A New Electrode Design to Improve Outcomes in the Treatment of Chronic Non-Healing Wounds in Diabetes

Autor: Kelly Collins, HyeJin Suh, Jerrold S. Petrofsky, Daryl Lawson, Enrique Mendoza, Vivian Hernandez, Anne Fish, Jennifer Batt, Tien-ning Yang, Armia Abdul
Rok vydání: 2009
Předmět:
Zdroj: Diabetes Technology & Therapeutics. 11:315-322
ISSN: 1557-8593
1520-9156
DOI: 10.1089/dia.2008.0092
Popis: Chronic wounds are life-threatening in people with diabetes. Some studies show that electrical stimulation (ES) can help wounds heal, while others do not. But, ES is usually applied using a two-electrode system, where current distribution is greatest in the center line between the electrodes. In the present study, a three-electrode system (three-channel ES) was developed. Current dispersion on the skin and in the quadriceps muscle was compared between the conventional two-electrode and three-electrode systems in controls and tested for its ability to heal chronic wounds in people with diabetes.In controls, current was delivered via a biphasic sine wave at a frequency of 30 Hz and pulse width of 100 microseconds. Stimulation electrodes 5 cm x 5 cm and 5 cm x 10 cm were placed at 10 cm and 15 cm separation distances above the quadriceps muscle. Skin currents were measured using five pairs of surface electrodes positioned in five separate locations on the skin. Muscle currents were measured using three pairs of needle electrodes positioned in three different locations in the muscle belly. In chronic wounds in eight subjects with diabetes, stimulation was applied for 1 month, and healing and blood flow were measured.Current during three-channel ES was dispersed more evenly and more deeply than with conventional two-channel ES (P0.05). In wounds, there was almost complete healing in 1 month, and current was uniform in the wound.Three-channel ES is more effective than two-channel ES in terms of better current dispersion across the skin and penetration into tissue and will probably be better for wound healing.
Databáze: OpenAIRE