Baukje Hemmes1, Luuk A de Wert2, Peter R G Brink3, Cees W J Oomens4, Dan L Bader5, Martijn Poeze6. 1. Network Acute Care Limburg, Maastricht University Medical Center, Maastricht, The Netherlands. 2. Department of Surgery, Maastricht University Medical Center, Maastricht, The Netherlands. 3. Network Acute Care Limburg, Maastricht University Medical Center, Maastricht, The Netherlands; Department of Surgery, Maastricht University Medical Center, Maastricht, The Netherlands. 4. Biomedical Engineering Department, Eindhoven University of Technology, Eindhoven, The Netherlands. 5. Biomedical Engineering Department, Eindhoven University of Technology, Eindhoven, The Netherlands; Faculty of Health Sciences, University of Southampton, Southampton, United Kingdom. 6. Network Acute Care Limburg, Maastricht University Medical Center, Maastricht, The Netherlands; Department of Surgery, Maastricht University Medical Center, Maastricht, The Netherlands; NUTRIM School of Nutrition and Translational Research in Metabolism, Maastricht University, Maastricht, The Netherlands.
Abstract
BACKGROUND: Spinal immobilisation using a rigid long spineboard is a well-established procedure in trauma care. During immobilisation, the body is exposed to high tissue-interface pressures. This may lead to a localised inflammatory response of the skin, which may be used to monitor the body's response to different types of immobilisation device. AIM: In this study we compared the standard rigid spineboard with a new soft-layered spineboard regarding tissue-interface pressures, skin redness as an indicator of reactive hyperaemia and cutaneous IL1α and lactate release. METHODS:Twelve healthy male participants were asked to lie supine on both a rigid and a soft-layered spineboard, loading the sacrum for one hour, followed by one hour in unloaded position. Tissue-interface pressures on the buttocks during loading were measured continuously using a pressure mapping mat. Cutaneous IL1α and lactate concentrations were assessed using Sebutapes, during 20-min periods. After each 20-min period, a photo of the buttocks was taken, which was later assessed for redness by two observers. RESULTS: Significant differences in tissue-interface pressure and reactive hyperaemia were found between the two types of spineboard. Release of IL1α and lactate were found to increase with prolonged exposure to pressure, and to decrease in the unloaded prone position. A significant relationship was found between tissue-interface pressure and reactive hyperaemia, but not with IL1α nor lactate release. Time course of IL1α and lactate release was similar for both types of spineboard. CONCLUSIONS: IL1α and lactate both have a strong relationship with pressure exposure time, but not with pressure magnitude. Furthermore, IL1α was measured even in the absence of visible redness of the skin. The study offers the potention of biomarkers, reflecting inflammation and/or tissue metabolism, for use in assessing the effects of prolonged spineboard support.
RCT Entities:
BACKGROUND: Spinal immobilisation using a rigid long spineboard is a well-established procedure in trauma care. During immobilisation, the body is exposed to high tissue-interface pressures. This may lead to a localised inflammatory response of the skin, which may be used to monitor the body's response to different types of immobilisation device. AIM: In this study we compared the standard rigid spineboard with a new soft-layered spineboard regarding tissue-interface pressures, skin redness as an indicator of reactive hyperaemia and cutaneous IL1α and lactate release. METHODS: Twelve healthy male participants were asked to lie supine on both a rigid and a soft-layered spineboard, loading the sacrum for one hour, followed by one hour in unloaded position. Tissue-interface pressures on the buttocks during loading were measured continuously using a pressure mapping mat. Cutaneous IL1α and lactate concentrations were assessed using Sebutapes, during 20-min periods. After each 20-min period, a photo of the buttocks was taken, which was later assessed for redness by two observers. RESULTS: Significant differences in tissue-interface pressure and reactive hyperaemia were found between the two types of spineboard. Release of IL1α and lactate were found to increase with prolonged exposure to pressure, and to decrease in the unloaded prone position. A significant relationship was found between tissue-interface pressure and reactive hyperaemia, but not with IL1α nor lactate release. Time course of IL1α and lactate release was similar for both types of spineboard. CONCLUSIONS: IL1α and lactate both have a strong relationship with pressure exposure time, but not with pressure magnitude. Furthermore, IL1α was measured even in the absence of visible redness of the skin. The study offers the potention of biomarkers, reflecting inflammation and/or tissue metabolism, for use in assessing the effects of prolonged spineboard support.
Authors: Jule Bessler; Gerdienke B Prange-Lasonder; Leendert Schaake; José F Saenz; Catherine Bidard; Irene Fassi; Marcello Valori; Aske Bach Lassen; Jaap H Buurke Journal: Front Robot AI Date: 2021-03-22