Neurology Surface Electrode


Solid Gel 20x15mm, 100cm Lead Length, TP 1.5mm Connector

Pack of 12 Electrodes (Available with white or coloured leads)

Out of stock



Ambu® Neuroline 700 is a conductive, self adhesive surface electrode. It has a special “duck foot” design, which ensures that the electrodes stay in place even if the lead wire is pulled.

It is easily repositioned, enabling technicians to locate the best recording site without leaving messy gel deposits to be wiped off.

Since the surface electrode has a well defined measuring area, recording conditions can be accurately reproduced. There is no risk of cross-contamination and the need for costly maintenance has been eliminated.

Patient comfort is of the outmost importance. Both the sensor and the lead wire in Ambu Neuroline 700 is made of a very soft and flexible material which keeps irritation to a minimum and e.g. ensures that the patient is not bothered by sleeping on a hard electrode.

The electrode offers a high degree of patient comfort which is essential, as an optimal test result depends on the patient getting undisturbed sleep.

  • Solid gel makes it repositionable
  • Well defined sensor area ensures easy reproduction of results
  • Special design prevents the electrode from falling off if wire is pulled
  • Small – makes it easy to apply on the face
  • Ag/AgCl ensures a good signal
  • No risk of cross-contamination
  • Useful for examinations of children/babies/neonates due to its small size and flexible material
Order processing & Delivery
Please kindly place order by Contact Us, Email or Telephone. We aim to dispatch products that are held in stock within 48 hours of receipt of order. All orders are shipped by tracked next day* courier to ensure safe receipt of orders and a Proof of Delivery will be available upon receipt up to 2 weeks following date of delivery. *next day is a third party service and cannot be guaranteed by Biosense Medical Supplies Ltd. Hazardous goods shipping to N. Ireland and ROI can take up to 72 hours. Images shown are for illustrative purposes.