One of two connector receiving parts of a processor for endoscope has a shutter mechanism configured to open a shutter by an external force, the shutter having a gap through which a connector-side connection end section passes, and being configured to partition a recessed space of the connector receiving part with respect to an outside. In addition, the processor for endoscope includes a lock mechanism configured to make the shutter into the locked state during a period when another connection end section on the connector side and a processor-side connection end section are connected, and release the locked state of the shutter when the connection between the other connection end section on the connector side and the processor-side connection end section is released.

An electrical device that includes a ball grid array (BGA) component, comprising signal processing circuitry, a component mounting surface, and a BGA, which has solder balls that are spaced apart from each other on the component mounting surface. The electrical device also includes a plurality of electrical wires, each electrically coupled directly to a corresponding one of the solder balls of the BGA component. The electrical device further includes a wire fixation element, through which the plurality of electrical wires at least partially pass through. The wire fixation element is coupled to the plurality of electrical wires and configured to fix the electrical wires relative to each other so that the electrical wires do not move relative to each other.

Embodiments related to medical imaging devices including rigid imaging tips and their methods of use for identifying abnormal tissue within a surgical bed are disclosed. An imaging device may include a housing having a first channel and a light guide disposed at least partially in the first channel. The imaging device may also include a clamp disposed in the housing, where the clamp is configured to apply a force to a rigid exterior portion of the light guide in a clamp direction transverse to the light guide longitudinal axis to secure the light guide to the housing. The clamp may have a clamp longitudinal axis parallel to a light guide longitudinal axis.

An imaging module includes: a planar light emitter that includes a light-emitting face and a light-emitter terminal; a power supply cable that is connected to the light-emitter terminal and that supplies electric power to the planar light emitter; a solid-state image sensing device that captures an image of an illumination object that is irradiated with light emitted from the light-emitting face; a coaxial cable that is electrically connected to the solid-state image sensing device; a light shield that is disposed between the solid-state image sensing device and the planar light emitter; and a light guide that guides light emitted from the light-emitting face to an outside of the imaging module. The planar light emitter, the solid-state image sensing device, part of the light shield, and the light guide constitute a rigid portion of the imaging module.

An illumination apparatus includes a light converter disposed on a distal end surface of a light guide, the light converter being configured to emit illumination light, which is generated by converting optical characteristics of primary light that is guided by the light guide, in a forward direction which is on the light converter side of the distal end surface, and in a backward direction which is on the light guide side of the distal end surface. The illumination apparatus further includes a light collector configured to collect backward illumination light into the light guide such that the backward illumination light is guided backward by the light guide, and a heat exhauster configured to convert the backward illumination light, which is guided by the light guide, to heat, and to exhaust the heat.

A boot-attached cable is composed of a cable, and a cable boot secured to an end of the cable by an adhesive layer. The adhesive layer includes an additive material comprising at least one of an organic substant and an inorganic substance, capable of shielding against ultraviolet light.

An extension cable is adapted for use in an intravascular ultrasound system. It has a first connector, for connecting to a catheter and a second connector for connecting to a patient interface module. A cable arrangement provides power transmission, data transmission and data signal processing (amplification or regeneration) between the first and second connectors. The extension cable enables sterility to be maintained in a workflow in a time efficient and easy manner as the catheter to extension cable connection may remain in a sterile environment.

There is provided herein, an endoscope comprising an elongated shaft terminating with a tip section wherein said tip section comprises a permanent section connected to the elongated shaft and a removable section securely connectable to the permanent section, wherein the removable section comprises at least one capture device and at least one light source.

A medical scope (10) comprises an objective (42) forming an image of an object; an image sensor (44) capturing the image formed by the objective (42) and providing an image signal representing the captured image; a serializer (50) comprising a two-conductor first interface (52) and a multi-conductor second interface (54) connected to the image sensor (44); a first sliding contact (71) and a second sliding contact (72) connected to the two-conductor first interface (52) of the serializer (50); a third sliding contact (73) in electrically conductive contact to the first sliding contact (71) and a fourth sliding contact (74) in electrically conductive contact to the second sliding contact (72). The at least two of the first sliding contact (71), the second sliding contact (72), the third sliding contact (73) and the fourth sliding contact (74) are coaxial.

A surgical instrument having: a wall; an electrically insulating substrate; an electrical connection, wherein at least a portion of the electrical connection is applied on an exterior surface of the electrically insulating substrate; an insulating layer applied on the portion of the electrical connection; and a hermetic connection layer applied to the insulating layer, wherein the hermetic connection layer is hermetically connected to the wall to separate a hermetic chamber from an outer area.