SPIRAL SLIT ENDOTRACHEAL TUBE

Abstract

An endotracheal tube comprising a flexible hollow tube with a spiral slit traversing a substantial length of the tube. The slit has edges that separate to create an opening by which the tube may be spiral wound onto a medical device, such as a fiber optic bronchoscope, that is in use in a pharynx passage. The angle of the slit is preferably in the range of 30-60 degrees.

Claims

1. A method for spirally winding an endotracheal tube onto a medical device already in use in a laryngo-tracheo-bronchial tree, the endotracheal tube comprising a flexible hollow tube, a spiral slit traversing a substantial length of the tube, the slit having edges that separate to create an opening by which the tube may be spiral wound onto the medical device, said method comprising: starting at a distal end of the endotracheal tube, separating the spiral slit and placing the distal end of the endotracheal tube over the medical device at an accessible location along the length of the medical device; and spirally winding the endotracheal tube around the medical device and advancing the endotracheal tube along the medical device until the endotracheal tube is fully wound over the medical device.

Description

BRIEF DESCRIPTION OF THE DRAWING

[0013] FIG. 1 is a perspective view of the spiral slit endotracheal tube according to this invention; and

[0014] FIG. 2 is a perspective view illustrating how the tube of FIG. 1 is wound over a bronchoscope.

DESCRIPTION OF THE PREFERRED EMBODIMENT

[0015] Referring now to FIG. 1, the spiral slit endotracheal tube 10 is a flexible plastic tube made from the same material normally used to manufacture conventional endotracheal tubes. Such devices are well known in the art and sold by companies such as Mallinckrodt. See for example, http://www.covidien.com/rms/brands/mallinckrodt

[0016] The tube is generally made of clear plastic with an internal diameter of 6-8 mm. It will be understood that this size may be varied as a function of patient use. Thus, a device for pediatric use would be sized appropriately smaller. Conventionally, the tube is made with a radiopaque line 12. It has a distal end 14 which is rounded, tapered or otherwise smoothed to facilitate entry. The distal end may be blunt, as illustrated, or angled. The proximal end has a connector piece 16 that is inserted into the tube and includes a stop plate 18 which also provides surfaces for securing holding the tube. The tube 10 optionally has a side port 22.

[0017] In accordance with this invention, the tube 10 has a spiral slit 20 running from the distal end 14 to the zone near the side port 22. The slit 20 allows the sidewall of the tube to be separated such that the tube can be wound on to a bronchoscope. The angle of the helix is chosen to facilitate this mounting of the tube and then close, yet not be so loose that the tube does not remain in position. Typically the angle of the helix is in the range of 30-60 degrees. The walls of the slit may themselves be angled or tapered to allow spreading and then secure closing after mounting over the bronchoscope.

[0018] Referring now to FIG. 2 the operation of the device according to this invention will be described. A bronchoscope 30 has already been inserted either through the nasopharynx or oropharynx and the distal end 32 is advanced caudally into the laryngo-tracheo-bronchial tree. As mentioned this device is conventionally used for both diagnostic and therapeutic purposes. During such procedures it is sometimes necessary to maintain control of the airway without first removing the bronchoscope. Starting at the distal end 14, the endotracheal tube 10 is spiral wound over the bronchoscope 30 at a location where the clinician has access to stabilize the scope and by tactile action spread the slit over it. Once the distal end 14 is circumferentially mounted, the rest of the tube 10 is spirally wound on and the tube 10 advances on the bronchoscope 30. When the tube 10 advances to the side port 22, mounting is complete and the stop plate 18 is properly located. The bronchoscope 30 may be then be withdrawn as the airway is maintained by the tube 10.

[0019] In addition, the spiral slit endotracheal tube could provide a channel for completing endotracheal tube placement in cumbersome situations forcing the use of a fiberoptic bronchoscope for establishing airway access. In this scenario, after winding on the spiral slit endotracheal tube over the fiberoptic bronchoscope the fiberoptic bronchoscope is withdrawn and replaced by the endotracheal tube replacement obturator and leaving the endotracheal tube replacement obturator within the laryngo tracheal tree a standard orotracheal tube can be placed over the endotracheal tube replacement obturator followed by removal of the endotracheal tube replacement obturator and leaving the standard endotracheal tube in place within the orotracheal airway. Finally, the endotracheal tube is secured and the cuff of the distal portion of the endotracheal tube is inflated in the standard manner so that the distal tip of the secured endotracheal tube is 2 cm rostral to the carina.

[0020] This invention is subject to other departures and modifications without departing from the essential scope thereof. For example, while the preferred embodiment has been described with respect to bronchoscope, the device according to this invention may be used with other endotracheal devices. An example is use with a replacement obturator to establish initial airway control for the subsequent placement of instruments and/or a tracheal tube.

[0021] Also, while the angle of the slit is preferably a helix, it is apparent that as a function of length and the material the angle may be adjusted within a wide range. In an extreme case the slit itself could be 0 degrees, that is, aligned with the longitudinal axis of the tube, so long as it self-seals as it is advanced around the bronchoscope.