Chest wall motion before and during mechanical ventilation in children with neuromuscular disease

Abstract

Patients with neuromuscular disease can display paradoxic motion of the rib cage (RC) and abdomen (AB), which increases the work of breathing and predisposes to respiratory muscle fatigue. Long-term mechanical ventilation can reverse chronic hypercapnea and decrease the work of breathing in these patients. Changes in chest wall motion (CWM) that occur during mechanical ventilation have not been studied. We have assessed CWM using a calibrated respiratory inductive plethysmograph before and during mechanical ventilation in 5 children and young adults with neuromuscular disease and paradoxic breathing at rest. Asynchrony of CWM was quantitated by measuring the phase shift, 0, between RC and AB motion (0° = synchronous motion, 180° = paradoxic motion). The volume contribution of the paradoxing compartment totidal volume (PC/V_T,) was calculated. Before mechanical ventilation, mean±SEM VT was 122±17 mL, 0 was 131±15°C, and PC/V_T was −27±6%. During mechanical ventilation, V_T increased to 274±17 mL (P < 0.05), 0 decreased to 41±14° (P < 0.05), and PC/V_T increased to +39±9% (P < 0.02). We conclude that mechanical ventilation improves RC/AB asynchrony and reverses the negative contribution to tidal volume of the paradoxing compartment in children and young adults with neuromuscular disease. This implies that mechanical ventilation assumes most or all the role of the respiratory pump in these patients, which provides a rationale for the use of chronic or nighttime ventilation in the treatment of respiratory muscle fatigue. Assessment of CWM may be useful in the determination of optimal ventilator settings in this population. Pediatr Pulmonol. 1993; 16:89–95.