Abstract: The present application relates to an endoscope apparatus including a shaft component with a proximal end and a distal end. The shaft component is arranged in an outer shaft. The endoscopy apparatus includes an image capture device having an objective lens for generating a real image and an image sensor for capturing the image and generating an image signal. The endoscopy apparatus includes a pivot joint device which couples the image capture device to the shaft component in a manner pivotable about two orthogonal axes but rigid in respect of a rotation about the longitudinal axis of the shaft component. The endoscopy apparatus includes a pivot control device to set a pivot position of the image capture device relative to the shaft component which depends on the rotational position of the image capture device and the shaft component relative to the outer shaft.

Abstract: The present disclosure relates to an openable/closable vertebral endoscopic device. The openable/closable vertebral endoscopic device includes an endoscope body including a working channel for providing an access route of a surgical instrument to a diseased area of a human body, the working channel having an open channel formed by opening a portion of the working channel such that a portion of the surgical instrument inserted into the working channel is exposed to the outside; and a cover member provided on the endoscope body to selectively open or close the open channel of the endoscope body.

Abstract: An endoscope includes: an insertion portion configured to be inserted into a subject; and a channel fixing portion disposed on an outer periphery of the insertion portion and configured such that a part or all of a long channel tube is fixed in a state of being embedded in a distal end portion of the insertion portion.

Abstract: A Raman endoscope for use in obtaining in vivo Raman spectra in the peripheral airways of the lungs and a method of constructing the Raman endoscope are disclosed. The endoscope has a tubular sheath containing a fiber bundle. The sheath has an outer diameter of less than 1.35 mm. The sheath is made of fluorinated ethylene propylene. The sheath is flexible along its length from a first end to a point along the sheath so that it can navigate sharp turns within the peripheral airways. A layer of coating covers the sheath along a terminal length and a probe tip of the fiber bundle. The terminal length extends along a length of the sheath extending from a second end opposite to the first end to the point. Terminal length is rigid to facilitate advancement of the endoscope towards the lesion of interest. Terminal length is 5 mm or less.

Abstract: An optical system may include an objective lens system having a primary optical axis and a relay lens system having a relay optical axis. The relay optical axis may have a first angular offset with respect to the primary optical axis. The objective lens system may be configured to provide light from a light source to the relay lens system and provide light from the relay lens system to an image sensor. The relay lens system may be configured to provide light from the objective lens system to an end face of an optical fiber, where the end face has a second angular offset with respect to a cross-sectional axis of the optical fiber. The relay lens system may provide light reflected from the end face to the objective lens system.

Abstract: A method of assembling an optical relay assembly including forming a line of optical components within an optical component aligning groove of a first base member and directing the line of optical components from the optical component receiving groove into a cylinder covered by a shrinkable tube. The cylinder, line of optical components and shrinkable tube are then positioned within a cylinder receiving groove of a second base member and the line of optical components are extruded from the cylinder into the shrinkable tube. The line of optical components and shrinkable tube are advanced along the cylinder receiving groove and through a heating area for shrinking the shrinkable tube about the line of optical components.

Abstract: An endoscope has a shaft which is composed of an outer tube and an inner tube, providing a channel therebetween. The proximal end of the shaft is connected to an endoscope head. The endoscope head is provided with a light guide connector. Light guides extend from said light guide connector to a distal end of said channel in said shaft. Said channel housing said light guides is filled with an adhesive.

Abstract: The present invention provides, according to some embodiments, an in vivo imaging device, comprising a mount having at least one illumination source. The mount may be in electrical communication with the illumination source. The device may further include a circuit board and a contact clip for securing the mount to the circuit board and for providing electrical communication therebetween.

Abstract: A medical capsule housing includes first and second outer members made of a resin material, both having an opening at one end. The first and second outer members are thermally welded by ultrasonic welding at an abutting portion. The abutting portion includes a sharp edged line portion which forms the opening end portion of the first outer member and an inclined surface portion which forms the opening end portion of the second outer member. The sharp edged line portion is provided in a closed space formed by the first outer member and the second outer member before the ultrasonic welding.

Abstract: An endoscopic shaft having multiple endoscopic elements set in a polymer common housing. The endoscopic elements may be drawn with the common housing to manufacture a component, called an EndoFiber, which forms the length of the endoscopic shaft. A second structure, called an Endocap, may be provided that includes optical elements and which is attached to the end of the EndoFiber to form the shaft.

Abstract: A method for assembling an endoscope with a first tubular channel for receiving image-transmitting components and with a second channel for receiving light guides. It is proposed to introduce the light guides first into a flexible tube and to introduce the unit made up of flexible tube and light guides into the second channel.

Abstract: A system and method are provided for tracking a user's posture. The system and method include an environmental module for determining the user's physical environment, a biomechanical module for determining at least a user's posture in the user's physical environment, and an output module for outputting to the user an indication of at least the user's posture relative to at least a target correct posture. The physical environment can include a computer workstation environment, a manufacturing environment, a gaming environment, and/or a keypadding environment.

Abstract: An assembling method of a capsule medical apparatus is provided. The capsule medical apparatus includes a sealed capsule container having an image pick-up unit which picks up an image of a portion illuminated by an illuminating unit, and an objective optical system which is arranged in front of the image pick-up unit. The assembling method includes a positioning step of positioning so that a relative position of a reference position of a fixing frame in the objective optical system matches a reference position of an image area of the image pick-up unit, and a fixing step of, after the positioning step, contacting a reference down-surface of the fixing frame with the top surface of the image pick-up unit and fixing the image pick-up unit and the fixing frame.

Abstract: A system and method are provided for tracking a user's posture. The system and method include an environmental module for determining the user's physical environment, a biomechanical module for determining at least a user's posture in the user's physical environment, and an output module for outputting to the user an indication of at least the user's posture relative to at least a target correct posture. The physical environment can include a computer workstation environment, a manufacturing environment, a gaming environment, and/or a keypadding environment.

Abstract: A method for assembling an endoscope that includes an imaging subassembly inside an insertion tube having distal and proximal ends. The method includes coupling the imaging subassembly to a plurality of wires, which have respective first and second ends, by fixing the first ends of the wires to the imaging subassembly. A connector is coupled to the wires by fixing the second ends of the wires to the connector. After coupling the imaging subassembly and the connector to the wires, the imaging subassembly is installed in the insertion tube by passing the connector through the insertion tube from the distal end of the insertion tube to the proximal end. After passing the connector through the insertion tube, the connector is inserted in a receptacle.

Abstract: An endoscope comprises a plurality of members constituting the endoscope, and parts-bonded sections each having at least members thereof bonded together using an adhesive. The temperatures of thermal destruction at which the adhesives included in the parts-bonded sections are thermally destroyed are made equal to or higher than the maximum temperature attained during a high-pressure steam sterilization process. At the same time, the temperatures of thermal destruction are made equal to or lower than the heat-resistance temperatures above which members bonded using the adhesives or members located near the bonded members included in the parts-bonded sections fail to resist heat.

Abstract: Insertion tube devices are disclosed.

Abstract: A large area thermal ablation apparatus for use with an endoscope includes a housing and at least one electrode. The housing is removably attachable to a distal terminating end of the endoscope. The housing includes an outer surface and a cross-sectional area that is at least as large as a cross-sectional area of the distal terminating end of the endoscope. The electrode is supported by the outer surface of the housing. The electrode is capable of delivering energy to a tissue region inside a body to ablate the tissue region.

Abstract: An endoscope is provided with a pliable tube composed of an integument layer formed from a resin and a metal tube integrally fitted into this integument layer in an insertion portion. The inner diameter dimension of the pliable tube at ambient temperature after application of the thermal load of the high-pressure steam sterilization step is larger than the inner diameter dimension at ambient temperature before application of the thermal load.

Abstract: A thin-walled elastic sheath that can be stretched axially over an elongated imaging device to closely conform to the device and isolate the device from an external environment, and a method of forming such a sheath, are shown and described. The method includes the steps of heating at least a portion of a sheet of an elastomeric material to an elevated temperature to form a malleable heated portion of the sheet, pressing an elongated forming tool against the sheet at a location central with respect to the heated portion of the sheet, stretching the heated portion of the elastomeric material with the forming tool until an elastic conforming portion of the sheet is conformed to at least a portion of the length of the forming tool, and removing the forming tool from the conforming portion of the sheet to leave the thin-walled, elastic sheath having a wall thickness approximately equal to or less than 0.006 inches.

Abstract: Distal catheter assemblies, catheters, and methods for minimizing damage to heat and/or magnetically sensitive components are provided. A distal catheter assembly comprises a composite housing having a cavity formed therein and first and second complementary lateral housing sections. A first component, e.g., a sensor, is mounted within the first housing section. Optionally, a second component, e.g., a steering assembly or RF wire, can also be mounted to the first housing section. The open housing section allows the first and second components to be mounted in any order. Thus, if the first component is mounted last, any adverse effects on the first component that may otherwise result from mounting the components in the reverse order may be minimized. After the first and second components are mounted, the first and second housing sections are affixed to each other in a suitable manner, e.g., by using a pin and hole arrangement.

Abstract: Distal catheter assemblies, catheters, and methods for minimizing damage to heat and/or magnetically sensitive components are provided. A distal catheter assembly comprises a distal housing having a cavity and a separate proximal mounting member. A first component, e.g., a sensor, is mounted within the cavity of the housing, and a second component, e.g., a steering assembly or RF wire, is mounted to the proximal mounting member. If the proximal mounting member is hollow, it may have a window to provide access to the inner surface of the proximal mounting member to facilitate mounting of the second component. After the first and second components are mounted, the proximal mounting member can then be affixed to the distal housing, thereby minimizing any adverse affects on the sensitive component that may otherwise result from mounting the first and second components on a single member.

Abstract: Insertion tube devices are disclosed.

Abstract: A method and an apparatus for displaying a structure of a vessel are disclosed. In one embodiment, the method includes identifying a centerline of the vessel within a portion of the vessel that includes the structure, identifying a contour of the vessel within a cross-sectional plane that is normal to a selected point along the centerline, measuring lengths of a plurality of segments that pass across the contour through the selected point, selecting one of the plurality of segments, and displaying an imaging plane defined by the selected one segment and an axis that is tangent to the centerline at the point. In another embodiment, the method includes determining a centerline of a tubular structure, selecting a section of the centerline, determining a plane that minimizes the distance to the selected section, and displaying the plane.

Abstract: An endoscope where problems due to a difference of deformation amount in the longitudinal direction generated between the flexible tube and the integrated object during autoclave sterilization are prevented, wherein the insertion part is comprised of a hard tip part and a flexible tube which is linked to the base of the hard tip part via a curving part, the tip of a treatment instrument tube is secured to a metal pipe disposed in a through hole of the hard tip part, the base part is secured to a branch pipe, and the treatment instrument tube has a shrinkage factor x having a characteristic x<1, that is, shrinking after a predetermined thermal load is applied, whereas the flexible tube 15 has shrinkage a factor y having a characteristic y<1, that is, shrinking after a predetermined thermal load is applied, in other words, the deforming directions of the flexible tube and the treatment instrument tube are set to the same direction with respect to the longitudinal direction, so that the flexible tube and t

Abstract: A thin-walled polymeric component that may have a selected complex shape, and a method of forming the component. The method includes heating a portion of a polymeric film to a selected malleable temperature, and forming a protrusion in the heated portion while it is malleable. The protrusion defines a protrusion having a first shape. The method also includes positioning a forming tool in the protrusion's interior and drawing a partial vacuum from within the protrusion so as to exert a force on the protrusion and move the protrusion's sidewalls inwardly into engagement with the forming tool. As the partial vacuum is drawn, the protrusion moves to a second shape that may be different than the first shape and that closely conforms to the selected shape of the forming tool. The protrusion is cooled below the malleable temperature and the forming tool is then removed.

Abstract: An endoscope comprises a plurality of members constituting the endoscope, and parts-bonded sections each having at least members thereof bonded together using an adhesive. The temperatures of thermal destruction at which the adhesives included in the parts-bonded sections are thermally destroyed are made equal to or higher than the maximum temperature attained during a high-pressure steam sterilization process. At the same time, the temperatures of thermal destruction are made equal to or lower than the heat-resistance temperatures above which members bonded using the adhesives or members located near the bonded members included in the parts-bonded sections fail to resist heat.

Abstract: A flexible tube for an endoscope is provided with a spirally-wound tube, a braided tube covering the spirally-wound tube, and a sheath provided on the braided tube. The sheath material is fused and coated on the braided tube to form the sheath. When the sheath material is fused and applied on the braided tube, the sheath material passes through interstices of the braided tube, at the positions facing the clearances between windings, to form a plurality of protruded portions which protruded inward with respect to the braided tube.

Abstract: An external component of an endoscope includes an aluminum alloy base member whose surface is subjected to anodic oxidation, and thereafter, is subjected to an electrolytic deposition thereon.

Abstract: A thin-walled elastic sheath that can be stretched axially over an elongated imaging device to closely conform to the device and isolate the device from an external environment, and a method of forming such a sheath, are shown and described. The method includes the steps of heating at least a portion of a sheet of an elastomeric material to an elevated temperature to form a malleable heated portion of the sheet, pressing an elongated forming tool against the sheet at a location central with respect to the heated portion of the sheet, stretching the heated portion of the elastomeric material with the forming tool until an elastic conforming portion of the sheet is conformed to at least a portion of the length of the forming tool, and removing the forming tool from the conforming portion of the sheet to leave the thin-walled, elastic sheath having a wall thickness approximately equal to or less than 0.006 inches.

Abstract: A flexible tube for an endoscope includes a flexible elongated structural body and an outer cover provided over the elongated structural body. The outer cover is made of a material which contains polyurethane elastomer and polyester elastomer, in which compounding ratio of the polyurethane elastomer and the polyester elastomer in the material is 0.03-0.3 parts by weight of the polyester elastomer per 1 part by weight of the polyurethane elastomer. This flexible tube has excellent flexibility as well as various excellent properties such as chemical resistance, heat resistance and weather resistance.

Abstract: A method measures and analyzes a physical quantity of interest having first and second significant values dependent on a plurality of characteristic parameters. The method includes storing the characteristic parameters in a storage support external of the measuring device and ancillary thereto; automatically measuring the first and second significant values; and analyzing, on a data processor, the measured significant values to produce a classification thereof based on a knowledge of said characteristic parameters. A system measures and analyzes a physical quantity of interest by application of fuzzy rules. The system comprises an apparatus for measuring the physical quantity of interest having its output connected to a fuzzy processor. The system also comprises a storage support, ancillary to the measuring apparatus, which stores the characteristic parameters of a user being tested, which is connected to a smart card reader/writer in turn connected to the measuring system and the fuzzy processor.

Abstract: A multi-use disposable endoscope capable of being sterilized and reused for a number of surgical procedures and then discarded is disclosed. The endoscope is adapted to withstand a number of sterilization cycles without experiencing degradation of the functional systems of the scope, and yet retains the cost effective qualities of a disposable endoscope. The endoscope preferably is formed in accordance with methods utilized for manufacturing a disposable endoscope, e.g., incorporating inexpensive plastic components for the housing sections of the scope as well as for the various systems of the scope. Particular attention is directed to adequately sealing potential leakage areas of the endoscope, such as the distal end of the endoscope and the juncture of the endoscopic portion and the eyepiece section.

Abstract: An endoscope contains no adhesives, epoxies, or other organic materials. The endoscope includes a set of lenses held in position by cylindrical spacers. A pair of windows seal the ends of the endoscope, and prevent the lenses and spacers from falling out. The windows are brazed to the endoscope. Due to the use of brazing, no adhesives are needed to hold the lenses or windows in place. Thus, one can sterilize the endoscope in the high temperature environment of an autoclave, without risking damage to the optical components. The brazing produces a hermetic seal which enables the endoscope to function properly in an environment of high temperature or high pressure, or in chemically abusive environments.

Abstract: An endoscope having a shaft with a semi-rigid tube and a malleable tube. The malleable tube is connected to and extends from a distal end of the semi-rigid tube. The connection of the two tubes includes dimples stamped into the semi-rigid tube that inwardly project into holes in the malleable tube.

Abstract: A method of connecting a fiber-protective sheath to a fiber assembly having a fiber covered by a protective multi-layer skin, and the combination of the sheath and the fiber assembly. The skin has an inner cladding and an outer jacketing. The fiber-protective sheath extends externally around the fiber assembly and has at least one end externally swaged to a corresponding portion of the fiber assembly so that the inner cladding of the fiber assembly is not plastically deformed. The method comprises externally swaging at least one end of the sheath to a corresponding portion of the fiber assembly so that the innermost cladding of the fiber assembly is not plastically deformed.

Abstract: A multi-use disposable endoscope capable of being sterilized and reused for a number of surgical procedures and then discarded is disclosed. The endoscope is adapted to withstand a number of sterilization cycles without experiencing degradation of the functional systems of the scope, and yet retains the cost effective qualities of a disposable endoscope. The endoscope preferably is formed in accordance with methods utilized for manufacturing a disposable endoscope, e.g., incorporating inexpensive plastic components for the housing sections of the scope as well as for the various systems of the scope. Particular attention is directed to adequately sealing potential leakage areas of the endoscope, such as the distal end of the endoscope and the juncture of the endoscopic portion and the eyepiece section.

Abstract: The invention provides a rigid endoscope utilizing a high refractive index (HRI) tunnel rod, preferably made of glass, for transfer of image light from a distal end to a proximal end of the device, such HRI tunnel rod being modified so that a minimum of light is scattered and reflected within the rod, thus minimizing veiling glare and contrast reduction of the image which is formed near the HRI tunnel rod's proximal end. The HRI tunnel rod shortens the apparent distance from the proximal to the distal end by virtue of its refractive index being greater than that of air, and also provides a light tunnel which can carry the image over a relatively long distance by virtue of its modified inside walls. A preferred method of modification includes hydrogen firing of the HRI tunnel rod in order to create a thoroughly blackened inner surface which is highly non-reflective, even at grazing incidences.

Abstract: A joint construction for connecting a flexibly bendable angle section of an endoscopic insertion rod with an anteriorly and/or posteriorly located section of the insertion rod, including a line-wrapping layer formed on a fore end portion of a resilient outer skin layer of the angle section at a joint with the adjoining section, and a rigid cover ring fitted on the line-wrapping layer for protective purposes. The rigid cover ring is externally tapered or gradually thinned down in its front and rear end portions to provide front and rear bevel surfaces.

Abstract: A disposable rigid arthroscope having an inclined angle of view includes a frame member, an outer tube member extending distally from the frame member, an inner lens tube member eccentrically disposed within the outer tube member, an optical system disposed within the inner lens tube member and having a mechanism for altering the field of view of the optical system with respect to the optical axis and an illumination system including a plurality of optical fibers. The optical fibers of the illumination system are oriented by a shim member to emit light in the general direction of the inclined field of view to sufficiently illuminate the surgical field. The shim member includes opposed side edges that are angularly oriented relative to the optical axis and a proximal end portion extending along an inner periphery of the outer tube member to define a major cross-sectional dimension approximating a maximum inner dimension of the outer tube member.

Abstract: A flexible endoscopic probe includes a fiber optic image guide, a lens adhered to the distal end of the fiber optic image guide, and one or more fiber optic illumination fibers surrounding the image guide and terminating at the distal end of the probe. During manufacture, a mask tube is placed at least partially over the lens so that a masking material can be injected and cured. A retaining tube is disposed around the illumination fibers and a temporary tube is slid over the retaining tube so that a potting material can be injected into the spaces between the fibers, the image guide, and the retaining tube. The temporary tube is then removed, the distal end is ground and polished, and the masking material is removed from the lens.