Introduction Show Contemporary Use of Provisional Restorations & Esthetic demands The addition of dental implants to a treatment plan sometimes requires an extended lifespan of provisional restorations from a few weeks to a few months. Implants in the esthetic zone often require fixed provisional restorations to optimize peri-implant soft tissue architecture and ultimately the esthetic result. In spite of significant improvement in materials and digital technology, the pressure on the clinician to achieve better, high performance and more esthetic final restorations have never been higher. In that respect, the clinician’s skill and knowledge in diagnosis, treatment planning and expert technical execution of the provisional has become more important to meet the demands of today’s patients.2 Unfortunately, today’s high exposure to social media and “enhanced” posted images have often unreasonably increased patients’ esthetic expectations. CLINICAL CASE 1 Patient presenting with very high esthetic expectations: The provisional restoration is often the only route to translate the subjective esthetic expectations of shape to an objective possible result prior to fabrication of the final restorations (Porcelain Veneers #1.1 and 2.1) It is not unusual to observe that the quality of the provisional directly impacts the outcome of the case. In other words, the provisional is often the only route to translate the subjective esthetic expectations of the patient to a possible objective result prior to fabrication of the final restorations. There are very few clinical situations in fixed prosthodontics that may allow the clinician to bypass a provisional restoration such as a single chairside fabrication of a porcelain restoration utilizing on site CAD-CAM technology or a single posterior implant restoration with little to no functional/esthetic risks. In most other clinical scenarios and more complex treatment plans, carefully executed provisional restorations become an essential part of treatment success. Methods
and Techniques of Fabrication Direct technique: The direct technique involves the use of a mold or matrix that is related intraorally to the prepared teeth. The provisional material is mixed and placed into the matrix which is then seated over the prepared teeth and allowed to polymerize. Following working and setting times of the material being used the removal of the matrix and provisional restoration must be well timed to avoid locking. The provisional is then trimmed of any excess. It is most often necessary to reline and add to the margins of the provisional with this technique to compensate for polymerization shrinkage. The advantage of the direct technique is that it is the most efficient use of time and materials because no intermediate impression or stone cast is required. The disadvantages of the direct technique are that the freshly cut dentin and the vital pulpal tissues are exposed to the heat generated during the exothermic polymerization reaction. CLINICAL CASE 2 This patient was seeking a solution to replace a bonded porcelain fused to metal pontic #2.2 with poor esthetics. The inter-radicular space precludes an implant. Following a discussion about possible treatment plans, the patient elected a cantilever pontic (#21-p). Note the provisional restoration fabricated with a Direct Technique to preview the form and function anticipated with final fixed-prosthesis Indirect technique: This protocol is followed when the indirect technique for interim restoration fabrication is planned. After tooth preparation, an irreversible hydrocolloid impression of the prepared teeth is completed to fabricate a cast with fast setting stone or plaster. The impression is poured in fast setting plaster or stone. The silicone matrix is trial fitted to the cast, and modifications are made to the matrix or cast until complete seating of the matrix is achieved. A separating medium (petroleum jelly) is coated on the prepared teeth, adjacent teeth, and tissues on the cast. The desired provisional material is mixed and loaded into the matrix. The matrix is then positioned and seated onto the cast until complete seating of the matrix is achieved. The matrix can be stabilized with elastic bands and placed in warm water in a pressure pot to increase density and to optimize the physical properties of the provisional material. The indirect technique has the advantage of not do not polymerizing intraorally and therefore the pulpal tissues are not exposed to the exothermic polymerization reaction and free monomer. Although the indirect technique has been described as more accurate, it is not uncommon to require a reline of the restoration intraorally to adapt the margins. The main disadvantage of the indirect technique is that an intermediate impression and stone cast are required to fabricate the interim restoration, resulting in increased time and materials required for fabrication. Indirect-direct technique (Shell provisional): A combination of the two techniques is proposed to provide a relatively atraumatic means to achieve the most accurate fitting interim prosthesis. This technique involves the fabrication of a thin shell indirectly on a minimally reduced cast of the proposed restorations. These shells are subsequently relined with the provisional restorative material intraorally over the prepared teeth. The shell provisional technique used to demand sophisticated laboratory support and was pre-operatively intensive and time consuming. In many situations, the shell was too thin or the outline overbulked to provide minimal thickness of the acrylic material to avoid fractures. However digital technology has made this approach more predictable and less intensive. Today, the modern protocol starts with the diagnostic casts, used to complete an ideal digital wax-up based on esthetics and occlusion. Then the “waxed-up” teeth are minimally “prepared digitally and the reduced amount of the wax-up is used as a quantified template to mill the provisional shells. Recent developments suggest that 3-D printing technology5 continues to improve and could soon become more predictable and accessible in daily practice. In general, reductive (milled) techniques currently offer superior finishes and physical properties over additive (3-D printed) modalities. Periodontal versus Peri-implant tissue management. The advent of dental implants brings an ounce of complexity/sophistication to peri-implant soft tissue esthetic outcomes. It used to be a time when the “success “of an implant was measured based on whether it remained osseo-integrated and functional. In the mid-2000, esthetic criteria6,7 were presented as objective measures of success particularly in the esthetic zone. Provisional restorations on dental implants allow the clinician to properly develop the adequate soft tissue architecture and the so-called Emergence Profile of the subsequent restoration. The emergence profile is not only important to achieve an acceptable pink esthetic score (PES), manage the esthetic demands of the patient but also to provide long-term health and stability of the peri-implant tissues. CLINICAL CASE 3 A provisional implant crown was used to optimize the peri-implant soft tissue. The developed emergence profile was subsequently transferred accurately into the final abutment/porcelain crown. For maxillary anterior implants, particularly, the provisional allows the alteration of the soft tissue to emerge from a circular cross-section of the implant platform to a truncated pseudo shape of the crown through the 3-4 mm of transgingival distance. This “developed gingival emergence profile” via a provisional restoration can then be transferred directly to the final abutment and restoration. In this regard, whenever possible, the immediate provisional restoration of implants in the esthetic zone is encouraged when conditions of primary stability are met. This approach allows the tissue to heal favorably to the desired profile around the provisional restoration acting as a scaffold. When planning implants in the esthetic zone, a simple reference rule can be applied to relate the implant platform position in relation to the esthetic gingival zenith to achieve predictable esthetic results.8 There is evidence suggesting that the use of provisional restorations on implants in the esthetic zone improves the esthetic outcome.8 High Level Esthetics: The synergized collaboration of the clinician and dental technician In addition, the provisional can be modified until the patient is satisfied, and then the modified provisional restoration serves as the blueprint for the technician.10 It is important to note that this communication is specified to be between the clinician and his/her technician. Besides customized shade matching for anterior restorations, the technician/patient interaction should be minimized regarding form/esthetics and function which is a domain the clinician should assume the major responsibility. First, the clinician must achieve the proper form, function and esthetics with the provisional restoration: this refers essentially to occlusion and the desired three-dimensional shape/size of the restoration. With an adequate shape-approved provisional, the clinician provides valuable outline form reference on which the technician can rely to create the final restoration(s). CLINICAL CASE 4 This patient desired a “natural” improved smile, seeking some minor imperfections that would make the anterior dentition more “natural” looking. Minor incised imperfections were customised in the provisional stage and transferred to the final porcelain restorations. In the author’s opinion, dimensions and shape ought to be as accurate as possible at the provisional stage rather than allowing for subjective guesswork by the technician which may lead to less desired outcomes, costly remakes, dissatisfied patients and unshared responsibilities of who is in charge for the desired outcome. It is therefore critical that the clinician ensures he/she has the clinical expertise and skill to the provide the various methods and protocols to fabricate simple and complex provisional restorations depending on the demand of each case undertaken. Regarding high level esthetics, the shape/form/dimension of the provisional is one significantly important step. The final elements of transition from provisional to final involves the proper choice and artistic manipulation of the definitive material in which the final restoration will be fabricated to meet the esthetic demands of hue, chroma, texture, translucency to provide the final improvement expected delivering he final restoration. At this stage, the clinician can ascertain the possibilities and limitations with the patient while discussing and confirming the same with the technician. Advising a patient that the final restoration will be “much improved” compared to the provisional is not appropriate, often leading to unreasonable patient expectations and disagreement. As a general rule, the provisional should meet the patient’s esthetic demands of the case while leaving some room for some detailed improvement when the definitive restorations are completed. Even when restorations are placed primarily for functional reasons, it is critical to address the patient’s esthetic concerns and goals. The restorative dentist must clearly understand the esthetic expectations of the patient, and the patient must understand the inherent limitations of any type of restorative therapy (both functional and esthetic). The most predictable medium for this mutual understanding is the provisional stage. When implants form part of a comprehensive plan, especially in the anterior esthetic zone, objective esthetic criteria must be used to plan and execute treatment.11,12 Communication tool between clinician and technician: practical application In more advanced cases, the provisional can be used to communicate the occlusal relationships and positional references essential to the case. This can be the various dimensions of adjacent teeth within a sextant as well as the esthetic midline location if the teeth being restored or missing are situated in the maxillary anterior sextant. The anterior sextant provisional also allows the clinician to evaluate the occlusion, envelope of function and phonetics while the patient test-drives the provisional. Once functionally and esthetically approved, the information contained in the provisional can be predicably transferred to the technician via a cross-articulated cast of the provisional. It was discussed earlier that the provisional can help transfer the emergence profile around implant-supported restorations. Today, this can be completed using a custom-impression transfer that replicated the 3-4 mm of transgingival profile or via digital scan technology to capture the emergence of the provisional when it is removed from the patient’s mouth. Using a triple-level scan (implant level, emergence profile level/soft tissue level and the provisional restoration level), the desired emergence profile can be accurately copied from the provisional and reproduced in the final abutment/crown. More sophisticated uses of the provisional restoration are their application to shape and develop pontic sites under fixed partial dentures. The intaglio surfaces related to those pontics can be copied and replicated in the final restorations without any guesswork: what you achieve and see in the provisional can be accurately reproduced within the final restoration, saving valuable time and multiple adjustments between laboratory and clinic. CLINICAL CASE 5 This case involved a full arch implant-supported maxillary reconstruction. The immediate fixed provisional restoration was used to develop the optimal soft tissue contour on the pontic sites at time of extraction and implant placement. The itaglio of the provisional was digitally scanned to allow accurate reproduction of the pontic forms within the final prosthesis. Midline and plane of occlusion, essential references required for the final prosthesis, are derived from the provisional bridge. In very complex and/or full mouth reconstructions, the provisional is an accurate tool that enables cross-articulation of maxillary and mandibular master casts versus the casts of the provisional restorations at the corresponding vertical dimension and centric-relation position. Strategic segmentation of the full arch provisional restoration must be planned to allow for accurate cross-articulation. This cross-articulation reference is essential for the technician to fabricate the final restorations not only in shape/form/dimension but also in the exact location in relation to the dimensional and esthetic references, while replicating the occlusal scheme imparted/verified by the provisional restorations. In effect, comprehensive fixed full mouth rehabilitations have many similarities to complete denture therapy13 which begins with the determination of the facial esthetic midline, followed by the maxillary incisal edge position, sagittal and frontal orientation of the plane of occlusion. With these references in place, the teeth can be positioned adequately within the arches. Continuum of care, Practicality, Time and Cost Factors The utilization and choice of provisional materials and techniques should always be as practical as possible. In other words, the clinician should elect the simple proven techniques and materials whenever possible to achieve comparably optimal results. One should not be dogmatically bound to one technique but rather be flexible to choose the most appropriate, time efficient and cost-effective technique to fabricate a provisional restoration for a given clinical case. For example, milled provisional restorations can be more costly and logistically demanding than provisionals fabricated with the direct technique matrix and hence should not be applied universally for every case.14 Fabrication and management of good provisional restorations take much of the clinician time and dedication, time well spent to set the case for predictable success. Part of treatment planning a complex case should include accounting for the significant time needed to incorporate the provisional restorations. It is often fair and necessary to add the cost of the provisional within the treatment plan as complexity increases for the case at hand. CLINICAL CASE 6 This case involved a sophisticated reconstruction of the mandibular anterior sextant with porcelain veneers. Note the creation of minor tooth rotations and incised irregularities within the provisional restorations. Mandibular incisors are particularly challenging to restore with porcelain veneers primarily due to their small dimensions and limited restorative space when preparations must remain conservative on vital teeth. Conclusion Oral Health welcomes this original article. References
About the Author What task is critical to the delivery of a new fixed prosthesis?Fixed dental prosthesis success requires appropriate impression taking of the prepared finish line. This is critical in either tooth supported fixed prosthesis (crown and bridge) or implant supported fixed prosthesis (solid abutment).
Which of the following is an example of a fixed prosthesis?Both crowns and most bridges are fixed prosthetic devices. Unlike removable devices such as dentures, which you can take out and clean daily, crowns and bridges are cemented onto existing teeth or implants and can only be removed by a dentist.
What is a fixed prosthesis procedure?The fixed prosthesis is a branch of the dental prosthesis that concerns the replacement and / or restoration of teeth by artificial substitutes that cannot be removed or removed from the mouth. The fixed prosthesis can be cemented, or securely retained in natural teeth, dental roots and / or pillars of dental implants.
What is the most critical part of the tooth preparation Why?The most important element of retention is the presence of two opposing vertical surfaces. The axial walls of the preparation should taper slightly to allow the cementation of the artificial crown. The more parallel are the axial walls the greater is the retention.
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