M.Sc. Thomas Borchardt

1. Borchardt, T., Ernst, J., Helmke, A., Tanyeli, M., Schilling, A. F., Felmerer, G., & Viöl, W. (2017).
   Effect of direct cold atmospheric plasma (di cap) on microcirculation of intact skin in a controlled mechanical environment.
   Microcirculation, 24(8), e12399.
   DOI: 10.1111/micc.12399 - Link zur Veröffentlichung 1
    
2. Ernst, J., Tanyeli, M., Borchardt, T., Ojugo, M., Helmke, A., Viöl, W., ... & Felmerer, G. (2021).
   Effect on healing rates of wounds treated with direct cold atmospheric plasma: a case series.
   Journal of Wound Care, 30(11), 904-914.
   DOI: 10.12968/jowc.2021.30.11.904 - Link zur Veröffentlichung 2
    
3. Metelmann, H. R., von Woedtke, T., Weltmann, K. D., Emmert, S., Metelmann, I., Bekeschus, S., ... & Fröhlich, M. (2022).
   From Leap Innovation to Integrated Medical Care.
   In Textbook of Good Clinical Practice in Cold Plasma Therapy (pp. 3-33). Cham: Springer International Publishing.
   DOI: 10.1007/978-3-030-87857-3_1 - Link zur Veröffentlichung 3
    
4. Borchardt, T., Helmke, A., Ernst, J., Emmert, S., Schilling, A. F., Felmerer, G., & Viöl, W. (2022).
   Topically confined enhancement of cutaneous microcirculation by cold plasma.
   Skin Pharmacology and Physiology, 35(6), 343-353.
   DOI: 10.1159/000527700 - Link zur Veröffentlichung 4
    
5. Borchardt, T., Grams, O., Emmert, S., Viöl, W., & Helmke, A. (2024).
   Which CAP components are relevant for enhancing dermal microcirculation in intact skin?.
   Journal of Physics D: Applied Physics.
   DOI: 10.1088/1361-6463/ad572e - Link zur Veröffentlichung 5

Patente

1. DE102019128538
   Wolfgang Viöl, Thomas Borchardt, Joachim Bertram
   Vorrichtung zum Ausbilden von physikalischem Plasma an einer Oberfläche eines Objekts.