Quality CPR matters
The trained rescuer knows that when faced with a sudden cardiac arrest patient, time and optimal therapy is critical for survival. Quality CPR combined with early defibrillation is essential to improve survival.1-3 Guidelines 4-5 provide direction on a number of parameters that define Quality CPR. However, the challenge for all emergency healthcare providers remains:

How can guidelines compliant CPR be delivered consistently throughout the whole chain of survival?

Patients Vary

Chest-depth-force-relationshipsThe 2015 Guidelines recommend compressing the patients’ chest at least 5 cm. Knowing when you have reached 5 cm is however difficult. As chest stiffness varies, some patients need much more compression force to meet the same guideline.This complicates matters even further. In fact, Tomlinson et al (2007) showed that patients’ chests require a compression force ranging from 10 - 55 kg force to reach the minimum compression depth. 6


How does CPRmeter™ work?
CPRmeter™ has two embedded sensors: one measuring acceleration and another measuring force. A sophisticated microprocessor continuously measures both of these parameters during each compression, and special algorithms convert the collected data into meaningful information.

The accelerometer measures the depth and rate of chest wall movement during each compression and converts it into distance travelled. The force sensor measures the force applied during CPR and is also used to detect whether the patient's chest is allowed to fully release between compressions. Feedback is provided if the responder is leaning during CPR. This helps the trained rescuer to deliver guidelines compliant chest compressions regardless of the chest stiffness of an individual patient.

Its rugged construction and excellent viewing angles, even in difficult environmental conditions, makes CPRmeter ideally suited to the chaos of the emergency situation.


Click to view an interactive presentation containing a number of videos with instructions on how to use and maintain the CPR meter.

 The videos can be viewed separately, or all together by pressing the "Play All" button.

The videos are also available in multiple languages which can be selected from the drop down box under the video screen.

On-screen visual feedback

Good depth, release and rate

Compress deeper

Release between compressions

Compress slower

Inactivity time

Compression counter







Assuring quality
While survival rates from sudden cardiac arrest have remained virtually unchanged for 25 years, recent studies have shown that significant improvements in patient outcomes are possible when healthcare organisations implement systematic QA and QI initiatives.7-8

Using Laerdal’s latest generation of Q-CPR technology, the CPRmeter™ records and documents CPR performance. This opportunity to debrief events objectively is essential to facilitate team improvement and establish best practice to help improve patient outcomes.7-8

QreviewQ-CPR Quick Review
The opportunity for trained responders to immediately self-evaluate their CPR performance is both an empowering and motivating feature of the CPRmeter™. This can help reassure that optimal CPR has been delivered or highlight areas for improvement for discussion during the de-brief.

reviewQ-CPR Review
An optional Micro SD card can capture comprehensive CPR event statistics for in-depth evaluation and debriefing. A quick download into the Q-CPR Review software enables the user to:

- Create a graphical view of a CPR case for debriefing
- Create and print an individual CPR Report Card
- Compile CPR event statistics for multiple cases

Q-CPR Review software provides the foundation for a successful CPR quality improvement programme.


CPRmeter™ Improves CPR Skills Retention 9,10,11
CPR training for both ALS and BLS courses require demonstration of guidelines compliant CPR 12. Studies indicate that CPR skills decrease quickly following traditional CPR training 13,14,15. More frequent refresher training, more hands-on skills practice and reduced intervals of re-certification have been highlighted as methods to address this problem.16 A valuable solution for recommended low dose, high frequency refresher training, the CPRmeter™ used with a manikin can help the trainee to improve and maintain CPR skills, while helping the instructor to easily assess competence for re-certification.

The CPR meter helps to guide the trained provider to deliver quality CPR by providing dynamic realtime feedback on essential parameters of CPR.


1. Cobb LA, Fahrenbruch CE, Walsh TR, Copass MK, Olsufka M, Breskin M, Hallstrom AP.
Influence of cardiopulmonary resuscitation prior to defibrillation in patients with out-of-hospital ventricular fibrillation. JAMA. 1999; 281: 1182-1188.

2. Wik L, Hansen TB, Fylling F, Steen T, Vaagenes P, Auestad BH, Steen PA. Delaying defibrillation to give basic cardiopulmonary resuscitation to patients with out-of-hospital ventricular fibrillation: a randomized trial. JAMA. 2003; 289: 1389-1395.

3. Vilke GM, Chan TC, Dunford JV, Metz M, Ochs G, Smith A, Fisher R, Poste JC, McCallum-Brown L, Davis DP. The three-phase model of cardiac arrest as applied to ventricular fibrillation in a large, urban emergency medical services system. Resuscitation. 2005; 64: 341-346.

4. AHA guidelines for Cardiopulmonary Resuscitation & and Emergency Cardiovascular Care, Part 4: adult Basic Life Support. Circulation.2005;112(suppl IV).

5. ERC guidelines for Resuscitation 2005. Resuscitation 2005; 67(S1)

6. Tomlinson AE, Nysaether J, Kramer-Johansen J, Steen PA, Dorph E. Compression forcedepth relationship during out-of-hospital cardiopulmonary resuscitation. Resuscitation. 2007; 72: 364-370.

7. Dine CJ, Gersh RE, Leary M, Riegel BJ, Bellini LM, Abella BS. Improving cardiopulmonary resuscitation quality and resuscitation training by combining audiovisual feedback and debriefing. Crit Care Med. 2008; .

8. Edelson DP, Litzinger B, Arora V, Walsh D, Kim S, Lauderdale DS, Vanden Hoek TL, Becker LB, Abella BS. Improving in-hospital cardiac arrest process and outcomes with performance debriefing. Arch Intern Med. 2008; 168: 1063-1069

9. Wik L, Thowsen J, Steen PA. An automated voice advisory manikin system for training in basic life support without an instructor. A novel approach to CPR training. Resuscitation. 2001; 50: 167-172.

10. Wik L, Myklebust H, Auestad BH, Steen PA. Retention of basic life support skills 6 months after training with an automated voice advisory manikin system without instructor involvement. Resuscitation. 2002; 52: 273-279.

11. Data on File, Laerdal Medical AS. 2009

12. Chamberlain DA, Hazinski MF, European Resuscitation Council, American Heart Association, Heart and Stroke Foundation of Canada, Australia and New Zealand Resuscitation Council, Resuscitation Council of Southern Africa, Consejo Latino-Americano de Resuscitacion. Education in resuscitation. Resuscitation. 2003; 59: 11-43.

13. Kaye W, Mancini ME. (1986), "Retention of cardiopulmonary resuscitation skills by physicians, registered nurses, and the general public", Critical Care Medicine,14, 620-622.

14. Moser DK, Coleman S. (1992), "Recommendations for improving cardiopulmonary resuscitation skills retention", Heart Lung, 21, 372-380

15. Broomfield R. (1996), "A quasi-experimental research to investigate the retention of basic cardiopulmonary resuscitation skills and knowledge by qualified nurses following a course in professional development", Journal of Advanced Nursing, 23, 1016-1023.

16. Smith KK, Gilcreast D, Pierce K. (2008) Evaluation of staff 's retention of ACLS and BLS skills. Resuscitation;78: 59-65.