Download PDF

Nursing In Critical Care

Publication date: 2021-04-21
Volume: 27 Pages: 275 - 281
Publisher: Wiley

Author:

Torsy, Tim
Deswarte, Wim ; Beeckman, Dimitri ; Karlberg-Traav, Malin

Keywords:

Science & Technology, Life Sciences & Biomedicine, Nursing, alternating air mattress, basic life support, cardiopulmonary resuscitation, chest compressions, dynamic mattress, HOSPITAL CARDIAC-ARREST, LIFE-SUPPORT, GUIDELINES, FORCE, DEPTH, CPR, Beds, Cardiopulmonary Resuscitation, Health Personnel, Heart Arrest, Humans, Manikins, 1110 Nursing, 3202 Clinical sciences, 4205 Nursing

Abstract:

BACKGROUND: In-hospital cardiac arrest is a medical emergency that occurs on a regular basis. As patients most at risk for an in-hospital cardiac arrest are usually positioned on a dynamic mattress, it is important to measure the effect of mattress compressibility on chest compression quality during cardiopulmonary resuscitation (CPR). High-quality CPR is essential for patient survival and good neurological outcome. AIMS AND OBJECTIVES: To examine the effect of an inflated dynamic overlay mattress on chest compression quality during CPR and to explore the predictive effect of health care providers' anthropometric factors, hand positioning and mattress type on chest compression frequency and depth. DESIGN: Manikin-based single-blinded randomised controlled trial. METHODS: Nursing students (N = 70) were randomised to a control (viscoelastic foam mattress) or intervention group (inflated dynamic overlay mattress on top of a viscoelastic foam mattress) and had to perform chest compressions over a 2-minute period. Compression rate, depth and hand positioning were registered. The 2015 European Resuscitation Council (ERC) guidelines were used as a reference. RESULTS: The mean difference in chest compression depth between control and intervention groups was 2.86 mm (P = .043). Both groups met the guidelines for adequate chest compression quality, as recommended by the ERC. A predictive effect of health care providers' body height and weight, mattress type and hand positioning on compression depth could be demonstrated (P = .004). CONCLUSIONS: CPR in bedridden patients on a dynamic overlay mattress has a negative effect on the quality of chest compressions. Mean chest compression depth decreases significantly. However, clinical significance of the results may be debatable. Mattress type, body weight and hand positioning appear to be significant predictors for adequate chest compression depth. RELEVANCE TO CLINICAL PRACTICE: A firm surface under the patient is needed during CPR. Special attention must be paid to correct hand positioning during CPR.