Abstract
Newborn infants, mainly those born prematurely, often require respiratory support with a varying concentration of the fraction of inspired oxygen (FiO$_{\mathbf {2}}$) to keep the peripheral oxygen saturation (SpO$_{\mathbf {2}}$) within the desired range to prevent adverse health effects due to both high and low SpO$_{\mathbf {2}}$. Manual adjustment, by nurses, is the common practice. However, the efficacy of the manual control is questionable. A novel automatic controller is evaluated clinically with application to one human subject at a high target SpO$_{\mathbf {2}}$. The automatic controller demonstrated the ability to improve oxygen saturation control over the everyday routine manual control by increasing the proportion of time where SpO$_{\mathbf {2}}\textbf{v}$alues were within the desired range.
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