Laryngoscope with image sensor
A laryngoscope and viewing system configured to provide imaging of a patient's airway passage during intubation is described. In one embodiment, the described device includes a handle; a blade attached to the handle, a flange attached to one side of the blade; a transmission cable connected to the opposite side of the blade; and a camera connected to the transmission cable, wherein the camera is offset from the blade in at least one of the X plane and the Y plane.
The present invention relates generally to medical devices. In particular, but without limitation, the present invention relates to a laryngoscope and viewing system configured to provide imaging of a patient's airway passage during intubation and similar medical procedures.
BACKGROUND OF THE INVENTIONIn a process known as “intubation,” an endotracheal tube is inserted into a patient's airway passage to facilitate breathing during certain medical procedures. To avoid damaging the airway passage while inserting the endotracheal tube, medical professionals generally use a laryngoscope to open and view the airway passage and to secure the patient's tongue to one side of the mouth. A typical laryngoscope includes a rigid, curved structure with a smooth tip that engages the tissue of the patient's tongue and airway passage. Laryngoscopes often also include a guide surface for directing the endotracheal tube as it is inserted into the airway passage.
Even with the use of a laryngoscope, medical professionals often damage a patient's airway passage when inserting the endotracheal tube. The reasons that medical professionals damage the airway passage center is their inability to monitor the laryngoscope and endotracheal tube as it is being inserted. To reduce the risk to patients, several modified laryngoscopes have been made. These laryngoscopes, however, are not completely satisfactory. Certain devices, for example, require two people for proper operation—a first person to insert a fiber optic or camera device into the patient's airway and a second person to operate the laryngoscope and insert the endotracheal tube.
Other systems include an integrated laryngoscope and imaging device. These systems generally come in two forms: those with integrated viewing devices and those without integrated viewing devices. Laryngoscopes with the integrated viewing device generally include a small screen attached directly to the handle of the laryngoscope. A medical professional can insert the laryngoscope into the patient's airway passage so that the imaging device captures a corresponding image thereof. The medical professional can then view the airway passage and guide the endotracheal tube to its proper location therein. By having the viewing screen attached directly to the laryngoscope, the medical professional is not forced to shift his field of vision away from the patient to monitor the insertion of the tube.
The laryngoscope with the non-integrated viewing device operates in much the same way as the laryngoscope with the integrated viewing device. The primary difference being that the laryngoscope with the non-integrated viewing device transmits the image of the airway passage to a remote viewing device such as a video monitor. The medical professional can then view the insertion of the endotracheal tube on the remote viewing device.
Although the laryngoscope with the integrated camera system contains some improvements over the basic laryngoscope, these systems are not always satisfactory. For example, in present systems, the view from the laryngoscope's camera becomes blocked as the endotracheal tube passes the end of the laryngoscope. Unfortunately, when the camera's view is blocked, the health care professional is “blind” and prone to damaging the patient's airway passage. Accordingly, a system and method are needed to address the above-described problems as well as other problems with existing laryngoscope technology.
SUMMARY OF THE INVENTIONExemplary embodiments of the present invention that are shown in the drawings are summarized below. These and other embodiments are more fully described in the Detailed Description section. It is to be understood, however, that there is no intention to limit the invention to the forms described in this Summary of the Invention or in the Detailed Description. One skilled in the art can recognize that there are numerous modifications, equivalents and alternative constructions that fall within the spirit and scope of the invention as expressed in the claims.
In one embodiment, the present invention includes a laryngoscope integrated with an imaging device such as a camera. The laryngoscope of this embodiment includes a blade for insertion into the patient's airway passage. This blade can be permanently affixed to a handle or can be removably mounted so that different blades can be connected to the handle. On one side of the blade—generally the left side—is a flange that sits perpendicular to the blade. The blade secures the patient's tongue to one side of the mouth and provides a surface for the endotracheal tube to engage as it is inserted into the airway. For proper perspective, the laryngoscope should be viewed with the handle up, the blade down and away.
The blade also includes an imaging device that can be connected externally to the blade or integrated into the blade and/or flange. Generally, the imaging device is positioned adjacent to the blade and the left side of the flange. Moreover, the end portion of the imaging device can be partially disengaged from the blade (or flange) to provide a better angle for viewing the patient's airway passage. For example, the image collection point for the imaging device could be offset from the blade in both the X plane and the Y plane. Depending upon the embodiment, the imaging device could be rigid so that the offset is fixed, or the imaging device could be flexible so that the offset is variable.
In other embodiments, the laryngoscope is equipped with a wireless transmitter for relaying images of the airway passage to a remote viewing device. Alternatively, the imaging device could be attached to the remote viewing device by a traditional wired connection. In yet another embodiment, the viewing device could be directly attached to the handle of the laryngoscope.
BRIEF DESCRIPTION OF THE DRAWINGS
Referring to
Referring now to
In addition to the camera unit 130B, the blade 125 also includes a flange 150 that is typically arranged perpendicular to the surface of the blade 125. The flange 150 is used to secure the patient's tongue away from the endotracheal tube. In particular, the flange 150 can be on the left side of the blade (when viewing the laryngoscope 105A from behind with the handle 120A pointed up) and the camera unit 130B on the left side of the flange. Mounting the flange 150 and the camera unit 130B on same side of the blade 125 can be advantageous because the view provided by the camera 140 is less obstructed by the insertion of the endotracheal tube than when the camera 140 is centered on the blade 125 or mounted to the right of center. The camera unit 130B could also be formed into the flange or secured adjacent to the right side of the flange.
This embodiment of the laryngoscope 105A includes a rechargeable power supply (not shown) that can be recharged through the contact points 155 in the handle 120A. Additionally, this embodiment includes a cable 160 for relaying image data to a remote viewing device (not shown). In other embodiments, the cable 160 could be used to transfer power to the camera unit 130B rather than using a rechargeable power supply.
Although not shown, the blade 125 can include a channel formed therein. This channel can be an open channel formed in the surface of the blade 125, or the channel can be formed in the body of the blade 125 so that it is enclosed. The channel can be used to provide oxygen to the patient during the intubation process. Alternatively, the channel could be used to provide suction at or near the tip of the blade 125 during the intubation process.
Referring now to
Unlike the laryngoscope 105A shown in
The camera unit 130C can be formed of a rigid material to prevent any flexing and subsequent shifting of the camera 140 and its viewing angle. In other embodiments, however, the camera unit 13C can be formed of a semi-rigid material that permits the camera unit 130C to be reshaped so that the curvature angle, T, can be changed and/or the camera 140 relocated in the X and/or Y planes. Additionally, in one embodiment, the camera unit 130C can be retracted or extended to better position the camera 140 and its viewing angle.
Referring now to
Referring now to
In summary, embodiments of the present invention provide an optically-enabled laryngoscope with an advantageously placed imaging device for viewing a patient's airway passage. Those skilled in the art can readily recognize that numerous variations and substitutions may be made in the invention, its use, and its configuration to achieve substantially the same results as achieved by the embodiments described herein. Accordingly, there is no intention to limit the invention to the disclosed exemplary forms. Many variations, modifications and alternative constructions fall within the scope and spirit of the disclosed invention as expressed in the claims.
Claims
1-34. (canceled)
35. An apparatus comprising:
- an intubation-scope blade having a left side right side and a centerline there between;
- a flange attached to the blade, the flange having an interior and exterior side; and
- an imaging device integrated with the interior side of the flange;
- wherein the imaging device is angled so that it points toward the centerline of the blade.
36. The apparatus of claim 35, wherein the imaging device is at least partially formed into the flange.
37. An apparatus comprising:
- a blade configured to be attached to a laryngoscope handle;
- an imaging-device mount connected to the blade, wherein the imaging-device mount is configured to engage a portion of an imaging-device;
- an imaging device connected to the imaging-device mount, the image device oriented so that it points toward a centerline of the blade; and
- a display-device mount connected to the blade, wherein the display-device mount is configured to attach a display device to the blade.
Type: Application
Filed: Aug 10, 2004
Publication Date: Feb 24, 2005
Inventors: William Mazzei (San Diego, CA), Terence Davidson (Poway, CA), Steven Richieri (San Diego, CA)
Application Number: 10/915,072