Abstract: A laser energy delivery device is provided that is suitable for irradiating a body tissue with relatively long wavelength laser energy in the presence of an aqueous liquid without significant absorption of the laser energy by the liquid. The device includes an elongate hollow sheath that is open at its distal end and closed at its proximal end, a laser energy conduit such as an optical fiber or hollow wave guide, within the sheath, the distal end of the conduit being disposed near the open distal end of the sheath, and the proximal end of the conduit being adapted for connection to a source of long wavelength laser energy. The sheath also includes an inlet port, spaced from the proximal end of the sheath, and adapted to receive and deliver a biologically compatible gas through the sheath to a body tissue site in contact with the open distal end of the sheath. In use, the open distal end of the sheath is positioned in contact with a body tissue site.

Abstract: An optical fiber imaging system includes an optical fiber bundle including a plurality of optical fibers, an elongated housing receiving and at least partially enclosing the optical fiber bundle therein, and an optical window disposed at an end of the elongated housing and thereby defining a cavity within the elongated housing next to the end face of the fiber bundle, the cavity being adapted to retain a substance of inert chemistry such as index matched oil for suppressing environmental degradation at the end face of the fiber bundle. The oil is preferably made of silicone petroleum products with the index of refraction being advantageous to the preferred optical characteristics of the entire imaging system.

Abstract: Herein disclosed is an image fiber imaging apparatus comprising an image guide fiber bundle having a plurality of optical fibers, a receiving end, at which one ends of said optical fibers are arranged, and a transmitting end, at which other ends of said optical fibers are arranged, said receiving end being directed to an object to receive an image of said object, said optical fibers transmitting said image received at said receiving end to said transmitting end, said image including a plurality of image portions, each corresponding to one of said optical fibers; a solid-state imaging device arranged at said transmitting end of said image guide fiber bundle for converting said image including a plurality of image portions transmitted by said optical fibers of said image guide fiber bundle into an image signal; an electrical spatial filter for filtering said image signal converted by said solid-state imaging device to output a filtered image signal; and a display unit for displaying said filtered image signal o

Abstract: An endoscope cable for use in an endoscope viewing apparatus for viewing an objective has an image viewing cable end portion for association with an image viewing device, a distal, image forming end portion including image forming means for forming an image of the objective, an image transmission means for transmitting the image from the image forming means to the image viewing cable end and a plurality of illumination light conducting fibers extending from an illumination light receiving end at the image viewing cable end to an illumination light emitting end at the image forming end of the cable. A first set of the illumination light conducting fibers has an illumination light emitting end portion axis parallel to the cable image forming end portion axis. A second set of the illumination light conducting fibers has an illumination light emitting end portion axis at a first acute angle to the cable image forming end portion axis.

Abstract: A method and an apparatus for examining the subsurface microstructure of a sample are provided. Radiation from a plurality of ptical radiation sources travels along a first ptical path. In the first optical path, a device focuses the optical radiati n from each of the optical sources into a plurality of respective focal points along the first optical path to provide substantially continuous coverage of a selected portion of the first optical path. Then, a sample on the first optical path within the selected length extending into the sample is scanned along said selected portion of the first optical path.

Abstract: A low voltage power supply includes a plurality of output terminal pairs interconnected by electrical circuitry effective to permit individual adjustment of the voltages applied between each such pair for powering simultaneously a plurality of light sources at individually selected voltages. The light sources are associated with dental handpieces through umbilical tubings, an exemplary one of which includes a bundle of flexible, light-conducting fibers connected between a first coupling fixture holding a subminiature bulb and a second coupling structurally adapted for connection to a dental handpiece.

Abstract: A grounding system for a fiberscope utilizing an electrically conductive braid surrounding at least a portion of a flexible hollow tube containing fiber optic bundles. The fiberscope also includes an electrically conductive member surrounding the bundle end. The system further possesses connections between the electrically conductive braid and the end member. An electrically conductive ferrule underlies and links the fiberscope housing and the electrically conductive braid. A conductor connects to the ferrule, extending to the exterior portion of the housing for accessibility to the user.

Abstract: An image fiber includes an image fiber body having a twisted portion which is formed by heating, softening, and twisting a portion of the image fiber body. The rate of twist in the twisted portion is made to be constant. Moreover, the rate of twist may preferably be set in a range from 1°/mm to 4000°/mm. In addition, the rate of twist at the beginning portion of the twisted portion and the rate of twist at the end portion of the twisted portion may preferably be set in a range from 3°/mm to 400°/mm.

Abstract: An optic for the imaging optics on the distal end of a flexible fiberoptic endoscope or rigid borescope inspection tool. The image coverage is over a narrow (<20 degrees) field of view with very low optical distortion (<5% pin cushion or barrel distortion), compared to the typical <20% distortion. The optic will permit non-contact surface roughness measurements using optical techniques. This optic will permit simultaneous collection of selected image plane data, which data can then be subsequently optically processed. The image analysis will yield non-contact surface topology data for inspection where access to the surface does not permit a mechanical styles profilometer verification of surface topology. The optic allows a very broad spectral band or range of optical inspection. It is capable of spectroscopic imaging and fluorescence induced imaging when a scanning illumination source is used.

Abstract: First and second optical-redirectors mounted on a catheter couple radiation to a target along separate first and second paths. Either the first or second optical-redirectors, or both, can include a steering mechanism for selecting the first and/or second path.

Abstract: The invention provides automatic protection from heat damage due to continuing emissions from the distal ends of untended fiberoptics lighting cables, especially those employed in surgical procedures. Damage from such intense and concentrated emissions may include burning of patient tissues, cloth, polymer sheeting and other heat sensitive materials. A simplified proximity detection circuit permits emissions only when an electrically conductive distal terminal or attached implement is purposely held by an operator. Sensitivity is adjusted to provide that casual contact of the small area of the terminal surface at the distal end of the cable with a portion of the human body or other source of substantial earth-ground capacitance, insulated by a non-conductive covering, will not initiate emissions. Emissions can be instantly initiated when wanted by direct contact or by a surgically gloved hand that holds the small terminal with sufficient pressure to maximize the proximity of hand and terminal surfaces.

Abstract: A fiber bundle for image transmission includes pluralities of first optical fibers and a plurality of second optical fibers. Both pluralities of optical fibers being tied at their distal ends to form a composite bundle portion. The first optical fibers being tied at their proximal ends to form a first branched bundle portion and the second optical fibers being tied at their proximal ends to form a second branched bundle portion.

Abstract: An endoscope cable for use in an endoscope viewing apparatus for viewing an objective has an image viewing cable end portion for association with an image viewing device, a distal, image forming end portion including image forming means for forming an image of the objective, an image transmission means for transmitting the image from the image forming means to the image viewing cable end and a plurality of illumination light conducting fibers extending from an illumination light receiving end at the image viewing cable end to an illumination light emitting end at the image forming end of the cable. A first set of the illumination light conducting fibers has an illumination light emitting end portion axis parallel to the cable image forming end portion axis. A second set of the illumination light conducting fibers has an illumination light emitting end portion axis at a first acute angle to the cable image forming end portion axis.

Abstract: A novel optical fiber, and a method for its production, having a diffuser portion and continuous unitarily-constructed outer sleeve, which is adapted for the transmission of light to a treatment locale. More particularly, a medical instrument has an optical fiber including a diffuser portion at a distal end wherein an alignment sleeve for the optical fiber extends uninterruptedly in a single piece from a connector for a laser light source to at least the distal end of the core of the optical fiber.

Abstract: The present invention describes a multi-component handpiece that is both economical and practical for surgical laser treatment. A disposable optical fiber is inserted into a reusable handpiece. The distal end of the optical fiber is protected by a micro-walled protective tube to prevent the disposable fiber from chipping before and during insertion into the handpiece. Once the optical fiber is protected, it is inserted into the handpiece by threading the optical fiber through the cap, body, and cannula of the handpiece until the fiber extends slightly beyond the distal end of the needle. The micro-walled protective tube is removed from the end of the optical fiber, the optical fiber is positioned, and the cap is tightened. The cap and body of the handpiece cooperate to produce a tight friction fit that prevents longitudinal movement of the optical fiber during laser therapy.

Abstract: There is disclosed a light guide unit including a bunch of glass fibers capable of transmitting light from a light source to a desired site, a sheath of a thermocontracting resin contracted to cover the bunch of glass fibers for substantially its overall length, and a filler of a hardening resin hardened to fill spaces between the glass fibers within the sheath. Also disclosed are a method for producing the light guide unit, and a dental handpiece having the light guide unit.

Abstract: The invention relates to a detection probe for spectroscopy and/or spectrometry in tissue (4) with the aid of optical fibers (1,2). At least one fiber (2) transmits light into the tissue (4) and other fibers (2) receive backscattered light. According to the invention, deflection devices (mirrors 6, fibers 7, prisms 9,10,11) are provided for the light, whereby the inventive probe is substantially flatter and easier to handle.

Abstract: A wide-view endoscope comprising a rounded body having an inner surface, a proximal end and a distal end, at least one lens element having an outer surface, a plurality of gaps formed by the inner surface of the body and the outer surface of the lens element, where at least one of the gaps is disproportionate in size by comparison to the remaining gaps, and at least one conduit for the transmission of light from an external light source to a visualized object, the conduit being disposed of in the gaps. Whereby, light is asymmetrically transmitted to the visualized object and the visualized object has a three-dimensional appearance that is produced through the shadowing resulting from the asymmetric transmission of light to the visualized object.

Abstract: An eye image pickup device includes an object lens; an image pickup element, such as a CCD serving as an image pickup unit; a light shielding portion; and a light guide unit. The light shielding portion shielding one part of the pickup light path is coaxially positioned along a light axis of an optical image pickup system. The light guide unit guides visible light on the route of the guide light path leading to the object lens. A cross section of the guided visible light is similar to that of the light shielding portion, and the center of the visible light is coincident with the light axis. The cross-sectional area of the visible light is set substantially equal to or slightly larger than the effective cross sectional area of the light shielding portion with respect to the optical image pickup system along the light path.

Abstract: This invention concerns a technique and an apparatus that is used for the measurement of bi-axial strain in printed paperboard or paperboard based laminates. Such strain information is useful for determining the margin to failure of various features of laminated paperboard cartons, such as those used in the liquid packaging industry. Knowing such margins of failure is crucial for ensuring integrity of the microbiological barrier in aseptic liquid packaging.

Abstract: A fiber-optic connector utilizing a first tube for receiving a source of light and a second tube separated from the first tube enclosing an optic bundle. A first guide surrounds the first tube and positions the first tube along an axis to place the same adjacent the second tube. A second guide determines radial orientation of the first tube relative to the second tube by engaging planar surfaces on the second guide.

Abstract: In an apparatus using an AC lighting lamp including a reflector and a condensing lens as a condensing unit and using a CCD to pick up an image of a subject irradiated with a light from the lamp, an entrance facet of a light guide is arranged between two condensing points G1 and G2 and at a position that is not close to either of the condensing points, particularly at an intermediate position therebetween so that lights from a bright spot g1 or g2 at a tip of a first or second electrode, respectively, of the lamp are condensed at the corresponding condensing point by the condensing unit. Thereby, although an amount of emission slightly decreases compared to the case where the entrance facet is arranged on the basis of the bright spot, emission with a reduced variation in luminance is obtained to enable photographing with a substantially uniform amount of exposure, while preventing possible flickers.

Abstract: The invention concerns a device for observation inside a body, such as the body of a living being, comprising means for illuminating (110, 115, 200, 300, 400) the body inside, means for displaying an image (600, 700, 800), and a flexible conduit (300) for travelling through an inside part of the body and conveying an image from inside the body to the displaying means (600, 700, 800), the illuminating means (110, 115, 200, 300, 400) being arranged to automatically scan a zone of the body forming the displayed image.

Abstract: A fiber bundle consists of first optical fibers and second optical fibers. At the distal end of the fiber bundle, the first and second optical fibers are bundled in a square close-packed array or a hexagonal close-packed array. The first and second optical fibers are separated from each other at the proximal end of the fiber bundle so that the first optical fibers are tied as a first branch bundle and that the second optical fibers are tied a second branch bundle.

Abstract: An illuminating device for an endoscope system emits light toward a light receiving surface of an optical fiber bundle. Light incident on the light receiving surface of said optical fiber bundle is emitted from a light emitting surface of the optical fiber bundle for illuminating an object. The illuminating device is provided with a plurality of light emitting elements, each of which emits a directive monochromatic light beam. The light beams emitted by the plurality of light emitting elements are incident on the light receiving surface of the optical fiber bundle within an angular aperture of the light receiving surface thereof.

Abstract: A method of conducting endoscopic surgeries places the camera outside the sterile field, freeing the physicians hands and eliminating costs and inconveniences associated with sterilizing the camera between surgeries. Images may be relayed to the camera by means of a fiber optic cable. Cost issues associated with the long fiber optic cable are avoided by breaking it into two segments, only one of which is likely to be damaged during use. An image preserving connection is formed between the cable segments by a connector that fixes the ends of the cables in close proximity to one another, but a certain fixed distance apart. An image preserving connection is made between two fiber optic cables without the aide of a lens.

Abstract: An object of the present invention is to make the light distribution by a light guide even. In the light guide, an amount of light emitted from the central region in the light emission end face is relatively small in comparison with an amount of light emitted from a peripheral region in the light emission end face. For example, a mask for shielding light is provided near the light emission end face of the light guide. The mask is, for example, circular, and is aligned with an optical axis Z0 as the center. By providing the mask, the light emitted from the central region in the light emission end face is shielded around the optical axis Z0.

Abstract: An illumination system for endoscopes having a light source of which the brightness is controlled by a control unit. A hook-up cable containing a bundle of optic fibers is provided to transmit the light from the light source to a light guide situated in the endoscope and extending to a distal end of the endoscope. At least one fiber of the bundle of fibers is optically coupled at one end near the light source with a light sensor. The light sensor cooperates with the control unit to control the brightness of the light source.

Abstract: A biosensor, sensor array, sensing method and sensing apparatus are provided in which individual cells or randomly mixed populations of cells, having unique response characteristics to chemical and biological materials, are deployed in a plurality of discrete sites on a substrate. In a preferred embodiment, the discrete sites comprise microwells formed at the distal end of individual fibers within a fiber optic array. The biosensor array utilizes an optically interrogatable encoding scheme for determining the identity and location of each cell type in the array and provides for simultaneous measurements of large numbers of individual cell responses to target analytes. The sensing method utilizes the unique ability of cell populations to respond to biologically significant compounds in a characteristic and detectable manner.

Abstract: In a lightguide connector joint for an endoscopic system, the shape and dimensions of a lightguide connector (3) are determined in accordance with the size of the entrance end face (4a) of a lightguide (4) such that the smaller the size of the entrance end face (4a), the closer to the converging position of the rays of illuminating light is the position of the entrance end face (4a) that is established when the lightguide connector (3) is connected to a connector receptacle (20).

Abstract: An endoscope optics including a housing receiving an image-observation device and a tubular stem. The stem is secured to a distal end of the housing. An image transmitting device is mounted inside the stem. The image-observation device is aligned inside the housing with the image transmitting device regarding image position and image center. An insert element is used to adjust the image-observation device and includes an outer contour, which allows stationary affixation to the housing, and an inner, axially continuous borehole, which receives the image-observation device in geometrically interlocking manner. The relative position between the borehole and the outer-wall contour inside the insert element is determined by spatial coordinates ascertained for the particular endoscope optics and specifying the position at which to adjust the image-observation device inside the housing relative to the image transmitting device.

Abstract: An endoscope has a distal objective and proximal devices for image viewing including a fiber optical image guide, which extends within the endoscope between the objective and the devices for viewing the image and one of whose end regions is fixedly mounted on the endoscope and the other end region of which is axially movably mounted, and the image guide is secured in its proximal end region and the remaining distal end region of the image guide is freely movable, the objective also being movably received relative to the endoscope and the distal end of the image guide and the objective being connected together for common axial movement.

Abstract: Briefly stated, the present invention provides a medical laser delivery system that incorporates fluid delivery channels within the optical fiber structure so as to bring fluids directly to the site of laser power delivery. The channel or channels may pass through either the fiber core or the cladding. The fluids delivered to the site may serve to cool or irrigate the tissue during high power laser treatment. In addition, the fluid passed through the channel can be a drug or any substance that increases the tissue's photosensitivity to the laser energy. The need for an external fluid delivery device is eliminated. Treatment with the system is minimally invasive. Treatment and irrigation of the treatment site can be administered through a single fiber thereby limiting the entry puncture to the gauge of the fiber. The solid core fiber coupled with direct irrigation allows effective high-power density laser treatment.

Abstract: A fiber optic endoscope which uses a bundle of coherent fiber to convey both an optical image in one direction and illumination light in the other direction. A fraction of the optical fibers are used for the illumination, and others of the fibers are used for the image. Notched fibers can be used for the illumination.

Abstract: An illumination system includes a light source and a tapered bundle of fused optical fibers having a light input end configured for receiving light, the light input end having a first cross sectional area and a first numerical aperture, the tapered bundle having an output end configured for outputting light, the output end having a second cross sectional area and a second numerical aperture. The bundle of fused optical fibers is tapered between the input end and the output end such that there is a difference in size between the first and second cross sectional areas, so that light exiting the output end has a higher numerical aperture. A first fiber optic light guide is coupled to the light source for receiving light from the light source and delivering light to the input end of the tapered bundle, or the light can be directly coupled into the tapered bundle.

Abstract: The variable stiffness optical fiber shaft includes a optical fiber, and at least one coaxial layer of heat shrink polymer disposed over the optical fiber of a length shorter than the optical fiber, to provide variations in stiffness along the length of the shaft. The variable stiffness optical fiber shaft preferably includes a plurality of coaxial layers of heat shrink polymer encapsulating the optical fiber, extending from the proximal end of the optical fiber toward the distal end, the plurality of coaxial layers having different lengths to provide said optical fiber shaft with varying stiffness over the length of the optical fiber shaft. The plurality of coaxial layers can be arranged in successive progressively shorter coaxial layers, and can be formed of heat shrink polymeric material, such as polyethylene, PTFE, PEEK, PET or PPS.

Abstract: An endoscopic optical system includes an elongate metal housing with a circular opening in its end in which a transparent window is received. The window has a cylindrical outer edge surface which is metallized over at least part of its area and is opposed to the cylindrical internal surface of the opening. An annular solder joint is provided in the gap between the opposed cylindrical surfaces. The solder joint has a thickness in the direction perpendicular to the window which is only a proportion of the thickness of the window.

Abstract: In an endoscopic optical fiber bundle, cutouts (15a) are formed near an end portion of helical tube (15) and the area with the cutouts is placed over socket (12), with a string-like member (16) being passed through the cutouts (15a) to be wound onto the outer surface of the helical tube (15) so that the socket (12) is tightly bound to the helical tube 15.

Abstract: A probe comprising a core (2) having a first end part (2a) on which light from a light source is incident and a second end part (2b) with a diameter smaller than a wavelength of the incident light and a cladding (1) covering the core (2). A thin nitride film (3) made of at least one nitride selected from titanium nitride, zirconium nitride, and hafnium nitride is formed on a surface of the core (2) on the side of the second end part (2b) except the first and second end parts (2a) and (2b). The thin nitride film (3) has a high reflectivity for light with a wavelength of longer than 600 nm and the incident light does not leak out of the probe and reaches the tip of the probe, so that the intensity of the light emitted from the tip of the probe is improved. When the probe is used in a probe-type memory, high density recording with an excellent signal quality (S/N) can be realized.

Abstract: An illumination system for endoscopes has a light guide bundle constructed and arranged to illuminate an object to be observed. The light guide bundle is extended in an axial direction of the endoscope and branched into a plurality of branch portions in a frame which is adapted to be disposed inside of the endoscope. Each of the branch portions have a crescent-shaped cross-section at a mid-portion along the axial direction of the endoscope and each of the branch portions have at least one bent portion in which a protective glass plate is disposed on each exit surface of the branch portions. An endoscope system includes the above illumination system.

Abstract: A test apparatus is used in combination with a fiberoptic scope, which scope includes an eyepiece, an elongate scope body connected to and generally optically aligned with the eyepiece and a plurality of generally optically aligned lenses disposed within the scope body and optically communicating with the eyepiece. The apparatus includes a holder that supports the scope such that the eyepiece of the scope is exposed by the holder. A focusing member is telescopically interengaged with the holder. An inspection eyepiece assembly is mounted within the focusing member and includes an magnifying lens that faces and optically communicates with the eyepiece of a scope supported by the holder. The focusing member and the holder are telescopically adjusted relative to one another to focus the inspection eyepiece assembly on a selected lens of the scope. As a result, an image of the selected lens is transmitted through the inspection eyepiece assembly and examined.

Abstract: Apparatus (20) for aiming and projecting laser radiation emitted from an output-face (56) at an output-end (52) of an optical-fiber transmitter (54), includes a target (26) surrounding the output-end of the optical-fiber transmitter and held in a fixed relationship therewith. One or more light sources (46) illuminate the target with visible light such that the target directs at least a portion of the visible light in the emission direction of the laser radiation whereby when the optical-fiber transmitter is directed toward a surface, the visible light directed by the target indicates an incidence region of the laser radiation on the surface. The apparatus optionally includes an optical system (27) arranged to project a visible image (72) of the target and an image (74) of the output-face of the optical fiber transmitter. The degree of focus of the visible target-image on the surface corresponds to the degree of focus of the laser radiation on the surface.

Abstract: A coherent illuminator system and method wherein an incident energy beam is directed at an end of image conduit rotating around its axis. The incident energy beam may be generated by a laser, maser, or similar radiation source. A substantially cylindrically uniform radiation spot is obtained from the other end of the image conduit, which may be guided by waveguide means to an application element such as, for example, an emission microscope or a medical instrument.

Abstract: The subject invention pertains to a system for imaging the human airway having highly advantageous optical and physical characteristics. In a specific embodiment, the human airway can be imaged during the intubation procedure. The excellent characteristics of the imaging system of the subject invention result, in part, from the use of plastic optic fibers. Plastic fibers are more robust than the glass optical fibers used in currently available imaging systems, and are therefore capable of being bent and/or twisted with less concern of breakage. In addition, the lower costs of plastic fibers enables scopes of the subject invention, in a specific embodiment, to be manufactured for single patient use thereby eliminating the requirement for cleaning, special care, the maintenance of expensive inventory, and most importantly eliminating the opportunity for cross contamination between patients.

Abstract: An emission microscopy system with a coherent illuminator system and method wherein an incident energy beam is directed at an end of image conduit rotating around its axis. The incident energy beam may be generated by a laser or similar radiation source. A substantially cylindrically uniform radiation spot is obtained from the other end of the image conduit, which may be guided by waveguide means to an emission microscope used in IC failure analysis.

Abstract: A miniaturized endoscope is formed by passing light in both directions down the endoscope.

Abstract: A device for use in laser surgical procedures for moving axially an optical fiber element that is connected at its proximal end to a source of laser energy. The distal end of the fiber elements with a cooperating piercing tip member has a tapered configuration so that it is capable of penetrating soft tissue of membrane such as the myocardium or epicardium of a human heart during the revascularization procedure. Various combinations of bundled optical fiber elements are disclosed which provide different tapered distal end designs that can be used in various surgical procedures.

Abstract: An improved waveguide for an infrared thermometer, comprising a silver halide optical fiber cable of low transmission loss, a high aspect ratio, and a radially decreasing index of refraction. The transmission loss is low enough to enable the cable to be up to ten meters in length, thereby extending beyond the housing of the thermometer and being insertable in confined spaces such as an ear canal. The small cross sectional area and radially decreasing index of refraction of the cable make the field of view of the cable small enough to enable it to resolve targets as small as a portion of the human tympanic membrane, enabling the device to be used to measure the core temperature of humans and other organisms.

Abstract: A rigid sleeve device for an endoscope comprises an inner pipe fitted over a flexible insertion section of the endoscope and movable back and forth and a sleeve fixing unit provided in the inner pipe and detachably fixing the inner pipe at a given axial position on the outer periphery of the insertion section. The rigid sleeve device is fixed at any given position to the flexible insertion section of the endoscope.

Abstract: A hand held device having an optical fiber with a radiation emitter carried at a free end, the optical fiber being attached to a handle that includes a knob which allows movement of a flexible tubular sleeve from a position covering the fiber and emitter to a position exposing the emitter and a length of fiber adjacent to it, the sleeve also having a sharp metal cleat extending from its end, the cleat being an end of a length of wire which passes through a separate channel of the sleeve to the knob without being attached to the sleeve. An application of this device is for inserting the emitter into a mass of material in order to irradiate the material from within.