A device to be used by an operator which may grasp objects in a sterile or non-sterile field, and may facilitate the precise placement and passage of a needle or pin into tissues while using X-ray guidance. The device provides a secure hold while keeping the hands remote from the radiation field, and by permitting non-obstructed viewing of the held instrument and tissues. A radiolucent hammer may be used to help drive a needle into firm tissues without obscuring visualization.

A medical device control unit is provided. The control unit may include a communications interface, a memory, and at least one processing device. The processing device may be configured to cause application of a control signal to a primary antenna associated with a unit external to a subject's body. The processing device may further be configured to monitor a feedback signal indicative of the subject's breathing and store, in the memory, information associated with the feedback signal. The processing device may also cause transmission of the stored information, via the communications interface, to a location remote from the control unit. The processing device may further be configured to receive an update signal, from the location remote from the control unit, and cause application of an updated control signal to the primary antenna based on the update signal.

A medical device control unit is provided. The control unit may include a communications interface, a memory, and at least one processing device. The processing device may be configured to cause application of a control signal to a primary antenna associated with a unit external to a subject's body. The processing device may further be configured to monitor a feedback signal indicative of the subject's breathing and store, in the memory, information associated with the feedback signal. The processing device may also cause transmission of the stored information, via the communications interface, to a location remote from the control unit. The processing device may further be configured to receive an update signal, from the location remote from the control unit, and cause application of an updated control signal to the primary antenna based on the update signal.

A surgical instrument includes a first lever element and a second lever element interconnected by a lever element hinge. Each lever element includes a grip portion and a jaw portion. A first spring portion and a second spring portion are proximally connected to the grip portions. A proximal free end of the first spring portion is coupled to a proximal free end of the second spring portion by a hinged joint. The hinged joint includes a hinge pin and at least one bearing eye. The at least one bearing eye forms a continuous longitudinal slit for radial insertion of the hinge pin. The slit extends diagonally relative to the axis of the at least one bearing eye so that at least one spring portion has to be twisted during radial insertion of the hinge pin into the at least one bearing eye.

A surgical instrument includes a first lever element and a second lever element interconnected by a lever element hinge. Each lever element includes a grip portion and a jaw portion. A first spring portion and a second spring portion are proximally connected to the grip portions. A proximal free end of the first spring portion is coupled to a proximal free end of the second spring portion by a hinged joint. The hinged joint includes a hinge pin and at least one bearing eye. The at least one bearing eye forms a continuous longitudinal slit for radial insertion of the hinge pin. The slit extends diagonally relative to the axis of the at least one bearing eye so that at least one spring portion has to be twisted during radial insertion of the hinge pin into the at least one bearing eye.

The present invention relates to a device for microdermabrasive treatment comprising, a treatment head (16) having a cavity (18) with inner walls (20), an opening (22) in said inner walls, and a treatment head tip (24) for placing the treatment head (16) on a skin (48) of the user, wherein the treatment head tip (24) comprises a first abrasive surface (26) and the inner walls (20) comprise a second abrasive surface (28), wherein the opening (22) is configured to be connected to a vacuum source (30) for applying an under-pressure (58) within the cavity (18), when the treatment head tip (24) is placed on the skin (48) of the user, and herein the first abrasive surface (26) comprises a different roughness than the second abrasive surface (28).

The present invention relates to a device for microdermabrasive treatment comprising, a treatment head (16) having a cavity (18) with inner walls (20), an opening (22) in said inner walls, and a treatment head tip (24) for placing the treatment head (16) on a skin (48) of the user, wherein the treatment head tip (24) comprises a first abrasive surface (26) and the inner walls (20) comprise a second abrasive surface (28), wherein the opening (22) is configured to be connected to a vacuum source (30) for applying an under-pressure (58) within the cavity (18), when the treatment head tip (24) is placed on the skin (48) of the user, and herein the first abrasive surface (26) comprises a different roughness than the second abrasive surface (28).

Devices and methods to stabilize an eye and suture with wound visibility are shown. In selected examples, a forceps is shown that includes one or more transparent projections. In use, the one or more transparent projections can be concurrently pressed against the wound while holding an eye stable with gripping surfaces of the forceps. The one or more transparent projections and the gipping of the forceps work together to aid in a suture placement.

Devices and methods to stabilize an eye and suture with wound visibility are shown. In selected examples, a forceps is shown that includes one or more transparent projections. In use, the one or more transparent projections can be concurrently pressed against the wound while holding an eye stable with gripping surfaces of the forceps. The one or more transparent projections and the gipping of the forceps work together to aid in a suture placement.

Surgical tool are disclosed that include a first tip and a second tip. The first tip and the second tip can have a first configuration, an intermediate configuration, and a second configuration. In the first configuration the tool operates as forceps and in the second configuration the tool operates as scissors. In the intermediate configuration the tool operates as a probe. The tips can be brought together to transition between the first configuration and the intermediate configuration. The tips can be rotated to transition between the intermediate configuration and the second configuration. Method are disclosed that include the step of providing a tool having a first tip extending distally and a second tip extending distally, moving at least one of the first tip and the second tip toward the other of the first tip and the second tip, and rotating the first tip and the second tip.