Physio-Control LIFEPAK 1000 Defibrillator Graphical Display

US$2,800.00

The LIFEPAK 1000 incorporates cprMAX™ technology, allowing the trained responder to choose CPR settings for each individual patient, and using the best CPR protocol requirements. Prior to the shock, the CPR interval can be adjusted, making this LIFEPAK AED the only device that can minimize pre-shock pauses and allow responders to continue compressions while the AED charges.

Defibrillator Power Options give you a choice in deciding which battery is right for you. The LIFEPAK 1000 with battery installed has the highest rating available (IP55).

The Lithium-ion Rechargeable Battery works best when the AED is used frequently, implementing the 3-lead ECG Monitoring feature.

The Lithium Manganese Dioxide Non-Rechargeable Battery is better utilized in the LIFEPAK 1000 with infrequent use or for public access.

CODE-STAT 9.0 Review Software can be viewed and analyzed, and used in targeting team performance for training purposes.

ADAPTIV® biphasic technology allows the LIFEPAK 1000 to employ the right amount of energy, from 150J up to the maximum 360 joules on difficult to defibrillator patients. The Responder has the option to escalate energy if initial shocks do not work. A joule (J) is a unit of energy used as the measurement of shock strength provided by an AED.

The hand-off from BLS (Basic Life Support) to ALS (Advanced Life Support) is a complex skill that trained responders repeat during the course of their rescue calls. The LIFEPAK 1000 provides an efficient and very compatible transition to Advanced Life Support Care. The shock counter on the device gives the team receiving the patient in the hand off important information for next steps of care.

Product Description and Characteristics:

  • 3.4” X 9.2” X 10.9”
  • Weight 7.1 lbs

NASA selected the LIFEPAK 1000 Defibrillator after reviewing 18 AEDs worldwide as the first AED in Space, serving on the International Space Station. The Space Station has previously housed manual defibrillators, but NASA wanted to replace them with an AED due to ease of use, less training and the low-maintenance features. The small size and weight of the LIFEPAK 1000 made it their choice and helped minimize hardware mass on the Space Station.