Abstract: A method of controlling an electrosurgical system is described, the system including an electrosurgical generator and an electrosurgical instrument connected to the generator by means of a cable. A radio frequency signal is supplied to the electrosurgical instrument at an operating frequency, and the voltage of the radio frequency signal is monitored at a frequency corresponding to the frequency of a resonant circuit established by the electrosurgical instrument together with the cable. The monitored voltage is capable of indicating the initiation of arcing from the electrosurgical instrument, such that the voltage of the radio frequency signal can be adjusted in response to the monitored voltage at the resonant frequency. The magnitude of the monitored voltage is an indication of the degree of arcing. An electrosurgical system including an arc detector is also disclosed.

Abstract: Overview images that represent the overview of a structure (e.g., the large intestine) are generated based on volume data, and displayed on a screen. Points within the overview images and points corresponding thereto in the volume data are set as target points. A target volume that includes the target points and line of sight vectors within the volume data having the target points as endpoints and a movable viewpoint as a starting point are set within the volume data. The directions of the line of sight vectors are changed by moving the viewpoint, and the target volumes are projected onto projection planes perpendicular to the directions of the line of sight vectors to generate detailed images that represent details of the structure in the vicinity of the target points. The detailed images are displayed on the screen.

Abstract: The system for intubation comprises:—a disposable sterile endotracheal tube (30) having proximal (30P) and distal (30D) end. It is essentially characterized with:—a disposable removable sterile optical fiber bundle (20) having a proximal (20P) and a distal (20D) end, to be inserted into the airway lumen 30P (32) of said endotracheal tube (30), so that said distal end (20D) is capable of illuminating a region of said distal end (30D), and of collecting an image of said illuminated region, and—a module (10) comprising a screen (11) and a light source (12), to be connected to said optical fiber bundle (20) to provide light to the distal end (20D) of said optical fiber bundle (20), and to display on the screen (11) said image collected from the distal end (20D) of said optical fiber bundle (20).

Abstract: A medical system includes an endoscope apparatus including a plurality of insertion portions and a main unit supporting them; a sheath unit attachable to a biological subject and having a through-hole through which the insertion portions can be passed; a monitor; barcodes from which the insertion portions issue identification information; an identification-signal generating unit that acquires the identification information from the barcodes and outputs this to the main unit every time the insertion portions pass through the through-hole; wherein the main unit includes an image selector that displays, on the monitor, an image acquired by the insertion portion identified by the main unit as having being have passed through the sheath unit on the basis of the identification information from the identification-signal generating unit.

Abstract: A component identification system for identifying an industrial machine component in situ is disclosed herein. In an embodiment, a computer system is provided which is configured to implement a method of identifying a component of an industrial machine in situ. In particular, the computer system is configured to decode an image containing a data matrix code, and identify the data matrix code in the image. The computer system is further configured to associate the data matrix code in the image with an identified component in a database.

Abstract: An endoscope system includes an in-focus object plane position switch section that switches an in-focus object plane position of an imaging section, a target in-focus position determination section that calculates an in-focus evaluation value, and determines a target in-focus position based on the in-focus evaluation value, and a change-in-scene detection section that detects whether or not a change in scene has occurred based on a captured image. The target in-focus position determination section determines whether or not the in-focus evaluation value satisfies a determination criterion until the change-in-scene detection section detects that the change in scene has occurred, and selects the first in-focus object plane position or the second in-focus object plane position that is not currently selected by the in-focus object plane position switch section when it has been determined that the in-focus evaluation value does not satisfy the determination criterion.

Abstract: Devices, systems and methods for improved intubation which have particular application for awake or sedated intubation are described. An intubation scope having a handle, a flexible probe, and an articulatable tip where the handle has a control lever coupled to a rotary control wheel, which is in turn connected to control wires which when moved by the rotary control wheel cause articulation of the tip of the intubation scope. Systems utilizing the intubation scope may also include endotracheal tubes adapted to fit over the tip of the intubation scope.

Abstract: The insertion tube of an endoscope is equipped with an array of pressure sensors that provide real-time information of the pressure exerted by the insertion tube as it passes through a patient's body during an endoscopic procedure. Pressure information may be displayed in real time, wherein regions of high pressure are highlighted. An alarm is generated when the pressure applied at any location inside the patient's body exceeds safe limits. Further, sensors may be placed along the length of the insertion tube for measurement of distance travelled by the tip of an endoscope, which is integrated with measurement of the force applied by a physician in maneuvering the endoscope to determine applied force at a given location.

Abstract: The insertion tube of an endoscope is equipped with an array of pressure sensors that provide real-time information of the pressure exerted by the insertion tube as it passes through a patient's body during an endoscopic procedure. Pressure information may be displayed in real time, wherein regions of high pressure are highlighted. An alarm is generated when the pressure applied at any location inside the patient's body exceeds safe limits. Further, sensors may be placed along the length of the insertion tube for measurement of distance travelled by the tip of an endoscope, which is integrated with measurement of the force applied by a physician in maneuvering the endoscope to determine applied force at a given location.

Abstract: A surgical system performs a surgical procedure on a patient with manipulators and an endoscope. The surgical system has a display unit for simultaneously displaying a plurality of items of information including an endoscopic image captured by the endoscope, and a wireless image processor for transmitting information to the display unit and processing the plurality of items of information to be displayed by the display unit. The information about the endoscopic image is transmitted from the endoscope to the wireless image processor through a link including at least a portion based on wireless communications.

Abstract: An electronic endoscopic device includes a light source, an endoscopic scope including an imaging unit provided at a tip end, a temperature detecting unit that detects a temperature of the tip end, and a light source control unit that performs a light emission control and a light emission stop control in a frame period. The imaging unit includes a plurality of pixels and a driving unit, and the electronic endoscopic device further includes a control unit in which, when a temperature detected by the temperature detecting unit exceeds a threshold value, the control unit performs a control such that, in a frame period following a first frame period, a period in which the light emission stop control is performed is set to be longer, and a read-out speed of the imaging signal is set to be slower.

Abstract: A light source apparatus for endoscopic imaging includes a light source for emitting at least narrow band blue light and narrow band green light, to illuminate an object in a body cavity. The light source is changeable over between field sequential lighting and simultaneous lighting. The light source, upon setting of the field sequential lighting, emits the narrow band blue light and narrow band green light in a discrete manner, and upon setting of the simultaneous lighting, simultaneously emits the narrow band blue light and narrow band green light. A connector is connectable with an endoscope having a complementary color image sensor of yellow, magenta and cyan, for imaging the object. A controller sets the field sequential lighting assuming that the endoscope is connected to the light source and assuming that the light source is used for emitting the narrow band blue light and narrow band green light.

Abstract: An endoscope with a wide angle lens that comprises an optical axis that is angularly offset from a longitudinal axis of the endoscope such that the optical axis resides at an angle greater than zero degrees to the longitudinal axis. The wide angle lens system simultaneously gathers an endoscopic image field, the endoscopic image field at least spanning the longitudinal axis and an angle greater than ninety degrees to the longitudinal axis. The endoscope includes a transmission system with a lens system having f-sin(theta) distortion or substantially f-sin(theta) distortion that distributes the angle of incidence of the light rays gathered from the endoscopic field of view on to the image surface area in order to even out the information density across the surface area of the imager.

Abstract: A video recording and image capture device for documenting surgical procedures that includes a main board for executing a plurality of software, a multimedia interface operable to receive a video signal and process it into an MPEG layer stream, the video interface connected on a first bus to the main board, a hard drive to record an MPEG layer stream as a file, an optical media drive to write an MPEG layer stream as a file, the hard drive and the optical media drive operably connected on a second bus, the bus being vertically stacked and connected to the main board, and a touchscreen interactive for user control, connected to the main board on a second bus to control the video interface.

Abstract: A medical system includes a tube (102) configured to pass internally into a body and an index (108) disposed on the tube and configured to be visible internally within the tube. An outermost nested cannula (110) component is affixed within the tube with a geometric relationship with the tube as indicated by the index. An imaging device (106) is configured to image an anatomic reference relative to the index such that alignment of the outermost nested cannula component is provided by aligning the at least one index with the anatomic reference.

Abstract: An endoscope apparatus includes an illumination unit, an optical system including an optical lens and a diaphragm unit configured to adjust a size of an opening, an imaging unit including a solid state imaging device and configured to output an image signal, a region setting unit configured to set a region of interest in an image formed by the image signal, an estimation value calculation unit configured to calculate and output an estimation value showing a focus level in the region of interest, an estimation value storage unit configured to store the estimation value, an estimation value comparison unit configured to compare a reference value and the estimation value and outputs the comparison result, and a diaphragm control unit configured to output a control signal for controlling the opening of the diaphragm unit based on the comparison result.

Abstract: Provided is a stereoscopic endoscope device including a single objective lens that collects light from a subject and forms an image of the light; a light splitting section that splits the light collected by the objective lens; image-capturing devices that capture optical images of the subject at imaging positions of the split beams of the light; focal-position adjusting sections that give optical path lengths different from each other to the split beams of the light; a calculation section that calculates an object distance between each point on the subject and the objective lens from 2D images acquired by the image-capturing devices; and a parallax-image generating section that generates a plurality of viewpoint-images of the subject when observed from a plurality of viewpoints, by using the calculated object distance.

Abstract: A scanning endoscope apparatus includes a light source section that emits illumination light, an optical fiber that irradiates the illumination light from a distal end to a subject with directivity, a drive element and a scanning drive section that perform scanning by the distal end of the optical fiber, a first light detection section that detects light from a direction of the distal end of the optical fiber, a second light detection section that detects light from an entire scanning range, and an image processing section that forms image information to be outputted to a display section based on a result of addition of a detection result corresponding to an external factor light component in a first light detection result and a second light detection result.

Abstract: An endoscope system includes: an image storage section that stores image information associated with position information of a luminal organ of a subject; a virtual endoscopic image generating section that generates a virtual endoscopic image endoscopically depicted; an image pickup section that picks up an image in the luminal organ; a position registration processing section that compares the virtual endoscopic image and an endoscopic image, and extracts an virtual endoscopic image similar to the endoscopic image; a position estimation section that estimates a distal end position of an endoscope insertion portion; a feature region determination section that determines whether or not the distal end position exists in a feature region; a storage section that stores information for presentation; and a candidate information presentation control section that presents the virtual endoscopic image based on the information in the storage section, to a display section as candidate information.

Abstract: An activation device activates a capsule medical device that has a first coil inside and is activated when voltage not less than a first specified value or current not less than a second specified value is generated in the first coil. The activation device includes: a case; a second coil that is provided in the case and is configured to generate a magnetic field when current flows through the second coil; and a guide portion for guiding to a position that is located outside the case and that is a position of the capsule medical device where the capsule medical device can be activated based on the magnetic field generated by the second coil. The capsule medical device is housed at a specified position in a specified posture in a container having a specified shape. The case has a placement surface on which the container is configured to be placed.

Abstract: Methods and apparatus for treating disorders of the ear, nose, throat or paranasal sinuses, including methods and apparatus for dilating ostia, passageways and other anatomical structures, endoscopic methods and apparatus for endoscopic visualization of structures within the ear, nose, throat or paranasal sinuses, navigation devices for use in conjunction with image guidance or navigation system and hand held devices having pistol type grips and other handpieces.

Abstract: In an embodiment, the present specification is an alarm/warning system for notifying a user cleaning an endoscope that the main connector/electrical connector of endoscope has not been covered by a connector cover. The warning system indicates an absence of a connector cover cup when the connector of the endoscope is not connected to a main control unit.

Abstract: An applicator for use in the fitting of an occlusive plug of the screw in kind to a fallopian tube, said applicator comprising: a body member; an eyepiece fitted to one end of the body member; an elongate probe carried by, and projecting from the other end of the body member; a fibre optic cable extending from the eye-piece along the interior of the probe to a terminal end of the probe distal from the body member; a nose piece movably mounted at said distal end of the probe and adapted to releasably receive a rear, drive end of an occlusive plug; a mechanical connection extending between the body member and the nose-piece whereby the practitioner may, within limits, vary the angle of the nose-piece with respect to its carrier tube; and a rotational drive means extending between the body member and the nose-piece to apply torque & hence rotational movement to an occlusive plug temporarily held by the nose-piece.

Abstract: An intubation device is provided. An intubation device comprises a movable guide configured to guide an insertion of an endotracheal tube into a trachea of a patient, the guide having a guide extension and a guide tip; an external trachea identifier source external to the trachea and disposed on the patient during an intubation, wherein the trachea identifier source generates and transmits a signal; at least one trachea condition sensor disposed on the guide tip to detect the signal generated by the trachea identifier source; and a guide control device operatively coupled to the guide, the guide control device configured to move the guide into the trachea in response to the detected signal.

Abstract: A system for determining the shape of a surgical instrument includes an elongate instrument body having a selectively steerable distal tip, a pair of automatically controlled segments proximal to the selectively steerable distal tip, and a joint that couples the pair of adjacent automatically controlled segments together. An actuator changes an angle of the joint and a position encoder provides information associated with the joint angle. A controller receives the information associated with the angle of the joint and generates a three dimensional model of a shape of the instrument. A method for determining the three dimensional shape of an instrument includes providing axial position data to a controller, providing angular position data to the controller from a respective segment controller, and generating a three-dimensional model of a shape of said instrument using the axial position data and the angular position data.

Abstract: An endoscope apparatus includes an endoscope that includes an imaging section that captures an object, and an illumination section that includes an irradiation port that illuminates the object, the imaging section and the illumination section being provided in an end section of the endoscope, a distance information acquisition section that acquires distance information about a distance from the end section of the endoscope to the object, a light distribution pattern determination section that determines a light distribution pattern of illumination light applied from the illumination section based on the acquired distance information, and a gradation correction section that performs a gradation correction process on a captured image acquired by the imaging section.

Abstract: A mobile capsule device 10 comprises a long capsule body 11 having a permanent magnet 13 movable in the lengthwise direction with respect to the long capsule body and a coil for driving the permanent magnet 13, while a propulsion force is generated entirely by applying an alternate current to the coil and performing back and forth movements of the permanent magnet 13. The coil has first and second coil parts 15 and 16 arranged circumferentially in front and back of the permanent magnet 13, and a frequency of an alternate current applied to the first and second coil parts 15 and 16 is made to accord with a resonance frequency of the capsule device 10 generated by a back and forth vibration of the permanent magnet 13. Thereby, a self-propelled, mobile capsule device 10 which is downsized, compact and efficient and a control method thereof can be provided.

Abstract: A system and method for detection of colorimetric abnormalities within a body lumen includes an image receiver for receiving images from within the body lumen. Also included are a transmitter for transmitting the images to a receiver, and a processor for generating a probability indication of presence of colorimetric abnormalities on comparison of color content of the images and at least one reference value.

Abstract: An in-vivo information acquiring system previously sets synchronization signals for each imaging unit which captures an image. In the in-vivo information acquiring system, a capsule endoscope transmits scan-line data of an image to be transmitted using the synchronization signal corresponding to the imaging unit which captures the image to be transmitted, and a receiving apparatus identifies that the received scan-line data forms the image captured by the imaging unit corresponding to the detected synchronization signal by detecting the synchronization signal from received information.

Abstract: An antenna connection unit is a unit to which receiving antennas for receiving a wireless signal transmitted from a capsule endoscope introduced into a subject, is connectable. The antenna connection unit includes a received electric field strength detector configured to detect received strength of the wireless signal according to a plurality of pieces of input power from the receiving antennas, a correction parameter generation unit configured to generate a received strength correction parameter for correcting the received electric field strength detector, which is obtained by correcting the plurality of pieces of input power and the received strength corresponding to each input power, based on a reference parameter indicating a relationship between each input power and a detection strength obtained by performing a measurement for a received electric field strength detection circuit as a reference in advance, and a storage unit for storing the received strength correction parameter.

Abstract: A multiple viewpoint endoscope system having a multiple viewpoint camera setup and/or an intelligent or cognitive image control system and display device particularly adapted for localizing internal structures within a cavity or an enclosing structure, such as an animal body, for instance the abdomen of an animal or human, or for localizing a real or synthetic image of such internal structures within an overview image or on an overview 3D model.

Abstract: An endoscope system includes: an image processing portion that constructs three-dimensional data based on preoperative multi-slice image data and extracts a predetermined luminal organ; a position detection apparatus that acquires position information of an image pickup portion; a position alignment portion that makes position information of the image pickup portion correspond to coordinates of the three-dimensional data; and an image processing portion that generates trail information based on the position information of the image pickup portion, and based on a result of the position alignment portion, creates an image in which past trail information, insertion shape information including current distal end position information with respect to the image pickup portion, and determination information obtained by determining whether or not the image pickup portion passes through a duct in three-dimensional data of the predetermined luminal organ are superimposed in a distinguishable manner on three-dimensional

Abstract: An imaging apparatus includes: a sensor unit having a light receiving unit provided with a plurality of pixels for photoelectrically converting received light to generate an electrical signal after photoelectric conversion, and capable of reading the electrical signal generated by the light receiving unit as image information; a control unit configured to control an output mode of the electrical signal on a pixel-by-pixel basis such that a pixel signal level generated by photoelectrically converting the light and a reset level of the pixels are alternately output, and configured to output the electrical signal corresponding to a specified display pattern; a signal processing unit configured to perform signal processing on the electrical signal output from the sensor unit; and a transmission unit configured to transmit a processed signal processed by the signal processing unit to outside.

Abstract: Apparatus and methods for detecting foreign material obstructing a blood content sensor window to facilitate higher data accuracy from such sensors, in accordance with one embodiment of the invention for detecting foreign matter with the blood content sensor when the blood content sensor is not contacted with living tissue, an illuminator for blood content detection and the blood content sensor share a common outer window. When the window is at a distance from tissue and in absence of foreign matter on the window, all or most of the emitted light will be dispersed and little or no light will be reflected back into the sensor. Conversely, when the window is at a distance from tissue and foreign matter is present on the window, a substantial portion of the emitted light will be reflected back into the sensor indicating the presence of the foreign matter.

Abstract: An examination information management apparatus includes: a data transmitting and receiving unit that transmits and receives data to and from a receiving device for receiving image data captured by a capsule endoscope; a storage unit that stores examination information and the image data acquired in an examination; an ID maintaining unit that maintains an identification ID for identifying the storage unit; a determination unit that determines, when the identification ID is received from the receiving device via the data transmitting and receiving unit, whether or not the identification ID registered with the receiving device matches the identification ID maintained by the ID maintaining unit; and an examination information generating unit that newly generates examination information and causes the storage unit to store the image data received from the receiving device in association with the newly generated examination information, if the identification IDs are not determined by the determination unit to matc

Abstract: There are provided a pressure sensor which can avoid an endoscope from causing intestinal perforation, an endoscope including the pressure sensor, and an endoscope device including the endoscope. There is provided a pressure sensor including a support unit and a pressure sensitive unit disposed on the ridge line of the front end of the support unit and configured to output a signal corresponding to an applied pressure. The pressure sensitive unit includes a first electrode disposed in a ring shape and multiple second electrodes opposed to the first electrode. The second electrodes are spaced in the circumferential direction of the first electrode.

Abstract: An endoscope system includes: an endoscope that has a light guiding member that guides an illuminating light, an optical system that irradiates the illuminating light onto an object, and a drive portion that rocks the light guiding member so that the illuminating light is irradiated along a predetermined scanning pattern; a coordinate information acquisition portion that can identify an irradiation position; a storage portion in which information regarding chromatic aberration of magnification caused by the optical system, is previously stored a correction information acquisition portion that, upon detecting that light of the predetermined wavelength band is irradiated onto a position corresponding to a predetermined image height, detects an aberration amount of the light of the other wavelength band and outputs image correction information that corrects chromatic aberration of magnification based on the aberration amount; and an image processing portion that performs image correction processing based on the

Abstract: An end effector includes a tip part having a deformation member that is physically changed due to contact with an object, a gauge display part configured to display gauge information according to a physical change of the deformation member, and a connecting rod part connected to the tip part and configured to operate the tip part. A manipulator including an end effector configured to display physical information, which varies according to an object making contact with a tip part, on a gauge display part, an endoscope configured to obtain an image of the tip part of the end effector and an image of the gauge display part, and a control part configured to control transmission of the image obtained by the endoscope, and to control operations of the tip part and the endoscope.

Abstract: A processor of an endoscope apparatus that is a medical apparatus generates two images that are a normal-light observation image and a special-light observation image that are obtained by picking up a return light, determines matching of observation fields of view with respect to the two images, generates a marker M that indicates a position on a living tissue for at least one of the two images based on the determination result, causes the generated two images to be displayed within a screen of a monitor, and displays the generated marker M by superimposing the marker M on at least one of the two images.

Abstract: An image system for surgery includes: a three-dimensional imaging unit acquiring two images having parallax by capturing an image of a portion; a display unit displaying two images acquired by the three-dimensional imaging unit individually for both left and right eyes, or displaying a same image for both left and right eyes; a detection unit detecting that a treatment device that performs treatment on the portion or the three-dimensional imaging unit is in an operating state in which to initiate treatment on the portion; and a display control unit switching from displaying one of images on the display unit to displaying two images on the display unit when the detection unit detects the three-dimensional imaging unit or the treatment device is in the operating state in which to initiate treatment on the portion.

Abstract: In an imaging method for medical diagnostics and a device operating according to this method, during an endoscopic examination of a body region of a patient with an endoscope, an image is generated with a non-endoscopic imaging method and the image field of the endoscope is determined and rendered in the image (28) with accurate position and orientation.

Abstract: An information management apparatus that is used in a capsule endoscope inspection system including a receiving device operated by a built-in rechargeable battery and that is capable of communicating with the receiving device.

Abstract: The present invention relates to an electronic gastrointestinal capsule protected by an outer biocompatible shell resistant to the environment in the digestive system comprising a light source (4); splitting means (5) to split the light beam, directing it to the reference arm (6) and the sampling arm (9); an adjustable group delay element (24) depending on the distance to the tissue to analyse; optical moving means moving the intersection of the light beam (30) of the sampling arm (9) across the tissue; an optical system (8) focusing the light beam (30) from the sampling arm (9) on the tissue; interference means (10) producing interference between the reflected light; a detector (11) receiving said interference; processing means (2) processing the information acquired by the detector (11); and power supply means (3) supplying power to the capsule without a physical connection to the outside.

Abstract: An endoscope system includes an endoscope and a processing apparatus. A communication connector for the endoscope includes a plug unit and a finger grip. The plug unit includes a connector housing and a shielding device. A first near field communication interface for NFC communication is incorporated in the connector housing. In the processing apparatus, a receiving cavity is formed in a receptacle connector, which also has a socket housing and a shielding device. A second near field communication interface is incorporated in the socket housing. In case the communication connector is coupled with the receptacle connector connectively, the second near field communication interface is positioned at the first near field communication interface at a short distance.

Abstract: A image processing apparatus includes an image extraction unit that extracts first and second feature images representing first and second feature, respectively from a first image group acquired by sequentially capturing images of inside of a subject, and that further extracts third and fourth feature images representing first and second feature, respectively from a second image group acquired before the first image group, a feature data acquiring unit that acquires first and second feature data characterizing a movement of the capsule endoscope between the first and second feature images and between the third and the fourth feature images, respectively, a comparing unit that compares the first feature data with the second feature data, and a display control unit that performs, with respect to the first image group, display control based on a result of the comparison by the comparing unit.

Abstract: The present specification discloses an endoscope having a tip section equipped with multiple viewing elements. Each of the viewing elements' field of view is illuminated by a discrete illuminator, such as a LED, being operated in a flash mode. The flash mode of operation of the LEDs enable doctors to obtain a position of the endoscope tip within a patient's body from outside by viewing the light emitted by the LEDs. Since the light is emitted for short pre-defined periods of time, the heat generated by the LEDs during their periods of operation is within a safe threshold value, and does not cause any burn injury inside the patient's body.

Abstract: A steerable endoscope has an elongated body with a selectively steerable distal portion and an automatically controlled proximal portion. The endoscope body is inserted into a patient and the selectively steerable distal portion is used to select a desired path within the patient's body. When the endoscope body is advanced, an electronic motion controller operates the automatically controlled proximal portion to assume the selected curve of the selectively steerable distal portion. Another desired path is selected with the selectively steerable distal portion and the endoscope body is advanced again. As the endoscope body is further advanced, the selected curves propagate proximally along the endoscope body, and when the endoscope body is withdrawn proximally, the selected curves propagate distally along the endoscope body. This creates a serpentine motion in the endoscope body allowing it to negotiate tortuous curves along a desired path through or around and between organs within the body.

Abstract: The disclosure extends to methods, systems, and computer program products for detecting whether an illumination source of an endoscope is in use (inside the body of a patient) versus not in use (outside the body of a patient). The disclosure relies on the fact that the working environment is lit solely by the endoscope and its components. Thus, communication between the illumination or light source controller and the imaging device, such as a surgical camera, is required. When the illumination or light source is turned off and the endoscope is outside the body, a sensor will detect ambient light alerting the illumination source controller that it is outside the body, which then keeps the illumination source off or at a low intensity level. Conversely, when the illumination source is turned off and the endoscope is inside the body, the sensor will not detect any light (or will detect only a very low level of light).

Abstract: A passively flexible ureteroscope having a diameter of less than about 2.5 millimeters is provided. The ureteroscope may help overcome many of the problems associated with the prior art devices and methods for removing kidney stones. The ureteroscope includes an elongate member having a distal portion, a proximal portion, and an inner conduit that extends longitudinally between the proximal and distal portions. The elongate member is made from a passively flexible material that is capable of being inserted and directed through a patient's body cavity, such as the ureter, by manual direction and pressure so that minimal, if any, additional mechanical or steering mechanisms are present. An imaging device and light source are provided at the distal portion of the elongate member to allow for positioning the device with respect to the stone. A laser fiber can be directed through the conduit to destroy a targeted stone.

Abstract: A fiber optic probe assembly comprises an optical engine and a fiber optic probe. A proximal end connector comprises a self-aligning connector for connecting optical fibers of the fiber optic probe to the optical engine and an integrated fiber optic-based polarizer. A disposable cover is provided for enclosing at least a portion of a fiber optic probe assembly. The disposable cover comprises an elongated tubular housing and a sheath portion adapted to receive at least a portion of the fiber optic probe between ends of the housing. A handle is disposed on a proximal end of the housing, the handle comprising a self-tensioning device. An optical window is disposed on a distal end of the housing, the optical window adapted to provide for alignment with optical elements of the fiber optic probe.