Cast Metal Occlusal Surface: A Case Report

The use of acrylic resin denture teeth has been criticized due to the rapid occlusal wear that may lead to changes in centric occlusion, temporomandibular joint disturbances, loss in chewing efficiency [1], loss of vertical dimension of occlusion [2] and therefore can result in denture instability. The extent of wear varies depending on the clinical situation and the amount of time the prosthesis has been in use. Various articles [2,3] describe the construction of metal occlusal surfaces for the patients having the history of occlusal attrition, bruxism, orofacial tardive dyskinesia, self-induced excessive chewing, and idiopathic parafunctional mandibular movement. A metal occlusal surface may be indicated,


Modern Research in Dentistry Abstracts
A 69-year-old male patient reported to the UTHealth Prosthodontics with the chief complaint of decreased chewing efficiency and the instability with continuous use of his dentures. He was concerned with the functional efficiency of the dentures and not so much about esthetics. The patient was found to have a completely edentulous maxilla with a residual ridge morphology of minimal buccal vestibule and reduced hamular notch. The mandible had one root tip with a reduced residual bone height. The maxillomandibular relationship was Class III. Pt had a history of radiation in the head region with skin cancer of BCC, SCC, and Melanoma since 2008. Frequent attrition of the teeth may either be due to selfinduced excessive chewing. Treatment options offered (1) denture or implant supported overdenture, (2) denture or implant supported overdenture with metal occlusal surface, and (3) implant supported fixed prosthesis.
Pt chose a two-implant supported overdenture with a metal occlusal surface for the mandible. Therefore, the denture with the metal occlusal was planned to address patient's concern. It also improves the degree of masticatory ability and prevents the attrition of the teeth. This case report described a technique that uses custom made occlusal portions as the patterns for casting base metal occlusal surfaces. Metal has been reported to cause minimal wear to opposing occlusal materials. This technique is considered in cases where the prosthetic occlusion is in contact with enamel, composite resin, porcelain, metal, or a combination of such materials. Instead of individual units, a single joint unit is fabricated to improve the retention and provide easy finishing and polishing of the casting. This case report presents a simple and relatively inexpensive procedure for the construction of metal occlusal surfaces on complete dentures. aesthetics. On clinical examination, the patient has a completely edentulous maxilla with a residual ridge morphology of minimal buccal vestibule and reduced hamular notch. The mandible had one root tip with a residual bone height of 11-15mm ( Figure 1). The maxillomandibular relationship was Class III. History showed that the patient was wearing the complete maxillary denture and a tooth-supported mandibular overdenture. For over 25 years, he got his denture made twice due to frequent attrition of the teeth and instability of the denture. Pt recently had an extraction of the lower root tip. He also has a history of COPD, hepatitis C, hypertension, anemia, GERD, and radiation therapy in the head region with skin cancer of BCC, SCC, and Melanoma since 2008. He also was a previous smoker of 15 years. With the clinical examination and history, it was concluded that the frequent attrition of the teeth could either be due to selfinduced excessive chewing, but no tenderness or discomfort of the TMJ joint or muscles of mastication. Several treatment options were described to the patient like 1. denture or implant-supported overdenture, 2. denture or implant-supported overdenture with a metal occlusal surface, and
The patient wanted an economical, with the best functional efficiency and had no time constraint. Also, he was further interested in two implant-supported overdentures for the mandible. Therefore, the metal occlusal surface denture was chosen to address the patient's concern with improved the degree of mastication and prevents the attrition of the teeth.

Technique
After extraction of the mandibular root tip and healing, preliminary impressions were made with alginate and poured in Type III dental stone to obtain primary casts. Custom acrylic resin trays were fabricated, and border molding was done with a green stick compound. Final impressions were made using PVS impression material for both arches, and impressions were poured with Type IV dental stone. Denture bases and wax rims were made to record face bow transfer and maxillomandibular relationship to a semi-adjustable articulator (Whip Mix). VDO was established by using two methods. In the first method, two points were marked, one on the tip of the nose and the other on an immovable part of the chin. To find the VDR position, the patient has repeated the letter 'M' several times, and then the distance between the points was measured. VDO=VDR minus freeway space (2-3mm). The second method was to create at least 1mm of closest speaking space between occlusal rims. Teeth arrangement was made with Hardy cutters in maxillary posterior teeth and monoplane teeth in the mandibular arch. A tryin confirmed esthetics, VDO, and centric relation. The conventional heat cured acrylic resin was used to fabricate the denture, and following curing, the prosthesis was finished, polished, and were ready to be delivered to the patient. During the clinical remount, a Coble balancer was used to record the centric record with bite registration (Figure 2). Dentures were remounted in the articulator, and the occlusal surfaces of the lower posterior teeth were reduced by 2mm with adequate interocclusal clearance. Lateral and protrusive positions were verified the space adequacy with the articulator. DuraLay was added on the prepared denture teeth, and the occlusal surface of the individual teeth was contoured. The DuraLay pattern was carefully removed from the teeth, and sprue formers were attached to the pattern. Patterns were invested with phosphate bonded investment (Figure 3), and the metal casting process was completed using a Cr-Co alloy. After the castings, the metal occlusal surfaces were recovered and pol-ished. The castings were positioned at their respective sites on the denture teeth ensuring that each casting was completely seated (Figure 4). The occlusion was verified in centric, lateral and protrusive positions, and then the castings were cemented with resin cement. During the insertion of the complete denture, the prosthesis was checked for proper border extension, and occlusion in centric, lateral, and protrusive positions. The patient was satisfied with the chewing efficiency and esthetics of the denture. The display of Copyright © Jieun Lee MRD.000602. 5(1).2020 metal is considered to be the main disadvantage of using a metal occlusal surface. Still, the patient was not concerned about the pre-sentation of the metal occlusal because of the satisfaction with the chewing efficiency of the denture -which was his main concern. Figure 3: DuraLay was added on the prepared denture teeth and the occlusal surface of the individual teeth were contoured. The DuraLay pattern was carefully removed from the teeth and the sprue formers were attached with the pattern.

Figure 4:
After diversting the castings, the metal occlusal surfaces were recovered and polished. Polished castings were positioned at their respective sites on the denture teeth ensuring that each casting was completely seated.

Discussion
Metal or gold occlusal surfaces have been reported to cause minimal wear to opposing occlusal materials [4]. This technique is considered in cases where the prosthetic occlusion is in contact with an enamel, composite resin, porcelain, metal or a combination of such materials [5]. Instead of individual units, a single joint unit is fabricated to improve the retention and provide an ease in finishing and polishing of the casting.
This case report presents a simple and relatively inexpensive procedure for construction of metal occlusal surfaces on complete dentures. This case report described a technique that uses custom made occlusal portions as the patterns for casting base metal occlusal surfaces. Acrylic resin is attached to the metal occlusal surfaces via indirect resin processing. During recall evaluation, the patient was satisfied with the functional efficiency of the denture and did not report any problem associated with the metal occlusal denture. Patient was re-evaluated for two implant placements in mandible arch after four months of prosthesis wear.