Abstract: A bioreactor chamber assembly comprising a cap and a base capable of being coupled together axially to define an internal chamber. The cap and base comprise interengaging formations that are coupled together by a twist-lock rotation of the base and cap to provide a fluid tight seal between the base and cap via respective sealing surfaces.

Abstract: A bioreactor chamber assembly comprising a plurality of components interconnected together via interengaging formations to provide a bioreactor chamber that is assembled rapidly and having reliable intercomponent seals. A variety of different biological samples may be cultured within the chamber in vitro. By configuring the chamber with both liquid and a gas inlets and outlets, a controlled gas-liquid interface is created within the chamber to simulate certain in vivo cell and tissue environments.

Abstract: A bioreactor chamber assembly comprising a cap and a base capable of being coupled together axially to define an internal chamber. The cap and base comprise interengaging formations that are coupled together by a twist-lock rotation of the base and cap to provide a fluid tight seal between the base and cap via respective sealing surfaces.

Abstract: An apparatus and method of detecting COPD and in particular, emphysema utilizes a change in acoustic transmission characteristics of a lung due to e.g. the appearance of fenestrae (perforations) in the alveoli of the lung. The use of acoustic signals may provide good sensitivity to the existence of alveolar fenestrae, even for microscopic emphysema, and the appearance and increase in fenestrae may be determined by monitoring acoustic transmission characteristics such as, for example, an increase in acoustic signal velocity and velocity dispersion, and/or a change in attenuation. A transmitter may be located in e.g. the supra-clavicular space and receivers may be mounted on the chest. Measurements may be correlated between pairs of receivers to determine acoustic transmission profiles.

Abstract: The present invention relates to a method of determining at least one bodily characteristic or condition, such as that of an animal, such as a human, for example. According to an aspect of the invention, the method relates to determining at least one bodily characteristic of a lung or an airway, merely by way of example, by introducing at least one sound to at least one first bodily location, and recording at least one sound from at least one second bodily location. The present invention also relates to an apparatus capable of such determination.

Abstract: Airway monitoring apparatus 30 includes a driver 6 for applying sound in the audible frequency range to the airway of a subject and a detector 7 for monitoring the response of the airway, e.g. by detecting transmitted sound signal components and/or reflected sound signal components. Variations in the detected sound signal, e.g. energy, due to attenuation of the signal, give an indication of the state of the airway, e.g. airway patency, and can be used to monitor sleep-disordered breathing events, such as apnea and hypopnea, and to provide a breathing event index, e.g. AHI. The apparatus may provide servo-control for a respiratory assist device, such as a positive airway pressure device, so as to provide an appropriate pressure level setting. It may allow for home use of such devices and for home titration. It may also assist in discriminating central and obstructive breathing events, and in providing a measure of airway resistance.

Abstract: A method of measuring tissue mobility includes applying an oscillatory force to a region of tissue and measuring the velocity with which the tissue moves in response to the applied force. Tissue mobility is then determined by a ratio of the tissue velocity to the applied force.