@article{ijdsr2017564,
author={{Labib, Labib Mohamed and Nabih, Sameh Mahmoud and El-Marakby, Ahmed Mohammed},
title={Influence of Heliobond on Immediate Nanoleakge and Microtensile at Resin-Dentin Interface (An In Vitro Study)},
journal={International Journal of Dental Sciences and Research},
volume={5},
number={6},
pages={150--158},
year={2017},
url={http://pubs.sciepub.com/ijdsr/5/6/4},
issn={2333-1259},
abstract={<b>Purpose</b><b>: </b>The purpose of the present study is to evaluate nanoleakage and microtensile bond strength of different resin composite materials bonded to dentin. <b>Material and methods</b><b>: </b>Teeth will be divided into three main equal groups according to filling material. Each main equal group will be subdivided into two equal subgroups according to application mode (self-etch vs. Etch and rinse mode) (n=20). Then each subgroup will be further divided in to smaller Subgroups. Subgroup 1: using filtek TM Z250 with G-bond plus (G-aenial) (self-etching mode), then application of hydrophopic resin coating (Heliobond). Subgroup 2: using filtek TM Z250 with G-bond plus (G-aenial) (self-etching mode), without application of hydrophobic resin coating (Helio bond). Subgroup 3: using filtek TM Z250 with G-bond plus (G-aenial) (etch and rinse mode), then application of hydrophobic resin coating (Heliobond). Subgroup 4: using filtek TM Z250 with G-bond plus (G-aenial) (etch and rinse mode), without application of hydrophobic resin coating (Heliobond). <b>Conclusion</b><b>: </b>An extra hydrophobic layer coating improved the immediate in vitro performance (¦ÌTBS and NL) of the universal adhesive systems that studied in SE mode. However, NL pattern is material-dependent and aging stability seems not to be related with the adhesive strategy.},
doi={10.12691/ijdsr-5-6-4}
publisher={Science and Education Publishing}
}