Simultaneous measurement of force and respiratory profiles during chest physiotherapy in ventilated children

There are currently no objective means of quantifying chest wall vibrations during manual physiotherapy. The aims of the study were to ( i) develop a method to quantify physiotherapy-applied forces and simultaneous changes in respiratory flow and pressure, ( ii) assess the feasibility of using this method in ventilated children and ( iii) characterize treatment profiles delivered by physiotherapists in the paediatric intensive care unit. Customized sensing mats were designed and used in combination with a respiratory profile monitor. Software was developed to align force and flow data streams. Force and respiratory data were successfully collected in 55 children ( median age 1.6 years ( range 0.02-13.7 years)). Physiotherapists demonstrated distinctive variations in the pattern of force applied and manual lung inflations. The maximum applied force ranged from 15 to 172 N, and was correlated with the child's age ( r = 0.76). Peak expiratory flow increased significantly during manual inflations both with and without chest wall vibrations ( p < 0.05). This method provides the basis for objective assessments of the direct and independent effects of vibration forces and manual lung inflations as an essential precursor to developing evidence-based practice.