Axelgaard Manufacturing Co., Ltd. products
Electrodes - UltraStim
Axelgaard UltraStim - Current Controlling Neurostimulation Electrode
UltraStim® Wire patented current controlling neurostimulation electrodes distribute current evenly and comfortably for the patient. This electrode features Axelgaard’s proprietary silver grid pattern, which is calculated precisely to control electrical current evenly over the surface of the electrode. Also, the border around the silver grid pattern allows for an intentional current roll off to eliminate edge biting or stinging. UltraStim® Wire electrodes utilize Axelgaard’s patented multi-layer MultiStick® hydrogel, which eliminates performance problems frequently associated with electrodes featuring single-layer hydrogels. In addition, UltraStim® Wire’s polycoated white cloth backing provides a protective moisture barrier.
Axelgaard UltraStim - Electrodes
UltraStim X electrodes are a brilliant blend of Axelgaard’s advanced manufacturing techniques and superior design to offer flexibility, durability, and economy. Axelgaard’s unique cutting-edge manufacturing process for UltraStim X results in exceptional quality as well as exceptional value. This electrode features Axelgaard’s proprietary silver grid pattern, which is calculated precisely to control electrical current evenly over the surface of the electrode. UltraStim X electrodes are made with Axelgaard’s patented multi-layer MultiStick hydrogel, an industry proven leader with uncompromised adhesion and performance. Also, the oversize border featured on UltraStim X electrodes was specially designed to facilitate ease of proper removal to further promote electrode durability.
Axelgaard UltraStim - Current Controlling Neurostimulation Electrode
UltraStim Dual patented current controlling neurostimulation electrodes distribute current evenly and comfortably, which enhances patient comfort. UltraStim Dual electrodes are manufactured with a fixed distance between two electrodes to ensure convenience, ease of application, and comfortable effective stimulation.