7 research outputs found

    Effect of peri-implant mucosal thickness on esthetic outcomes and the efficacy of soft tissue augmentation procedures: Consensus report of group 2 of the SEPA/DGI/OF workshop

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    OBJECTIVES: The aim of this study was to comprehensively assess the literature in terms of the effect of periā€implant mucosal thickness on esthetic outcomes and the efficacy of soft tissue augmentation procedures to increase the mucosal thickness with autogenous grafts or soft tissue substitutes. MATERIAL AND METHODS: Two systematic reviews (SR) were performed prior to the consensus meeting to assess the following questions. Review 1, focused question: In systemically healthy patients with an implantā€supported fixed prosthesis, what is the influence of thin as compared to thick periā€implant mucosa on esthetic outcomes? Review 2, focused question 1: In systemically healthy humans with at least one dental implant (immediate or staged implant), what is the efficacy of connective tissue graft (CTG), as compared to absence of a soft tissue grafting procedure, in terms of gain in periā€implant soft tissue thickness (STT) reported by randomized controlled clinical trials (RCTs) or controlled clinical trials (CCTs)? Review 2, focused question 2: In systemically healthy humans with at least one dental implant (immediate or staged implant), what is the efficacy of CTG, as compared to soft tissue substitutes, in terms of gain in periā€implant STT reported by RCTs or CCTs? The outcomes of the two SRs, the consensus statements, the clinical implications, and the research recommendations were discussed and subsequently approved at the consensus meeting during the group and plenary sessions. CONCLUSIONS: There was a tendency of superior esthetic outcomes in the presence of a thick mucosa. The connective tissue graft remains the standard of care in terms of increasing mucosa thickness

    An experimental and computational IR and hybrid DFT-D3 study of the conformations of L-lactic and acrylic acid: new insight to the dehydration mechanism of lactic acid to acrylic acid

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    We have studied with hybrid Density Functional Theory (DFT) with an aug-cc-pVTZ basis set and D3 dispersion corrections the intra-molecular hydrogen bond of L-lactic acid and L-lactic-acid analogs with the hydroxyl group on the alpha carbon atom substituted by Ī± -XH (where X = S, Se, Te) as well as the conformations of acrylic acid. The results show there are three types of intramolecular hydrogen bonds that can form only when Ī±-OH is present, whereas other less electronegative functional groups such as -SH, -SeH and -TeH do not exhibit the formation of an intramolecular H-bond. We show that the intra-molecular H-bond formed between the alpha-OH hydrogen and the COOH carbonyl oxygen would enhance the rate of the nucleophilic subsitution of alpha-OH to the K+ sites for the previously suggested dehydration mechanism of L-lactic to acrylic acids. We find that a temperature range between 190-210 Ā°C would be optimum to maximise the rate of the nuleophilic substitution of the alpha-OH group onto the potassium sites during the dehydration mechanism of L-lactic acid to acrylic acid. Additionally, our hybrid-DFT simulation of the infrared spectrum of the various conformers shows that the lowest energy conformer can be identified by a single vibrational band at 3734 cm-1 whereas the other conformers this vibrational band is split with Ī”Ī½ that ranges between 6 cm-1 - 176 cm-1. We also find that the various conformers of acrylic acid can be identified by a double peak for the C=O and O-H vibrations which have Ī”Ī½' of Ī”Ī½'' 24 and 42 cm-1, respectively. This computational study is useful for spectroscopic experimental efforts that try to identify the various conformers of L-lactic acid and acrylic acid and to gain mechanistic insight into the dehydration mechanism over K substituted NaY Zeolites
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