Analytical non-scalp cutaneous electrodeA non-sterile, electrical conductor desi
Analytical non-scalp cutaneous electrodeA non-sterile, electrical conductor designed to be attached to the skin surface of a patient outside of the hair line (i.e., non-scalp) and connected to an appropriate parent device for electrophysiological recording/monitoring [e.g., electromyography (EMG), evoked potentials (EP), nerve conduction study (NCS), impedance pneumography (IP)]; it is not primarily intended for diagnostic electrocardiography (ECG) or electroencephalography (EEG). It typically consists of a small cup/disk with a conductive surface and may include a length of insulated connecting wire. This is a single-patient device that may be reapplied to the patient over a short term (single-use) before being discarded.
Analytical non-scalp cutaneous electrodeA non-sterile, electrical conductor desi
Analytical non-scalp cutaneous electrodeA non-sterile, electrical conductor designed to be attached to the skin surface of a patient outside of the hair line (i.e., non-scalp) and connected to an appropriate parent device for electrophysiological recording/monitoring [e.g., electromyography (EMG), evoked potentials (EP), nerve conduction study (NCS), impedance pneumography (IP)]; it is not primarily intended for diagnostic electrocardiography (ECG) or electroencephalography (EEG). It typically consists of a small cup/disk with a conductive surface and may include a length of insulated connecting wire. This is a single-patient device that may be reapplied to the patient over a short term (single-use) before being discarded.
Analytical non-scalp cutaneous electrodeA non-sterile, electrical conductor desi
Analytical non-scalp cutaneous electrodeA non-sterile, electrical conductor designed to be attached to the skin surface of a patient outside of the hair line (i.e., non-scalp) and connected to an appropriate parent device for electrophysiological recording/monitoring [e.g., electromyography (EMG), evoked potentials (EP), nerve conduction study (NCS), impedance pneumography (IP)]; it is not primarily intended for diagnostic electrocardiography (ECG) or electroencephalography (EEG). It typically consists of a small cup/disk with a conductive surface and may include a length of insulated connecting wire. This is a single-patient device that may be reapplied to the patient over a short term (single-use) before being discarded.
Analytical non-scalp cutaneous electrodeA non-sterile, electrical conductor desi
Analytical non-scalp cutaneous electrodeA non-sterile, electrical conductor designed to be attached to the skin surface of a patient outside of the hair line (i.e., non-scalp) and connected to an appropriate parent device for electrophysiological recording/monitoring [e.g., electromyography (EMG), evoked potentials (EP), nerve conduction study (NCS), impedance pneumography (IP)]; it is not primarily intended for diagnostic electrocardiography (ECG) or electroencephalography (EEG). It typically consists of a small cup/disk with a conductive surface and may include a length of insulated connecting wire. This is a single-patient device that may be reapplied to the patient over a short term (single-use) before being discarded.
Analytical non-scalp cutaneous electrodeA non-sterile, electrical conductor desi
Analytical non-scalp cutaneous electrodeA non-sterile, electrical conductor designed to be attached to the skin surface of a patient outside of the hair line (i.e., non-scalp) and connected to an appropriate parent device for electrophysiological recording/monitoring [e.g., electromyography (EMG), evoked potentials (EP), nerve conduction study (NCS), impedance pneumography (IP)]; it is not primarily intended for diagnostic electrocardiography (ECG) or electroencephalography (EEG). It typically consists of a small cup/disk with a conductive surface and may include a length of insulated connecting wire. This is a single-patient device that may be reapplied to the patient over a short term (single-use) before being discarded.
Analytical non-scalp cutaneous electrodeA non-sterile, electrical conductor desi
Analytical non-scalp cutaneous electrodeA non-sterile, electrical conductor designed to be attached to the skin surface of a patient outside of the hair line (i.e., non-scalp) and connected to an appropriate parent device for electrophysiological recording/monitoring [e.g., electromyography (EMG), evoked potentials (EP), nerve conduction study (NCS), impedance pneumography (IP)]; it is not primarily intended for diagnostic electrocardiography (ECG) or electroencephalography (EEG). It typically consists of a small cup/disk with a conductive surface and may include a length of insulated connecting wire. This is a single-patient device that may be reapplied to the patient over a short term (single-use) before being discarded.
Analytical non-scalp cutaneous electrodeA non-sterile, electrical conductor desi
Analytical non-scalp cutaneous electrodeA non-sterile, electrical conductor designed to be attached to the skin surface of a patient outside of the hair line (i.e., non-scalp) and connected to an appropriate parent device for electrophysiological recording/monitoring [e.g., electromyography (EMG), evoked potentials (EP), nerve conduction study (NCS), impedance pneumography (IP)]; it is not primarily intended for diagnostic electrocardiography (ECG) or electroencephalography (EEG). It typically consists of a small cup/disk with a conductive surface and may include a length of insulated connecting wire. This is a single-patient device that may be reapplied to the patient over a short term (single-use) before being discarded.
Analytical non-scalp cutaneous electrodeA non-sterile, electrical conductor desi
Analytical non-scalp cutaneous electrodeA non-sterile, electrical conductor designed to be attached to the skin surface of a patient outside of the hair line (i.e., non-scalp) and connected to an appropriate parent device for electrophysiological recording/monitoring [e.g., electromyography (EMG), evoked potentials (EP), nerve conduction study (NCS), impedance pneumography (IP)]; it is not primarily intended for diagnostic electrocardiography (ECG) or electroencephalography (EEG). It typically consists of a small cup/disk with a conductive surface and may include a length of insulated connecting wire. This is a single-patient device that may be reapplied to the patient over a short term (single-use) before being discarded.
Flexible and easy to fit electrode can be applied to every contour of the human
Flexible and easy to fit electrode can be applied to every contour of the human body. You can use the electrodes many times because of its reliable long lasting gel. The unique gel used with the electrode is very cost effective and provides excellent current distribution on the total electrode. Optimal distribution of current . Give patient comfort during stimulation.
Flexible and easy to fit electrode can be applied to every contour of the human
Flexible and easy to fit electrode can be applied to every contour of the human body. You can use the electrodes many times because of its reliable long lasting gel. The unique gel used with the electrode is very cost effective and provides excellent current distribution on the total electrode. Optimal distribution of current . Give patient comfort during stimulation.
Flexible and easy to fit electrode can be applied to every contour of the human
Flexible and easy to fit electrode can be applied to every contour of the human body. You can use the electrodes many times because of its reliable long lasting gel. The unique gel used with the electrode is very cost effective and provides excellent current distribution on the total electrode. Optimal distribution of current . Give patient comfort during stimulation.
Flexible and easy to fit electrode can be applied to every contour of the human
Flexible and easy to fit electrode can be applied to every contour of the human body. You can use the electrodes many times because of its reliable long lasting gel. The unique gel used with the electrode is very cost effective and provides excellent current distribution on the total electrode. Optimal distribution of current . Give patient comfort during stimulation.
Flexible and easy to fit electrode can be applied to every contour of the human
Flexible and easy to fit electrode can be applied to every contour of the human body. You can use the electrodes many times because of its reliable long lasting gel. The unique gel used with the electrode is very cost effective and provides excellent current distribution on the total electrode. Optimal distribution of current . Give patient comfort during stimulation.
Flexible and easy to fit electrode can be applied to every contour of the human
Flexible and easy to fit electrode can be applied to every contour of the human body. You can use the electrodes many times because of its reliable long lasting gel. The unique gel used with the electrode is very cost effective and provides excellent current distribution on the total electrode. Optimal distribution of current . Give patient comfort during stimulation. 8pcs per bag.
Flexible and easy to fit electrode can be applied to every contour of the human
Flexible and easy to fit electrode can be applied to every contour of the human body. You can use the electrodes many times because of its reliable long lasting gel. The unique gel used with the electrode is very cost effective and provides excellent current distribution on the total electrode. Optimal distribution of current . Give patient comfort during stimulation.
Flexible and easy to fit electrode can be applied to every contour of the human
Flexible and easy to fit electrode can be applied to every contour of the human body. You can use the electrodes many times because of its reliable long lasting gel. The unique gel used with the electrode is very cost effective and provides excellent current distribution on the total electrode. Optimal distribution of current . Give patient comfort during stimulation.
Flexible and easy to fit electrode can be applied to every contour of the human
Flexible and easy to fit electrode can be applied to every contour of the human body. You can use the electrodes many times because of its reliable long lasting gel. The unique gel used with the electrode is very cost effective and provides excellent current distribution on the total electrode. Optimal distribution of current . Give patient comfort during stimulation.
Flexible and easy to fit electrode can be applied to every contour of the human
Flexible and easy to fit electrode can be applied to every contour of the human body. You can use the electrodes many times because of its reliable long lasting gel. The unique gel used with the electrode is very cost effective and provides excellent current distribution on the total electrode. Optimal distribution of current . Give patient comfort during stimulation.
Flexible and easy to fit electrode can be applied to every contour of the human
Flexible and easy to fit electrode can be applied to every contour of the human body. You can use the electrodes many times because of its reliable long lasting gel. The unique gel used with the electrode is very cost effective and provides excellent current distribution on the total electrode. Optimal distribution of current . Give patient comfort during stimulation.
Flexible and easy to fit electrode can be applied to every contour of the human
Flexible and easy to fit electrode can be applied to every contour of the human body. You can use the electrodes many times because of its reliable long lasting gel. The unique gel used with the electrode is very cost effective and provides excellent current distribution on the total electrode. Optimal distribution of current . Give patient comfort during stimulation.
Flexible and easy to fit electrode can be applied to every contour of the human
Flexible and easy to fit electrode can be applied to every contour of the human body. You can use the electrodes many times because of its reliable long lasting gel. The unique gel used with the electrode is very cost effective and provides excellent current distribution on the total electrode. Optimal distribution of current . Give patient comfort during stimulation.