초록 ▼

The present disclosure includes joint replacement implants. The joint replacement implant allows for full articulation of the joint, while absorbing impact of the components during normal use that will reduce wear on the implant components and prolong life. The joint replacement implant may include

The present disclosure includes joint replacement implants. The joint replacement implant allows for full articulation of the joint, while absorbing impact of the components during normal use that will reduce wear on the implant components and prolong life. The joint replacement implant may include a bone implantable component and a bearing component having an articulation surface that is sized and shaped to substantially mate with at least a portion of the bone implantable component and a damping mechanism that includes a contact member disposed at least primarily inside a cavity; a biasing member biasing the contact member toward an upper aperture of the cavity and means for capturing the contact member within the cavity.

대표청구항 ▼

1. A joint implant, comprising a bone implantable component; and a bearing component having an articulation surface that is sized and shaped to substantially mate with at least a portion of the bone implantable component, the articulation surface having a damping adhesive, the damping adhesive inclu

1. A joint implant, comprising a bone implantable component; and a bearing component having an articulation surface that is sized and shaped to substantially mate with at least a portion of the bone implantable component, the articulation surface having a damping adhesive, the damping adhesive including a plurality of three-dimensional particles dispersed therein, the particles being physically displaced in response to an applied force; wherein the damping adhesive is disposed on an inferior surface of the bearing component, and a second bone implantable component is adhered to the bearing component by means of the damping adhesive. 2. The joint implant of claim 1, wherein the applied force is one of a magnetic field, an electric field, a subsonic field, an ultrasonic field, and an electromagnetic field. 3. The joint implant of claim 1, further comprising a sensor for measuring an amplitude and frequency spectrum of a movement force upon the joint implant caused by movement thereof; wherein, in a use configuration: the applied force is dependent on the amplitude and frequency spectrum of the movement force. 4. The joint implant of claim 3, further comprising a force generating device, and wherein the applied force is one of a magnetic field and an electric field. 5. A joint implant, comprising: a bone implantable component;a bearing component having an articulation surface that is sized and shaped to substantially mate with at least a portion of the bone implantable component, the articulation surface having an adhesive, the adhesive including a plurality of three-dimensional particles dispersed therein, the particles being physically displaced in response to an applied force;a sensor for measuring an amplitude and frequency spectrum of a movement force upon the joint implant caused by movement thereof; anda force generating device;wherein: the applied force is one of a magnetic field and an electric field;in a use configuration the applied force is dependent on the amplitude and frequency spectrum of the movement force; andthe sensor senses the movement force in real-time, thus sending a substantially continuous signal to the force generating device, and wherein the applied force is adjusted based on the signal. 6. A joint implant, comprising: a bone implantable component;a bearing component having an articulation surface that is sized and shaped to substantially mate with at least a portion of the bone implantable component, the articulation surface having an adhesive, the adhesive including a plurality of three-dimensional particles dispersed therein, the particles being physically displaced in response to an applied forcea sensor for measuring an amplitude and frequency spectrum of a movement force upon the joint implant caused by movement thereof; anda force generating device,wherein:in a use configuration: the applied force is dependent on the amplitude and frequency spectrum of the movement force;the applied force is one of a magnetic field and an electric field; andthe force generating device and sensor are situated within at least one of a joint wrap, a bracelet, anklet, a cellular phone, and a watch. 7. A joint implant, comprising: a bone implantable component;a bearing component having an articulation surface that is sized and shaped to substantially mate with at least a portion of the bone implantable component, the articulation surface having an adhesive, the adhesive including a plurality of three-dimensional particles dispersed therein, the particles being physically displaced in response to an applied forcea sensor for measuring an amplitude and frequency spectrum of a movement force upon the joint implant caused by movement thereof; anda force generating device,wherein:in a use configuration: the applied force is dependent on the amplitude and frequency spectrum of the movement force;the applied force is one of a magnetic field and an electric field; andthe sensor sends a signal to the force generating device, the signal initiating the particles being physically displaced. 8. A joint implant, comprising: a bone implantable component;a bearing component having an articulation surface that is sized and shaped to substantially mate with at least a portion of the bone implantable component, the articulation surface having an adhesive, the adhesive including a plurality of three-dimensional particles dispersed therein, the particles being physically displaced in response to an applied force; anda sensor for measuring an amplitude and frequency spectrum of a movement force upon the joint implant caused by movement thereof;whereinin a use configuration: the applied force is dependent on the amplitude and frequency spectrum of the movement force; andthe physical displacement of the particles is at controlled time intervals, the physical displacement causing an opposing force having a spread spectrum inverse waveform from the movement force. 9. A joint implant system, comprising: a force generating device;a joint implant having: a bone implantable component; anda bearing component having an articulation surface that is sized and shaped to substantially mate with at least a portion of the bone implantable component, the articulation surface having an adhesive, the adhesive including a plurality of three-dimensional particles dispersed therein, the particles being physically displaced in response to an applied force generated by the force generated device; anda sensor measuring an amplitude and frequency spectrum of a movement force upon the joint implant caused by movement of the joint implant. 10. The joint implant system of claim 9, further comprising a wrap, and wherein at least one item selected from the group consisting of the force generating device and the sensor is coupled to the wrap. 11. The joint implant system of claim 9, wherein the sensor detects the movement force in real-time, and sends a substantially continuous signal to the force generating device, and wherein the applied force is adjusted based on the signal. 12. The joint implant of claim 9, wherein the wrap is at least one of a joint wrap, a bracelet, anklet, a cellular phone, and a watch. 13. The joint implant of claim 9, wherein the applied force is one of a magnetic field, an electric field, a subsonic field, an ultrasonic field, and an electromagnetic field. 14. The joint implant of claim 9, wherein the sensor sends a signal to the force generating device, the signal initiating the particles being physically displaced. 15. The joint implant of claim 9, wherein the physical displacement of the particles is at controlled time intervals, the physical displacement causing an opposing force having a spread spectrum inverse waveform from the movement force. 16. The joint implant of claim 9, wherein the movement force received by the joint implant causes the particle to compress from a natural expanded state to a compressed state, the particle subsequently returning to its expanded state, therein imparting an opposing force on the bearing component which is less than an initial force received by the bearing component. 17. The joint implant of claim 9, wherein an inferior surface of the bearing component is connected to a second bone implantable component by means of the adhesive. 18. The joint implant of claim 9, wherein the joint implant is attached at least one of the following: shoulder, knee, hip, wrist, ankle, temporomandibular, and elbow. 19. A joint implant, comprising: a bone implantable component;a bearing component having an articulation surface that is sized and shaped to substantially mate with at least a portion of the bone implantable component, the articulation surface having a composition with a plurality of three-dimensional particles dispersed therein, the particles being physically displaced in response to an applied force; anda sensor for measuring an amplitude and frequency spectrum of a movement force upon the joint implant caused by movement thereof;wherein the plurality of three-dimensional particles includes at least one item selected from the group consisting of: a) a plurality of layered graphene particles;b) a plurality of graphene nanotube particles;c) a plurality of dendrimer particles;d) a plurality of fullerene particles; ande) a plurality of C60 particles; andwherein, in a use configuration, the applied force is dependent on the amplitude and frequency spectrum of the movement force. 20. The joint implant of claim 19, further comprising a force generating device, and wherein the applied force is one of a magnetic field and an electric field. 21. The joint implant of claim 19, wherein the sensor senses the movement force in real-time, thus sending a substantially continuous signal to the force generating device, and wherein the applied force is adjusted based on the signal. 22. The joint implant of claim 19, wherein the force generating device and sensor are situated within at least one of a joint wrap, a bracelet, anklet, a cellular phone, and a watch. 23. The joint implant of claim 19, wherein the sensor sends a signal to the force generating device, the signal initiating the particles being physically displaced. 24. The joint implant of claim 19, wherein the physical displacement of the particles is at controlled time intervals, the physical displacement causing an opposing force having a spread spectrum inverse waveform from the movement force.