TY - JOUR T1 - Performance Comparison of 4 Portable Oxygen Concentrators JF - Respiratory Care SP - 433 LP - 442 VL - 55 IS - 4 AU - Robert L Chatburn AU - Thomas J Williams Y1 - 2010/04/01 UR - http://rc.rcjournal.com/content/55/4/433.abstract N2 - BACKGROUND: Several portable oxygen concentrators (POCs) have become available in the United States. Technical trade-offs are made in designing POCs, so their performance is expected to differ. METHODS: We tested 4 POC models (Invacare XPO2, Respironics EverGo, AirSep FreeStyle, and Inogen One) for oxygen delivery as a function of respiratory rate. We measured oxygen volume per pulse, pulse duration, trigger sensitivity, oxygen concentration in the gas delivered by the POC (measured with a ceramic-based oxygen sensor), and relative fraction of inspired oxygen (relative FIO2), measured with a setup that included an adult nasal cannula, a model nares, and a lung simulator that has a built-in oxygen sensor. We studied respiratory rates of 15, 20, 25, 30, and 35 breaths/min, at a tidal volume of 500 mL. RESULTS: The XPO2 had the highest pulse flow, and FreeStyle had the lowest, which corresponded to the highest and lowest pulse volumes (40.8 mL and 18.2 mL respectively) at POC setting 2, at 15 breaths/min. The range of oxygen purity was 91.9–94.4% (P = .36). The Inogen had the shortest pulse-delivery time, and the XPO2 had the longest (132 ms vs 281 ms, P < .001). The FreeStyle had the highest trigger sensitivity, and the Inogen the lowest (0.15 cm H2O vs 0.21 cm H2O, P < .001). At the maximum settings, with all 4 POCs, relative FIO2 decreased as respiratory rate increased (relative FIO2 range 28.6–31.4% at 15 breaths/min, 23.0–25.3% at 30 breaths/min). CONCLUSIONS: These 4 POC models have markedly different performance, which emphasizes the need to adjust the POC setting to meet the specific patient's needs at rest and with activity. ER -