A surgical apparatus includes a housing, a test port retainer, a pressure test chamber, and an image capture assembly. The housing includes a pressure test port. The test port retainer includes a test port retainer housing, a probe seal, and a liquid exclusion barrier. In one aspect, the test port retainer also includes a hydrophobic membrane mounted within the test port retainer housing. The pressure test chamber includes a manifold and a central tube. The first end of the central tube is affixed to the image capture assembly to form a pressure seal, and the second end of the central tube is coupled to the test port retainer so that the pressure test port communicates with the interior volume of the central tube through the test port retainer.

An insertion assist system includes a guide member and a shift member. The guide member brings an outside bend of a peripheral surface of an insertion body into contact with a guide surface of the guide member. The shift member shifts a direction of the distal end of the insertion body. The shift member comes into contact with an inside bend of the peripheral surface of the insertion body when the insertion body is bent. The shift member bends the insertion body toward the guide surface about the guide surface as a fulcrum when the shift member comes into contact with the inside bend and bends the insertion body.

An instrument (203; 204) for endoscopic applications. The instrument is able to be guided through a curved shaped tube (201; 202) and has an intermediate cylindrical element (3) with a handling end portion with a flexible portion and actuating means located at an actuating end portion. The intermediate cylindrical element (3) has a first cylindrical part (31; 151) at the handling end portion, a second cylindrical part (35; 155) at the actuating end portion and a number of longitudinal elements (38; 60; 70; 80; 90; 100; 110; 130; 153) for transferring the movement of the actuating means to the handling end portion. The longitudinal elements are separated by longitudinal slits in the intermediate cylindrical element.

An endoscope includes, in an insertion section, a bending tube covered with a first skin, a flexible tube covered with a second skin, a thread wound around a joining section of the first skin and the second skin, first resin covering the thread and having a modulus of elasticity of 0.5 GPa or more and 5 GPa or less, and second resin covering the first resin, extended from both ends of the first resin respectively to ranges of 100 μm or more, and having a modulus of elasticity of 0.3 MPa or more and 100 MPa or less.

A steerable instrument for endoscopic and/or invasive type of applications, such as in surgery, which has an elongated tubular body having a proximal end part with a first actuation flexible zone having a first diameter and a distal end part having a first distal flexible zone having a second diameter that is different from the first diameter. A cylindrical diameter adaptation section is arranged to connect the proximal end part to the distal end part such that a flexion in a radial direction relative to a longitudinal center axis of the longitudinal tubular body of the first actuation flexible zone results in an amplified or attenuated flexion of the first distal flexible zone.

A steering joint comprises a first tubular member and a second tubular member. The first tubular member and the second tubular member include a plurality of cuts to facilitate bending. One end of the first tubular member has an accommodation portion for accommodating an endoscopic image module, and the other end has a first joint portion. One end of the second tubular member has a second joint portion which is joined to the first joint portion of the first tubular member. The tubular member of the steering joint is easy to injection mold and can reduce the accumulated tolerance. An endoscope including the abovementioned steering joint is also disclosed.

An insertion device comprising an insertion portion configured to be inserted into a subject and having a longitudinal axis in a state of forming a straight line. A bending portion is provided at a distal end side of the insertion portion. A bending tube is provided in the bending portion. A traction member is disposed in the bending portion. The bending tube includes a first joint ring and a second joint ring. The first joint ring is joined to the second joint ring in an adjacent manner. The first joint ring has a first contact portion where the traction member contacts an outer peripheral portion of the first joint ring. The second joint ring has a second contact portion where the traction member contacts an inner peripheral portion of the second joint ring. Application of tension on the traction member bends the bending portion.

A manufacturing method for a flexible tube for endoscope includes a step of extending a core material obtained by covering an outer circumference of a bar-like resin member with a first mesh tube in a major axis direction and winding a spiral tube around an outer circumference of the core material, a step of covering an outer circumference of the spiral tube with a second mesh tube, a step of molding an outer skin of a resin around an outer circumference of the second mesh tube and causing the resin to penetrate to a surface of the spiral tube, and a step of removing only the core material from a stacked tubular member formed by the core material, the spiral tube and the second mesh tube.

A flexible tubular drive shaft for a medical device comprising: an elongated tubular body having an opening extending along a longitudinal axis from a proximal end and a distal end. The elongated tubular body includes a proximal portion having a first rigid section and a first flexible section; a middle portion having a second rigid section; and a distal portion having a second flexible section. The first rigid section is configured to couple the tubular drive shaft to a torque input apparatus to transfer torque to the distal end of the tubular body. The first flexible section is configured to minimize torsion of the tubular body between the first rigid section and the second rigid section, and the second flexible section is configured to increase flexibility of the distal portion of the tubular body.

A laparoscopic surgical apparatus for performing a surgical procedure through a single incision in a patient's body includes a gross positioning arm supported on a moveable platform, the gross positioner including a head; at least one articulated tool positioning apparatus coupled via a tool controller to an underside of the head, the articulated tool positioning apparatus being configured to receive a tool for performing surgical operations, the tool controller being actuated by the head to cause movements of the articulated tool positioning apparatus for performing surgical operations; and wherein the gross positioner is configured to permit the head to be positioned to facilitate insertion of the articulated tool positioning apparatus through the incision into the patient's body.