Publications

Kekonen A, Bergelin M, Johansson M, Kumar Joon N, Bobacka J, Viik J. 2019. Bioimpedance Sensor Array for Long-Term Monitoring of Wound Healing from Beneath the Primary Dressings and Controlled Formation of H2O2 Using Low-Intensity Direct Current. Sensors 2019, 19, 2505.

Kekonen A, Bergelin M, Viik J. 2018 (in Finnish). Kvantitatiivinen laskimoperäisen haavan paranemisen arviointiin ja seurantaan. Haava –lehti 20 vuotta juhlakirja: 89-95.

Kekonen A, Bergelin M, Viik J. 2018 (in Finnish). Tutkimuskatsaus: Uusia menetelmiä haavan paranemisen arviointiin ja seurantaan. Haava –lehti 20(3): 30-32.

Kekonen A, Bergelin M, Eriksson J-E, Johansson M, Vesa M, Viik J. 2018. Long-term monitoring of acute wound healing from beneath the primary wound dressings. Proc. of the 16th Biennial Baltic Electronics Conference Tallinn, Estonia.

Kekonen A, Bergelin M, Eriksson J-E, Vaalasti A, Ylänen H, Viik J. 2017. Bioimpedance measurement based evaluation of wound healing. Physiol. Meas. 38(7):1373-1383. DOI: 10.1088/1361-6579/aa63d6.

Kekonen A, Bergelin M, Eriksson J-E, Kaartinen I, Viik J. 2017. Method for evaluation of surgical wound healing: A case study. EMBEC & NBC 2017. IFMBE Proceedings 65:446-449 DOI: 10.1007/978-981-10-5122-7_112

Kekonen A, Bergelin M, Eriksson J-E, Ylänen H, Kielosto S, Viik J. 2016. Bioimpedance measurement system for evaluation of the status of wound healing. Proc. of the 15th Biennial Baltic Electronics Conference, pp. 175-78 DOI: 10.1109/BEC.2016.7743757

Kekonen A, Bergelin M, Eriksson J-E, Ylänen H, Viik J. 2015. A Quantitative Method for Monitoring Wound Healing. Int. J. Bioelectromagn. 17(1): 36-41.

Related publications

Zhao M, Song B, Pu J, Wada T et al. 2006. Electrical signals control wound. healing through phosphatidylinositol-3-OH kinase-g and PTEN. Nature 442 (7101):457-60 DOI: 10.1038/nature04925

Sultana ST, Atci E, Babauta JT, Falghoush AM, Snekvik KR, Call DR, Beyenal H. 2015. Electrochemical scaffold generates localized, low concentration of hydrogen peroxide that inhibits bacterial pathogens and biofilms. Scientific Reports 5, 14908 (2015) DOI: 10.1038/srep14908

Ud-Din S, Sebastian A, Giddings P, Colthurst J, Whiteside S, Morris J, Nutticelli R, Pullar C, Baguneid M, Bayat A. 2015. Angiogenesis is induced and wound size is reduced by electrical stimulation in an acute wound healing model in human skin. PloS One 10 (4):1-22 DOI: 10.1371/journal.pone.0124502

Thakral G, LaFontaine J, Najafi B, Talal T K, Kim P, Lavery L A. 2013. Electrical Stimulation to Accelerate Wound Healing. Diabetic Foot Ankle 4:1-9 DOI:10.3402/dfa.v4i0.22081

Kloth LC. 2005. Electrical Stimulation for Wound Healing: A Review of Evidence From In Vitro Studies, Animal Experiments, and Clinical Trials. Int. J. Lower Extremity Wounds 4(1): 23-44 DOI: 10.1177/1534734605275733