Recanvis Pad-Pak pediatric Samaritan PAD

Recanvi original Heartsine defibrillators

Heartsine Samaritam PAD Electrodes Recanvi

Pad-Pak pediatric electrodes + Heartsine battery


Neosalus, official distributor of the main brands of DEA and DESA equipment, original recanvi store HeartSine, Philips, Zoll, etc. Recanvis amb expired updates on stickers and batteries.

In the case of Heartsine defibrillators, each PAD device has the Pad-Pack per one. This Pad Pack by Heartsine offers you the advantage that you only have to check the expiration date and replace it once this date is exceeded, or just for yourself.

The Pad-Pak includes the electrode pads and the battery of the defibrillator equipment. The Pad Pack has a useful life of 4 years from the date of manufacture and represents an important economical saving.


The electrodes are the main point of contact between the patient and the defibrillator.


HeartSine electrode technology uses a patented construction method to provide a four-year lifespan without a significant increase in cost. This mateixa technology offers superior electrical performance, faster recovery (less time between shock and CPR) and produces more menys soroll.
HeartSine electrodes are large and have very low impedance. The measurement of the coils and the low impedance are vital for a correct defibrillation.

HeartSine's electrode technology also allows the device to have a CPR assist based on the Impedance Cardiogram (ICG).

Traditional electrodes use an aluminum alloy conductor with a layer of hydrochloride gel on the front. The development mechanism responds to a chemical reaction between chloride and aluminum, which generally limits the useful life of the electrode to 2 to 2 years.


Electrode Pegats Heartsine Samaritan PAD


HeartSine's electrode pad technology is a totally different structure. HeartSine's electrodes are designed to print a thick layer of silver on a substrate.

The addition of a layer of hydrochloride gel causes a chemical reaction with the silver during the manufacturing process. Within about a week, this reaction forms a layer of silver chloride, creating a stable and self-limiting layer.

This technology effectively creates a defibrillation electrode that will be stable for more than five years. Furthermore, the silver/chloride interface presents molt
It has little compensation potential and rapid recovery characteristics, so that it produces much better recovery performance.