Abstract: Leakage components are described herein. The leakage component includes a first tubing housing and a plurality of leakage ports. The first tubular housing defines a first flow path between a first end portion and a second end portion. The plurality of leakage ports are formed in the first housing and in fluid communication with the first flow path. The fluid flow through the plurality of leakage ports is configured to entrain ambient air into the fluid flow exiting the plurality of leakage ports to decelerate the fluid flow.

Abstract: The disclosed system generates a three dimensional virtual space that includes an object representation of at least a portion of a human body and a first three-dimensional cylindrical surface floating within the three-dimensional space, wherein the first three-dimensional cylindrical surface includes a two-dimensional data area for a presentation of data to a user viewing the first three-dimensional cylindrical surface in the three-dimensional space. A two-dimensional data representation of first physiological data is displayed on the two-dimensional data area. In response to receiving a user selection of a portion of the three-dimensional cylindrical surface, the system generates one or more additional surfaces floating within the three-dimensional space. A two-dimensional data representation of second physiological data associated with the first physiological data is displayed on a data area of the one or more additional surfaces.

Abstract: An apparatus having a support structure, including two nasal flow passages aligned with one another and with respect to a nasal respiratory flow direction, and an oral flow passage disposed transverse to the two nasal flow passages, along an oral respiratory flow direction, the nasal flow passages and oral flow passages having thermistors to monitor a patient's respiration, and the apparatus having a thermistor for monitoring ambient conditions and an accelerometer for monitoring movement of the apparatus. The apparatus also detecting and distinguishing between oral and individual nasal air flows, and integration of the apparatus and monitored data with a network.