A cuff assembly for an airway tube includes an outer bladder and an inner cuff. The inner cuff is positioned adjacent to the airway tube, and the outer bladder is positioned adjacent to the inner cuff. The outer bladder is made with a less elastic material and operates at a higher relative pressure. The inner cuff is made with a more elastic or hyper-elastic material and operates at a lower relative pressure. A pressure controller independently adjusts the pressure within the inner cuff and the outer bladder. A secretion collection receptacle is formed by the cuff assembly and is evacuated via a suction catheter or channel.

A medical system comprises an operation console, a support platform configured to support a catheter, a driving unit moveably coupled to the support platform, the driving unit being configured to advance or retract the catheter based on an instruction from the operation console, a support platform configured to support a catheter, a separator device including: a first end, a second end opposite the first end, and a fixed length portion between the first end and the second end, and a medical tube adaptor including: a first end, and a second end opposite the first end and mateable with a medical tube. The medical tube is insertable into a mouth of a patient. The second end of the separator device is mateable with or attached to the first end of the medical tube adapter.

A surgical system includes an endotracheal system and intubation system. The intubation system includes an introducer rod and intubation instrument. The intubation instrument includes: an esophageal tube, intubation tube, endoscopic camera tube, and balloon located distally beyond a distal end of the intubation tube. The introducer rod is insertable through the intubation tube to a position where an endoscopic camera in the endoscopic camera tube has a line of sight to a distal end of the introducer rod. The balloon is movable from a deflated condition to an inflated condition in which the balloon fully occludes the esophageal opening to block advancement of the introducer rod into the esophagus and urge the introducer rod into the trachea. The intubation tube is removable from the patient leaving behind the introducer rod, such that the introducer rod is guides an endotracheal tube of the endotracheal system into the patient's trachea.

A ventilation system that includes a pressure source, a pneumatic path configured to receive gas from the pressure source and comprising a first pneumatic component coupled to a second pneumatic component. The first pneumatic component includes a first electrical conductor including a first electrical component having a first electrical characteristic. The second pneumatic component comprises a second electrical conductor including a second electrical component having a second electrical characteristic. The first electrical conductor is electrically connected with the second electrical conductor in an electric path. The system performs operations including determining a continuity of the electrical path; displaying a notification regarding the continuity of the electrical path; detecting the unique electrical characteristic of the electric path; and determining a pneumatic characteristic of the pneumatic path.

A ventilator mask and a joint thereof are provided. The ventilator mask includes a ventilator mask body and the joint. The joint includes a joint body, an upper cover, and a perforated cover. The joint body includes a first end portion, a second end portion, and a third end portion. The first end portion is configured to be movably connected to the ventilator mask body. The third end portion is configured to communicate with an oxygen source. An opening is disposed between the first and second end portions. The upper cover is pivotally connected to the joint body for closing or opening the opening. The perforated cover is disposed on the second end portion. The perforated cover has a through hole for insertion of a tube. The ventilator mask can be airtightly fitted to the patient’s face. There is no need to remove the ventilator mask for performing sputum suction.

An intubation device for use in an endotracheal intubation procedure includes: a laryngoscope blade having a tip and a base; a handle attached to the base of the blade; a channel, the channel including a blade channel portion extending along the blade substantially from the tip to the base and including an outlet proximate to the tip and a handle channel portion extending partially along the handle from the blade channel portion; and a tube movement mechanism in the handle, the tube movement mechanism including a thumb interface.

A method for cleaning the lens of a visualization device integrated into a ventilation tube positioned inside a patient, wherein the tube comprises a ventilation lumen and the lens is positioned proximal to the distal end of the ventilation lumen, the method comprising providing a suction catheter comprising a brush at its distal end; positioning the catheter inside the ventilation lumen such that the brush protrudes from the distal end of the ventilation lumen; and manipulating the catheter at its proximal end to cause the brush to make contact with the lens in order to clean the lens.

Systems and methods for fluid delivery into a ventilation system are disclosed. In an example, the technology relates to a fluid delivery system for delivery of aerosolized liquid. The fluid delivery system includes an injection tip having a set of orifices configured to aerosolize a liquid having certain properties. The injection tip may be couplable with components of a breathing circuit. For example, the injection tip may be couplable with components at or below a wye component (e.g., at a wye component or between the wye component and a patient), such as at the wye component or at an endotracheal tube multi-port connector. Alternatively, the injection tip may be integrated into a breathing circuit, such as at an endotracheal tube connector or at an endotracheal tube.

Systems and devices for monitoring, detecting, and removing fluid build-up found at various regions along a tracheal tube of an intubated patient. The fluid management system includes pressure and flow sensors for detecting whether there is fluid at the various regions along the tracheal tube, and a means for drawing out the fluid into collection jars. The system also includes lavage features that is able to rinse different the various regions along a tracheal tube. Also disclosed are respiration insertion devices that either couple to existing tracheal tubes or incorporate tracheal tubing, where the respiration insertion body has channels and ports that contact various regions along the tracheal tube. The combination of the fluid management system and the respiration insertion devices effectively monitor and remove fluid at various locations along a tracheal tube of an intubated patient.

An intubation system includes: a base configured to be secured relative to a subject; a guide movably coupled to the base to allow the guide to move relative to the base; and a connector configured to be connected to a distal end of the guide and to detachably connect to an endotracheal tube such that as the guide is moved relative to the base toward the subject, the endotracheal tube is inserted into the subject.