Valves and valve systems are provided that are useful for integration with inflatable indwelling medical devices to prevent over-inflation of retention balloon.

A cleaning catheter includes an inflatable element and an input module, which includes an inflation chamber coupled in fluid communication with the inflatable element. A flow regulator defines a suction port coupleable in fluid communication with a suction source. A mechanical suction-control button is configured to assume at least first and second spatial positions. A mechanical inflation-control button is configured to mechanically and non-electrically increase pressure in the interior of the inflation chamber during a transition of the mechanical inflation-control button from a first spatial position to a second spatial position; and a reversibly-engageable linking element, which is moveable with respect to the mechanical suction-control button and the mechanical inflation-control button, and is configured to assume at least a first spatial position, in which the linking element does not engage the mechanical suction-control button when the mechanical suction-control button is in its second spatial position; and a second spatial position.

This invention is a device to be used with a system for supplying anaesthetic or respiratory gases into the airway of a human or an animal. This device is a supraglottic airway device, which includes a shaft with three tubes one for ventilation purpose and rest two for dynamic cuff inflation and other for suctioning purpose. The dynamic cuff is inflated by the gases supplied directly from the anaesthesia or ventilator circuit through a specialised adaptor via dynalumen. The cuff inflation lumen (DynaLumen) will also be having a locking mechanism to enable its use like a conventional LMA; i.e., the cuff can be left continuously inflated both during positive pressure ventilation as well as less during expiratory phase and during spontaneous respiration.

An endobronchial tube comprising at least two lumens of different lengths for selectively associating with a patient about at least two locations relative to the Tracheal Carina. said tube comprising: a first lumen having an open distal end that associates proximally to the Carina within the Trachea, with a first inflatable cuff; a second lumen having an open distal end that extends distally, past the Carina and associates within one of the Left Bronchial branch and Right Bronchial branch with a second inflatable cuff; a dedicated image sensor lumen spanning the length of said first lumen, the dedicated image sensor lumen comprising an image sensor and illumination source disposed adjacent to the distal end of said first lumen, and configured to provide an image of the Tracheal bifurcation of the Tracheal Carina, the openings of the Left Bronchial branch, and the opening Right Bronchial branch; and at least one dedicated cleaning lumen disposed parallel with said dedicated image sensor lumen along the length of said endobronchial tube and wherein said cleaning lumen is configured to forms a cleaning nozzle at the distal end, wherein said cleaning nozzle is directed toward said image sensor lumen at its distal end.

Valves and valve systems are provided that are useful for integration with inflatable indwelling medical devices to prevent over-inflation of retention balloon.

System and methods for detecting precursors of VAP in a patient being ventilated. An exemplary method comprises obtaining a baseline value for a content of a particular VOC in tVOCs in exhaled breath of the patient being ventilated, trending changes of values of the content of the particular VOC in the tVOCs measured at various points of time after ventilation compared to the baseline value, determining whether the patient has potentially infected VAP based at least in part on the trending, and in response to determining that the patient has potentially infected the VAP, generating an alert.

A pressure adjustment apparatus including a pump, a selector valve coupled to the pump, and a chamber in selective fluid communication with the pump through the selector valve is disclosed. The pump includes a pump body that defines a variable volume therein, the pump body further defining a first aperture and a second aperture therethrough. The selector valve includes a first check valve disposed in a first fluid channel of a plurality of fluid channels, the first check valve being oriented to permit flow through the first fluid channel only in a first flow direction, the first flow direction being a flow direction out of the variable volume, and a second check valve disposed in a second fluid channel of the plurality of fluid channels, the second check valve being oriented to permit flow through the second fluid channel only in a second flow direction.

We describe a Tracheal Tube insertion facilitator (modified bougie) with superior ventilating capability to enable medical/paramedical personnel to place tracheal/bronchial tubes reliably in trachea/bronchus of the patients under anaesthesia or patients in respiratory distress, and provide respiratory support. This device is particularly useful in situations where the conventional tracheal intubation technique using a laryngoscope is difficult or near impossible. This device has a outer cylindrical member, inner hollow stylet and a dynamic cuff which inflates during Positive Pressure Ventilation/Jet ventilation, and hence enabling oxygenation in patients with respiratory distress even before the tracheal tube is inserted into the patient's airway.

A cuff-pressure control device includes a pump, an inner pipe connected to the pump, a pressure sensor that measures an internal pressure of the inner pipe, and a control unit that controls a cuff pressure. A cuff is separable from the cuff-pressure control device, and, in a separation state, a first space in communication with the cuff is kept airtight such that the cuff pressure is maintained. The control unit adjusts a pressure in the cuff-pressure control device to a pressure of the first space before the cuff is connected to the cuff-pressure control device in a connection state in which the cuff in the separation state is connected to the cuff-pressure control device and the cuff and the inner pipe are in communication with each other.

A system for controlling and monitoring flow in a cuffed endotracheal tube device is disclosed. The system comprises: a connector panel having at least three connectors adapted for establishing fluid communication with proximal ends of at least a first fluid line, a second fluid line and a cuff inflation line of the endotracheal tube device. The system can further comprise a processing unit and a control unit, wherein the processing unit is configured to instruct the control unit to execute various operations, including at least a rinsing procedure, a suctioning procedure, a cuff inflation procedure, a leak detection procedure and a venting procedure, and to select any of the first and the second fluid lines for any of the rinsing, suctioning, leak detection and venting procedures. In some embodiments, the system exploits the cuff as sensor to sense pulmonary data.