Dentistry – Prosthodontics – Cutting edge shape or arrangement
Reexamination Certificate
2000-06-16
2003-03-18
Manahan, Todd E. (Department: 3732)
Dentistry
Prosthodontics
Cutting edge shape or arrangement
Reexamination Certificate
active
06533581
ABSTRACT:
The invention relates to a denture set of prefabricated teeth, which has at least one first tooth, selected from a group of teeth intended for one jaw, and at least a second tooth selected from a group of antagonists intended for the other jaw, and the teeth have at least one contact point, on the surfaces disposed facing the antagonists, with which contact point the antagonist comes into contact.
Until now, in the production of dentures, the procedure was that first, from a prefabricated set of artificial teeth, the dental technician set up the individual teeth in an articulator on a wax model taken from the jaw of the patient. In this setting up process, he orients himself in accordance with certain principles. For instance, the edge of the side teeth, that is, the apexes of the tooth cusps, should be located on a line that corresponds to Spee's curve. The buccolingual cusp tangents should be inclined slightly, and increasingly from the second premolar to the second molar, toward the floor of the mouth. This is in accordance with Wilson's theory, according to which the tooth cusps should be located on a transversally extending curve. In the setup of the teeth, a cutout of a spherical dome can therefore be used, against which the teeth each come to rest with their upper edge. This procedure is in accordance with Monson's theory. After the setup of the teeth in wax, a trial of the wax model in the patient, and subsequent polymerization, the prosthesis is ground in an articulator, in order to adapt the engagement of the teeth of the upper and lower jaws. The goal here is to allow only point-type contacts rather than any contact surfaces. Another need is that the denture balance on both sides; that is, in the closed position with complete intercuspidation, the molars of the upper and lower jaws should mesh with one another on both sides and form contact points. This bilateral balancing, which is not in accordance with natural conditions, is intended to prevent the denture from being pried out and thus tilting out of the way in the intercuspidation position. This adaptation is done by having the dental technician, after he has set up the teeth, machine the chewing surfaces of the teeth by grinding them down until such time as the teeth of both halves of the jaw are balanced and the desired number of contact points has been achieved. Once this is finished, the denture is placed in the mouth of the patient and further machined by the dentist, until the patient has the subjective feeling of an acceptable adaptation of the denture.
In known false teeth, or dentures, the precise location of the contact points between the teeth of the upper and lower jaws is accordingly accomplished only during machining. Because of the machining during the adaptation, the vertical height is also reduced. The term “vertical height” is understood to mean the relative position of the upper and lower jaws, or in the final analysis the distance between the jaws, measured vertically. This distance is reduced, however, by the grinding down of the teeth during the adaptation of the denture. Thus during the construction and adaptation, the shape of the denture becomes farther and farther away from the natural conditions that are predetermined by the jaw itself. As a result, the location of the jaws relative to one another and thus the location of the condyles in the joint are determined by the positioning of the artificial teeth in the denture. This is contrast to natural conditions, in which the location of the condyles in the joint and the shape of the jaw in the final analysis determine the location of the teeth, because the teeth change their position until such time as they have adapted to the conditions predetermined by the jaws and the mandibular joint.
As a consequence, a number of problems arise in the dentures made with known artificial teeth, and these problems are a severe burden to the patient.
Since the position of the condyles in the joint is determined by the arrangement of the artificial teeth, the result, unless this position matches the natural one, is muscle stresses and pains, since the jaw is forced into an unnatural position in the closing position. To overcome this, the dentist grinds off further contact points. This further reduces the vertical height and hence under some circumstances shifts the condyles even farther out of their natural position. As a result, the patient can never have well-seated dentures; finally, the only remaining option is to remake the denture, yet once again the same difficulties stand in the way of a good denture fit.
Rapid denture wear is also caused by the shifting of the condyles out of their natural position that occurs in the intercuspidation position. During the process of closing of the jaw, while the tooth cusps are outside the closing position they meet the antagonist and then slide along its surface to reach the closing position. After being worn for only a short time, worn surfaces develop in the denture, leading to the formation of still more contact points or contact surfaces.
Since the final disposition of the contact points does not result until during the machining, it is moreover not assured that the forces initiated into the tooth will add up to a resultant in the direction of the tooth center line. Heavy loads in the tooth that have a horizontal force component can thus occur, which once again leads to premature wear of the denture.
A further disadvantage of this random arrangement of contact points is that in the closing motion, not all the contact points develop simultaneously. An excess number of contact points can also occur. As a result, the patient loses his feel for the closing position in the biting process, which is perceived as extremely irritating. Finally, contact points can also come to rest on oblique surfaces. There is then the risk in the closing motion that the antagonist will slip off, resulting in high peak loads on the tooth.
Previously known artificial teeth for a dental prosthesis or denture take the biomechanical conditions, which are predetermined by the motions of the jaw, into account only inadequately, if at all. For instance, the design of the denture set disclosed in German Patent DE 195 087 62 C2 is directed solely to the contacts between opposing teeth in a static state of maximal intercuspidation. The relationships of the tooth surfaces during the natural motions of the jaw remain unaddressed.
The object of the invention is therefore to furnish a denture made of artificial teeth in which better adaptation of the denture to the anatomical conditions of the patient, which are determined by the position of the condyles in the mandibular joint and by their path of motion.
In a denture set of the generic type in question, this object is attained by the bodies of claims 1 and/or 9 and/or 10 and/or 13.
In particular because at least three contact points (
5
) are provided in each fossa of a respective molar or premolar, with which contact points a chewing cusp of the antagonist comes into contact in the intercuspidation position, a substantially better prosthesis is obtained. The molars develop a plurality of contact points, while only one or two contact points are developed between the canines and incisors.
If at least five contact points per molar or premolar are provided, then each premolar or molar, with its chewing cusp, forms a common contact point with the chewing cusp of the antagonist.
Since until now the upper edge of the artificial teeth was disposed on the compensation curves, the location of the contact points was indeterminate. In the denture set of the invention, the location of the contact points is predetermined in that the contact points are disposed on a sagittal compensation curve and transversal compensation curve that are determined by the motion of the condyles of the mandible. The positioning of the artificial teeth is therefore determined by the location and the curvature of the compensation curves and thus by the anatomical conditions of the jaw and the mandibular joint. Shi
Manahan Todd #E.
Striker Michael J.
Zahn Spektrum GmbH
LandOfFree
Denture set does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Denture set, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Denture set will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-3032252