DUAL VIEW ENDOSCOPE
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Abstract
The present invention relates to an endoscope, more specifically to an endoscope that provides both forward view and rear view of a hollow body organ. It comprises of a rear view module that contains a rear image lens and a rear illumination bulb. The rear view module is designed and is attached to a conventional endoscope in a way that when deployed, the rear image lens and the rear illumination bulb face backward. In this position, the rear image lens provides a rear view and the rear illumination bulb illuminates the area under view of the rear image lens. The present invention enables the operator to obtain forward and rear views of a hollow organ either separately or simultaneously. The ability to obtain forward and rear view at the same time enables the operator to perform a complete examination of a hollow organ that includes both forward and rear view in a single insertion.
The present invention enables surgical procedures to be performed in areas that are otherwise inaccessible and out of view of conventional endoscopes. This is made possible by a rear instrument channel located proximal to the rear view module. The present invention also improves distension and visualization of a hollow internal organ by having a rear air/water channel also located proximal to the rear view module. The present invention widens the field of vision of conventional endoscopes by enabling the addition of more than one forward image lens and more than one forward illumination bulb.
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Citations
57 Claims
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1-39. -39. (canceled)
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40. A method of examining a hollow body cavity comprising:
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providing a first portion of an endoscope, wherein the first portion includes a proximal end, a distal end, and a longitudinal channel; receiving a first image from a first image receiver coupled to the first portion, wherein the first image receiver is directed toward a first direction to receive the first image; advancing a module at least partially through the channel, wherein the module includes a module distal end and a module bending portion; coupling a second image receiver to the module distal end; flexing the module bending portion to move the second image receiver relative to the first image receiver; and receiving a second image from the second image receiver when the second image receiver is directed toward a second direction, wherein the first direction is generally opposite the second direction. - View Dependent Claims (41, 42, 43, 44, 45, 46, 47, 48)
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49. A method of examining a hollow cavity within an organ comprising:
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providing a first portion of an endoscope, wherein the first portion includes a proximal end, a distal end, an endoscope bending portion interposed therebetween, and a longitudinal channel formed through at least the distal end and generally defining a channel axis within the distal end; receiving a first image from a first image receiver coupled to the first portion, wherein the first image receiver is directed toward a first direction to receive the first image and the first direction is generally parallel to the channel axis; advancing a module at least partially through the channel, wherein the module includes a module distal end and a module bending portion; coupling a second image receiver to the module distal end; flexing the module bending portion to move the second image receiver relative to the first image receiver; receiving a second image from the second image receiver when the second image receiver is directed toward a second direction, wherein the first direction is generally opposite the second direction; and displaying the first image on a display screen. - View Dependent Claims (50, 51, 52, 53, 54, 55, 56, 57)
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Specification