Your search keyword '"Melo, M.A.S."' showing total 9 results

1. Developing Bioactive Dental Resins for Restorative Dentistry.

Author

Melo, M.A.S., Garcia, I.M., Mokeem, L., Weir, M.D., Xu, H.H.K., Montoya, C., and Orrego, S.

Subjects

DENTAL resins, OPERATIVE dentistry, DENTAL adhesives, DENTAL materials, MATERIAL biodegradation, DENTAL bonding

Abstract

Despite its reputation as the most widely used restorative dental material currently, resin-based materials have acknowledged shortcomings. As most systematic survival studies of resin composites and dental adhesives indicate, secondary caries is the foremost reason for resin-based restoration failure and life span reduction. In subjects with high caries risk, the microbial community dominated by acidogenic and acid-tolerant bacteria triggers acid-induced deterioration of the bonding interface and/or bulk material and mineral loss around the restorations. In addition, resin-based materials undergo biodegradation in the oral cavity. As a result, the past decades have seen exponential growth in developing restorative dental materials for antimicrobial applications addressing secondary caries prevention and progression. Currently, the main challenge of bioactive resin development is the identification of efficient and safe anticaries agents that are detrimental free to final material properties and show satisfactory long-term performance and favorable clinical translation. This review centers on the continuous efforts to formulate novel bioactive resins employing 1 or multiple agents to enhance the antibiofilm efficacy or achieve multiple functionalities, such as remineralization and antimicrobial activity antidegradation. We present a comprehensive synthesis of the constraints and challenges encountered in the formulation process, the clinical performance-related prerequisites, the materials' intended applicability, and the current advancements in clinical implementation. Moreover, we identify crucial vulnerabilities that arise during the development of dental materials, including particle aggregation, alterations in color, susceptibility to hydrolysis, and loss of physicomechanical core properties of the targeted materials. [ABSTRACT FROM AUTHOR]

Published

2023

2. Photodynamic antimicrobial chemotherapy and ultraconservative caries removal linked for management of deep caries lesions

Author

Melo, M.A.S., Rolim, J.P.M.L., Passos, V.F., Lima, R.A., Zanin, I.C.J., Codes, Bruna M., Rocha, S.S., and Rodrigues, L.K.A.

Published

2015

3. In situ effects of restorative materials on dental biofilm and enamel demineralisation

Author

Sousa, R.P., Zanin, I.C.J., Lima, J.P.M., Vasconcelos, S.M.L.C., Melo, M.A.S., Beltrão, H.C.P., and Rodrigues, L.K.A.

Published

2009

4. Bifunctional Composites for Biofilms Modulation on Cervical Restorations.

Author

Balhaddad, A.A., Garcia, I.M., Mokeem, L., Ibrahim, M.S., Collares, F.M., Weir, M.D., Xu, H.H.K., and Melo, M.A.S.

Subjects

COMPOSITE materials, HUMAN microbiota, DENTAL fillings, DENTAL caries, GINGIVA, TISSUE wounds, RIBOSOMAL RNA

Abstract

Cervical composites treating root carious and noncarious cervical lesions usually extend subgingivally. The subgingival margins of composites present poor plaque control, enhanced biofilm accumulation, and cause gingival irritation. A potential material to restore such lesions should combine agents that interfere with bacterial biofilm development and respond to acidic conditions. Here, we explore the use of new bioresponsive bifunctional dental composites against mature microcosm biofilms derived from subgingival plaque samples. The designed formulations contain 2 bioactive agents: dimethylaminohexadecyl methacrylate (DMAHDM) at 3 to 5 wt.% and 20 wt.% nanosized amorphous calcium phosphate (NACP) in a base resin. Composites with no DMAHDM and NACP were used as controls. The newly formulated 5% DMAHDM–20% NACP composite was analyzed by micro-Raman spectroscopy and transmission electron microscopy. The wettability and surface-free energy were also assessed. The inhibitory effect on the in vitro biofilm growth and the 16S rRNA gene sequencing of survival bacterial colonies derived from the composites were analyzed. Whole-biofilm metabolic activity, polysaccharide production, and live/dead images of the biofilm grown over the composites complement the microbiological assays. Overall, the designed formulations had higher contact angles with water and lower surface-free energy compared to the commercial control. The DMAHDM-NACP composites significantly inhibited the growth of total microorganisms, Porphyromonas gingivalis, Prevotella intermedia/nigrescens, Aggregatibacter actinomycetemcomitans, and Fusobacterium nucleatum by 3 to 5-log (P < 0.001). For the colony isolates from control composites, the composition was typically dominated by the genera Veillonella, Fusobacterium, Streptococcus, Eikenella, and Leptotrichia, while Fusobacterium and Veillonella dominated the 5% DMAHDM–20% NACP composites. The DMAHDM-NACP composites contributed to over 80% of reduction in metabolic and polysaccharide activity. The suppression effect on plaque biofilms suggested that DMAHDM-NACP composites might be used as a bioactive material for cervical restorations. These results may propose an exciting path to prevent biofilm growth and improve dental composite restorations' life span. [ABSTRACT FROM AUTHOR]

Published

2021

5. Anti-biofilm Dentin Primer with Quaternary Ammonium and Silver Nanoparticles.

Author

Cheng, L., Zhang, K., Melo, M.A.S., Weir, M.D., Zhou, X., and Xu, H.H.K.

Subjects

QUATERNARY ammonium salts, DENTIN, BIOMATERIALS, BIOLOGICAL specimen analysis, DENTAL plaque, CAVITY prevention, DENTAL fillings, DENTAL amalgams

Abstract

Antibacterial bonding agents could combat recurrent caries at the tooth-composite margins. The objectives of this study were to develop novel antibacterial dentin primers containing quaternary ammonium dimethacrylate (QADM) and nanoparticles of silver (NAg), and to investigate the effects on dentin bond strength and dental plaque microcosm biofilms for the first time. Scotchbond Multi-Purpose (“SBMP”) bonding agent was used. QADM and NAg were incorporated into SBMP primer, yielding 4 primers: SBMP primer (control), control + 10% QADM (mass), control + 0.05% NAg, and control + 10% QADM + 0.05% NAg. Human saliva was collected to grow microcosm biofilms. The NAg particle size (mean ± SD; n = 100) was 2.7 ± 0.6 nm. Dentin shear bond strengths (n = 10) with human third molars were approximately 30 MPa for all groups (p > 0.1). QADM-NAg-containing primer increased the bacteria inhibition zone by 9-fold, compared with control primer (p < 0.05). QADM-NAg-containing primer reduced lactic acid production and colony-forming units of total micro-organisms, total streptococci, and mutans streptococci by an order of magnitude. In conclusion, novel QADM-NAg-containing primers were strongly antibacterial without compromising dentin bond strength, and hence are promising to inhibit biofilms and secondary caries. The processing method of incorporating QADM and NAg together into the same primer produced the strongest antibacterial effect, which could have a wide applicability to other bonding systems. [ABSTRACT FROM PUBLISHER]

Published

2012

6. Increased cariogenic biofilm formation on under-cured bulk fill composites.

Author

Melo, M.A.S., Maktabi, H., Ibrahim, M., Balhaddad, A., Alkhubaizi, Q., Fugolin, A.P.P., Pfeifer, C.S., and Strassler, H.

Subjects

*BACTERIAL growth, *STREPTOCOCCUS mutans, *TWO-way analysis of variance

Published

2019

7. pH-activatable nano-amorphous calcium phosphate to reduce dental enamel demineralization.

Author

Melo, M.A.S., Weir, M.D., Passos, V.F., Powers, M., and Xu, H.H.K.

Subjects

*CALCIUM phosphate, *DENTAL enamel, *TOOTH demineralization, *ORAL microbiology, *BOND strengths

Published

2016

8. Anti-Biofilm and Mechanically Stable Bioactive Composite for Root Caries Restorations.

Author

Balhaddad, A.A., Ibrahim, M., Weir, M.D., Xu, H.H.K., and Melo, M.A.S.

Subjects

*SURFACE charges, *CARIOGENIC agents, *FACTORIAL experiment designs, *DENTAL materials, *METHACRYLATES

Published

2019

9. Rechargeable dual function dental sealant against cariogencity of streptococcus mutans.

Author

Ibrahim, M.S., Ibrahim, A.S., Balhaddad, A.A., Weir, M.D., Oates, T.W., Xu, H.H.K., and Melo, M.A.S.

Subjects

*PIT & fissure sealants (Dentistry), *STREPTOCOCCUS mutans

Published

2019