I. Ivancės straipsnis “Journal of Cosmetic Dentistry”, 2013

“The Journal of Cosmetic Dentistry”, USA, Volume 29, Issue 1, Spring 2013

Žemiau pateikiamas gyd. odontologės Ingridos Ivancės straipsnis su fotografijomis, išspausdintas viename iš pačių pažangiausių ir labiausiai pripažintų pasaulio estetinės odontologijos žurnalų „Journal of Cosmetic Dentistry“, kurį leidžia Amerikos Kosmetinės Odontologijos Akademija - AACD, 2013 pavasario numeryje, skyriuje „Accreditation Essentials“, 22-28 psl. Tai yra gyd. odont. I. Ivancės AACD akreditacinis darbas. Šalia pateiktas ir specialisto komentaras.

Žurnalas skaitomas 70-yje pasaulio šalių daugiau nei 16.000 specialistų.

Key Words: Accreditation, Class IV composites, composite bonding, minimally invasive, esthetic technique

Introduction

Dental trauma to the anterior maxillary teeth is common in children. Along with dramatic improvements in bond­ing technology, and resin composites’ physicochemical properties and esthetic qualities, modern composite resin restorations can conservatively replace missing tooth structure. Bioesthetics is especially important when treating young patients, giving priority to additive, minimally or microinvasive procedures to preserve tooth biology and biomechanics.¹

Excellent and minimally invasive restorations can be created with relatively simple application and layering techniques using artificial dentin and enamel masses, which are completed with effect materials.

"Bioesthetics is especially important when treating young patients, giving priority to additive, minimally or microinvasive procedures to preserve tooth biology and biomechanics."

Treatment

Color and texture mapping were used to guide the layering of composite to achieve a polychromatic result.

A topical anesthetic was applied in the buccal fold apical to #8, and the patient was anesthetized with one carpule of Septanest (Septodont; Lancaster, PA) with adrenaline 1/100,000.

A shade determination was done before the teeth became dehydrated and changed value during treat­ment. A spectrophotometer (Shadepilot, DeguDent; Hanau, Germany) reading was made on both #8 and #9 to help determine the appropriate shade of the final composite resin. The body shade was A-3 (VITA, Vident; Brea, CA).

The following materials and shades were selected:

1. flowable composite G-aenial Flo AO3 (GC America; Alsip, IL), as a cavity liner
2. microhybrid composite G-aenial Anterior A03 for artificial dentin (AD), to provide opacity, hue, and chroma
3. microhybrid composite G-aenial Anterior A2 for artificial chromatic enamel (ACE), to provide hue, chroma, and value
4. Renamel Creative Color Opaquer White (Cos­medent; Chicago, IL), for reproducing whitish, opaque enamel hypoplasia effects
5. Renamel Microfill Incisal Medium for artificial achromatic enamel (AAE), to create effects ranging from translucency to milky-whiteness and for polishing ease and longevity when exposed to varying degrees of pH levels (i.e., low pH, high acidity, and brushing)⁴
6. Adhesive Prime&Bond NT (Dentsply DeTrey GmbH; Konstanz, Germany).

A color mock-up was completed in the patient‘s mouth to verify the composite “recipe” that would mimic the colors and texture of the adjacent intact central tooth. During this process, the lingual shelf, the dentin, characteristics of white spots, and chromatic and achromatic enamels were applied to envision a highly esthetic final result. The mock-up allowed for thickness corrections prior to cre­ation of the final restorations.⁵, ⁶

Undetectable integration of composite resin with natural tooth structure requires attention to detail and the use of correct compos­ite materials, as well as the application of a consistent protocol.

Prior to preparation, the teeth were cleaned using fluoride-free toothpaste (Zircate, Dentsply), prophy brushes, and dental floss. Tooth #8 was disinfected with chlorhexidine.

Preparation

Preparation began with a round-end diamond bur (6856-016, Brasseler USA; Savannah, GA) with a deep and long bevel extended 2 mm around the entire facial and lingual margins. This greatly in­creases the surfaces area of enamel available for bonding. When giv­ing the preparation its final inspection, using an extra-fine diamond bur (7803, Shofu Dental; San Marcos, CA), any unstable or over­hanging enamel structures were removed, as they have a negative ef­fect on the adhesive bond of the restoration. Weak enamel structures left untrimmed at the margins lead to the so-called “prism effect” once composite is applied.⁷

Adhesion

The rubber dam (SigmaDam, Sigma Dental Systems GmbH; Flens­burg, Germany) was applied from tooth #3 to #14. The prepared tooth #8 was sandblasted with 50 µ aluminum oxide (MicroEtcher II A, Danville Materials; San Ramon, CA) to clean the preparation and enhance adhesion.

Acid-etching with 38% phosphoric acid (Etch-Rite etching gel, Pulpdent; Watertown, MA) was performed over enamel for 30 sec­onds and dentin for 15 seconds to remove the smear layer, which forms after dentin preparation, and to open collagen fibers. After rinsing with water for 30 seconds, adequate humidity control is im­portant since the total dehydration of dentin is contraindicated.⁸ When using phosphoric acid as an etchant, a wet bonding technique is necessary to keep the collagen meshwork open for resin monomer penetration. Adhesive (Prime&Bond NT) was applied, air-thinned, and light-cured for 20 seconds.

Composite Placement

Flowable composite was injected into the floor of the cavity ensuring there were no bubbles, and polymerized for 20 seconds using a light-emitting diode (LED) curing unit (Bluephase 20i; Ivoclar Vivadent; Amherst, NY). Applying flowable composite as a liner improves contact with the preparation walls, reducing bubbles or gaps between the adhesive layer and the composite resin.⁹ Also, the flowable composite liner reduces polymerization shrinkage stress and can act as a sort of “shock absorber.”¹⁰

Then in three subsequent layers, AD composite (shade A03) of higher chroma than the intended enamel chroma was applied and sculpted to conform to the histological boundaries of the natural dentin and light-cured for 20 seconds each. To maximize cur­ing effectiveness, curing light guides should be main­tained in close proximity to the surface of the light-activated restorative material.¹¹

This was followed by applying a layer of ACE (shade A2) on the palatal aspect of the tooth. The palatal enamel wall was modeled freehand and light-cured for 20 seconds. Then material of ACE (shade A2) was used over the labial surface of the composite. This layer was smoothed and shaped with an artist’s brush (#3, Cosmedent) to provide an even surface and minimize the incorporation of any air pockets. The IPCT carver (Cosmedent) was used to make a ran­dom bevel and groove for the subsequent incisal composite, and the layer was light-cured for 10 seconds.

An artist’s brush (#1, Cosmedent) was used to ap­ply patches and bands of Creative Color Opaquer White to reproduce the fluorotic enamel structure (Fig 8), as seen on tooth #9. The layer was light-cured for 20 seconds.

A final layer of AAE composite (Incisal Medium) was applied to cover the entire facial aspect. This achromatic enamel has the ability to diffuse the light to some extent, while permitting the colors of the un­derlying layers to selectively show through5. The layer was cured for 20 seconds. The rubber dam clamps were removed.

The intact cervical hard tissues of #7 and #8 al­lowed a transparent strip (KerrHawe; Bioggio, Switzerland) to be wedged in (Luciwedge Soft, KerrHawe), adapted and correctly shaped. Then a thin layer of AAE composite (Incisal Medium) was applied to the facial and palatal surfac­es. To achieve uniform composite transition from the facial to palatal surfaces and contour proximal sur­faces in convex form, the matrix was slightly pulled to the palatal, then pressed from both sides (controlling avoidable composite overhangs on the palatal sur­face), and light-cured for 20 seconds. The final layer wedge, strip, and rubber-dam were removed.

Finishing

A composite polishing disc (Sof-Lex extra/coarse, 3M ESPE; St. Paul, MN) and flame-shaped fine and extrafine diamonds (8859-010, 859EF-010, Brasseler) were used to remove excess material, recontour, and establish outline form. The flame-shaped burs were worked along the axis of the tooth, from mesial to distal side, producing a perikymatous surface structure. The contouring was guided by comparison with the three planes of the contralateral tooth. Excess material on the palatal side was removed using a football-shaped diamond bur (6368-023, Brasseler).

Symmetry of the central incisors was verified using a digital caliper (Dentagauge, Erskine Dental; Marina Del Ray, CA).

The proximal surface was polished using a finishing diamond strip (NTI-Kahla GmbH; Kahla, Germany). Facial and palatal surfaces were modeled with ultra-fine diamonds (LT2, 7406, Shofu). Static and dynamic occlusion was optimized using articulating film (TrollFoil, Trollhätteplast AB; Trollhättan, Sweden). All surfaces were polished using polishing points (En­hance, Dentsply) and FlexiDiscs (Cosmedent).

Before the final polishing, the restoration was cov­ered with a layer of “air-block” water-soluble glycerin (Glyceringel, Ivoclar Vivadent). Final polymer­ization was carried out with 20-second cycles on the palatal and facial surfaces to obtain the maximum monomer conversion in the uppermost layer of com­posite material, normally inhibited by oxygen.¹² A FlexiBuff disc with Enamelize paste (both Cosmedent) was used to obtain the final gloss (Fig 9).

The patient was given home care instructions and scheduled to return three days later for a final check of function and esthetics, and to complete photographic and radiographic documentation (Figs 10a-10d & 11). He was invited for post-treatment photographic views six months later (Fig 12a-12c).

References

1. Dietschi D. Current status and future perspectives for the use of composite resins in the smile frame. J Cosmetic Dent. 2011 Fall;27(3):112-27.
2. American Academy of Cosmetic Dentistry (AACD). Photographic documentation and evaluation in cosmetic dentistry: a guide to Accreditation photography. Madison (WI): AACD; 2009.
3. Fondriest J. Improving your portrait photography. J Cosmetic Dent. 2008 Spring;24(1):90-8.
4. Fahl N Jr. A polychromatic composite layering approach for solving a complex Class IV/direct veneer-diastema combination: part I. Pract Proced Aesthet Dent. 2006 Nov­Dec;18(10):641-5.
5. Fahl N Jr. Coronal reconstruction of a severely compromised central incisor with com­posite resins: a case report. J Cosmetic Dent. 2010 Spring;26(1):92-113.
6. Fahl N. Jr. A solution for everyday direct restorative challenges—part 1. J Cosmetic Dent. 2010 Fall;26(3):56-68.
7. Hugo B. Esthetics with resin composite: basics and techniques. 1st edition. Berlin: Quintessence Pub.; 2008.
8. Pereira GDS, Paulillo LA, De Goes MF, Dias CT. How wet should dentin be? Com­parison of methods to remove excess water during moist bonding. J Adhes Dent. 2001 Fall;3(3):257-64.
9. Lopes GC, Vieira LC, Araujo E. Direct composite resin restorations: a review of some clinical procedures to achieve predictable results in posterior teeth. J Esthet Restor Dent. 2004;16(1):19-31.
10. Cunha LG, Alonso RCB, Sobrinho LC, Sinhoreti MA. Effect of resin liners and photo-activation methods on the shrinkage stress of a resin composite. J Esthet Restor Dent. 2006;18(1):29-36.
11. Vandewalle KS, Roberts HW, Andrus JL, Dunn WJ. Effect of light dispersion of LED cur­ing lights on resin composite polymerization. J Esthet Restor Dent. 2005;17(4):244­54.
12. Gauthier MA, Stangel I, Ellis TH, Zhu XX. Oxygen inhibition in dental resins. J Dent Res. 2005 Aug;84(8):725-9.  jCD

Dr. Ivance is in private practice at the Aesthetic Dentistry Center VivaDens, in Vilnius, Lithuania.
She also teaches direct adhesive esthetic dentistry, digital dental photography, and innovative management of the dental office.

Disclosure: The author did not report any disclosures.