1. Technical Field
The present invention relates to medical implant structures. More particularly, the present invention relates to an implant structure for medical repair and fixation of damaged bones.
2. Description of Related Art
Owing to advancements in medical technology, an ageing society is here with us today. With an ever-increasing ageing population, geriatric care and medical treatment for chronic diseases are becoming more important.
In such an ageing society, degenerative arthritis, which is common among people over 50, is drawing attention. The elderly with severe degenerative arthritis usually have aching knees and thus are crippled to the detriment of their daily routine.
Degenerative arthritis develops because of wear and tear of the cartilage of a joint and ends up with the deformed joint and cracks on the surface of the bone involved. Hence, degenerative arthritis is treated with medication or surgery, depending on the damage done to the bone. Where a joint affected by degenerative arthritis is worn out to the extent that medication or rehabilitative therapy is inadequate to alleviate symptoms of degenerative arthritis, a surgeon replaces the damaged joint with an implant to restore joint functions.
Human joints are evolved to be heavy-duty in terms of frequency of use and directions of applied forces. Hence, given time, the fixing mechanism 11 of the implant structure 10 implanted in the bone of a patient is likely to be loosened and displaced under the forces exerted upon the implant structure 10 (which acts as a substitute for the otherwise damaged joint of a patient), and the coupling mechanism 12 may deform so that the implant mechanism 13 becomes disconnected from the fixing mechanism 11. Thus, the service life of the implant structure 10 is shortened significantly.
Furthermore, in situations where the implant mechanism 13 of the implant structure 10 is relatively large, a plurality of said fixing mechanisms 11 are essential to enhancement of the bonding of the implant structure 10 and the damaged bone. In such situations, accurate alignment of the implant mechanism 13 and the fixing mechanism 11 is of vital importance, and as a consequence, it is rather difficult to implant the implant structure 10 in the damaged bone.
The present invention provides an implant structure having a nailing portion formed with a barb unit for enhancing the bonding between the implant structure and a bone to thereby prevent the implant structure from displacement.
The present invention provides an implant structure having an implant body and a nailing portion, wherein the implant body and the nailing portion are integrally formed as a unitary structure to thereby prevent separation of the implant body and the nailing portion.
The present invention provides an implant structure having an implant body and a nailing portion, wherein the implant body and the nailing portion are integrally formed as a unitary structure to thereby streamline implantation of the implant structure in a bone; hence, implantation of the implant structure is simplified.
To achieve the above and other objectives, the present invention provides an implant structure, comprising: an implant body having a first surface, a second surface, and a third surface, with the first and second surfaces adjoining via a rim shared therebetween and the second and third surfaces adjoining via a rim shared therebetween; and at least one nailing portion having a bone-contacting surface with at least one barb unit formed thereon, wherein the implant body and the said nailing portion are integrally formed as a unitary structure.
Implementation of the present invention involves at the least the inventive steps as follows:
1. With the implant body and the nailing portion being integrally formed as a unitary structure, separation of the implant body and the nailing portion is prevented.
2. The nailing portion is formed with the barb unit for enhancing the bonding of the implant structure and a bone to thereby prevent the implant structure from loosening or displacement.
3. With the implant body and the nailing portion being integrally formed as a unitary structure in advance, implantation is simplified.
The features and advantages of present invention are described in detail hereunder to enable persons skilled in the art to understand and implement the disclosure of the present invention and readily apprehend objectives and advantages of the present invention with references made to the disclosure contained in the specification, the claims, and accompanying drawings, wherein:
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To be implanted in a bone, the implant structure 20 that comes in a single piece is not screwed into the bone as taught by the prior art but is directly nailed into the bone. Hence, the at least one barb unit 215 on the bone-contacting surface of the nailing portion 22 engage with the bone so as to counterbalance an upward pull exerted upon the implant structure 20. Also, with the implant structure 20 being a unitary structure, separation between the implant body 21 and the nailing portion 22 is efficiently prevented.
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The foregoing descriptions of the embodiments are provided to illustrate the features of the present invention and enable those in the art to gain insight into the present invention and implement the present invention, but are not intended to restrict the scope of the present invention. It should be understood by those in the art that equivalent modifications and variations in the aforesaid embodiments of the present invention can be made without departing from the spirit and principle in the disclosure of the present invention and still fall within the scope of the invention as set forth in the appended claims.
Number | Date | Country | Kind |
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098129177 | Aug 2009 | TW | national |