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Inside Dental Technology

January 2013, Volume 4, Issue 1
Published by AEGIS Communications


Solving a Complex Case

Understanding pressing ingot selection for IPS e.max® Press restored cases and being able to use different ingots in the same case to overcome common issues.

Craig Galbraith

It is becoming more and more common for dentists, when planning a complex case, to rely on the ceramist for advice on material selection and case planning. The ceramist works with these materials on a daily basis and should therefore have a good understanding of the limitations of the materials as well as their properties.

The objective for any ceramist is to fabricate the case from materials that are as translucent and vital as the teeth they are restoring. However, the ultimate determination of the material to be used is based on several factors. The stump shade determines the level of translucency that can be used and whether an opaceous liner or core is needed. Ivoclar Vivadent has expanded its range of IPS e.max® ingots to allow the ceramist to select a high-opacity (HO) ingot, one that provides close to full block-out of the underlying prep or abutment. Five shades of the IPS e.max Press HO Ingots (Ivoclar Vivadent, www.ivoclarvivadent.com) are available, and due to their opacity, they can be used as copings, which are then layered using IPS e.max Ceram. The level of opacity decreases as the translucency increases until the other end of the ingot scale—O1 ingot or opalescent 1 ingot—is reached. The O1 ingot is used whenever the objective is to use the underlying stump color and achieve a contact lens effect at the margins. Usually, the dentist’s preparation will be minimal to none, maintaining the enamel unless the preparation is for an occlusal inlay.

The habitual function, classification of the bite, and type of occlusion dictate the material to be selected based on degrees of strength. If the patient tends to be a bruxer or has a Class III or edge-to-edge bite, it may be advisable to select a material such as lithium disilicate for its 400 MPa of strength.

The ultimate goal when restoring any large case is to maintain harmonious muscle function and eliminate posterior occlusal interference to ensure that function is a priority while still achieving natural esthetics.

Case Presentation

A 27-year-old man, who works in marketing, was dissatisfied with his “old man” smile, which, he claimed was negatively affecting his self-confidence (Figure 1). He presented to his dentist (David Fine, DDS, Encino, California) with a pseudo Class III occlusion (Figure 2). He had two anterior porcelain-fused-to-metal (PFM) bridges (teeth Nos. 6 through 8 and 9 through 11) that were in atraumatic (hyper) occlusion with his lower teeth (Figure 3 and Figure 4).

The patient had been missing teeth Nos. 7 and 10 since the age of 12. During that period, he had been restored initially with Encore bridges, then later with the two PFM bridges mentioned. Due to the length of time that elapsed, some atrophy of the ridge had occurred in the upper lateral area (Figure 5). During the clinical examination, it was determined that the patient was in the beginning stages of posterior bite collapse. A significant amount of enamel was missing from his posterior teeth, resulting in a decreased vertical dimension.

At the initial consultation, a multiple treatment phase was determined. The first part of the treatment was to restore the patient’s collapsed vertical. Doing so would both restore a more youthful appearance to the patient and allow an increase in the anterior vertical dimension, thus possibly reducing the severity of his Class III bite by increasing his over-jet to as close to a Class I as possible.

A mockup was done at the consultation by adding to the vertical and lengthening the existing anteriors with bonding (Figure 6). During the second phase of the treatment, the patient would undergo gum grafts and plumping as well as addition of bovine bone material to compensate for the severe bone loss on the maxillary ridge in the area of the laterals. Two implants would then be inserted, and finally the upper anteriors would be restored.

Lithium disilicate (IPS E.max Press) was selected as the material of choice to restore the patient. The reason for this selection was due to the strength and versatility of the material, in consideration of the patient’s bite classification, occlusal habits, and esthetic demands. In terms of versatility, three different ingots were to be used due to the manner in which the case was to be restored and the types of preparations that were needed to achieve the expectations of the patient.

The patient’s vertical dimension was increased by Dr. Fine using a fixed orthotic (Figure 7). After several months, a vertical that was harmonious to the patient’s muscles was established and temporomandibular joint dysfunction had been eliminated. A platform had been set for achieving occlusal stability and eliminating the patient’s previous posterior interferences and allowing anterior guidance to be achieved. The two PFM bridges were removed, and a set of temporaries was fabricated chairside (Figure 8 and Figure 9). Enough anterior clearance had also been established to allow a change in classification from an anterior Class III to a Class I (Figure 10).

A total of 18 teeth were to be restored, all as single units. The first phase was the lower molars and lower second premolars. In order to maintain the exact vertical of the orthotic, one lower posterior quadrant was replaced at a time and the first premolars were left untouched as occlusal reference points. The preparation by Dr. Fine was conservative and the margins were kept supragingival (Figure 11). The underlying preparatory shade was not excessively dark. For that reason, a monolithic high-translucency (HT) ingot was selected to ensure an esthetic blend at the marginal junction without any concern about bleed-through of a discolored preparation. Due to the preparation, the crown thickness was not excessive, and therefore the brightness was maintained and the value was not lowered (Figure 12). The thicker a HT crown is, the more it reflects gray due to the black oral cavity. To maintain strength and brightness, the crowns were not layered, but instead were meticulously stained to achieve a layered appearance and depth of color (Figure 13).

During the period in which the vertical was established, the patient was undergoing gum grafts and plumping of the anterior maxilla, as well as the insertion of bovine bone mineral to restore the severely resorbed anterior region of the upper laterals. After treatment, implants were placed at sites Nos. 7 and 10 by Dr. Robert Sobel (Figure 14).

The next phase was to fabricate two custom gold abutments, which were opaqued in preparation for the lithium-disilicate crowns (Figure 15 and Figure 16).

Initially the crowns were pressed using a HT ingot and layered at the incisal one-third (Figure 17). However, due to the labial thickness of the crowns caused by correcting the anterior Class III occlusion, the value was lowered too much, giving a grayer than normal appearance in the mouth and not matching the natural value of the lower anteriors (Figure 18). The layering process used at the time also added to a drop in value, because layering the incisal one-third on an already translucent ingot created too much translucency. On future cases, when an HT IPS e.max ingot is used, only micro-layering will be done on a shallow cutback, where the incisal one-fifth will be feathered and layered only to create an internal mamelon effect and natural halo.

Teeth Nos. 4 through 13 were redone using an LT ingot, which was waxed to full contour and pressed. Six full crowns were pressed for teeth Nos. 6 through 11 and four onlays were placed on the upper premolars. The full-contoured crowns were then cut back on the labial and buccal one-third. The incisal was internally stained to create a natural mamelon effect and halo and was glazed to match the lower anteriors and recently placed lower posteriors. The anterior crowns were layered with a combination of essence powders (EO2 and EO4) to highlight the internal effects of the stains and to give a natural incisal effect, followed by Opal Effect 1 (OE1) impulse powder to create a slight halo and finally the Transparent Incisal (Ti1) from Ivoclar Vivadent (Figure 19). The final shaping and length differed from the temporaries, as the patient wanted a more masculine shape and smile design and additional length to show more tooth by increasing his overbite (Figure 20 and Figure 21). The upper crowns and onlays were bonded in with a clear resin.

The final phase of treatment on the patient was the preparation of the mandibular first premolars. The preparation was minimal, and the buccal margin was finished just below the incisal one-third on the buccal (Figure 22). Due to the amount of reduction and the fact that the final shade and the underlying shade were going to be the same, an Opalescent 1 ingot was selected (Figure 23). This ingot is the most translucent of all the IPS e.max Press ingots and when used correctly makes it very difficult to distinguish the finished marginal junction as well as the restoration in the mouth. Because the preparation was more of an onlay-type preparation, it was important to get a very natural blend between the restoration and the tooth at the supra-gingivally exposed buccal margin. This was a stain-and-glaze procedure only, keeping the marginal area as thin as possible to create the contact lens effect (Figure 24). In this instance, only the occlusal one-third of the restoration was lightly stained, because this is where the material tends to be thicker and therefore pick up less of the underlying tooth color. Because the ingot is very translucent, the thicker it becomes the more its value tends to decrease, and therefore should be limited to minimally prepared cases as well as selective occlusal inlays. The final restorations were bonded with a clear resin cement to ensure that the marginal junction was unnoticeable (Figure 25).

The color between the first and second premolars was barely distinguishable, even though two different ingots—the HT and the O1—were used with varying degrees of translucency.

Conclusion

Often on a larger combination case that is being pressed, it is ideal to use the same ingot for the entire case and therefore have the same degree of translucency and chroma and ultimately a harmonious color match. It is important, however, that a certain preparation shade, implant abutment, or design such as a bridge not determine the ingot selection for the entire case if it is not ideal.

For this particular patient, it was important to use different degrees of translucencies to accommodate the differences in thickness of the restorations between the upper and lower preparations. The upper anteriors had been previously prepped for PFM bridges; therefore, the reduction was more aggressive and the result was less tooth structure and thicker restorations, as well as the fact that the objective was to achieve a more ideal classification of the anterior bite and added thickness to the restorations. The initially selected HT ingot for the anteriors resulted in the shade of the restorations having too low a value; therefore, a more opaceous, LT ingot was used to press those crowns to achieve the correct shade (Figure 26).

Alternatively, had the same LT ingot been maintained on the lowers, with the preparation design and supra-gingival margins, it would not have been possible to achieve the same result as with a HT ingot and creating the contact lens effect at the margins. The HT restorations were not cut back, but were stained and glazed only to achieve the correct value and ensure the strength was maintained to accommodate the occlusal habits of the patient. The upper crowns were cut back to increase the translucency and create a more natural-looking restoration and a closer match to the lower anteriors (Figure 27).

Ultimately the patient’s vertical was increased, creating room anteriorly to bring his anteriors more labially and provide the additional length he desired to create a more youthful smile (Figure 28 and Figure 29).

About the Author

Craig Galbraith, AACD Ceramist
daVinci Dental Studios
Los Angeles, California


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Image Gallery

Figure 1 The preoperative photograph of the patient.

Figure 1

Figure 2 The patient in a Class III occlusion.

Figure 2

Figure 4 The patient desired to have a longer, fuller smile with a normal overbite.

Figure 4

Figure 6 Dr. Fine added length to the anterior bridges as a mockup during the initial consultation.

Figure 6

Figure 7 Fixed bonding was placed on the posteriors to increase the patient’s vertical dimension and reduce occlusal irregularities.

Figure 7

Figure 8 The pre-operative bridges are removed. The new vertical has been established, and it is apparent how much length will be added with the new restorations.

Figure 8

Figure 9 As the bridge is removed, the amount of bone loss is apparent. In order to accommodate the implants, the patient must undergo surgery to restore the loss of bone and tissue.

Figure 9

Figure 10 A preoperative view of the patient’s Class III occlusion.

Figure 10

Figure 10 A preoperative view of the patient’s Class III occlusion.

Figure 10

Figure 11 The preparation design and color.

Figure 11

Figure 12 The restored e.max HT crowns.

Figure 12

Figure 13 The stained monolithic crowns.

Figure 13

Figure 14 Posterior bite and vertical dimension were established before restoring the maxillary.

Figure 14

Figure 15 Gold opaqued custom abutments.

Figure 15

Abutments are tried in to ensure alignment and marginal height is correct.

Figure 16

Figure 17 The first set of e.max anteriors pressed with a B1HT ingot.

Figure 17

Figure 18 Once tried in, the value of the upper is noticeably lower than the natural mandibular anteriors.

Figure 18

Figure 19 The anteriors are remade with an e.max B1 LT ingot.

Figure 19

Figure 20 The crowns are cemented, and better shade match is achieved with the LT ingot.

Figure 20

Figure 21 The increased over-jet and overbite of the anteriors resulted in a more youthful smile.

Figure 21

Figure 22 The minimal-preparation design of the lower first premolars.

Figure 22

Figure 23 Onlay pressed with a Opal 1 e.max ingot.

Figure 23

Figure 24 The noticeable opalescence.

Figure 24

Figure 25 The bonded crown.

Figure 25

Figure 26 Final result after all lower posteriors have been bonded.

Figure 26

Figure 27 Retracted view of the completed e.max case.

Figure 27

Figure 28 A side view of the anterior Class I occlusion and the final length.

Figure 28

Figure 29 Postoperative result after an extensive treatment phase.

Figure 29