A device and method is provided to gain access to interior body regions. The system includes a safety needle assembly, a stylet assembly, a blade assembly, an obturator assembly, and a dilator assembly. The safety needle assembly or stylet assembly accesses an interior body region, after which the blade assembly expands the pathway created by the safety needle assembly or stylet assembly. The obturator then further expands the pathway and delivers the dilator assembly to the desired location. The safety needle assembly, obturator assembly, and blade assembly are removed, leaving the dilator assembly in place for future procedures.

A lead introducer includes an integrated sheath/needle including a splittable sheath configured to split a into a first portion and a second portion, a needle having a length and a proximal end region, and a hub coupled to the proximal end regions of the splittable sheath and the needle and configured to split into a first portion and a second portion. The needle is permanently attached to either the first portion of the hub or the first portion of the splittable sheath (or both) so that when the hub is split into the first and second portions, the needle remains attached to the first portion of the hub or the first portion of the splittable sheath.

An expandable access port includes a port body transitionable between expanded and collapsed configurations. The expandable access port also includes a plug with a first portion secured to the port body and a second portion flexibly coupled to the first portion by an arm. The first portion has an orifice and the second portion has a post insertable into the orifice. A tube is attached to an inflation port on the first portion of the plug. The tube is attachable to a source of inflation fluid and in fluid communication with a chamber of the port body. A lumen extends through the port body and is configured to slidably receive the post or a surgical instrument therethrough. The lumen forms a fluid-tight boundary when the port body is in the expanded configuration.

A kit for assembling an incision closing trocar comprising a cannula having a lumen, a proximal side, and a distal side is provided, the kit comprises an obturator comprising: a shaft having a distal end and a proximal end; at least two anchor recesses are provided near the distal end of the shaft, wherein each anchor recess retains a corresponding anchor; a handle provided at the proximal end of the obturator, is configured to actuate at least two pushers so as to push the corresponding anchors from the anchor recesses; and at least two holders, removably attached to the distal end of the obturator wherein each of the at least two holders holds a coiled or folded suture having a length and one end, wherein the one end of the suture is attached to the corresponding anchor, wherein the length of the suture can be pulled from the holders by removing and pulling away the holder from the obturator, wherein the obturator is sized to be inserted into the lumen of the cannula from the proximal side, together with the at least two holders so that the holders are exposed beyond the distal side when the obturator is fully inserted in the cannula, and then the holders can be removed from the obturator such that the sutures are outside the cannula.

A medical instrument and associated functionality are described for performing a cystostomy with optical guidance. A cystostomy device (10) includes a sound (12) including a distal portion (18) and a proximal portion (20), a front handle (14) and a rear handle (16). A physician or other user can grip the handles (14 and 16) to guide the distal portion (18) of the sound (12) through the urethra and into a bladder of the patient. The device (10) includes an optical unit (32) mounted at the tip (22) of the sound (12). The optical unit (32) generally includes a distal sound tip cap (34) with a lens opening and an optical lens (36) mounted on the opening. The optical unit (32) may further include one or more illumination sources, such as LEDs, for illuminating a volume forward of the tip (22) of the sound (12).

Various exemplary steerable needles, methods of using steerable needles, and methods of manufacturing steerable needles are provided. In general, a needle configured to be advanced through soft tissue can be configured to be passively steered in a desired direction through the soft tissue. The needle can include a distal tip configured to facilitate the steering. The needle's distal tip can include a beveled or chamfered edge on one side thereof. The distal tip of the needle can be configured to bend relative to a remainder of the needle in a direction opposite to the side of the distal tip that includes the chamfered edge. The soft tissue can provide resistance to the distal tip being advanced therein such that the distal tip automatically bends in a direction away from the chamfered edge. The needle can also include a bendable portion that is proximal to the distal tip.

Provided is an eyeball attachment tube that is temporarily attached to an outer membrane of an eyeball in ophthalmic surgery for communication between the inside and the outside of the eyeball such that the eyeball attachment tube is inhibited from becoming unstable when attached in a direction deviating from a direction perpendicular to the external surface of the eyeball.

An eyeball attachment tube includes: a tubular portion configured to be in a state of puncturing an outer membrane when the eyeball attachment tube is attached to the outer membrane; and a large diameter portion which is disposed on a proximal end side of the tubular portion. An end portion of the large diameter portion on the tubular portion side is formed as a plane inclined relative to a center axis of the tubular portion.

A seeker device for facilitating access to a desired location within an ear, nose, throat or other location in a body may include a proximal shaft, an elastic distal portion, and an atraumatic distal tip. The elastic distal portion has a default shape with at least one curve to facilitate advancement of a distal end of the elastic distal portion through various anatomical passageways, toward the desired location. In some embodiments, the seeker device may be paired with a dilator device, to perform a dilation procedure on an anatomical structure in the ear, nose, throat or other part of the body. In other embodiments, the seeker device may be paired with a flexible endoscope, to facilitate visualization of an anatomical structure or area.

A medical device may include an introducer sheath, having a distal and a proximal end and a lumen extending from the distal end to the proximal end. The introducer sheath may also include a tab formed at the distal end and extending distal to the lumen, and a frangible portion extending between the distal end and the proximal end.

A biopsy device includes a disposable elongated probe component having a coaxial arrangement of an elongated tubular section and an elongated tissue cutting member, and having a coaxial arrangement of a first driven gear, a second driven gear, and a third driven gear. The first driven gear is configured to rotate the elongated tubular section. The second driven gear is configured to rotate to longitudinally move the elongated tissue cutting member. The third driven gear is configured to rotate or oscillate the elongated tissue cutting member. A driver component has a coaxial arrangement of a first drive gear, a second drive gear, and a third drive gear. The first drive gear is drivably engaged with the first driven gear. The second drive gear is drivably engaged with the second driven gear. The third drive gear is drivably engaged with the third driven gear.