Volume Controlled Apparatus for Neonatal Tidal Liquid Ventilation

Abstract

Conventional gas ventilation is often unsuccessful for premature neonatal patients suffering from respiratory distress syndrome (RDS). For such patients, liquid ventilation (LV) with perfluorocarbon (PFC) liquids has been proposed. By eliminating the air-liquid interface in saccules (the premature gas exchange structures), where scarce or absent surfactant production exists, pulmonary instability is avoided, lung compliance is improved, and atelectatic saccules are recruited, ultimately lowering the saccular pressure. Tidal LV involves administrating a liquid tidal volume to the patient at each respiratory cycle, and therefore requires a dedicated circuital setup to deliver, withdraw, and refresh the PFC during the treatment. We have developed a prototype liquid breathing system (LBS). The apparatus comprises two subcircuits managed by a personal computer based control system. The ventilation subcircuit performs inspiration/expiration with two sets of peristaltic pumps. A system to evaluate the true inspired/expired volumes was devised that consists of two reservoirs equipped with pressure transducers measuring the hydraulic head of the fluid therein. Volume accuracy was +/- 0.3 ml. The refresh subcircuit properly processes the PFC by performing filtration (DFA, Pall, NY), oxygenation, CO2 scavenge, and heat exchange (SciMed 2500, Life Systems, MN). The new apparatus has been used in preliminary animal tests on five newborn mini pigs with induced acquired RDS. The PFC used was RM-101 (Miteni, Milano, Italy). The animals were successfully supported for 4 hours each. Mean arterial O2 pressure was 131.4 mm Hg (range 79.0-184.2), and mean arterial CO2 pressure was 64.8 mm Hg (range 60.0-73.4).