An evaluation of direct placement of orthodontic brackets a thesis submitted in partial fulfillment ... in orthodontics ... /

Bruce, Luther D.

January 1970

Thesis (M.S.)--University of Michigan, 1970.

Dentin bonding SEM comparison of dentin surface and resin-dentin interface in primary and permanent teeth : a thesis submitted in partial fulfillment ... for the degree of Master of Science (Pediatric Dentistry) ... /by Jacques Eduardo Nör.

Nör, Jacques Eduardo.

January 1994

Thesis (M.S.)--University of Michigan, 1994.

Shear strengths of various rebonding procedures

Pryor, William Adams.

January 1980

Thesis (M.S. (Orthdontics))--University of Tennessee Center for the Health Sciences, Memphis, 1980. / Spine title. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 54-59).

Hazardous factors in the orthodontic bonding procedures

Lehman, Rudolf.

January 1900

Thesis (doctoral)--University of Amsterdam, 1980. / Includes bibliographical references (p. 91-96).

Adhesive diffusion into caries-affected dentin under simulated oral conditions

Haj-Ali, Reem Spencer, Paulette.

January 2004

Thesis (M.S.)--School of Dentistry. University of Missouri--Kansas City, 2004. / "A thesis in oral biology." Advisor: Paulette Spencer. Typescript. Vita. Title from "catalog record" of the print edition Description based on contents viewed Feb. 24, 2006. Includes bibliographical references (leaves 58-65). Online version of the print edition.

Dowel design optimization in an endodontically treated single-rooted tooth a finite element stress analysis /

Buranadham, Supanee.

January 2000

Thesis (Ph. D.)--University of Iowa, 2000. / Supervisor: Clark M. Stanford. Title-page, preliminaries, Certificate of approval, Table of contents and Project summary issued in paper (xii, 13 leaves ; 28 cm.). Includes bibliographical references. Also issued on CD-ROM (144 files, 33.7 megabytes).

Fragment reattachment with light-cured glass-ionomer

Minutillo, Anthony L., 1965-

January 1996

Indiana University-Purdue University Indianapolis (IUPUI) / This investigation examined the relationships among light cured glass ionomer liner, light cured glass ionomer base, and composite resin material in the reattachment of fractured anterior tooth fragments. Seventy-five bovine incisor teeth were fractured and luted back together with three different materials (Universal Bonding Agent/TPH Composite Resin; VariGlass VLC Liner; VariGlass VLC Base, LD Caulk Div Dentsply Int Inc, Milford, DE) of equal number. The reattached fragments were subjected to thermocycling with a 40° C differential and then were loaded until the force required to detach the fragment was reached. The mean dislodgment strengths were 36.8 (± 25.6)kg for the composite resin, 36.4 (± 26.7)kg for the glass ionomer base, and 31.4 (± 29.S)kg for the glass ionomer liner. Analysis of variance demonstrated no significant difference between the three groups at p≤0.05. Also examined was the type of fracture after reattachment. Of the sixty-five teeth that were studied microscopically, 84.6 percent of the fractures were cohesive in nature, thus a breakdown occurred within the material itself.

Glass Ionomer Cements

Dental Bonding

The Effect of Thermocycling on the Failure Load of a Standard Orthodontic Resin in Shear-Peel, Tension, and Torsion

Bunch, Jason Keith

January 2006

Indiana University-Purdue University Indianapolis (IUPUI) / New products are frequently developed for bonding brackets. This continuum brings about incessant studies attempting to prove or disprove their value. The need to compare the results of bond failure studies is made difficult if not impossible by the variation of published testing methods. The purpose of this study is to compare the differential effects of thermocycling, as a lab protocol, on three debonding techniques, shear-peel, tension, and torsion when using a traditional orthodontic resin adhesive. A standard orthodontic resin, Transbond™ XT (3M Unitek, Monrovia, CA) was used to bond 102 flattened 0.018-inch stainless steel brackets (3M Unitek) to flattened bovine incisors. Two step acid etching and priming (37 % phosphoric acid gel and Transbond MIP Primer, 3M Unitek) was used to prepare the enamel for bonding. During bonding, the resin thickness was held consistent. The bonding was accomplished under controlled temperature and humidity. Half of the samples were thermocycled prior to debonding. The samples were debonded in shear-peel, tension, and torsion. The data showed no significant differences between thermocycling and nonthermocycling in shear-peel or torsion, but in tension the thermocycling group had a statistically significant higher failure load. Overall, was a trend toward increased bond strength in the thermocycled group. The increase is likely the result of continued polymerization during thermocycling. The statistical difference that is noted in tension is thought to be due to the location of the highest stress being in the center of the resin pad. This would be the location of the least initial polymerization. The use of thermocycling as a lab protocol during bracket failure studies in shear-peel and torsion is not necessary when using traditional orthodontic resin.

Dental Bonding

Resin Cements

Hot Temperature

Shear Srength

Orthodontic Brackets

Evaluation of the Tensile Bond Strength of Orthodontic Bracket Bases Using Glass Ionomer Cement as an Adhesive

Burns, Richard D., Jr.

January 1992

Indiana University-Purdue University Indianapolis (IUPUI) / The search for an orthodontic bonding adhesive that has chemical adhesion to enamel and releases fluoride into the oral environment has led to experimentation with glass ionomer cements. This study compared the tensile bond strength of eight different orthodontic bracket base designs in vitro and assessed the amount of adhesive remaining on the bracket pad after debonding. Each bracket base design included in this study had unique characteristics warranting their inclusion. The groups contained brackets with 60, 80, and 100 gauge mesh pads; 100 gauge mesh sandblasted pads; perforated metal bases; Micro-Lock™ photo-etched bases; Dyna-Lock™ integral bracket/bases; and ceramic silane-coated bracket pads. Groups contained 20 to 22 specimens that were bonded to bovine incisor teeth embedded in a self-curing acrylic block that could be held in the testing machine. Pre-encapsulated glass ionomer cement (Ketac-Fil™) was the experimental adhesive. The adhesive was mixed according to the manufacturer's instructions in a dental amalgamator. The specimens were thermocycled between water oaths of 15°C and 55°C. The specimens spent 30 seconds in each bath for a total of 2,500 cycles and were stored in a humidor until debonding. After 14 days, the specimens were subjected to a tensile force using an Instron mechanical testing machine until failure occurred. The Micro-Loc™ photo-etched base had significantly higher mean tensile bond strength (p<0.05) than all other brackets tested. The ceramic brackets were unable to be tested due to the extremely weak bond strength which did not allow preparation of the samples for debonding. Following debonding, the percentage of adhesive remaining attached to the bracket base was determined using a grid in the ocular of a light microscope. In general, the site of bond failure involved the base/adhesive interface. The Dyna-Lock™ integral bracket/base and 80 gauge mesh base had a greater mean percent of adhesive remaining attached to the base. (Dyna-Lock™ 45 percent and 80 gauge mesh 43 percent vs. all other < 20 percent.) The results indicate that the bracket base design can influence the bond strength when GIC is used as an orthodontic adhesive and suggests that development of GIC with increased fracture toughness might increase bond strength.

Glass Ionomer Cements

Orthodontic Brackets

Tensile Strength

Dental Bonding

Comparison of the obturation density of resilon[TM] using cold lateral condensation and varying continuous wave of condensation techniques

Southern, Rodney George.

January 2006

Thesis (M.S.)--West Virginia University, 2006. / Title from document title page. Document formatted into pages; contains vii, 47 p. : ill. (some col.). Vita. Includes abstract. Includes bibliographical references (p. 35-38).