Abstract: A medical system includes an endoscope which is a first medical instrument, a gas supply apparatus which is a second medical instrument that supplies a gas to an insertion site at which an insertion portion of the endoscope is inserted, a biological information acquiring apparatus which is a biological information detection section that detects a blood flow rate at the insertion site as a biological information detected value, a manipulation information acquiring apparatus which is a manipulation information detection section that contacts the insertion portion of the endoscope and is combined with a roller that rotates as the insertion portion moves forward or backward to detect an amount of rotation of the roller as manipulation information, and a system control apparatus provided with a control section that outputs an instruction signal for changing an amount of gas supply to the gas supply apparatus according to the detected value detected by the biological information acquiring apparatus and the manipula

Abstract: The present invention provides systems, devices, and methods employing fiber optic shape and position tracking. The systems, devices, and methods permit measurement of and continuous tracking of the shape and position of objects whose shape dynamically changes with time. Applications include tracking and monitoring of endoscopes for diagnostic and surgical procedures.

Abstract: The invention is a sideways looking video endoscope which offers a rigid endoscope tube. The optical system has one prism, and an image sensor located behind the optical system, provided on the distal end of the endoscope shaft. On the proximal end of the shaft, a knurled wheel is arranged so as to rotate freely. This wheel is provided with permanent magnets that are arranged at identical angular separations, and associated with Hall sensors located on the front face of the tool holder. The angular position of the rotatable wheel can thus be detected by means of the Hall sensors together with an electronic system that evaluates the signals, and displayed on a monitor. By turning the rotating wheel, the image can be rotated, thus correcting the image position when the endoscope is rotated, such that the viewing direction corresponds to the actual position of the object.

Abstract: An endoscopic information processing system in accordance with the present invention comprises: a shape analyzing unit that analyzes an insertional shape acquired by detecting the shape of an insertion unit of an endoscope which is inserted into a body cavity; and an information providing unit that provides information on the situation of handling the endoscope according to the result of the analysis performed by the shape analyzing unit.

Abstract: An endoscope bending control apparatus includes: an image feature value calculating section for calculating, based on an endoscopic image, an image feature value related to a luminal dark part; a bending control section for performing bending control on a bending portion in either one of a first bending operation mode in which a position of the luminal dark part is set as an insertion target and a distal end of the insertion portion is directed to the position and a second bending operation mode in which the distal end of the insertion portion is directed in a direction of the position of the luminal dark part; an operation mode switching section for switching an operation mode from one bending operation mode to the other according to a first switching condition based on the calculated image feature value; and a switching condition changing section for changing the first switching condition.

Abstract: A robotic system that includes a remote controlled robot. The robot may include a camera, a monitor and a holonomic platform all attached to a robot housing. The robot may be controlled by a remote control station that also has a camera and a monitor. The remote control station may be linked to a base station that is wirelessly coupled to the robot. The cameras and monitors allow a care giver at the remote location to monitor and care for a patient through the robot. The holonomic platform allows the robot to move about a home or facility to locate and/or follow a patient.

Abstract: A system, apparatus and method may indicate in-vivo device (10) location within a body utilizing for example illumination irregularities for calculation of location. There may be provided with an in-vivo imaging device (24) a set of dedicated illumination sources (43) and a set of detectors (30) located on an in-vivo device, such as a swallowable capsule (10).

Abstract: A medical device for examination or treatment based on a reference point, includes: a virtual endoscopic image generation section configured to generate a virtual endoscopic image of a bronchus from a plurality of different line-of-sight positions using three-dimensional image data of the bronchus of a subject that is obtained in advance; an image retrieval section configured to retrieve a virtual endoscopic image highly similar to an endoscopic image of the bronchus picked up by an image pickup section arranged at a distal end portion of an insertion section; a reference-point setting section configured to set a reference point based on a line-of-sight position of the highly similar virtual endoscopic image; and a relative-position calculation section configured to calculate a relative position of a treatment instrument to the reference point.

Abstract: Methods and apparatus are provided for locating the position, preferably in three dimensions, of a sensor by generating magnetic fields which are detected at the sensor. The magnetic fields are generated from a plurality of locations and, in one embodiment of the invention, enable both the orientation and location of a single coil sensor to be determined. The present invention thus finds application in many areas where the use of prior art sensors comprising two or more mutually perpendicular coils is inappropriate.

Abstract: An endoscope realized as either a borescope or a fiberscope including one or more fluid filled lenses is described. In an embodiment, the optical power of the fluid filled lenses may be adjusted to adjust the focal length associated with the endoscope. Thus, variable working distances are allowable while maintaining focus on an object in front of the endoscope. The endoscope may include a distance sensor, which is used to determine a distance between the endoscope and a sample. A processor may compare the measured distance to the current optical power of the one or more sealed fluid filled lenses. The processor may transmit signals to one or more actuators coupled to one or more sealed fluid filed lenses to change the optical power of the one or more sealed fluid filled lenses based on the comparison.

Abstract: An endoscope inserted-shape detecting apparatus 8 includes a sense coil unit 23 in which multiple sense coil groups of sense coil groups 23A to 23I for detecting magnetic fields generated by multiple source coils 21 in an inserted-shape detecting probe 6 are placed as a part of the endoscope inserted-shape detecting apparatus 8, a signal detecting section 33, a source coil position analyzing section 35 and a signal control section 37 that selects a magnetic-field detecting element to be used for detection of a magnetic field signal based on the magnetic field generated by each of the source coils 21 from the sense coil groups 23A to 23I in a control section based on positional information signals outputted from the source coil position analyzing section 35.

Abstract: An image display apparatus includes a display unit that displays images contained in a plurality of image groups inside a subject picked up by a plurality of imaging devices, and a control unit that extracts a related image related to a currently displayed image currently displayed in the display unit from the plurality of image groups to make the display unit display the related image extracted.

Abstract: A monitor apparatus for a laparoscopic surgery rotates images captured by a laparoscope as an endoscope and displayed on monitors for the laparoscopic surgery clockwise or counter-clockwise according to commands for rotating the images by surgeons who use image rotation manipulation parts such that the images of surgical devices displayed on the monitors are arranged in the direction where the surgeons can actually manipulate the laparoscopic surgical devices most conveniently.

Abstract: A method for detecting a capsule camera entering into or exiting the GI tract, includes (a) taking a first test image under the condition that an illumination system of the capsule camera is disabled; (b) taking a second test image under the same condition as the first test image; (c) comparing selected corresponding pixel values of the first test image and the second test image to determine if a significant change in pixel values has occurred; and (d) upon detecting the significant change in pixel values, determining if the capsule camera has entered or exited the GI tract, and performing operations appropriate to follow such determination. The appropriate operations performed after detecting the capsule camera's exit from the GI tract includes stopping further taking or storing of images and, optionally, activating an audio signal to indicate the capsule camera has exited the GI tract.

Abstract: A method for performing an interventional procedure using a robotically controlled guide instrument coupled to an instrument drive assembly, includes manipulating a user interface of a master controller to actuate the drive assembly and thereby position a distal portion of the guide instrument at an interventional procedure site in a patient's body; and providing on a first display a graphically rendered image of the distal portion of the guide instrument overlaying an image of the interventional procedure site, wherein manipulation of the user interface causes a corresponding movement of the instrument model relative to the image in the first display.

Abstract: A method of navigating a cavity of a subject employing images from a previous navigation is provided. In a first endoscopic examination, a set of schemas and at least one bookmark are saved in a data storage device. Each schema includes at least a still image in a cavity and a direction of a distal end. At least one bookmark is defined as at least one schema at a point of interest. In a second endoscopic examination, still images during navigation of an endoscope are compared with still images in the set of schemas to find a match, and use the information derived from the match to determine the location and the orientation of the distal end. An endoscopic system for effecting this method and a non-transitory machine-readable storage medium embodying a program for operating such an endoscopic system are also provided.

Abstract: An endoscope apparatus is adapted to be inserted into an inside of a subject and observe the inside of the subject and includes: an observation optical system which has a first optical path and a second optical path with parallax; an imaging portion on which a light passing through the first optical path and a light passing through the second optical path are formed; a diaphragm portion which selectively blocks out the first optical path or the second optical path; a distance measurement portion which measures a distance to the subject on the basis of parallax between a first image formed on the imaging portion via the first optical path and a second image formed on the imaging portion via the second optical path; a displacement amount detection portion which detects a displacement amount between two first images acquired with a time interval therebetween; and a measurement environment determination portion which determines, on the basis of the displacement amount, whether or not the first image and the secon

Abstract: A system and method are disclosed, which combine image data of a patient, such as images of the patient's GI tract, with rating mucosal damage. According to some embodiments of the present invention the system and method are able to assess a patient's GI tract condition, to monitor mucosal healing in a patient's GI tract, preferably, the small bowel (SB) mucosa and/or to differentiate between different pathological conditions. The system and method of the invention can provide a value or score arrived at by assigning a grade relating to one or more predetermined parameters.

Abstract: A medical device includes a tube, at least one imaging sensor coupled to an endoscope in the tube, and a monitor application to monitor positioning of the tube in a medical patient by identifying expected anatomical features in images provided by the at least one sensor. A method for endotracheal intubation includes receiving imaging frames from a sensor located in an endotracheal tube inserted through a patient's mouth, and processing the imaging frames to identify a progression of anatomical features consistent with a proper placement of the endotracheal tube.

Abstract: An endoscope system includes an endoscope provided with an image pickup section that picks up an image of an object in a body cavity, a position setting section that sets information on a predetermined position in the object based on information obtained from the image of the object picked up by the image pickup section and a position correction section that corrects the information on the predetermined position set by the position setting section based on information on a boundary line extracted in the image of the object picked up by the image pickup section and outputs information on the corrected position.

Abstract: An endoscope system of the present invention includes an image pickup section that picks up an image of an object, a position detection section that detects a position indicating a predetermined object in the image of the object obtained by the image pickup section and a probability calculation section that calculates a probability value as a degree indicating accuracy of the position being the predetermined object using first information obtained from the image and second information on a condition of the object whose image is picked up by the image pickup section.

Abstract: An image processing system includes an orientation specifying unit that specifies orientation of the body-insertable apparatus at the time of capturing the image data with respect to a reference direction, a rotation correcting unit that performs rotation correction on image data based on the specified orientation, a screen generating unit that generates a screen displaying the image data, an average color bar generating unit that calculates an average color of the image data, generates an image of the calculated average color, and generates an average color bar in which images of the generated average colors are connected in accordance with order of the image data, and an organ image generating unit that generates an organ image obtained by superimposing the images of the average colors generated by the average color bar generating unit. The screen generating incorporates the average color bar and the organ image into the screen.

Abstract: An object of the present invention is to actively control at least one of the position and direction of the imaging field in a subject and to observe a desired observed region in the subject certainly in a short period of time. A body-insertable device system according to the present invention includes a capsule endoscope 1 introduced into a subject and a permanent magnet 3. An imaging unit of the capsule endoscope 1 for taking an image inside the subject is fixed in a casing. The capsule endoscope 1 includes a drive unit for changing at least one of the position and posture of the casing in the liquid 2a which is also introduced in the subject 100. The permanent magnet 3 controls the operation of the drive unit for changing at least one of the position and posture of the casing in the liquid 2a.

Abstract: A capsule medical device guidance system includes: a magnetic field generator that applies a magnetic field having a magnetic field gradient to the magnetic field response unit and guides the capsule medical device; a first setting unit that sets a magnetic field gradient of a magnetic field for generating a vertical magnetic attracting force which makes a resultant force of a buoyancy of the capsule medical device and a gravity force and the vertical magnetic attracting force of the capsule medical device in the liquid substantially zero as a first magnetic field gradient; an operation input unit to which guidance instruction information for guiding the capsule medical device by a magnetic field and moving the capsule medical device from a first position to a second position is inputted; a second setting unit that obtains a magnetic field gradient of a magnetic field for generating a magnetic attracting force corresponding to the guidance instruction information inputted by the operation input unit and sets

Abstract: A method for planning a procedure, which can include determining anatomical landmarks is disclosed. The anatomical landmarks can be used to determine anatomical targets of a patient. The plan can include a path or trajectory to reach a selected target.

Abstract: An in-vivo imaging device including a camera may include a frame storage device. Systems and methods which vary the frame capture rate of the camera and/or frame display rate of the display unit of in-vivo camera systems are discussed. The capture rate is varied based on physical measurements related to the motion of the camera. Alternatively, the frame capture rate is varied based on comparative image processing of a plurality of frames. The frame display rate of the system is varied based on comparative image processing of a multiplicity of frames. Both the frame capture and the frame display rates of such systems can be varied concurrently.

Abstract: A particle-sized nanobody that can be inserted into at least one major physiological system of a mammal's body such as the blood stream or the gastro-intestinal track or other system. The nanobody of the present invention can remain in the system for a predetermined time to perform a predetermined task. nanobodies of the present invention can contain processors and memory and thus can be capable of performing tasks that require algorithmic or expert reasoning. The Nanobodies can also contain various sensors and can optionally have the ability to communicate with an external station or with each other. The Nanobodies can be designed to self-destruct either after a predetermined time or upon command from an external station. Once a nanobody has self-destructed, natural mechanisms of the body can remove the debris.

Abstract: A capsule propulsion device has: at least one acoustic streaming generator for generating acoustic streaming as a flow of the a medium in a space; a control unit for driving and controlling the acoustic streaming generator; and a distance obtaining unit for obtaining an object distance between the acoustic streaming generator and an object existing in the space. The control unit drives and controls the acoustic streaming generator on the basis of the distance information obtained by the distance obtaining unit.

Abstract: A system including a processor and/or processor system can be used to identify landmarks in image data. The landmarks can be used to further identify anatomical targets. The landmarks and/or targets can be used to create a plan for a procedure, such as a surgical procedure. The processor can be used to determine the anatomical landmarks that can be used to identify anatomical targets in image data of a subject, even if the anatomical targets are indistinguishable in the image data.

Abstract: An endoscope system of the invention includes: an endoscope including an insertion portion, a distal end portion provided on a distal end side of the insertion portion, and a bending portion which is capable of changing a position and an orientation of the distal end portion; a position detecting section for acquiring position information on a position where the distal end portion is located; a passing target position setting section for setting a passing target position for the distal end portion; a path estimating section for estimating a path through which the distal end portion is to be passed; a bending control target position setting section for setting a bending control target position such that the distal end portion reaches the passing target position along the path; and a bending control information calculating section for calculating an amount of bending and a bending direction of the bending portion.

Abstract: A system including a processor and/or processor system can be used to create a plan for a procedure, such as a surgical procedure. The plan for the surgical procedure can be based on various elements, including determined anatomical landmarks that can be used to determine anatomical targets of a patient. The planning processor can be used to determine the anatomical landmarks and identify anatomical targets in image data of a subject, even if the anatomical targets are indistinguishable in the image data.

Abstract: Provided is an endoscope with a handle, an endoscope shaft connected to the handle, and imaging optics arranged in the endoscope shaft. An object can be located in the direction of view of the imaging optics in front of the endoscope shaft. The endoscope may also include a swivellably housed deflecting element that sets the desired direction of view. The deflecting element can be positioned at the distal end of the endoscope shaft facing away from the handle. An actuating element can be attached to the handle, which is mechanically connected to the deflecting element, and with which the swivel position of the deflecting element can be changed in order to set a desired direction of view.

Abstract: Provided is an endoscope with a handle, an endoscope shaft connected to the handle, and imaging optics arranged in the endoscope shaft. An object can be located in the direction of view of the imaging optics in front of the endoscope shaft. The endoscope may also include a swivellably housed deflecting element that sets the desired direction of view. The deflecting element can be positioned at the distal end of the endoscope shaft facing away from the handle. An actuating element can be attached to the handle, which is mechanically connected to the deflecting element, and with which the swivel position of the deflecting element can be changed in order to set a desired direction of view.

Abstract: To realize a simplified image display apparatus that prevents electrical connection between an external monitor and a receiving device when an electric signal generated by the receiving device is transmitted to the external monitor. The simplified image display apparatus includes a photocoupler 23 formed of a light emitting unit 21 electrically connected only to an input terminal 10 and a light receiving unit 22 that receives light output from the light emitting unit 21, a demodulator 24 that demodulates a received radio signal, a switching unit 25 that outputs either one of electric signals from the photocoupler 23 and from the demodulator 24, and a data generator 26 that applies predetermined signal processing to the electric signal input from the switching unit 25 to generate image data, and outputs the image data to a display unit 9 and an output terminal 11.

Abstract: An in-vivo image acquiring apparatus includes an imaging unit which is introduced inside a subject and picks up image information inside the subject, an illuminating unit which illuminates an imaging portion imaged by the imaging unit, a transmission processing unit which performs a process to wirelessly transmit the image information acquired by the imaging unit to an external apparatus. A light-control unit determines light-control amount information based on brightness of the image information acquired by the imaging unit, and performs a control of light control of the illuminating unit according to the light-control amount information. Further, the transmission processing unit performs a process to wirelessly transmit the image information acquired by the imaging unit along with the light-control amount information used for the control of light-control.

Abstract: A surgical instrument navigation system is provided that visually simulates a virtual volumetric scene of a body cavity of a patient from a point of view of a surgical instrument residing in the cavity of the patient. The surgical instrument navigation system includes: a surgical instrument; an imaging device which is operable to capture scan data representative of an internal region of interest within a given patient; a tracking subsystem that employs electro-magnetic sensing to capture in real-time position data indicative of the position of the surgical instrument; a data processor which is operable to render a volumetric, perspective image of the internal region of interest from a point of view of the surgical instrument; and a display which is operable to display the volumetric perspective image of the patient.

Abstract: An endoscopic form detection device includes a sensor tentative position detecting section configured to detect a tentative position of each sensor unit on the assumption that a portion between the respective sensor units is a linear tentative link whose dimension is equal to an inter-sensor dimension. The endoscopic form detection device includes a sensor position correcting section configured to correct a position of each sensor unit from the tentative position to a final position based on an absolute value of a difference between an arc length of each tentative arc and the inter-sensor dimension, and a final curve form detecting section configured to perform curve interpolation between the final positions of the respective sensor units by using a final arc to detect a final curve form of an inserting section.

Abstract: The invention includes an insertion portion, one end of which is inserted inside a lumen of a subject; an image-acquisition unit for acquiring an image of an interior wall in the lumen as a substantially circular or substantially ring-shaped interior wall image; a transformation processing unit for transforming, in the interior wall image, at least substantially ring-shaped images concerning the interior wall, whose distance from the one end is uniform, to substantially straight-line-shaped or substantially band-shaped images; a distance-measuring unit for measuring a distance moved by the insertion portion relative to the subject; and an image synthesizing unit for joining the transformed images on the basis of the distance moved measured by the distance-measuring unit.

Abstract: A video endoscope system includes a reusable control cabinet and an endoscope that is connectable thereto. The endoscope may be used with a single patient and then disposed. The endoscope includes an illumination mechanism, an image sensor, and an elongate shaft having one or more lumens located therein. An articulation joint at the distal end of the endoscope allows the distal end to be oriented by the actuators in the control cabinet or actuators in a control handle of the endoscope. Fluidics, electrical, navigation, image, display and data entry controls are integrated into the system along with other accessories.

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 that allows it to negotiate tortuous curves along a desired path through, around, and between organs within the body.

Abstract: A delivery apparatus cooperable with a grasping slot of an elevator of endoscope for enhanced delivery to a target location in a patient is disclosed. The apparatus comprises a catheter including an inner lumen and an outer surface. The outer surface has a projection formed thereon. The projection radially extends from the outer surface. The projection is configured to receive the elevator for enhanced delivery in the patient.

Abstract: A capsulated body having a facility, which acquires biomedical information through endoscopic examination or the like, incorporated therein is inserted into a duct within a living body. Whether the capsulated body has halted for a certain period of time is detected from the time-varying position of the capsulated body or a time-passing change in an image. If it is judged that the capsulated body has halted at a stenosed region or the like, the fact is notified so that the capsulated body can be collected immediately.

Abstract: In a telemanipulation system for manipulating objects located in a workspace at a remote worksite by an operator from an operator's station, such as in a remote surgical system, the remote worksite having a manipulator with an end effector for manipulating an object at the workspace, such as a body cavity, a controller including a hand control at the control operator's station for remote control of the manipulator, an image capture device, such as a camera, and image output device for reproducing a viewable real-time image, the improvement wherein a position sensor associated with the image capture device senses position relative to the end effector and a processor transforms the viewable real-time image into a perspective image with correlated manipulation of the end effector by the hand controller such that the operator can manipulate the end effector and the manipulator as if viewing the workspace in true presence.

Abstract: An encapsulated endoscope system in accordance with the present invention comprises: an encapsulated endoscope that rotates to develop a thrust; a controller that moves the encapsulated endoscope in an intended direction of advancement; an imaging unit incorporated in the encapsulated endoscope; and an image processing unit that receives image data sent from the imaging unit, and produces an image, which results from rotation of the received image data, according to the rotational phase of the encapsulated endoscope.

Abstract: A pre-operative stage of an image-based localization method (30) involves a generation of a scan image (20) illustrating an anatomical region (40) of a body, and a generation of virtual information (21) including a prediction of virtual poses of endoscope (51) relative to an endoscopic path (52) within scan image (20) in accordance with kinematic and optical properties of endoscope (51). An intra-operative stage of the method (30) involves a generation of an endoscopic image (22) illustrating anatomical region (40) in accordance with endoscopic path (52) and a generation of tracking information (23) includes an estimation of poses of endoscope (51) relative to endoscopic path (52) within endoscopic image (22) corresponding to the prediction of virtual poses of endoscope (51) relative to endoscopic path (52) within scan image (20).

Abstract: A position detecting apparatus includes a linear magnetic-field generator that generates a linear magnetic field in an area inside the subject; a diffuse magnetic-field generator that generates a diffuse magnetic field having position dependency on magnetic field direction in the area; a magnetic-field line orientation database in which a correspondence between magnetic field direction and position of the diffuse magnetic field in a reference coordinate axis is recorded; an orientation calculator that calculates orientation information of a body-insertable device introduced into a subject in the reference coordinate axis based on linear magnetic-field information and the earth magnetism direction; and a position calculator that calculates a magnetic field direction of the diffuse magnetic field at the position of the body-insertable device based on the linear magnetic-field information, orientation information, and diffuse magnetic-field information, and calculates the position of the body-insertable device b

Abstract: The present invention provides an endoscopic laser instrument for positioning the endoscopic instrument in relation to a reference point to measure the proper angular position of an associated medical device associated with a surgical site.

Abstract: A flexible shaft includes a flexible, elongated outer sheath, at least one drive shaft disposed within the outer sheath and a moisture sensor disposed within the outer sheath configured to detect moisture within the outer sheath. Another flexible shaft includes a flexible, elongated outer sheath, at least one flexible drive shaft disposed within the outer sheath and a coupling connected to a distal end of the outer sheath configured to couple to a surgical attachment. A sleeve includes an elongated shaft configured to receive a flexible shaft therein and a securing arrangement configured to selectively and variably retain the elongated shaft in any one of a number of longitudinal positions along the flexible shaft.

Abstract: A flexible shaft includes a flexible, elongated outer sheath, at least one drive shaft disposed within the outer sheath and a moisture sensor disposed within the outer sheath configured to detect moisture within the outer sheath. Another flexible shaft includes a flexible, elongated outer sheath, at least one flexible drive shaft disposed within the outer sheath and a coupling connected to a distal end of the outer sheath configured to couple to a surgical attachment. A sleeve includes an elongated shaft configured to receive a flexible shaft therein and a securing arrangement configured to selectively and variably retain the elongated shaft in any one of a number of longitudinal positions along the flexible shaft.

Abstract: At a distal end side of an insertion portion of an endoscope, an image pickup portion for capturing an image and a bending portion capable of being bent are provided, and a bending instruction operation portion executes a bending instruction operation for the bending portion. According to the bending instruction operation by the bending instruction operation portion, the bending control portion executes the controlling bending of the bending portion. As a bending control mode for executing the operation of the bending control by the bending control portion, a first bending control mode for bending control corresponding to a first image captured by the image pickup portion and a second bending control mode for bending control displaying the distal end side of the insertion portion are provided.