The present invention provides a puncture support, including a support body and a soft support coating covering the outside of the support body, wherein a needle insertion channel is provided inside the support body. During use, the puncture support is fixedly connected to an ultrasonic probe by using the hard support body, and the soft support coating attached to the support body is in contact with a human body. Because the support coating is made of a soft material, people feel soft with reduced foreign body sensation when in contact with the support coating. In addition, the support body is made of a hard material, so that the puncture support can be firmly installed, ensuring safety. Therefore, the puncture support can be firmly and reliably installed like an existing puncture support, and also increases the comfort level of the product by taking user feelings into account.

An apparatus and method for penetrating bone marrow is provided. The apparatus may include a housing such as a handheld body, a penetrator assembly, a connector that releasably attaches the penetrator assembly to a drill shaft, a gear mechanism, a motor and a power supply and associated circuitry operable to power the motor. The penetrator assembly may include a removable inner trocar and an outer penetrator or needle. It may also include a grooved trocar that allows bone chips to be expelled as the apparatus is inserted into bone marrow. Various connectors are provided to attach the penetrator assembly to the drill shaft.

A needle assembly (10) for relieving a pneumothorax and/or a hemothorax, the needle assembly (10) comprising a canula (12), the canula (12) comprising: a distal end portion (20) comprising a cutting end (22) for puncturing a thoracic cavity wall (24), a proximal end portion (14) for removing a fluid or gas from a thoracic cavity (28), a first curved portion (18) between the distal end portion (20) and the proximal end portion (14), an intermediate portion (16) between the first curved portion (18) and the proximal end portion (14), and a first fixing bulge (42) arranged between the first curved portion (18) and the intermediate portion (16), wherein an outer diameter of the canula (12) at the first fixing bulge (42) is increased with respect to the diameter (D1) of the intermediate portion (16), said first fixing bulge (42) being arranged such as to be placed at or close to the inner surface (24) of the thoracic cavity wall (24i), when the canula (12) is inserted for relieving the pneumothorax, such as to prevent or to reduce the risk that the canula (12) inadvertently slides out of its inserted position.

A loading unit for a circular stapling device includes a shell member, a staple pusher assembly operably disposed within the shell member, a knife pusher assembly operably disposed within the shell member, a trocar assembly operably disposed within the shell member, and a tissue retraction assembly disposed within the shell member between the knife pusher assembly and the trocar assembly. The shell member includes an elongate tubular portion. The trocar assembly includes a trocar member movable from an advance position and a retracted position. The tissue retraction assembly includes a tissue retractor.

A catheter placement system including a catheter, a needle for creating an insertion site, and a skin nicking device for enlarging the insertion site. A catheter placement device includes the skin nicking device slidably coupled with the needle, where the skin nicking device has one or more blades attached to a frame thereof. Distally displacing the skin nicking device along the needle causes the blade to nick the skin to enlarge the insertion site. A shield of the skin nicking device transitions between a safe configuration encapsulating the blade and a use configuration exposing the blade and the shield may be biased toward the safe configuration. A latch secures the shield in the safe configuration and an actuator releases the latch. A sheath of the skin nicking device includes the needle slidably disposed within a lumen thereof and a sharp tip of the blade embedded within a wall thereof.

A surgical access system comprises a trocar, an insufflating optical obturator slidably insertable into the trocar, and a laparoscope slidably insertable into the obturator. A distal end of the obturator comprises a tip, at least a portion of which comprises a wall with a generally uniform thickness comprising a transparent material. At least one vent hole disposed at the obturator tip is fluidly connected to a gas flow channel defined by an interior surface of the obturator and the laparoscope, which is fluidly connected to an insufflation gas inlet disposed at a proximal end of the trocar. Improved optical characteristics of the trocar system permit precise and accurate visual placement thereof into a body cavity. Accordingly the access system is suitable as a first entry surgical access system. Embodiments of the trocar access are also useful for drug delivery, and/or for fluid and/or tissue aspiration.

An organ retractor includes a plurality of retractor jaws, a central support structure, and a central housing. The central housing includes a threaded portion. The plurality of retractor jaws is hingedly connected to the central housing. The central support structure is coupled to the central housing. The plurality of retractor jaws is disposed in an open position by a spring.

A steerable surgical device includes tubular body members and at least one moveable joint, with a moveable tray member arranged to permit tissue extraction and a retractable tip member for removal of a sample while a remainder of the surgical device remains in the tissue. A method utilizes sensed SMA electrical properties and sensed compressive force to determine joint deflection that is used with a joint deflection model to map tip position in tissue. Another method for determining position of a tip of a steerable instrument within tissue utilizes transverse ultrasound probe images and image processing together with saved and predicted tip information. A method for sequentially removing a plurality of samples from tissue utilizes a steerable surgical device, without requiring complete removal of the device from the tissue

An access device places a medical article within a body space of a patient. The device has a needle section that includes an elongated body and a needle hub. The device further includes a dilator portion that has a dilator and a dilator hub. The dilator is coaxially disposed and slideable over the elongated body of the needle section. The device further includes a sheath section that has a sheath and a sheath hub. The sheath is coaxially disposed and slideable over the dilator. The device further includes a first locking mechanism operably disposed between the needle hub and the dilator hub to inhibit at least unintentional axial movement between the needle section and the dilator portion and a second locking mechanism operably disposed between the dilator hub and the sheath hub to inhibit at least unintentional axial movement between the dilator portion and the sheath section.

A steerable guidewire. The steerable guidewire is fabricated includes an outer tube, an inner tube, a hub, and a distal articulating region. The steerable guidewire hub can be removed to permit advancement of catheters over its proximal end followed by re-attachment of the hub to permit deflection of the distal end of the steerable guidewire.