An apparatus for monitoring EMG signals of a patient's laryngeal muscles includes an endotracheal tube having an exterior surface. Conductive electrodes are formed on the endotracheal tube. The conductive electrodes are configured to receive the EMG signals from the laryngeal muscles when the endotracheal tube is placed in a trachea of the patient. At least wireless sensor is formed on the endotracheal tube, and is configured to wirelessly transmit information to a processing apparatus.

A bi-directionally articulable endotracheal tube includes an articulator with a lever, pivoted on a bite block that, via two attached diametrical wires threaded through the tube wall, controls an articulee with two asymmetric notches sequestrated by three nested, specialized cuffs. A connector having an oval cross-section can effectively house and stopper a video stylet whose flexible tip is nimbly responsive to the articulator. The endotracheal tube can be partially styletted for routine intubation in a direct or video laryngoscopy, or video styletted as a ubiquitous alternative to intubative fiber optic bronchoscope and in combination with a video laryngoscope for dual imaging intubation.

An inner cannula (20) for a tracheostomy tube assembly includes a thin, inner sheath (22) supported externally by a structural frame (23) having a longitudinal portion (25) and a plurality of ribs (26) extending circumferentially and spaced along the cannula. The inner cannula (20) is inserted within and is removable from an outer tracheostomy tube (1). The inner cannula (20) is made by coating a plastic layer on a core to form the sheath and then placing the sheath on a curved core. The structural frame (23) is then moulded about the sheath (22) in a mould 80.