A sensor module includes a housing and a sensor assembly disposed within the housing. The sensor assembly includes a base having at least one energy emitter and at least one energy detector, and a guide layer overlying the base in face-to-face relationship. The guide layer has at least one protrusion extending outwardly to accommodate the at least one energy emitter, and a plurality of outwardly extending stabilizing members. The housing has at least one first opening through which the at least one protrusion extends, and a plurality of second openings through which the stabilizing members extend. Some of the stabilizing members have an outwardly extending length that is greater than an outwardly extending length of the at least one protrusion. Some of the stabilizing members are substantially cylindrical and have a circular cross-sectional profile, and some of the stabilizing members are partially cylindrical and have a partially circular cross-sectional profile.

An implantable optical sensor comprises a photonic integrated circuit comprising a substrate 2 and an optical microstructure 3 integrated with the substrate 2. The optical microstructure is positioned to form an exposed optical interaction area 4 on a part of a surface 5 of the substrate 2. A cover cap 6 is sealed onto a part of the substrate 2 adjacent to the optical interaction area 4 and by wafer-to-wafer bonding technology or another wafer-level hermetic packaging technique. At least one active component 8 is positioned in a sealed cavity 9 which is formed between the surface 5 and the cover cap 6. The substrate 2 comprises at least one optical feedthrough 10, which is an embedded waveguide extending from the sealed cavity 9 to the optical interaction area 4.

Provided is a guidewire connector that does not interfere with an introduction of another in-body insertion instrument and is capable of maintaining cleanliness of the guidewire when connecting a guidewire mounted with a photo-acoustic ultrasonic wave generator. The guidewire connector according to the present disclosure includes an adapter member detachably attached to an light emitting apparatus, and a wire fixing member attaching the guidewire to the adapter member, in which the wire fixing member has an outer diameter equal to or smaller than an outer diameter of the guidewire.

A reusable portion includes a first connector and a light emitter. A disposable portion includes a support, a second connector and a light detector. The support has a translucent portion and adapted to be attached on a body of a subject. The second connector is supported by the support and configured to couple with the first connector. The light detector is supported by the support and configured to output a signal corresponding to an amount of light incident on the light detector. Under a condition that the first connector and the second connector are coupled, the light emitter is disposed so as to face the translucent portion, so that the first connector is enabled to detect the signal via the second connector.

An optical fiber sensing system according to the present disclosure includes clothing (10) including an optical fiber (20), an optical fiber sensing unit (31) configured to receive an optical signal from the optical fiber (20), and acquire, based on the optical signal, a plurality of parameters each having a pattern according to a state of a person wearing the clothing (10), and a state detection unit (32) configured to detect a state of a person wearing the clothing (10), based on a pattern contained in each of the plurality of parameters.

Optical connection systems including electrical-and-optical connection systems and methods thereof are disclosed. An electrical-and-optical connection system can include an extension tube having a plug and a relay module having a receptacle. The plug can be formed of a metal piece around electrical wires, which, in turn, are around optical-fiber cores that extend along a length of the extension tube. The plug can be configured to pierce through at least a sterile barrier. The relay module can include electrical wires and optical-fiber cores within a housing of the relay module, as well as a receptacle disposed in the housing. The receptacle can be configured to simultaneously accept insertion of the plug therein and establish both electrical and optical connections between the plug and the receptacle from a sterile field to a non-sterile field set up by the sterile barrier. Shape-sensing systems including the optical connection systems are also disclosed.

Intravascular devices, systems, and methods are disclosed. In some instances, the intravascular device is a guide wire with electrical conductors embedded within a core wire. In some instances, the electrical conductors are coupled to conductive bands adjacent a proximal portion of the guide wire and a sensing element adjacent a distal portion of the guide wire. Methods of making, manufacturing, and/or assembling such intravascular devices and associated systems are also provided.

A regional oximetry pod drives optical emitters on regional oximetry sensors and receives the corresponding detector signals in response. The sensor pod has a dual sensor connector configured to physically attach and electrically connect one or two regional oximetry sensors. The pod housing has a first housing end and a second housing end. The dual sensor connector is disposed proximate the first housing end. The housing at least partially encloses the dual sensor connector. A monitor connector is disposed proximate a second housing end. An analog board is disposed within the pod housing and is in communications with the dual sensor connector. A digital board is disposed within the pod housing in communications with the monitor connector.

Procedural barrier-breaching connectors and connection-establishing devices, as well as systems and methods thereof, for establishing portals in procedural barriers are disclosed. For example, a connection-establishing device can include a cap and an extension arm. The cap is configured to sit over a protruding portion of a first medical device with a procedural barrier between the connection-establishing device and the first medical device. The extension arm is configured to push a male connector of a second medical device through the procedural barrier and into a female connector of the first medical device with the extension arm, which establishes one or more functional connections across the procedural barrier between the second medical device and the first medical device. An exemplary method for the connection-establishing device includes a cap-placing step, an articulating step, and a functional connection-establishing step for establishing the one-or-more functional connections.

An optical coherence tomography device includes a base with a detection end and a mounting end, a movable base and a second drive mechanism. An optical imaging catheter is pivotally connected to the detection end. The optical imaging catheter is provided with an imaging end and a connecting end. The connecting end is detachably connected to the detection end, and the connecting end is provided with a first connecting part. The movable base is provided with a fiber optic rotary joint, a hollow shaft and a first drive mechanism. The end of the hollow shaft is provided with a second connecting part. When the movable base moves toward the detection end, the second connecting part is configured to be connected to the first connecting part so that the optical imaging catheter is coupled with the hollow shaft. The device is capable of manually or automatically connecting the optical imaging catheter.