Effect of pre-heating resin composite on restoration microleakage.

Improving the adaptation of resin composites during placement is necessary to increase durability and reduce microleakage. Flowable resin liners have been introduced to improve adaptation in composite restorations. In addition, a device that lowers the viscosity of regular dental composites has been introduced (Calset, AdDent Inc, Danbury, CT, USA).

The effect of prophylactic polishing pastes and toothbrushing on the surface roughness of resin composite materials in vitro.

Polishing composite restorations at recall prophylaxis may affect their surface roughness. This investigation evaluated the effect of prophy paste on the surface roughness of a microfilled (Filtek A110) and a microhybrid (Filtek Z250) resin composite before and after simulated toothbrushing. Twenty, two-sided samples of both materials were fabricated in acrylic molds against a Mylar strip (baseline).

Evaluation of surface finish and polish of eight provisional restorative materials using acrylic bur and abrasive disk with and without pumice.

This study evaluated the effects of two finishing techniques and pumice polishing on the surface roughness of eight different provisional materials. Provisional materials included polymethylmethacrylate-based Alike, Snap, Trim and Jetand composite-based provisional materials Temphase, Protemp 3 Garant, Luxatemp and Integrity. Baseline surface roughness was measured by a profilometer, then the provisional materials were finished using extra fine acrylic burs or medium abrasive disks.

Microleakage of Class II packable resin composites lined with flowables: an in vitro study.

Flowable resin materials have been suggested as liners beneath packable composites to improve marginal integrity. This investigation evaluated the effect of low-viscosity liners on microleakage in Class II packable composite restorations. Twenty Class II cavities were prepared in extracted third molars for each of four packable composites (Heliomolar HB, Prodigy Condensable, Surefil and Tetric Condense).