Abstract: A reduced area imaging device is provided for use in a wide variety of devices including medical or dental instruments such as an endoscope. In one configuration of the imaging device, the image sensor is placed remote from the remaining circuitry. In another configuration, all of the circuitry to include the image sensor is placed in a stacked fashion at the same location. In a first embodiment of the invention, the entire imaging device can be placed at the distal tip of an endoscope. In a second embodiment, the image sensor is remote from the remaining circuitry according to the first configuration, and wherein a control box can be provided which communicates with the image sensor and is placed remotely from the endoscope. In another embodiment, the imaging device can be incorporated in the housing of a standard medical camera which is adapted for use with traditional rod lens endoscopes.

Abstract: A reduced area-imaging device is provided for use with a miniature hand-held computer referred to in the industry as a PDA. In one configuration of the imaging device, the image sensor is placed remote from the remaining image processing circuitry. In a second configuration, all of the image processing circuitry to include the image sensor is placed in a stacked fashion near the same location. In the first configuration, the entire imaging device can be placed at the distal end of a camera module. In a second configuration, the image sensor is remote from the remaining image processing circuitry wherein available space within the PDA is used to house the remaining circuitry. In any of the configurations, the image sensor may be placed alone on a first circuit board, or timing and control circuits may be included on the first circuit board containing the image sensor.

Abstract: A reduced area imaging device is provided for use in medical or dental instruments such as an endoscope. In a first embodiment of the endoscope, connections between imaging device elements and between a video display is achieved by hard-wired connections. In a second embodiment of the endoscope, wireless transmission is used for communications between imaging device components, and/or for transferring video ready signals to a video display. In one configuration of the imaging device, the image sensor is placed remote from the remaining circuitry. In another configuration, all of the circuitry to include the image sensor is placed in a stacked fashion at the same location. The entire imaging device can be placed at the distal tip of an endoscope. Alternatively, the image sensor can be placed remote from the remaining circuitry according to the first configuration, and control box is used which communicates with the image sensor and is placed remotely from the endoscope.

Abstract: The methods of cancer screening allow for a safe, reliable, inexpensive and minimally invasive diagnosis. Cells are first collected through non-invasive or minimally invasive means. The collected cells are stored in a cell culture media. A chemical compound such as 5-ALA is introduced to the cultured cells. The cells are incubated a period of time to allow interaction between the introduced chemical compound and the collected cells. The cells are then studied under a fluorescence microscope which emits a specific frequency of light matching the excitation frequency of fluorescing abnormal cells. Pre-malignant and malignant cells will fluoresce while normal healthy cells generally will not fluoresce. In lieu of or in addition to observing the cells by the fluorescence microscope, an imager may be used to observe the cells wherein the imager includes selectable and variable charge integration capability. Observable fluorescence can be maximized by selecting the appropriate integration period.

Abstract: A reduced area imaging device is provided for use in medical or dental instruments such as an endoscope. In one configuration of the imaging device, the image sensor is placed remote from the remaining circuitry. In another configuration, all of the circuitry to include the image sensor is placed in a stacked fashion at the same location. In a first embodiment of the invention, the entire imaging device can be placed at the distal tip of an endoscope. In a second embodiment, the image sensor is remote from the remaining circuitry according to the first configuration, and wherein a control box can be provided which communicates with the image sensor and is placed remotely from the endoscope. In another embodiment, the imaging device can be incorporated in the housing of a standard medical camera which is adapted for use with traditional rod lens endoscopes.

Abstract: A reduced area imaging device is provided for use in medical or dental instruments such as an endoscope. In one configuration of the imaging device, the image sensor is placed remote from the remaining circuitry. In another configuration, all of the circuitry to include the image sensor is placed in a stacked fashion at the same location. In a first embodiment of the invention, the entire imaging device can be placed at the distal tip of an endoscope. In a second embodiment, the image sensor is remote from the remaining circuitry according to the first configuration, and wherein a control box can be provided which communicates with the image sensor and is placed remotely from the endoscope. In yet another embodiment, the imaging device can be incorporated in the housing of a standard medical camera which is adapted for use with traditional rod lens endoscopes.

Abstract: Configurations of a reduced area imaging device include the image sensor placed remote from the remaining circuitry, or all of the circuitry to include the image sensor placed in a stacked fashion at the same location. The entire imaging device can be placed at the distal tip of an endoscope or within a simple tubular structure, or the image sensor can be remote from the remaining circuitry, wherein a control box which communicates with the image sensor is placed remotely from the image sensor. The imaging device can be incorporated in the housing of a standard medical camera adapted for use with traditional rod lens endoscopes. In any of the configurations, the image sensor may be placed alone on a first circuit board, or timing and control circuits may be included on the first circuit board containing the image sensor. One or more video processing boards can be stacked in a longitudinal fashion with respect to the first board, or the video processing boards may be placed in the control box.

Abstract: The method of cancer screening allows for a safe, reliable, inexpensive and minimally invasive diagnosis. Cells are first collected through non-invasive or minimally invasive means. The collected cells are stored in a cell culture media to keep them viable. A chemical compound such as 5-ALA is introduced to the cultured cells. The cells are incubated a period of time in order for the interaction to occur between the introduced chemical compound and the collected cells. The cells are then studied under a fluorescence microscope which emits a specific frequency of light which matches the excitation frequency of light which would be required to induce flourescence of abnormal cells. Pre-malignant and malignant cells will fluoresce in response to the interaction with the introduced compound and the specific frequency of light, while normal healthy cells generally will not fluoresce. If necessary, the collected cells may be passed through a flow cytometer to more easily identify the fluorescing cells.

Abstract: A sterile enclosure is provided having a body portion for encapsulating one or more video monitors used for viewing one or more surgical areas in a sterile operating field. The enclosure may be flexible or rigid and have one or more cable drapes extending from the body to cover one or more cables associated with the video monitor. In some embodiments, the body is flexible. In another embodiment, the body is rigid. The body is transparent in at least an area for viewing the screen of the video monitor and is substantially impervious to liquid and gas. A vacuum line may be connected to the body portion to evacuate air therefrom.

Abstract: Surgical devices with removable imaging capability and methods are disclosed. The imaging capability for the surgical devices are provided by a very small microendoscope having processor circuitry at the distal end for providing a video ready signal to a monitor. Because of the small size of the microendoscope, it can be used in conjunction with many surgical instruments which traditionally do not have integral imaging capability. In one application, the microendoscope may be used with Jackson grasping forceps. In another application, the microendoscope may be used with either a stent placement catheter or balloon catheter. In yet another application, the microendoscope may be used with an over-tube tissue separating, dissecting or fulgeration device.

Abstract: A reduced area imaging device is provided for use in medical or dental instruments such as an endoscope. In one configuration of the imaging device, the image sensor is placed remote from the remaining circuitry. In another configuration, all of the circuitry to include the image sensor is placed in a stacked fashion at the same location. In a first embodiment of the invention, the entire imaging device can be placed at the distal tip of an endoscope. In a second embodiment, the image sensor is remote from the remaining circuitry according to the first configuration, and wherein a control box can be provided which communicates with the image sensor and is placed remotely from the endoscope. In yet another embodiment, the imaging device can be incorporated in the housing of a standard medical camera which is adapted for use with traditional rod lens endoscopes.

Abstract: A reduced area imaging device is provided for use in medical or dental instruments such as an endoscope. In one configuration of the imaging device, the image sensor is placed remote from the remaining circuitry. In another configuration, all of the circuitry to include the image sensor is placed in a stacked fashion at the same location. In a first embodiment of the invention, the entire imaging device can be placed at the distal tip of an endoscope. In a second embodiment, the image sensor is remote from the remaining circuitry according to the first configuration, and wherein a control box can be provided which communicates with the image sensor and is placed remotely from the endoscope. In yet another embodiment, the imaging device can be incorporated in the housing of a standard medical camera which is adapted for use with traditional rod lens endoscopes.

Abstract: A sterile operating room video monitor and video monitor support device are provided to enable a surgeon to more easily conduct endoscopic procedures. A lightweight self-contained monitor module is provided to enable the surgeon to easily manipulate the image on the video monitor of a surgical area. A video support stand which secures the video monitor in the sterile operating field allows a surgeon to precisely place the video monitor at a desired position. The video support stand includes a monitor mount which may have a plurality of apertures communicating with a source of vacuum to hold a sterile drape tightly over the monitor module screen. Alternatively, the drape may be eliminated, and a close tolerance fit is made between the monitor mount and video monitor securing it in the sterile field. This invention allows positioning of the video monitor in the natural line of sight of the surgeon as he or she performs an endoscopic procedure.

Abstract: A sterile enclosure is provided having a body portion for encapsulating one or more video monitors used for viewing one or more surgical areas in a sterile operating field. The enclosure may be flexible or rigid and have one or more cable drapes extending from the body to cover one or more cables associated with the video monitor. In some embodiments, the body is flexible. In another embodiment, the body is rigid. The body is transparent in at least an area for viewing the screen of the video monitor and is substantially impervious to liquid and gas. A vacuum line may be connected to the body portion to evacuate air therefrom. An air vent filter may be used in conjunction with the vacuum line to allow air to flow through the sterile enclosure thus cooling the video monitor therein.

Abstract: A reduced area imaging device is provided for use in medical or dental instruments such as an endoscope. In one configuration of the imaging device, the image sensor is placed remote from the remaining circuitry. In another configuration, all of the circuitry to include the image sensor is placed in a stacked fashion at the same location. In a first embodiment of the invention, the entire imaging device can be placed at the distal tip of an endoscope. In a second embodiment, the image sensor is remote from the remaining circuitry according to the first configuration, and wherein a control box can be provided which communicates with the image sensor and is placed remotely from the endoscope. In yet another embodiment, the imaging device can be incorporated in the housing of a standard medical camera which is adapted for use with traditional rod lens endoscopes.

Abstract: A sterile enclosure is provided having a body portion for encapsulating one or more monitor modules used for viewing one or more surgical areas in a sterile operating field. The video monitor can be very thin and lightweight monitor modules. The sterile enclosure may be flexible or rigid and have one or more cable drapes extending from the body to cover one or more cables associated with the video monitor. In some embodiments, the body is flexible. In another embodiment, the body is rigid. The body is transparent in at least an area for viewing the screen of the video monitor and is substantially impervious to liquid and gas. A vacuum line may be connected to the body portion to evacuate air therefrom. The video monitor may be controlled by controls located on the monitor, or may be controlled by voice activation or by a remote video control system. During use, the monitor module may be placed on or adjacent to the patient.

Abstract: An endoscope in one configuration includes an elongated cylindrical core with a transparent window at the distal end thereof. A removable housing is placed within the core along with an objective endoscope lens or optics at the distal end thereof. A photosensitive image sensor is mounted within the core. A transmitting electronic means with multiple conductors each has a distal end connected to the image sensor circuit board or image sensor and a proximal end connected to a video control unit. From the video control unit signals are transmitted to the video monitor which displays the image. A separable and disposable sheath or channel section is provided in a sterile condition and removably receives the core in a defined relationship. The sheath has at least one longitudinal channel formed around its periphery for transmitting fluids or for receiving an operative instrument or carrying light transmitting fibers.

Abstract: A sterile enclosure is provided having a body portion for encapsulating one or more video monitors used for viewing one or more surgical areas in a sterile operating field. The enclosure may be flexible or rigid and have one or more cable drapes extending from the body to cover one or more cables associated with the video monitor. In some embodiments, the body is flexible. In another embodiment, the body is rigid. The body is transparent in at least an area for viewing the screen of the video monitor and is substantially impervious to liquid and gas. A vacuum line may be connected to the body portion to evacuate air therefrom.

Abstract: An apparatus and method are provided for enclosing a non-sterile camera setup comprising a video camera, its trailing cables, and a standard optical connector for use of the unsterile camera setup in the sterile environment of an operating room. The apparatus includes a coupler having a first end for attachment to the unsterile camera setup and a second end for attachment to a sterile endoscope. A passageway is formed inside the coupler that extends from the first end to the second end thereof providing an optical pathway whereby an image from the endoscope may be transmitted to the unsterile camera setup. A transparent window is mounted transversely across the passageway between the first and second ends of the coupler providing a sterile barrier therebetween. In operation, a sterile drape is positioned over the first end of the coupler and extends over the unsterile camera setup.

Abstract: A sterile encapsulated operating room monitor video and video monitor support device are provided to enable a surgeon to more easily conduct endoscopic procedures. A lightweight self-contained monitor module is provided to enable the surgeon to manipulate the image of the surgical area. A video support stand which secures the video monitor in the sterile operating field allows a surgeon to precisely place the video monitor at a desired position. The video support stand includes a monitor mount with a plurality of apertures which communicate with a source of vacuum to hold a sterile drape tightly over the monitor module screen. This structure allows positioning of the video monitor in the natural line of sight of the surgeon as he or she performs an endoscopic procedure.