Exemplary apparatus for coupling to a probe and providing information regarding at least one structure can be provided. For example, the apparatus can include an electronics arrangement which is configured to obtain the information and transmit the information wirelessly, and a structural connection configuration which is structured and configured to be attached to the probe. The electronics arrangement can include a detector arrangement which is configured to detect at least one return radiation from at least one portion of at least one sample based on the predetermined patterns, and provide the data for the portion(s) based on the return radiation(s). In addition, a computer arrangement can be provided which is configured to generate the information with includes image data for the portion(s) as a function of the data and prior knowledge of the predetermined patterns.

A video endoscope with sideways viewing direction including an endoscope shaft having a jacket tube, an entry window joined hermetically to the jacket tube at the distal end of the jacket tube, a sideways viewing optical subassembly and a sensor module having an optical sensor, wherein the sensor module is disposed on a distal side of a longitudinally extended sensor module carrier that is rotatably mounted with respect to the jacket tube. In the video endoscope, the sideways viewing optical subassembly can be formed as an attachment which can be plugged distally onto the sensor module and/or the sensor module carrier and which is rotatably mounted with respect to the sensor module and/or the sensor module carrier, wherein the attachment has at least one lock which interacts with at least one corresponding lock on the jacket tube, such that the attachment is rotationally fixed with respect to the jacket tube.

The present specification describes a circuit board design that uses circuit boards for illuminator sets associated with the various optical assemblies. In one configuration, front and side illuminators are assembled on front and side illuminator circuit boards. Leaf connectors associated with each illuminator are provided to interface with a common base board.

An assistance tool that assists in moving a treatment device is provided. The assistance tool includes a flexible tube in which an insertion path is formed to insert the treatment device that is inserted into a channel in an insertion portion of an endoscope, a tube member that is coupled to the flexible tube and has a curved portion halfway of an overall length and in which an insertion path for the treatment device is formed, a coupling portion that is coupled to the tube member and is formed to couple the channel to the insertion path, and a holding portion that is attached to the flexible tube and holds the insertion portion or an operation portion that is coupled to the insertion portion.

The present invention is aimed to design an improved lighting assembly for camera module of an endoscope. The camera module is received in a cylinder body, which is connected with the tail end of the tube of the endoscope. The character of this invention is to provide a secondary lighting apparatus between the cylinder body and the tube. The secondary lighting apparatus includes several LEDs being mounted inside annular-arrayed and covered by a transparent ring. The annular-arrayed LEDs can emit light through the transparent ring with 360 degrees lighting outwards that provides a perfect lighting effect for capturing the inner images of patients and will facilitate the judgement of users or doctors.

In some embodiments, an electronic laryngoscope includes a camera, a hollow connecting rod, a handle, and a control display. The front end of the connecting rod is connected to the camera, the rear end of the connecting rod is connected to the handle, and the rear end of the handle is connected to the control display. The laryngoscope further includes a hollow tube whose inner diameter is greater than the outer diameter of the connecting rod. The camera and the connecting rod are located on the inner side of the hollow tube. A sputum suction opening is formed between the front end of the hollow tube and the front end of the camera, and a sputum passage in communication with the opening is formed between the hollow tube and the connecting rod. The laryngoscope further includes a connector between the hollow tube and the camera and/or the connecting rod.

An endoscope includes: a first image acquisition portion configured to acquire a first object image from a first direction; a second image acquisition portion configured to acquire a second object image from a second direction different from the first direction; first illumination light emission portions provided on a straight line with the first image acquisition portion, the first image acquisition portion being interposed between the first illumination light emission portions, and arranged along a line orthogonal to an optical axis of the first image acquisition portion; and second illumination light emission portions lined up and arranged on a plane where the second image acquisition portion is arranged at the insertion portion, and a lining direction of the first illumination light emission portions and a lining direction of the second illumination light emission portions are arranged at positions to be a twisted relation.

An apparatus, system and methods that comprise adding a removable or detachable carrier containing a camera and illumination to a TEE probe, thereby allowing the user to view the placement of the probe and minimize or reduce the risk of esophageal and pharyngeal complications during the positioning of the TEE probe into the patient's esophagus. The reduction or minimization of complications occurs by allowing the cardiologist direct visualization of pharyngeal and esophageal structures during intubation. This device and procedure eliminate any “blind procedure”, whereby direct visualization of the pharyngeal structures and esophagus present a possible solution to these mechanical complications. Once the TEE probe has been properly positioned in the esophagus, the carrier is removed from the esophagus. The removable or detachable camera of the present disclosure can be used in other industries.

A laryngoscope with a handle, at the distal end of which a blade is arranged at an angle to the longitudinal axis of the handle, wherein a channel for receiving an image carrier of a video endoscope is formed in the handle and in the blade such that the channel, in a transition area from the handle to the blade, merges in a radius from the handle into the blade. In order to provide a laryngoscope which, while being easy to handle, ensures insertion of the image carrier into the channel in a way that protects material, in the transition area from the handle into the blade, at least one run-on bevel is formed in the interior of the channel.

Provided are products of manufacture and methods for the removal and/or destruction of a biofilm in situ, e.g., a gastro-luminal biofilm, and for the treatment or amelioration of biofilm-associated diseases, infections and conditions, including and GI luminal infections. Provided are devices and apparatus, and methods for using them, for the removal, disruption and/or destruction of a biofilm in situ, e.g., a gastro-luminal biofilm. In alternative embodiments, provided are devices and apparatus, and methods, for enhancing biofilm dissolving or disrupting agents, or for administering biofilm dissolving or disrupting agents, where in alternative embodiments the biofilm comprises a gastro-luminal ‘unstirred layer’, adherent layer or gastro-luminal mucus layer; or the biofilm comprises a matrix or a DNA-containing layer, or alternatively the biofilm comprises a polysaccharide gastro-luminal peripheral layer.