Your search keyword '"Pelepenko, Lauter Eston"' showing total 8 results

1. Anxiety immediately before endodontic treatment: cross-sectional quantitative analysis

Author

Busatto, Paloma Frigo, Baldissarelli, Flávia, Pelepenko, Lauter Eston, Vanni, José Roberto, Fornari, Volmir João, Rigo, Lilian, and Hartmann, Mateus Silveira Martins

Published

2024

2. Unveiling the correlation between in vivo endodontic reciprocate instrumentation and crack formation

Author

Hartmann, Mateus Silveira Martins, Vanni, José Roberto, Rovaris, Karla, Hartmann, Lucas Jeziorski, Pelepenko, Lauter Eston, de-Jesus-Soares, Adriana, and Fornari, Volmir João

Published

2024

3. Biocompatibility analysis in subcutaneous tissue and physico-chemical analysis of pre-mixed calcium silicate–based sealers

Author

Janini, Ana Cristina Padilha, Pelepenko, Lauter Eston, Boldieri, Juliana Minto, dos Santos, Victor Augusto Benedicto, da Silva, Nilvan Alves, Raimundo, Jr, Ivo Milton, Gomes, Brenda P. F. A., and Marciano, Marina Angélica

Published

2023

4. Can strontium replace calcium in bioactive materials for dental applications?

Author

Pelepenko, Lauter Eston, Marciano, Marina Angelica, Francati, Tamires Melo, Bombarda, Gabriela, Bessa Marconato Antunes, Thiago, Sorrentino, Francois, Martin, Richard A., Boanini, Elisa, Cooper, Paul Roy, Shelton, Richard Michael, and Camilleri, Josette

Abstract

The substitution of calcium with strontium in bioactive materials has been promising but there has been some concern over the material instability and possible toxicity. The aim of this research was the synthesis and characterization of calcium and strontium substituted bioactive materials and assessment of interactions with local tissues and peripheral elemental migration in an animal model. A bioactive glass, hydroxyapatite and hydraulic calcium silicate with 50% or 100% calcium substitution with strontium were developed and the set materials were characterized immediately after setting and after 30 and 180‐days in solution. Following subcutaneous implantation, the local (tissue histology, elemental migration) and systemic effects (elemental deposition after organ digestion) were assessed. The strontium‐replaced silicate cements resulted in the synthesis of partially substituted phases and strontium leaching at all‐time points. The strontium silicate implanted in the animal model could not be retrieved in over half of the specimens showing the high rate of material digestion. Tissue histology showed that all materials caused inflammation after 30 days of implantation however this subsided and angiogenesis occurred after 180 days. Strontium was not detected in the local tissues or the peripheral organs while all calcium containing materials caused calcium deposition in the kidneys. The tricalcium silicate caused elemental migration of calcium and silicon in the local tissues shown by the elemental mapping but no deposition of calcium was identified in the peripheral organs verified by the assessment of the digested tissues. Strontium can substitute calcium in bioactive materials without adverse local or systemic effects. [ABSTRACT FROM AUTHOR]

Published

2022

5. Investigation of a modified hydraulic calcium silicate-based material - Bio-C Pulpo.

Author

PELEPENKO, Lauter Eston, SAAVEDRA, Flávia, ANTUNES, Thiago Bessa Marconato, BOMBARDA, Gabriela Fernanda, de Almeida GOMES, Brenda Paula Figueiredo, ZAIA, Alexandre Augusto, and MARCIANO, Marina Angélica

Subjects

PHYSIOLOGIC salines, CALCIUM hydroxide, CALCIUM, DENTAL pulp capping, BONFERRONI correction

Abstract

This study evaluated the physicochemical, biological, and antimicrobial properties of a new hydraulic calcium silicate-based modified material, and compared it with MTA Repair HP and MTA Angelus. The materials were assessed regarding color luminosity (L), color change, radiopacity, setting time, and ISO 6876:2012 linear flow. Volumetric filling and volume change were evaluated using microcomputed-tomography (µCT). Chemical characterization after 28 days in Hank's Balanced Salt Solution (HBSS) and pH analysis were also assessed. Biological characterization of cytotoxicity and microbiological assessment were also undertaken. Shapiro-Wilk, ANOVA, Levene and post hoc analyses with Bonferroni correction were performed, adopting a 5% significance level (p <0.05). Bio-C Pulpo exhibited the highest L values after 90 days. All tested materials demonstrated color change during the analyses, and had radiopacity above 5 mm Al. MTA Repair HP set faster than Bio-C Pulpo, whereas the latter had the highest linear flow. MTA Repair HP had the highest volumetric filling in µCT analysis. Bio-C Pulpo showed the highest alkalinity during all tested periods, and the highest volumetric loss (above 9%), in comparison with MTA Repair HP and MTA Angelus. Bio-C Pulpo did not form calcium hydroxide after hydration. MTA Repair HP demonstrated the highest cytocompatibility, and Bio-C Pulpo, the highest cytotoxicity. No inhibition halos were observed for any material, and similar higher turbidity values were seen after direct contact. Composition additives used in Bio-C Pulpo modified its properties, and both the absence of calcium hydroxide deposition after hydration, and the related cytotoxicity of this material are of particular concern. [ABSTRACT FROM AUTHOR]

Published

2021

6. Antimicrobial Activity of Calcium Silicate-Based Dental Materials: A Literature Review.

Author

Janini, Ana Cristina Padilha, Bombarda, Gabriela Fernanda, Pelepenko, Lauter Eston, and Marciano, Marina Angélica

Subjects

DENTAL materials, LITERATURE reviews, CALCIUM, TISSUES, DENTAL care, GUTTA-percha, PULPOTOMY

Abstract

Endodontic biomaterials have significantly improved dental treatment techniques in several aspects now that they can be used for vital pulp treatments, as temporary intracanal medication, in definitive fillings, in apical surgeries, and for regenerative procedures. Calcium silicate-based cement is a class of dental material that is used in endodontics in direct contact with the dental structures, connective tissue, and bone. Because the material interacts with biological tissues and stimulates biomineralization processes, its properties are of major importance. The main challenge in endodontic treatments is the elimination of biofilms that are present in the root canal system anatomical complexities, as it remains even after chemical-mechanical preparation and disinfection procedures. Thus, an additional challenge for these biomaterials is to exert antimicrobial activity while maintaining their biological properties in parallel. This article reviews the literature for studies considering the antimicrobial properties of calcium silicate-based dental biomaterials used in endodontic practice. Considering the reviewed studies, it can be affirmed that the reduced antimicrobial effect exhibited by calcium silicate-based endodontic materials clearly emphasizes that all clinical procedures prior to their use must be carefully performed. Future studies for the evaluation of these materials, and especially newly proposed materials, under poly-microbial biofilms associated with endodontic diseases will be necessary. [ABSTRACT FROM AUTHOR]

Published

2021

7. Apical root canal cleaning after preparation with endodontic instruments: a randomized trial in vivo analysis.

Author

Fornari VJ, Hartmann MSM, Vanni JR, Rodriguez R, Langaro MC, Pelepenko LE, and Zaia AA

Abstract

Objectives: This study aimed to evaluate vital pulp tissue removal from different endodontic instrumentation systems from root canal apical third in vivo ., Materials and Methods: Thirty mandibular molars were selected and randomly divided into 2 test groups and one control group. Inclusion criteria were a positive response to cold sensibility test, curvature angle between 10 and 20 degrees, and curvature radius lower than 10 mm. Root canals prepared with Hero 642 system (size 45/0.02) ( n = 10) and Reciproc R40 (size 40/0.06) ( n = 10) and control ( n = 10) without instrumentation. Canals were irrigated only with saline solution during root canal preparation. The apical third was evaluated considering the touched/untouched perimeter and area to evaluate the efficacy of root canal wall debridement. Statistical analysis used t -test for comparisons., Results: Untouched root canal at cross-section perimeter, the Hero 642 system showed 41.44% ± 5.62% and Reciproc R40 58.67% ± 12.39% without contact with instruments. Regarding the untouched area, Hero 642 system showed 22.78% ± 6.42% and Reciproc R40 34.35% ± 8.52%. Neither instrument achieved complete cross-sectional root canal debridement. Hero 642 system rotary taper 0.02 instruments achieved significant greater wall contact perimeter and area compared to reciprocate the Reciproc R40 taper 0.06 instrument., Conclusions: Hero 642 achieved higher wall contact perimeter and area but, regardless of instrument size and taper, vital pulp during in vivo instrumentation is not entirely removed., Competing Interests: Conflict of Interest: No potential conflict of interest relevant to this article was reported., (Copyright © 2020. The Korean Academy of Conservative Dentistry.)

Published

2020

8. Dental discoloration caused by Grey-MTAFlow cement: analysis of its physicochemical, biological and antimicrobial properties.

Author

Pelepenko LE, Saavedra F, Bombarda GF, Gomes BPFA, DE-Jesus-Soares A, Zaia AA, Duarte MAH, Tanomaru-Filho M, and Marciano MA

Subjects

Bismuth, Calcium Compounds, Drug Combinations, Materials Testing, Oxides, Silicates, X-Ray Microtomography, Anti-Infective Agents, Dental Cements, Root Canal Filling Materials

Abstract

Tricalcium silicate-based cement are materials used in reparative and regenerative procedures in endodontics. A recently proposed formulation aimed to enhance handling during clinical use with a versatile material applicable by syringe. Although, the use of bismuth oxide as radiopacifier and grey raw powder are drawbacks considering aesthetics. Objectives Evaluate physicochemical, biological, and antimicrobial properties of Grey-MTAFlow (Ultradent) and assess whether the addition of zinc oxide (ZnO) prevents dentinal discoloration caused by bismuth oxide. Methodology Grey-MTAFlow was manipulated in 'thin' consistency for all tests. Luminosity, color change, ion migration to dentine, radiopacity, setting time, ISO 6876:2012 linear flow, volumetric lateral flow and central filling of simulated grooves scanned using micro-computed tomography (μCT), pH, calcium release, volumetric change using μCT, chemical characterisation, cytotoxicity, and antimicrobial activity were assessed. Addition of 5% ZnO to Grey-MTAFlow and a bismuth-containing experimental composition were comparatively tested. Statistical analyses used Shapiro-Wilk, T-test, ANOVA, and Kolmogorov-Smirnov (p<0.05). Results The addition of ZnO to Grey-MTAFlow prevented dentine darkening after 90 days due to bismuth migration reduction, although no statistical difference was found (p=0.863). ZnO addition significantly enhanced Grey-MTAFlow radiopacity without differences in initial setting time. Grey-MTAFlow presented an ISO linear flow of 10.9 mm and a balanced volumetric lateral flow with central filling in μCT evaluation. All compositions presented an alkaline pH after immersion. Grey-MTAFlow had a significantly higher calcium ion release after 28 days in comparison to 24 hours (p=0.011) and volumetric expansion of 0.4±1.8% after immersion. ZnO addition altered the hydrated cement matrix once calcium hydroxide (portlandite) could not be detected in characterisation. Neither of the materials produced inhibition halos nor reduced bacterial turbidity, but all presented cytocompatibility above 100%. Conclusion Grey-MTAFlow expanded after immersion and exhibited higher luminosity values after the evaluation period when ZnO was added, but chemical modifications after this addition occurred.

Published

2020