The present invention provides an oral device that is inserted into the mouth of a patient during sedation to minimize the risk of airway obstruction and method of use. The oral device comprises a mouthpiece. A gas inlet conduit, a gas outlet conduit, and a fluid outlet conduit are adjacent to the vestibular portion of the mouthpiece. The gas inlet conduit may be used to provide oxygen to the mouth of a patient. The gas outlet conduit may be used to remove end-tidal carbon dioxide from the mouth of a patient. The fluid outlet conduit may be used to remove fluid from the mouth of a patient. The oral device may also include a tongue stabilizer to minimize movement of the tongue. The mouthpiece may include fluid outlet ports to remove fluid from the mouth of a patient and an instrument passage to allow medical instruments to pass through the oral device.

An intubation assembly, shield assembly and related systems configured to at least partially reduce the risk of contagion from airborne illnesses. The shield assembly may be operatively connected to a vacuum system to exert a negative pressure and/or may be used as a standalone component as a barrier to reduce contamination of the local environment between therapies, treatments and/or procedures. The shield assembly may comprise ports to attach a vacuum device to provide negative pressure. An intubation apparatus assembly may be disposed on the shield assembly. The shield assembly comprises a body with a plurality of side segments and/or a transparent component(s) with a shield opening disposed thereon. The shield opening may be used for insertion of the intubation apparatus. The shield assembly may also comprise another transparent component with a longitudinally disposed slot(s) for insertion of an endotracheal tube or other intubation apparatus(es).

A user interface convertible between a nasal configuration and an oral configuration. The user interface has a nasal cannula and a mouthpiece. The nasal cannula has a body portion and at least one prong extending from the body portion, the prong being adapted to direct a flow of gas into a nare of a user's nose. The mouthpiece is adapted to engage the mouth of the patient and direct a flow of gas into a user's mouth. In the nasal configuration the prong of the nasal cannula is adapted to direct a flow of gases into a nare of the patient. In the oral configuration, the nasal cannula is engaged with the mouthpiece such that a gases flow is provided to at least the mouth of the user.

An oral medical apparatus includes a flexible tube with a first portion adjacent a proximal end of the tube and a second portion adjacent to the first portion. A support is located within the upper portion to prevent compression or collapse of the upper portion of the tube. The oral medical apparatus can accommodate a rigid connector that may be directly coupled to an anesthesia breathing circuit or a medical breathing device.

An intubation assembly and shield configured to at least partially reduce the risk of contagion of airborne illnesses. The intubation assembly comprises an intubation apparatus assembly, which may comprise an intubation apparatus such as a laryngoscope, endoscope, bronchoscope, or other fiberoptic device. The intubation apparatus assembly may be operatively disposed on the shield assembly. The intubation apparatus may be placed on a correspondingly dimensioned sleeve. The shield assembly comprises a body with a plurality of side segments and a first transparent component with a shield opening disposed thereon. The shield opening may be used for insertion of the intubation apparatus assembly. The shield assembly may also comprise a second transparent component with at least one longitudinally disposed slot for insertion of an endotracheal tube or other intubation apparatus(es). The shield assembly may be provided with ports to attach a vacuum device to provide negative pressure.

An oropharyngeal glove (OPG) is provided for use in a rigid or flexible bronchoscopy procedure and for anesthesia recovery. Portions of the OPG conform to portions of the patient's mouth and throat. During a bronchoscopy procedure, the bronchoscope tube passes through an opening in a proximal end of the OPG, through the OPG and through an opening in a distal end of the OPG into the patient's trachea. A protective lining of the OPG protects the patient's mouth, throat and vocal cords from being damaged by the bronchoscope tube. A tubular extension disposed on the proximal end of the OPG provides the opening through which the bronchoscope tube first passes. Post procedure, the tubular extension can act as an airway device that connects to a ventilator machine to deliver air to the patient, thereby obviating the need to install a separate airway device to ventilate the patient during anesthesia recovery.

The present invention provides medical devices comprising a camera combined with a second device selected from an endotracheal tube, oral airway, supraglottic airway, tracheostomy tube, suction catheter, tubeless intubating device, tool tube and/or stylet. The present invention also provides methods for rapid and accurate placement of a medical device in a patient with a guidance of a bougie and continuous real-time monitoring, including a remote monitoring, of the patient after the placement.

Provided is an orogastric tube guide that can be used to accurately and quickly place an orogastric tube into the esophagus of a subject. In some embodiments, the orogastric tube guide is placed into the mouth of the subject after the subject has been intubated with an endotracheal tube. When placed in the midline of the subject's mouth, the disclosed orogastric tube guide aims placement of an orogastric tube towards the subject's esophagus. The orogastric tube guide also optionally contains a bite block to prevent a patient's teeth from clamping down on an endotracheal tube. The orogastric tube guide also optionally contains ports that can be attached to air tubing for providing supplemental oxygen after endotracheal extubation, thereby avoiding the need for nasal cannula.

A laryngoscope system includes a body having a handle and an arm, a camera mounted on a distal end of the arm, and a removable blade having a channel sized to fit over the arm to couple the blade to the body. The blade includes a magnet, and a sensor disposed in the body is responsive to the magnet. The laryngoscope system also includes a processor disposed in the body and programmed to enable at least one monitoring function in response to a signal from the sensor.

A patient respiratory interface for use in an aerosol delivery system is disclosed. The interface may provide a mechanism for introducing an aerosolized medicament to infants without the need for invasive intubation when treating issues in infants such as infant respiratory distress syndrome. The interface may include an outer body formed in the shape of a pacifier where the insertion portion of the pacifier may be hollow and have an opening to guide a catheter or other tubing that may be passed through a flange and the insertion portion of the interface. The catheter may be recessed from or extend slightly out of the tip of the insertion portion so that a flow of nebulized medicament may be delivered to the patient's oropharynx in aerosol form.