(1) Field of the Invention
The present invention generally relates to surgical devices. In particular, the present invention is directed to methods and devices for joining and fusing a severed sternum.
(2) Description of the Related Art
The sternum is a flat elongated bone, which forms the middle portion of the anterior wall of the thorax. Its upper end supports the clavicles and its sides attach the cartilage of the first seven pairs of ribs. The sternum articulates on either side with the clavicle and upper seven costal cartilages. The bone material of the sternum consists of an outer shell of cortical bone covering the less dense cancellous bone.
While fractures of the sternum are not common, the sternum is cut or osteotomized, in a procedure called a stenotomy, to gain access to the organs of the chest, most commonly the heart. A partial sternotomy is a procedure in which a cut is made along the midline of the sternum and the two opposing sternal halves to be separated laterally. The opening thus created allows the surgeon direct visualization to be able to operate upon the heart and other thoracic organs or tissues. Following the sternotomy, the two severed sternal halves must be reapproximated, or rejoined.
When the sternum is closed, the sternal halves are brought together and held in place with stainless steel wire sutures. The wire is wrapped around the bone parts through the intercostal spaces. Surgeons have tried various suture-tying patterns over many years. Regardless of the method used, the complication rate of the sternal closure is significant. When closing the sternum with stainless steel wire, complication rates of 10% to 15% are typical. Overall rewiring is required in approximately 5% of patients. For obese patients, the rate increases to approximately 30% and for patients with severe lung disease, the rate of complication increases to 50%. Many patients complain of pain, or of a sense of motion, between the segments of the sternum.
Of importance to cardiac surgeons, and those who practice to medical art of surgically closing a sternum is the ability to quickly reopen the sternum if the need arises. Stainless steel wire sutures offer the ability of the surgeon to quickly and easily cut the wire if re-operation is necessary. Unfortunately, as mentioned above, there are disadvantages to using stainless steel wire.
One aspect of the present invention is a shape-transforming implant device for joining and holding in place a severed sternum. The device includes a bridge portion, two or more legs extending from the bridge portion, shoulder portions, and feet portions. The bridge portions have a thickness that is sized such that it can be cut with a pin cutter. The two or more legs extend from the bridge portion at a first angle when the bridge and the two or more legs are at a first temperature. The shoulder portions are defined by a first angle between the bridge portion and the two or more legs and define a transition from the bridge portion to the two or more legs. The feet portions are at an end of the two or more legs. The end is opposite from the shoulder portions. Each of the feet portions include an inwardly angled portion that extends toward the remaining feet portions. The feet portions are configured to stabilize the device once it has been placed around the sternum and its shape transformed.
For the purpose of illustrating the invention, the drawings show a form of the invention that is presently preferred. However, it should be understood that the present invention is not limited to the precise arrangements and instrumentalities shown in the drawings, wherein:
a is a front isometric view of a device in its opened shape according to embodiments of the disclosed subject matter;
b is a front isometric view of the device shown in
c is a front isometric view of the device shown in
a is a front isometric view of a pair of the device shown in
b is a back isometric view of a pair of the device shown in
a is a front isometric view of a device in its opened shape according to embodiments of the disclosed subject matter;
b is a front isometric view of a device in its opened shape according to embodiments of the disclosed subject matter;
c a front isometric view of the devices shown in
a is a front isometric view of a device in its opened shape according to embodiments of the disclosed subject matter;
b is a front isometric view of the device shown in
c is the device shown in
d is the device shown in
a is a front isometric view of a device in its opened shape according to embodiments of the disclosed subject matter;
b is a front isometric view of the device shown in
c is the device shown in
Referring now to the drawings in which like reference numerals indicate like parts, and in particular, to
The shape-transforming implant device is typically formed from a shape memory material such those from a family of intermetallic materials named nitinol, an acronym for NIckel TItanium Naval Ordnance Laboratory. The properties of nitinol allow the material to exist in two stable phases. The lower temperature phase is referred to as the martensitic phase, due to its metallic structure being composed primarily of martensite. The higher temperature phase is referred to as the austenitic phase. Nitinol is an alloy composed primarily of nickel and titanium. By varying the percentage of nickel and titanium, different transition temperatures can be achieved. Transformation temperatures can be either below that of body temperature or slightly greater than body temperature. In some embodiments, the device is formed from a shape memory material having a transformation temperature below that of body temperature. In other embodiments, the device is formed from a shape memory material having a transformation temperature above that of body temperature
Referring now to
Bridge portion 22 generally has a thickness that is sized such that it can be cut with a standard surgical wire or pin cutter that is commonly used in orthopedic surgery. Two or more legs 24 extend from bridge portion 22 at a first angle 30 when the bridge and the two or more legs are at a first temperature. As best illustrated in
Shoulder portions 26 are defined by first angle 30 between bridge portions 22 and two or more legs 24. Shoulder portions 26 define a transition from bridge portion 22 to two or more legs 24.
Feet portions 28 are formed at an end 34 of two or more legs 24 that is opposite from shoulder portions 26. Each of feet portions 28 includes an inwardly angled portion 36 that extends toward the remaining feet portions. Feet portions 28 are configured to stabilize device 20 once it has been placed around the sternum and its shape transformed.
Referring now to
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As shown in
Referring now to
A bridge portion 84 connects all of legs 72 and 74 to one another. Two legs 72 and 74 extend from bridge portion 84 at a first angle 86 when the bridge portion and the two legs are at a first temperature. Two legs 74 extend from bridge portion 84 via shoulder portions 88. Two legs 72 extend from bridge portion 84 at predetermined points 90 along the bridge portion that are interior to shoulder portions 88. The geometry of severed sternum 42 governs the location of predetermined points 90. As best illustrated in
As shown in
In use, if a device is formed from nitinol with a transition temperature below body temperature, the procedure to implant the device would require the device to be cooled below its transition temperature. The legs would then be spread apart with the shoulders spread opened as in
In use, if the device is comprised of nitinol with a transition temperature slightly above body temperature, the device is provided to a surgeon in its low temperature, i.e., martensitic state. In this state, the legs of the device would be spread apart as depicted in
Once the nitinol material has warmed above its transition temperature, the device's shape will attempt to revert back to the high temperature shape as generally shown in
Although the invention has been described and illustrated with respect to exemplary embodiments thereof, it should be understood by those skilled in the art that the foregoing and various other changes, omissions and additions may be made therein and thereto, without parting from the spirit and scope of the present invention. Accordingly, other embodiments are within the scope of the following claims.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/US07/76101 | 8/16/2007 | WO | 00 | 10/12/2010 |
Number | Date | Country | |
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60838772 | Aug 2006 | US |