Devices, systems, and methods used to deploy a localization device into a target lesion are disclosed. The system includes a delivery device configurable in a ready-to-deploy state and a deployed state. When the delivery device is in the ready-to-deploy state, biased engagement members are engaged with proximal detents of a handle of the delivery device. When the delivery device is in the deployed state, the biased engagement members are engaged with distal detents. The delivery device is transitioned from the ready-to-deploy state to the deployed state by distal displacement of a plunger relative to the handle. The localization device is deployed from a cannula of the delivery device into the target lesion when the delivery device transitions from the ready-to-deploy state to the deployed state.

Passive devices for non-invasive gastrointestinal (GI) sampling are disclosed. In some embodiments, a device includes a capsule housing containing an absorbent sampling hydrogel. The capsule may be ingested by a patient and subsequently travel through the GI tract. Once the capsule reaches a desired location in the GI tract, GI fluid may flow into the capsule through a sampling aperture of the capsule. The fluid may be absorbed by and stored within the sampling hydrogel for subsequent analysis, and the absorption of the fluid may cause the sampling hydrogel to expand within the capsule. The capsule may further include a sealing member positioned between the sampling hydrogel and the sampling aperture, and the expansion of the sampling hydrogel may press the sealing member against the sampling aperture to seal the capsule.

Endoscope apparatuses for generating at least one image of a portion of an object are described herein. The endoscope apparatus includes an ultrafine needle adapted for insertion into the object; a fiber probe that is slidably disposed in the ultrafine needle, the fiber probe including a plurality of optical fibers or cores that act as illumination optical fibers and collection optical fibers; an optical assembly that is coupled to the fiber probe, the optical assembly including: at least one transmission optical pathway to provide at least one excitation light signal to the portion of the object to be imaged during use; and at least one return optical pathway that is adapted to transmit reflected light signals from the portion of the object when it is illuminated during use with at least one sensor for generating at least one image via at least one set of optical elements.

A method and system utilizes an imaging device that generates images of target tissue of a patient during a surgical procedure that acts on the target tissue imaged by the imaging device. The method and system enables visual detection of patient movement during the surgical procedure by marking at least one spatial attribute of one or more identifiable features of the target tissue illustrated in an image presented in a display window. Prior to acting on the target tissue, a visual indicator of the spatial attribute(s) is superimposed on one or more subsequent images captured by the imaging device and displayed to the operator. The operator can visually compare a position of the visual indicator to a position of the operator-identified feature in order to detect movement of the patient during the procedure. The system and methodology also facilitates realignment that corrects for detected patient movement.

A biopsy needle for collecting a tissue specimen includes an outer cannula and an inner tube received within the outer cannula and configured to receive a stylet. The outer cannula is fixedly coupled to a needle holder that is coupled to and moves with a movable base that is axially movable within the handle housing. An inner driven structure (curvilinear part) is configured to selectively engage the movable base and travel therewith in a first stage of operation and in a second stage of operation in which the inner driven structure is disengaged from the movable base, the inner driven structure is driven along the movable base which is held in a stationary position. The coupling between the inner driven structure and the inner tube is such that the axial driving of the inner driven structure imparts rotation to the inner tube relative to the outer cannula.

A liquid stylet apparatus including a tube with a transparent portion and at least partially filled with a liquid, a powering device in fluid communication with the tube, a catheter located distally of the tube and in fluid communication with the tube, where the catheter is at least partially filled with the liquid, a collection device located distally of the catheter and in fluid communication with the catheter, where the collection device is configured to engage a target area of a patient, and an indicator contacting the liquid and located at least partially within the tube, where the position of the indicator within the tube is visible through the transparent portion.

A biopsy system includes a biopsy device, a control module, and a tissue transport tube. The biopsy device includes a probe, a needle, a cutter, and a transport valve. The needle extends distally from the probe. The cutter is movable relative to the needle and defines a cutter lumen. The holster is configured to couple to the probe. The transport valve is in communication with the cutter lumen. The control module is in communication with the biopsy device and includes a sample management assembly configured to receive one or more tissue samples severed by the cutter. The transport tube extends between the sample management assembly and the biopsy device. The transport tube is in communication with the transport valve such that the transport tube is configured to receive the one or more tissue samples severed by the cutter.

One or more example embodiments relate to a positioning support system for positioning a medical device based on at least one medical image, the positioning support system comprising at least one channel for the medical device and configured to be pierced with the medical device, the channel configured to be at an acute first angle to a normal of a surface, the channel including a water-containing medium including at least one polymerizable component, the water-containing medium being configured to cure after being pierced with the medical device when the medical device is coated with a polymerization catalyst, wherein the positioning support system is configured to be placed on the surface, and the positioning support system permits the medical device in the water-containing medium to be depicted in the at least one medical image.

A biopsy device configured to engage target tissue within a patient and to remove a sample of the target tissue from the patient. The biopsy device comprises an elongate catheter configured to be inserted into a patient. A sampling component is disposed at the distal end of the catheter to sample the target tissue.

An actuator device comprises first, second and third actuators operatively connected to a biopsy needle arrangement comprising a needle inside a sheath. The needle arrangement has a closed state and an open state, a tip portion abutting a needle sheath in the closed state, and the tip portion extending from the distal end of the needle sheath in the open state. The first actuator pushes the needle distally in a sliding direction x relative to the needle sheath a first distance, d1, at which the needle arrangement is in its open state. The second actuator pushes the needle sheath distally in the sliding direction x relative to the needle a second distance, d2. The third actuator pushes the needle sheath distally in the sliding direction x relative to the needle a third distance, d3, where d3 is smaller than d2, at which the needle arrangement is in its closed state.