Method of positioning and securing a chin implant

A method of applying a chin implant to a human, the method including the steps of positioning a resilient preformed chin implant against an area of the chin to be enhanced, the implant having an interior radius having a curvature slightly smaller than the opposing radius of the curvature of the area of the chin which is to receive the implant. As a second step, a mounting pin bore is drilled through the implant and into the periostium of the area of the chin at an outward angulation of about thirty degrees relative to a front-to-rear vertical medial plane of the face and, concurrently, at a downward angulation of about thirty degrees relative to a front-to-horizontal plane of the face taken through the area of the chin to be enhanced. A third step is defined by drilling through the implant and into the periostium a mounting pin bore having, about the front-to-rear vertical median plane, a mirror symmetry to the drilled hole described above. As a final step, there is securably inserted, through the bores, respective mounting pins which penetrate into the periostium to a depth of between two and five millimeters. Due to the difference in the radii of curvature of the inner surface of the implant and the opposing area of the chin, the two mounting pins will secure the implant at a substantially crescent-shaped offset from the chin.

BACKGROUND OF THE INVENTION 
The present invention is directed to a method of applying a chin implant to 
a human mandible. 
Heretofore, chin implants of a resilient material (such as silicone) have 
been applied to the exposed mandible bone and retained in position by 
reassembled skin tissue to enclose and engage the implant. One difficulty 
with this procedure has been that during and after healing, such implants 
have been known to become mechanically displaced from the desired central 
location on the mandible. Also, in most instances, the pressure of the 
implant upon the bone has resulted in reabsorption of the bone. This 
process is sometimes referred to as bone reabsorption and is due to a 
piezoelectric effect at the bone-implant interface. 
Prior art known to the inventor is limited to U.S. Pat. Nos. 3,589,0112 to 
Sneer; 4,344,191 (1952) to Wagner; and 4,439,152 and 4,713,077, both to 
Small. 
None of the above, or other, prior art known to the inventor teaches the 
method of suspending the chin implant above the periostium of the chin in 
the manner taught herein. 
SUMMARY OF THE INVENTION 
The present invention constitutes a method of applying a chin implant to a 
human, the method comprising the steps of positioning a resilient 
preformed chin implant against an area of the chin to be enhanced, said 
implant having an interior radius having a curvature slightly smaller than 
the opposing radius of curvature of the area of the chin which is to 
receive the implant, As a second step, a mounting pin bore is drilled 
through said implant and into the periostium of said area of the chin at 
an outward angulation of about thirty degrees relative to a front-to-rear 
vertical medial plane of the face and, concurrently, at a downward 
angulation of about thirty degrees relative to a front-to-horizontal plane 
of the face taken through the area of the chin to be enhanced. A third 
step is defined by drilling through said implant and into said periostium 
a mounting pin bore having, about said front-to-rear vertical median 
plane, a mirror symmetry to said drilled hole described above. As a final 
step, there is securably inserted, through said bores, respective mounting 
pins which penetrate thru the periostium into the outer boney table to a 
depth of between two and five millimeters from the surface. Due to said 
difference In the radii of curvature of said inner surface of said implant 
and said opposing area of said chin, said two mounting pins will secure 
said implant at a substantially crescent-shaped offset from said chin. 
It is accordingly an object of the present invention to provide a method of 
securably offsetting a chin implant from the area of the chin to be 
enhanced that will minimize the possibility of absorption of the implant 
material into the chin of the patient. 
It is another object of the present invention to provide a method of chin 
implantation which will secure the implant to the chin in a manner which 
will minimize the potential for slippage or movement thereof. 
The above and yet other objects and advantages of the present invention 
will become apparent from the hereinafter set forth Detailed Description 
of the Invention, the Drawings, and claims appended herewith.

DETAILED DESCRIPTION OF THE INVENTION 
In regard to the view of FIG. 1, there appears an XYZ Cartesian coordinate 
system which includes an XZ plane 22 which plane defines a front-to-rear 
vertical medial plane of the face. The system also includes a plane XY 24 
which defines a front-to-rear horizontal plane at the level of the area of 
the chin 12 to be enhanced. See FIG. 2. 
Also shown in FIG. 1 is chin implant 10 which, in a preferred embodiment, 
is formed of a so called soft silicone. This silicone is shaped by a 
so-called hard slice method. 
Shown in FIGS. 2 and 3 is periostiem 20 of chin 12 and, mounting pins 28 
and 30 (later described in fuller detail). 
In FIG. 3 there may also be seen a substantially crescent shaped offset 32, 
between implant 10 and chin 12, which is achieved by virtue of the 
inventive method described below. 
The inventive method, more particularly, comprises the steps of slideably 
positioning said chin implant 10, against an area of said chin 12 which is 
to be enhanced. Said implant exhibits an interior radius of curvature 14 
which is slightly smaller than the opposing radius of curvature 16 of the 
area of the chin which is to receive said implant. See FIG. 2. 
Thereafter, a mounting pin bore 18 (see FIG. 2) is drilled through said 
implant 10 and into the periostiem 20 (see FIG. 3), penetrating the 
periostiem to a depth of between two and five millimeters. In a preferred 
embodiment, the axis of bore 18 is that of an outward angulation of about 
30 degrees relative to said front-to-rear vertical medial plane (the XZ 
plane) as is shown in FIG. 3 and, concurrently, at a downward angulation 
of about 30 degrees relative to said front-to-rear horizontal plane 24 
(the XY plane) which is shown in FIGS. 1 and 2. It is to be noted that 
each of said angulations may be in the range of 15 to 45 degrees. 
A third step comprises the drilling through said implant and penetrating as 
above defined into said periostiem a mounting pin bore 26 (see FIG. 2) 
having, about said front-to-rear vertical plane 22 (the XZ plane), a 
mirror symmetry to said mounting pin bore 18. 
Thereafter there is securably inserted, through said bores 18 and 26, 
respective mounting pins 28 and 30 (see FIG. 2) which pins extend, as 
well, into the periostiem 20 (see FIG. 3) to the above noted depth 34 of 
between two and five millimeters As a result of the above described 
process and, most particularly, due to said differences in the radii of 
curvature 14 and 16 of said inner surface of said implant and said 
opposing area of said chin respectively, said two mounting pins 28 and 30 
will secure the implant 10 at the substantially crescent shaped offset 32 
which is shown in the views of FIGS. 1 and 3. 
This offset will markedly reduce the possibility of implant displacement 
due to bone-implant contact, facial muscle animation, and external 
pressure and forces. 
The offset will also markedly reduce re-absorption of the bone underlying 
the implant, this due to decreased implant-bone surface area contact and 
to elimination of the piezoelectric effect associated with bone-implant 
contact. 
Also, it has been found that the above described angulation 28 and 30 will 
provide a highly stable positioning of the implant relative to the chin. 
It is further noted that the X axis distance between the points of 
origination of said mounting pin bores 18 and 26 (see FIG. 2) is in the 
range of two to six millimeters. That is, the point o origination of each 
of said bores, from said vertical medial plane (the XZ plane) is between 
one and three millimeters from said plane, this equating to a distance of 
between two and six millimeters from the relative points of origination of 
said pin bores 18 and 26. 
Accordingly, while there has been shown and described the preferred 
embodiment of the present invention, it is to be appreciated that the 
invention may be embodied otherwise and is herein as specifically 
illustrated and described and that, within the scope of such embodiments, 
certain changes may be made in the detail and construction of the parts 
without departing from the underlying idea or principles of this invention 
within the scope of the appended claims.