Consistent head up cardiopulmonary resuscitation haemodynamics are observed across porcine and human cadaver translational models

Abstract Aim The objectives were: 1) replicate key elements of Head Up (HUP) cardiopulmonary resuscitation (CPR) physiology in a traditional swine model of ventricular fibrillation (VF), 2) compare HUP CPR physiology in pig cadavers (PC) to the VF model 3) develop a new human cadaver (HC) CPR model, and 4) assess HUP CPR in HC. Methods Nine female pigs were intubated, and anesthetized. Venous, arterial, and intracranial access were obtained. After 6 min of VF, CPR was performed for 2 min epochs as follows: Standard (S)-CPR supine (SUP), Active compression decompression (ACD) CPR + impedance threshold device (ITD-16) CPR SUP, then ACD + ITD HUP CPR. The same sequence was performed in PC 3 h later. In 9 HC, similar vascular and intracranial access were obtained and CPR performed for 1 min epochs using the same sequence as above. Results The mean cerebral perfusion pressure (CerPP, mmHg) was 14.5 ± 6 for ACD + ITD SUP and 28.7 ± 10 for ACD + ITD HUP (p = .007) in VF, −3.6 ± 5 for ACD + ITD SUP and 7.8 ± 9 for ACD + ITD HUP (p = .007) in PC, and 1.3 ± 4 for ACD + ITD SUP and 11.3 ± 5 for ACD + ITD HUP (p = .007) in HC. Mean systolic and diastolic intracranial pressures (ICP) (mmHg) were significantly lower in the ACD + ITD HUP group versus the ACD + ITD SUP group in all three CPR models. Conclusion HUP CPR decreased ICP while increasing CerPP in pigs in VF as well as in PC and HC CPR models. This first-time demonstration of HUP CPR physiology in humans provides important implications for future resuscitation research and treatment.