A needle having a first end, a second end, and a lumen extending within an interior of the needle, between the first end and the second end. A sleeve is engageable within an interior diameter or interior surface of the lumen. The sleeve includes a first end and a second end that are sized to reside within the first end of the lumen and the second end of the lumen, respectively. Ports extend between the first end and the second end of the sleeve. The ports have an inlet and an outlet sized to receive and route stimulator wires to areas within the epidural space of a spine.

An injection adaptor hub for a medical catheter.

In some embodiments, disclosed herein are systems and methods of treating a patient that can include the steps of accessing the sphenopalatine fossa, and cannulating the inferior orbital fissure from the sphenopalatine fossa to access the retro-orbital space. The sphenopalatine fossa can be accessed via various routes, including percutaneously. Accessing the sphenopalatine fossa can include the step of inserting a needle-catheter system into the sphenopalatine fossa. Integrated needle-catheter systems as described herein can also be configured to access the trigeminal ganglion, epidural space, intrathecal space, and other desired anatomical locations.

The invention involves a system and method for utilizing tools larger than the cannula bore of an endoscope in an endoscopic procedure. The system includes an endoscope having a cannula with an open or ported distal end. The ported distal end allows the shaft of an elongated tool having an oversized functional distal end to extend through the port with the oversized end in front of cannula bore. The tool and endoscope cannula are placed through a dilator tube that extends from outside the patient to the surgical site. A removeable and re-attachable handle is securable to the shaft of the oversized tool, which allows the surgeon to manipulate the tool through the cannula while visualizing the procedure utilizing the endoscope. This construction allows the surgeon to utilize tools that are too large to fit through the cannula of the endoscope including curettes, rasps, burrs, trials, Kerrison's, shavers and inserters.

Catheter system, devices and methods for diagnosing and treating lateral stenosis causing back pain and or leg pain. The devices comprise a tubular part for insertion into a working cannula to self-position itself safely within the foramen, and minimize the risk of displacement medially or laterally, to prevent nerve or dura injury. An expandable membrane is configured to maintain the catheter device within the foramen. Expansion of this membrane would decompress the nerve within the foramen by opening the foraminal canal as the membrane expands.

Methods, devices, systems, and/or kits that encompass various components for accessing cerebrospinal fluid (CSF) in a CSF containing space of a subject to drain the CSF into a dural venous sinus (DVS) of the subject via a single cranial hole are disclosed herein. The described methods, devices, systems and/or kits drain the CSF into the DVS to treat hydrocephalus in a manner that does not require penetration into the gray matter of the subject’s brain.

In one embodiment, a system for locating a tip of a catheter that has been inserted into a patient includes an implantable catheter having a distal tip, a pulsed light source that is co-located with the distal tip of the implantable catheter, the pulsed light source being configured to emit pulses of light into surrounding patient tissue, an optoacoustic sensor configured to be applied so a skin surface of the patient at a position proximate to the pulsed light source and to sense optoacoustic waves generated when the pulses of light are absorbed by the surrounding patient tissue, and an optoacoustic console configured to receive optoacoustic wave signals from the optoacoustic sensor and to display an indication of the optoacoustic wave signals to a medical professional to provide an indication of the location of the pulsed light source and, therefore, the distal tip of the implantable catheter.

A nerve block introducer for introducing a catheter and also administering an initial dose of local anesthetic, the introducer having an elongated body with a distal end and a proximal end, an inlet, and at least one discharge opening for the local anesthetic near the distal end. The introducer also includes a grasping member near the distal end of the elongated body, the grasping member operably coupled to a handle near the proximal end of the elongated body such that the grasping member can be used to releasably hold a catheter by operation of the handle. The catheter may thus be positioned and left in place following removal of the introducer.

A device for destroying the blood vessels forming telangiectasias includes: a single blade; and a device body, the body having firstly a gripping part and secondly a support for the blade; and a stop situated at a distance of between 0.1 and 1 cm from a distal end of the blade limiting the penetration of the blade, in the thickness of the skin, to a depth of less than 1 cm.

A needle having a first end, a second end, and a lumen extending within an interior of the needle, between the first end and the second end. A sleeve is engageable within an interior diameter or interior surface of the lumen. The sleeve includes a first end and a second end that are sized to reside within the first end of the lumen and the second end of the lumen, respectively. Ports extend between the first end and the second end of the sleeve. The ports have an inlet and an outlet sized to receive and route stimulator wires to areas within the epidural space of a spine.