A hydrodissector for hydrodissecting a vein, the hydrodissector comprising a handle, a shaft extending from the handle at an angle and including a tip at a distal end thereof, at least one port configured to be coupled to a fluid supply for supplying fluid at a substantially constant pressure, and provided at the distal end of the shaft, and an image capturing assembly configured to provide direct visualization of the vein during hydrodissection. A minimally invasive method for dissecting a greater saphenous vein (GSV) from surrounding tissues using the hydrodissector is also described.

A system of devices and methods for use by which one or more target motion segments of the cervical spine are stabilized without any violation of the cortical bone of the target vertebrae. The devices are brought against strategic aspects of these vertebrae, thus permitting the disclosed inventions to achieve secure control of each vertebra. Connecting elements then stabilize the constructs. Preferred and alternative embodiments of the invention are disclosed, along with methods of implantation, and adjunct devices used in the implantation of the disclosed invention.

A dermatological skin treatment device is provided. The device comprises a handpiece and a cutting tool, wherein the tool is inserted through the conduit and percutaneously inserted into a tissue disposed within a recessed area of the handpiece. The device and method cut the fibrous structures under the skin that cause cellulite at an angle substantially parallel to the surface of the skin and replace these structures with a non-cellulite forming structure by deploying a highly fibrous mesh through a single needle hole to create a highly fibrous layer directly or through wound healing processes.

Aspects of the present disclosure are directed toward apparatuses, systems, and methods that comprise an introducer apparatus for facilitating subcutaneous implantation of a medical device. In certain instances, the apparatus may include a housing, an inserter configured to pass the medical device through the housing, and a tunneler configured to form a subcutaneous pocket for the medical device.

The present invention relates to a control mechanism for controlling a rod (210) having at least one key, the control mechanism comprising a handle comprising a sliding ring (131), a sliding shaft (132) and a drive shaft (133), each extending along a longitudinal axis (101) and comprising a central opening; and a friction reduction cannula (110) comprising an opening configured to receive the rod (210). The present invention also relates to a steerable device and a steerable system comprising the control mechanism according to the invention.

A medical instrument tip for penetrating tissue may include a body having a diameter of less than 5 mm, and a blade having a plurality of faces and a plurality of cutting edges. At least one cutting edge may have a dihedral angle of less than 50 degrees. A medical instrument tip may be included in an ablation instrument that also includes a cable and a conductive antenna body coupled to the cable for delivering ablative energy to a target tissue. A medical instrument tip may be configured to pass through a working lumen of a catheter having an inner diameter of less than 5 mm such that the medical instrument tip may penetrate a target tissue

A novel medical device and a method for delivery of a scaffold for treatment of secondary lymphedema and ischemia is provided. In some embodiments a catheter medical device and a magnetic guidance method are provided for delivering cell-seeded implants for guided lymphatic regeneration.

A surgical tool comprising: a tool body for gripping the tool, the tool body having a longitudinal axis and a first end, wherein a vision enhancer extends from the tool body at the first end, the vision enhancer comprising: a tunnel base, and a first tunnel wall extending from the tunnel base at an angle of between 90 and 120 degrees to the tunnel base, wherein the tunnel base and the first tunnel wall form a concave section for the forming of a tunnel through soft tissue.

Various aspects of the present disclosure are directed toward introducer apparatuses, systems, and methods for positioning an implantable medical device within a patient. The introducer may include a housing having a proximal opening and a distal opening and configured to position the implantable medical device adjacent the distal opening prior to ejection and an ejection rod configured to pass through the proximal opening and eject the implantable medical device from the housing through the distal opening of the housing.

Methods and devices for diagnosing, monitoring, and/or treating tissue through an opening or port through an airway wall are provided herein.