Abstract: The present invention relates to an arthroscopy apparatus, comprising at least three elements selected from: a conventional arthroscopic lens (12), to which there is coupled a power supply device or capsule, in the inside of which is the power source (1), and a miniature camera (8), characterized by not comprising connecting cables.

Abstract: A control system for allowing a user to control the orientation of a medical device or a medical instrument in a variety of directions. An actuator selectively tensions one or more control cables having ends secured at or adjacent a distal tip of the medical device in order to bend the distal tip in a desired direction. In one embodiment, a physician can adjust the movement of the distal tip in a desired direction without affecting the orientation of the medical device in other directions.

Abstract: A system for controlling actuation of a capsule endoscope includes a receiving unit receiving an image transmitted from the capsule endoscope; a coil unit generating a magnetic field for actuating the capsule endoscope by using current applied thereto; a power supply unit supplying power to the coil unit; and an actuation controller control the current applied to the coil unit and a coil rotational motor for adjusting of a posture and the location of the capsule endoscope based on the identified lesion or location of the capsule endoscope, wherein the coil unit includes a pair of Helmholtz coils and a pair of Maxwell coils that are fixedly disposed on a main axis; and a pair of uniform saddle coils and a pair of gradient saddle coils that are located inside the pair of the Helmholtz coils and the pair of the Maxwell coils to rotate around the main axis.

Abstract: A propelling device includes a traveling body that rotates in a state of being brought into contact with an inner wall of an alimentary canal, an external cylinder around which the traveling body is wound, and a mounting cylinder on which a tip end portion of an endoscope is mounted. Three driven rollers are rotatably attached to the external cylinder. The traveling body is pinched between the driven rollers and driving gears. As the driving gears rotate, the traveling body travels in a circulating manner. A rotating shaft of the driven roller located at the center among the three driven rollers is held by a shaft hole that is made long in a gear arrangement direction in which the driving gears are disposed side by side.

Abstract: Medical devices including devices and systems for endoscopic interventions that may access the biliary tree. An example biliary catheter system may include an endoscope having a working channel formed therein. An endoscopic instrument may be disposed in the channel. The endoscopic instrument may have a tool channel formed therein, a distal end, and a plurality of stabilizing members extending from the distal end. The plurality of stabilizing members may be configured to surround the ampulla of Vater during a biliary tract intervention.

Abstract: The present invention relates to methods and systems for endoscopic fasciotomies. In certain embodiments such methods include dissecting tissue down to the fascia using an endoscopic dissector, lifting the fascia off tissue, vascular structures, muscle, and/or nerves, cauterizing and cutting the fascia using a bisector/bipolar device inserted through a cannula, retracting the cannula, and closing the incision site. A suction device introduced via the cannula may be used to apply suction to remove blood, tissue, irrigation fluid and/or other debris with the cannula in situ.

Abstract: An endo-surgical device, system and method are provided. The endo-surgical device includes a flared prow that limits the displacement and rotation of the cannula to keep the knife away from tissues that are not intended to be cut. The endo-surgical tool can be utilized as part of a system for performing an endo-surgical procedure.

Abstract: Included are a bending tube; slits; wire guides; an outer coat member; and hole portions that are formed between particular slits in a distal end region that is forward from a central region on an outer circumference of a cylindrical member, each of the hole portions being communicated with any one of the slits, the wire guides covered by the outer coat member being respectively fixed to the hole portions while being attached to the cylindrical member from an outside thereof.

Abstract: An endoscope gas feed system includes a fluid curtain nozzle for blowing a fluid curtain-forming gas toward an observation window provided on a distal end surface of the insertion part of an endoscope, the distal end surface including at least the observation window and an opening for spraying a constant-pressure feed gas, and the fluid curtain nozzle is provided on an opposite side of the opening with respect to the observation window, a gas/water feed nozzle for cleaning the observation window, the gas/water feed nozzle being provided on the distal end surface, a constant-pressure gas feed unit for supplying the constant-pressure feed gas, so as to spray the constant-pressure feed gas from the opening, and a fluid curtain-forming gas feed unit for supplying a gas, so as to blow the fluid curtain-forming gas from the fluid curtain nozzle.

Abstract: An insertion portion, an operation portion, a signal cable, a plate-shaped member, an electric board, and a fixing member are included. The fixing member is formed into a U-shape in which a bottom surface, a top surface, a side surface and a fitting port are formed, and has a stopper for a surplus portion that is fitted in an inside formed, a distance between the bottom surface and the top surface is set to be slightly larger than a diameter in the surplus portion, and the surplus portion is configured not to be disposed in layers in a height direction of the side surface when the surplus portion is housed between the bottom surface and the top surface of the fixing member.

Abstract: An endoscope includes a distal rigid portion, a bending portion comprising a first bending portion and a second bending portion and a flexible tube portion. The endoscope further includes an operation wire, a wire guide member, a bending operation portion. The endoscope further includes a regulation wire, the regulation wire being longer than the bending portion, the regulation wire being inserted through the first bending portion and the second bending portion, the regulation wire being provided to face the operation wire in the diametrical direction of the bending portion, the regulation wire regulating the bending of the bending portion so that the second bending portion is bent in a direction opposite to the bending direction of the first bending portion and the bending portion is bent in an S-shape when the first bending portion is bent.

Abstract: An endoscope apparatus includes an endoscope insertion section and an optical adapter that is detachably attachable to the endoscope insertion section. In the optical adapter, an LED and a resistor for connection detection are connected in parallel to two electric contacts. In the endoscope insertion section, two signal lines are connected to electric contacts, which are connectable to the two electric contacts in the optical adapter. The endoscope apparatus includes an attachment-and-detachment determining power supply that is connected to one of the signal lines through a switching circuit, and an optical-adapter-attachment-and-detachment determining section. When connection of the optical adapter is detected, the switching circuit is switched to supply an electric current for turning on the LED from an LED turn-on power supply to the one of the signal lines.

Abstract: An endoscope apparatus according to the present invention is featured by including: an endoscope which has a connector main body; an apparatus main body to which the connector main body can be detachably mounted; a closed space which, after the connector main body is mounted to the apparatus main body, is formed in exterior housings of the apparatus main body and the connector main body by being closed by the exterior housings; a heat generating portion which is provided in the closed space; and a fan which is provided in the closed space, and performs at least one of dissipation of heat of the heat generating portion to the closed space and transfer of heat in the atmosphere in the closed space to the exterior housing.

Abstract: A method for creating a tract in retrograde fashion for nephrostomy tube creation comprising the steps of providing a puncture wire having a tissue penetrating tip shielded in a sheath, inserting the puncture wire and sheath through a channel in an ureteroscope, advancing the puncture wire from the sheath while visualizing under direct vision a position of the puncture wire, advancing the puncture wire through a selected calyx, and inserting antegrade a coaxial catheter over the puncture wire.

Abstract: Wireless capsule endoscope technology has been used to image portions of the gastrointestinal (GI) tract, particularly the small bowel. However in other GI organs, especially those having larger-lumens, the capsule may become destabilized and tumble, precluding meaningful interpretation of the acquired images. The present invention describes a method and apparatus for permitting capsule imaging of organs having larger-lumens without tumbling, and includes an outer shell surrounding the capsule that targets the colon, as an example. Once the colon has been reached, the shell breaks or dissolves, and allows expansion of expandable materials attached to each end of the capsule, thereby stabilizing the capsule in the targeted organ, while permitting it to be moved by peristalsis and/or other means for locating the capsule. Imagers and light emitting diodes (LEDs) are activated during the expansion process, and enable overlapping of images.

Abstract: An arthroscopic surgical temperature control system and method able to monitor and control the temperature within a surgical site during arthroscopic ablation procedures in order to prevent tissue damage is provided.

Abstract: An endoscope deflection section frame including a plurality of rings and rivets. Each ring has front ears and rear ears with rivet holes through the ears. The rivets are located in the rivet holes to thereby pivotably connect the rings to one another. Each rivet includes a head at an interior side of an inner one of the ears and an opposite end at an exterior side of an outer one of the ears. The opposite end is welded to the outer ear.

Abstract: A medical work station for treating a living being using a medical instrument includes at least one robot arm, which has a plurality of members connected by joints, drives to move the members, and an attaching device, at least one control device coupled with the drives, which is set up to generate signals for actuating the drives, so that the attaching devices carry out movements assigned to the signals, and a display device coupled with the control device.

Abstract: A micro robot system movable on three dimensional space includes a micro robot unit including a magnet module having a certain magnetization direction and configured to rotate and proceed along a wall by a processional rotating magnetic field, and an electromagnetic field generation unit configured to set an alignment direction of the micro robot unit to have a certain angle with respect to the magnetization direction and configured to generate a magnetic field in the alignment direction to drive the micro robot unit.

Abstract: An indwelling apparatus (5) for holding a capsule endoscope (3) is arranged with a control device (57) including an optical sensor (73), a control board (66) configuring a controller and a reset circuit, a driver board (68) configuring an electromagnet driver, and an electromagnet (70), where when the optical sensor (73) detects the light, the controller performs the drive control of the electromagnet (70) at every constant time interval to turn ON the reed switch (14) and supply power to the capsule endoscope (3) thereby operating the capsule endoscope (3) only when observation is necessary, and thus the battery drain of the capsule endoscope is reduced.