23. Moeen Rezakhanlou A, Miller C, McMullin B, Ghaffari A, Garcia R, Ghahary A (2011) Gaseous nitric oxide exhibits minimal effect on skin fibroblast extracellular matrix gene expression and immune cell viability. Cell Biol Int 35: 407-415.
  24. Shekhter AB, Pekshev AV, Vagapov AB, Telpukhov VI, Panyushkin PV, Rudenko TG, Fayzullin AL, Sharapov NA, Vanin AF (2019) Physi-cochemical parameters of NO-containing gas flow affect wound healing therapy. An experimental study. Eur J Pharm Sci 128: 193-201.
  25. Shekhter AB, Serezhenkov VA, Rudenko TG, Pekshev AV, Vanin AF (2005) Beneficial effect of gaseous nitric oxide on the healing of skin wounds. Nitric Oxide 12: 210-219.
  26. Wu M, Lu Z, Wu K, Nam C, Zhang L, Guo J (2021) Recent advances in the development of nitric oxide-releasing biomaterials and their application potentials in chronic wound healing. J Mater Chem B 9: 7063-7075.
  27. Yang Y, Qi PK, Yang ZL, Huang N (2015) Nitric oxide based strategies for applications of biomedical devices. Biosurf Biotribol 1: 177-201.
  28. Young LH, Ikeda Y, Lefer AM (2001) Caveolin-1 peptide exerts cardioprotective effects in myocardial ischemia-reperfusion via nitric oxide mechanism. Am J Physiol Heart Circ Physiol 280: H2489-H2495.

Type

Article

Identifier

DOI: 10.24425/pjvs.2023.145051
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