Your search keyword '"Feuerstein O"' showing total 43 results

1. Chlorhexidine markedly potentiates the oxidants scavenging abilities of Candida albicans

Author

Ginsburg, I., Koren, E., Feuerstein, O., Zogakis, I. P., Shalish, M., and Gorelik, S.

Published

2015

2. Effect of Sublethal CO2 Laser Irradiation on Gene Expression of Streptococcus mutans Immobilized in a Biofilm

Author

Sol, A., Feuerstein, O., Featherstone, J. D.B., and Steinberg, D.

Published

2011

3. Changes in temperatures in dental implants during hot beverage intake: in-vivo measurements: 193

Author

Ormianer, Z, Feuerstein, O, Assad, R, Samet, N, and Weiss, E I

Published

2007

4. Effect of liquid-polish coating on in vitro biofilm accumulation on provisional restorations: part 2.

Author

Davidi MP, Beyth N, Weiss EI, Eilat Y, Feuerstein O, and Sterer N

Abstract

OBJECTIVE: In part 1 of this study, the authors showed that coating polymethyl methacrylate (PMMA) provisional restorations with bonding resin (BR) or liquid polish (LP) significantly reduced early in vivo biofilm formation on these restorations. The aim of the present study was to determine the mechanism through which these materials inhibit biofilm formation. METHOD AND MATERIALS: The antimicrobial properties of the tested materials were examined using the agar diffusion test (ADT) and the direct contact test (DCT). Surface energy was determined using contact angle measurements; salivary protein adsorption was analyzed by polyacrylamide gel electrophoresis (SDS-PAGE). RESULTS: ADT and DCT showed that the tested materials had no antimicrobial properties. Contact angle measurements revealed that liquid polish and PMMA have a similar contact angle, tending toward the hydrophobic region, and that bonding resin was more hydrophilic. SDS-PAGE analysis showed a significant reduction in salivary protein adsorption to the tested materials compared with that to the PMMA control. CONCLUSION: Liquid polish prevents biofilm formation by preventing protein adsorption. [ABSTRACT FROM AUTHOR]

Published

2008

5. Effect of liquid-polish coating on in vivo biofilm accumulation on provisional restorations: part 1.

Author

Davidi MP, Beyth N, Sterer N, Feuerstein O, and Weiss EI

Abstract

OBJECTIVE: Biofilm accumulation on provisional restorations may affect the surrounding tissues' integrity. The purpose of this study was to test in vivo biofilm formation on polymethyl methacrylate (PMMA) self-cured acrylic resin provisional crowns. METHOD AND MATERIALS: Three types of PMMA surfaces were tested: (1) polished, (2) polished and coated with bonding agent, and (3) polished and coated with light-cured liquid polish. After 12 hours in the oral cavity, the crown was removed and examined by confocal laser scanning microscope (CLSM) and scanning electron microscope (SEM). RESULTS: Biofilm, 250 Mum thick, was observed with CLSM on the polished acrylic surface. Significantly less bacterial accumulation was observed on the crowns coated with bonding agent, whereas no biofilm was observed on the crowns coated with liquid polish (P <.001). SEM examination confirmed these findings. CONCLUSIONS: Bonding resin or liquid polish coatings significantly reduce early biofilm formation, which in turn might affect the overall plaque accumulation on provisional restorations. [ABSTRACT FROM AUTHOR]

Published

2007

6. Light Therapy

Author

Feuerstein, O., primary

Published

2012

7. Light Therapy: Complementary Antibacterial Treatment of Oral Biofilm.

Author

Feuerstein, O.

Subjects

ANTIBIOTICS, ACADEMIC medical centers, BIOFILMS, COMBINED modality therapy, CONFERENCES & conventions, MEDICAL lasers, PHOTOTHERAPY, RESEARCH funding

Abstract

Conventional antibacterial treatment fails to eradicate biofilms associated with common infections of the oral cavity. Unlike chemical agents, which are less effective than anticipated, owing to diffusion limitations in biofilms, light is more effective on bacteria in biofilm than in suspension. Effectiveness depends also on the type and parameters of the light. We tested the phototoxic effects of non-coherent blue light (wavelengths, 400-500 nm) and CO2 laser (wavelength, 10.6 μm), which have different mechanisms of action on the oral bacterium Streptoccocus mutans, in biofilm and on tooth enamel. Exposure of S. mutans in biofilm to blue light had a delayed effect on bacterial viability throughout the biofilm and a sustained antibacterial effect on biofilm newly formed by previously irradiated bacteria. A synergistic antibacterial effect between blue light and H2O2 may enhance the phototoxic effect, which involves a photochemical mechanism mediated by reactive oxygen species (ROS) formation. The effect of CO2 laser irradiation on the viability of S. mutans in biofilm on enamel samples appeared to be higher in the deep layers, due to heating of the enamel surface by the absorbed energy. Biofilms do not interfere with the chemical changes resulting from irradiation, which may increase the enamel’s resistance to acid attack. [ABSTRACT FROM PUBLISHER]

Published

2012

8. Effect of Sublethal CO2 Laser Irradiation on Gene Expression of Streptococcus mutans Immobilized in a Biofilm.

Author

Sol, A., Feuerstein, O., Featherstone, J.D.B., and Steinberg, D.

Subjects

STREPTOCOCCUS mutans, DENTAL caries, IRRADIATION, GENE expression, BIOFILMS

Abstract

Streptococcus mutans colonizing on tooth surfaces is one of the major causative agents of human dental caries. Despite numerous studies conducted on lasers and oral tissue interactions, little is known about the effect of laser energy on S. mutans gene expression in a biofilm form. The aim of this study was to investigate the effect of sublethal energies of CO2 laser on biofilm and gene expression of the oral bacteria S. mutans immobilized in biofilm. S. mutans biofilm was irradiated with CO2 laser. Vitality and construction of the biofilm were observed by confocal laser scanning microscopy and scanning electron microscopy. The effect of laser irradiation on gene expression was evaluated by DNA microarray. CO2 laser irradiation had a dose effect on the viability of S. mutans immobilized in biofilm. A nonsignificant lethal effect was observed at 31 J/cm2 while at higher energy of 70 and 144 J/cm2 an antibacterial effect was recorded. The mode of antibacterial action seems to be from the inner layers toward the outer layer of the biofilm, indicating the influence of the surface on the killing effect. At 31 J/cm2, microarray analysis indicated a moderate effect on S. mutans gene expression due to CO2 laser irradiation, mainly down-regulating genes related to bacterial stress response. In conclusion, laser irradiation at sublethal energy had an effect on gene expression of S. mutans. Copyright © 2011 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2011

9. Effect of the ArF excimer laser on human enamel.

Author

Feuerstein, Osnat, Palanker, Daniel, Fuxbrunner, Amihay, Lewis, Aaron, Deutsch, Dan, Feuerstein, O, Palanker, D, Fuxbrunner, A, Lewis, A, and Deutsch, D

Published

1992

10. Effects of amorphous calcium phosphate stabilized by casein phosphopeptides on enamel de- and remineralization in primary teeth: an in vitro study

Author

Bar-Hillel, R., Feuerstein, O., Nili Tickotsky, Shapira, J., and Moskovitz, M.

11. An open-source computational tool for measuring bacterial biofilm morphology and growth kinetics upon one-sided exposure to an antimicrobial source.

Author

Gingichashvili S, Steinberg D, Sionov RV, Feuerstein O, and Cohen NE

Subjects

Anti-Bacterial Agents pharmacology, Bacillus subtilis physiology, Biofilms, Chlorhexidine pharmacology, Kinetics, Anti-Infective Agents pharmacology, Anti-Infective Agents, Local pharmacology

Abstract

Bacillus subtilis biofilms are well known for their complex and highly adaptive morphology. Indeed, their phenotypical diversity and intra-biofilm heterogeneity make this gram-positive bacterium the subject of many scientific papers on the structure of biofilms. The "robustness" of biofilms is a term often used to describe their level of susceptibility to antimicrobial agents and various mechanical and molecular inhibition/eradication methods. In this paper, we use computational analytics to quantify Bacillus subtilis morphological response to proximity to an antimicrobial source, in the form of the antiseptic chlorhexidine. Chlorhexidine droplets, placed in proximity to Bacillus subtilis macrocolonies at different distances result in morphological changes, quantified using Python-based code, which we have made publicly available. Our results quantify peripheral and inner core deformation as well as differences in cellular viability of the two regions. The results reveal that the inner core, which is often characterized by the presence of wrinkled formations in the macrocolony, is more preserved than the periphery. Furthermore, the paper describes a crescent-shaped colony morphology which occurs when the distance from the chlorhexidine source is 0.5 cm, as well as changes observed in the growth substrate of macrocolonies exposed to chlorhexidine., (© 2022. The Author(s).)

Published

2022

12. Cannabigerol Effect on Streptococcus mutans Biofilms-A Computational Approach to Confocal Image Analysis.

Author

Aqawi M, Steinberg D, Feuerstein O, Friedman M, and Gingichashvili S

Abstract

Biofilms are complex bacterial structures in which bacterial cells thrive as a community. Many bacterial species, including pathogens, form biofilms of high complexity and adaptability to a wide range of environmental conditions. One example of these is Streptococcus mutans , a gram-positive bacterium that has been associated with caries. Cannabigerol, a non-psychoactive cannabinoid, has been shown to affect S. mutans biofilms. In order to better characterize the effect of cannabigerol on biofilms of S. mutans , this paper provides a series of computational assays for biofilm analysis, applied on confocal images of S. mutans biofilms treated with cannabigerol. Confocal images are ubiquitous in biofilm analysis-they are often used to visualize the complex structure and molecular composition of biofilm macrocolonies. In this article, we demonstrate how confocal imaging data can be used to reveal more comprehensive insights into biofilm structure and measure specific anti-biofilm effects. This is accomplished by a series of computational assays, each focusing on a different aspect of biofilm structure., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Aqawi, Steinberg, Feuerstein, Friedman and Gingichashvili.)

Published

2022

13. Effects of a ZnCuO-Nanocoated Ti-6Al-4V Surface on Bacterial and Host Cells.

Author

Dabbah K, Perelshtein I, Gedanken A, Houri-Haddad Y, and Feuerstein O

Abstract

This study aims to investigate the effects of a novel ZnCuO nanoparticle coating for dental implants-versus those of conventional titanium surfaces-on bacteria and host cells. A multispecies biofilm composed of Streptococcus sanguinis , Actinomyces naeslundii , Porphyromonas gingivalis , and Fusobacterium nucleatum was grown for 14 days on various titanium discs: machined, sandblasted, sandblasted and acid-etched (SLA), ZnCuO-coated, and hydroxyapatite discs. Bacterial species were quantified with qPCR, and their viability was examined via confocal microscopy. Osteoblast-like and macrophage-like cells grown on the various discs for 48 h were examined for proliferation using an XTT assay, and for activity using ALP and TNF-α assays. The CSLM revealed more dead bacteria in biofilms grown on titanium than on hydroxyapatite, and less on sandblasted than on machined and ZnCuO-coated surfaces, with the latter showing a significant decrease in all four biofilm species. The osteoblast-like cells showed increased proliferation on all of the titanium surfaces, with higher activity on the ZnCuO-coated and sandblasted discs. The macrophage-like cells showed higher proliferation on the hydroxyapatite and sandblasted discs, and lower activity on the SLA and ZnCuO-coated discs. The ZnCuO-coated titanium has anti-biofilm characteristics with desired effects on host cells, thus representing a promising candidate in the complex battle against peri-implantitis.

Published

2022

14. Topography and Expansion Patterns at the Biofilm-Agar Interface in Bacillus subtilis Biofilms.

Author

Gingichashvili S, Feuerstein O, and Steinberg D

Abstract

Bacterial biofilms are complex microbial communities that are formed on various natural and synthetic surfaces. In contrast to bacteria in their planktonic form, biofilms are characterized by their relatively low susceptibility to anti-microbial treatments, in part due to limited diffusion throughout the biofilm and the complex distribution of bacterial cells within. The virulence of biofilms is therefore a combination of the structural properties and patterns of adhesion that anchor them to their host surface. In this paper, we analyze the topographical properties of Bacillus subtilis ' biofilm-agar interface across different growth conditions. B. subtilis colonies were grown to maturity on biofilm-promoting agar-based media (LBGM), under standard and stress-inducing growth conditions. The biofilm-agar interface of the colony-type biofilms was modeled using confocal microscopy and computational analysis. Profilometry data were obtained from the macrocolonies and used for the analysis of the surface topography as it relates to the adhesion modes present at the biofilm-agar interface. Fluorescent microspheres were utilized to monitor the expansion patterns present at the interface between the macrocolonies and the solid growth medium. Contact surface analysis revealed topographical changes that could have a direct effect on the adhesion strength of the biofilm to its host surface, thus affecting its potential susceptibility to anti-microbial agents. The topographical characteristics of the biofilm-agar interface partially define the macrocolony structure and may have significant effects on bacterial survival and virulence.

Published

2020

15. Exposure of Streptococcus mutans and Streptococcus sanguinis to blue light in an oral biofilm model.

Author

Vaknin M, Steinberg D, Featherstone JD, and Feuerstein O

Subjects

Animals, Biofilms growth & development, Cattle, Dental Enamel microbiology, Dental Enamel ultrastructure, Gene Expression Regulation, Bacterial radiation effects, Streptococcus mutans genetics, Streptococcus mutans ultrastructure, Streptococcus sanguis genetics, Streptococcus sanguis ultrastructure, Biofilms radiation effects, Light, Models, Biological, Mouth microbiology, Streptococcus mutans radiation effects, Streptococcus sanguis radiation effects

Abstract

The potential anti-cariogenic effect of blue light was evaluated using an oral biofilm model. Two species, Streptococcus mutans and Streptococcus sanguinis, were cultivated ex vivo on bovine enamel blocks for 24 h, either separately or mixed together, then exposed to blue light (wavelengths 400-500 nm) using 112 J/cm 2 . Twenty four or 48 h after exposure to light the biofilm structure and biomass were characterized and quantified using SEM and qPCR, respectively. Bacterial viability was analyzed by CLSM using live/dead bacterial staining. Gene expression was examined by RT-qPCR. After exposure to light, S. mutans biomass in mono-species biofilm was increased mainly by dead bacteria, relative to control. However, the bacterial biomass of S. mutans when grown in mixed biofilm and of S. sanguinis in mono-species biofilm was reduced after light exposure, with no significant change in viability when compared to control. Furthermore, when grown separately, an upregulation of gene expression related to biofilm formation of S. mutans, and downregulation of similar genes of S. sanguinis, were measured 24 h after exposure to blue light. However, in mixed biofilm, a downregulation of those genes in both species was observed, although not significant in S. mutans. In conclusion, blue light seems to effectively alter the bacterial biomass by reducing the viability and virulence characteristics in both bacterial species and may promote the anti-cariogenic balance between them, when grown in a mixed biofilm. Therefore, exposure of oral biofilm to blue light has the potential to serve as a complementary approach in preventive dentistry.

Published

2020

16. The Adaptive Morphology of Bacillus subtilis Biofilms: A Defense Mechanism against Bacterial Starvation.

Author

Gingichashvili S, Duanis-Assaf D, Shemesh M, Featherstone JDB, Feuerstein O, and Steinberg D

Abstract

Biofilms are commonly defined as accumulations of microbes, embedded in a self-secreted, polysaccharide-rich extra-cellular matrix. This study aimed to characterize specific morphological changes that occur in Bacillus subtilis biofilms under nutrient-limiting growth conditions. Under varying levels of nutrient depletion, colony-type biofilms were found to exhibit different rates of spatial expansion and green fluorescent protein production. Specifically, colony-type biofilms grown on media with decreased lysogeny broth content exhibited increased spatial expansion and more stable GFP production over the entire growth period. By modeling the surface morphology of colony-type biofilms using confocal and multiphoton microscopy, we analyzed the appearance of distinctive folds or "wrinkles" that form as a result of lysogeny broth content reduction in the solid agar growth media. When subjected to varying nutritional conditions, the channel-like folds were shown to alter their morphology; growth on nutrient-depleted media was found to trigger the formation of large and straight wrinkles connecting the colony core to its periphery. To test a possible functional role of the formed channels, a fluorescent analogue of glucose was used to demonstrate preferential native uptake of the molecules into the channels' interiors which supports their possible role in the transport of molecules throughout biofilm structures.

Published

2019

17. Killing mechanism of bacteria within multi-species biofilm by blue light.

Author

Shany-Kdoshim S, Polak D, Houri-Haddad Y, and Feuerstein O

Abstract

Objectives : The aim of the study was to characterize the immediate and delayed effects of non-coherent blue-light treatment on the composition and viability of an in vitro biofilm composed of anaerobic multispecies, as well as the mechanisms involved. Methods : A multispecies biofilm was constructed of Streptococcus sanguinis, Actinomyces naeslundii, Porphyromonas gingivalis and Fusobacterium nucleatum , test groups were exposed to blue light. The multispecies biofilm was explored with a newly developed method based on flow cytometry and confocal microscopy. The involvement of the paracrine pathway in the phototoxic mechanism was investigated by a crossover of the supernatants between mono-species P. gingivalis and F. nucleatum biofilms. Results : Blue light led to a reduction of about 50% in the viable pathogenic bacteria P. gingivalis and F. nucleatum , vs that in the non-exposed biofilm. Biofilm thickness was also reduced by 50%. The phototoxic effect of blue light on mono-species biofilm was observed in P. gingivalis , whereas F. nucleatum biofilm was unaffected. A lethal effect was obtained when the supernatant of P. gingivalis biofilm previously exposed to blue light was added to the F. nucleatum biofilm. The effect was circumvented by the addition of reactive oxygen species (ROS) scavengers to the supernatant. Conclusion : Blue-light has an impact on the bacterial composition and viability of the multispecies biofilm. The phototoxic effect of blue light on P. gingivalis in biofilm was induced directly and on F. nucleatum via ROS mediators of the paracrine pathway. This phenomenon may lead to a novel approach for 'replacement therapy,' resulting in a less periodonto-pathogenic biofilm.

Published

2019

18. High-resolution novel method for tracking bacteria in a multi-species biofilm.

Author

Polak D, Shany-Kdoshim S, Zaydel L, Feuerstein O, and Houri-Haddad Y

Subjects

Actinomyces isolation & purification, Fusobacterium nucleatum isolation & purification, Porphyromonas gingivalis isolation & purification, Streptococcus sanguis isolation & purification, Bacteria isolation & purification, Biofilms, Flow Cytometry

Abstract

The aim of this study is to establish a novel high resolution tracking ability of a specific bacterium in multispecies biofilm. A periodontal multispecies biofilm was constructed with Streptococcus sanguis, Actinomyces naeslundii, Porphyromonas gingivalis and Fusobacterium nucleatum. A single species was stained with fluorescein isothiocyanate (FITC). The mature biofilm was stained for viability (propidium iodide) and analysis was performed with flow cytometry. The sensitivity of the assay was compared with colony forming units (CFU) counts. A single cell suspension of P. gingivalis was grown in broth and biofilm to identify the location of these events on side scatter and forward scatter. The sensitivity of the assay was comparable to that of the CFU counts. The assay allows quantification of the ratio of a single bacterium within the biofilm, and its viable proportion. The described method is reproducible and of high resolution, and allows the examination of microbes' composition and viability within a biofilm structure.

Published

2019

19. Bacillus subtilis Biofilm Development - A Computerized Study of Morphology and Kinetics.

Author

Gingichashvili S, Duanis-Assaf D, Shemesh M, Featherstone JDB, Feuerstein O, and Steinberg D

Abstract

Biofilm is commonly defined as accumulation of microbes, embedded in a self-secreted extra-cellular matrix, on solid surfaces or liquid interfaces. In this study, we analyze several aspects of Bacillus subtilis biofilm formation using tools from the field of image processing. Specifically, we characterize the growth kinetics and morphological features of B. subtilis colony type biofilm formation and compare these in colonies grown on two different types of solid media. Additionally, we propose a model for assessing B. subtilis biofilm complexity across different growth conditions. GFP-labeled B. subtilis cells were cultured on agar surfaces over a 4-day period during which microscopic images of developing colonies were taken at equal time intervals. The images were used to perform a computerized analysis of few aspects of biofilm development, based on features that characterize the different phenotypes of B. subtilis colonies. Specifically, the analysis focused on the segmented structure of the colonies, consisting of two different regions of sub-populations that comprise the biofilm - a central "core" region and an "expanding" region surrounding it. Our results demonstrate that complex biofilm of B. subtillis grown on biofilm-promoting medium [standard lysogeny broth (LB) supplemented with manganese and glycerol] is characterized by rapidly developing three-dimensional complex structure observed at its core compared to biofilm grown on standard LB. As the biofilm develops, the core size remains largely unchanged during development and colony expansion is mostly attributed to the expansion in area of outer cell sub-populations. Moreover, when comparing the bacterial growth on biofilm-promoting agar to that of colonies grown on LB, we found a significant decrease in the GFP production of colonies that formed a more complex biofilm. This suggests that complex biofilm formation has a diminishing effect on cell populations at the biofilm core, likely due to a combination of reduced metabolic rate and increased levels of cell death within this region.

Published

2017

20. Combined antioxidant effects of Neem extract, bacteria, red blood cells and Lysozyme: possible relation to periodontal disease.

Author

Heyman L, Houri-Haddad Y, Heyman SN, Ginsburg I, Gleitman Y, and Feuerstein O

Subjects

Anti-Infective Agents, Local, Chlorhexidine, Fusobacterium drug effects, Fusobacterium nucleatum drug effects, Fusobacterium nucleatum growth & development, Humans, India, Medicine, Traditional, Microbial Sensitivity Tests, Peptides, Periodontal Diseases drug therapy, Periodontal Diseases metabolism, Phytotherapy, Plant Leaves, Polyamines, Polyelectrolytes, Polyphenols pharmacology, Porphyromonas drug effects, Porphyromonas gingivalis drug effects, Porphyromonas gingivalis growth & development, Anti-Bacterial Agents pharmacology, Antioxidants pharmacology, Azadirachta chemistry, Erythrocytes, Muramidase metabolism, Periodontal Diseases microbiology, Plant Extracts pharmacology

Abstract

Background: The common usage of chewing sticks prepared from Neem tree (Azadirachta indica) in India suggests its potential efficacy in periodontal diseases. The objective of this study is to explore the antibacterial effects of Neem leaf extract on the periodontophatic bacteria Porphyromonas gingivalis and Fusobacterium nucleatum, and its antioxidant capacities alone and in combination with bacteria and polycationic peptides that may be at the site of inflammation., Methods: Neem leaf extract was prepared by ethanol extraction. The growth kinetics of P. gingivalis and F. nucleatum under anaerobic conditions in the presence of Neem leaf extract were measured. Broth microdilution test was used to determine the Minimal Inhibitory Concentration (MIC) of Neem leaf extract against each bacterial strain. The effect of Neem leaf extract on the coaggregation of the bacteria was assessed by a visual semi-quantitative assay. The antioxidant capacities of Neem leaf extract alone and in combination with bacteria, with the addition of red blood cells or the polycationic peptides chlorhexidine and lisozyme, were determined using a chemiluminescence assay., Results: Neem leaf extract showed prominent dose-dependent antibacterial activity against P. gingivalis, however, had no effect on the growth of F. nucleatum nor on the coaggregation of the two bacteria. Yet, it showed intense antioxidant activity, which was amplified following adherence to bacteria and with the addition of red blood cells or the polycationic peptides., Conclusions: Neem leaf extract, containing polyphenols that adhere to oral surfaces, have the potential to provide long-lasting antibacterial as well as synergic antioxidant activities when in complex with bacteria, red blood cells and lisozyme. Thus, it might be especially effective in periodontal diseases.

Published

2017

21. Sustained effects of blue light on Streptococcus mutans in regrown biofilm.

Author

Cohen-Berneron J, Steinberg D, Featherstone JD, and Feuerstein O

Subjects

Biofilms growth & development, Dental Caries microbiology, Humans, Hydrogen-Ion Concentration, Light, Microbial Viability radiation effects, Microscopy, Confocal, Streptococcus mutans growth & development, Biofilms radiation effects, Streptococcus mutans radiation effects

Abstract

In prior studies, exposure of Streptococcus mutans in biofilm to blue light using high fluences of up to 680 J/cm(2) did not interfere with bacterial capability to reform an initial biofilm; however, a delayed antibacterial effect was observed. Our aim was to determine the sustained effecttts of blue light-emitting diode (LED) curing light on the pathogenicity of the newly formed biofilm. S. mutans were grown to form biofilm that was exposed to blue light (wavelengths, 460-480 nm) for 1, 3, and 7 min (equivalent to 37, 112, and 262 J/cm(2), respectively). Then, bacteria were suspended and allowed to regrow into new biofilms. The regrown biofilms were assessed for bacterial quantification by optical density (OD) measurement and quantitative polymerase chain reaction (qPCR), bacterial viability and extracellular polysaccharide production by fluorescent staining using confocal scanning laser microscopy, acid production by bacteria (acidogenicity), and bacterial survival at low pH (aciduricity) using qPCR. Bacterial growth in the regrown biofilms was increased when samples were previously exposed to light; however, under the confocal microscopy, a higher proportion of dead bacteria and a reduction in polysaccharide production were observed. The acidogenicity from the regrown biofilm was lowered as fluences of light increased. The aciduricity of the regrown biofilm was decreased, meaning less growth of bacteria into biofilm in low pH with increasing fluences. Blue light has sustained effects on S. mutans bacteria grown into new biofilm. Although bacterial growth in biofilm increased, bacterial viability and virulence characteristics were impaired. The cariogenic potential over time of S. mutans previously exposed to blue light when grown on tooth surfaces is yet to be determined.

Published

2016

22. The effects of in vitro fluoride mouth rinse on the antibacterial properties of orthodontic cements.

Author

Slutzky H, Feuerstein O, Namuz K, Shpack N, Lewinstein I, and Matalon S

Subjects

Acrylic Resins chemistry, Aluminum Silicates chemistry, Glass Ionomer Cements chemistry, Humans, Materials Testing, Polymerization, Resin Cements chemistry, Self-Curing of Dental Resins, Spectrophotometry methods, Streptococcus mutans drug effects, Streptococcus mutans growth & development, Temperature, Time Factors, Anti-Bacterial Agents chemistry, Cariostatic Agents chemistry, Dental Cements chemistry, Mouthwashes chemistry, Orthodontic Brackets, Sodium Fluoride chemistry

Abstract

Objectives: To investigate the ability of orthodontic cements to regain their antibacterial effect after aging for 1 month, followed by 2 weeks of fluoride 'recharging' through daily fluoride rinse., Materials and Methods: Four orthodontic cements were tested: composite resin-based materials (Transbond XT and Transbond Plus), a conventional glass ionomer cement (CX Plus) and dual-cured resin-reinforced glass ionomer cement (Fuji ORTHO LC) by direct contact test. After polymerization and a 30-day aging process, the samples were rinsed daily with 0.05% NaF solution for 14 days. Twenty-four hours after the last fluoride rinse, Streptococcus mutans cells (approximately 1 x 10(6) ) were placed on the surface of each sample for 1 h at 37°C to establish direct contact. Bacterial growth was monitored for 24 h by temperature-controlled spectrophotometry. Similar experiments were conducted after aging for 48 h and 72 h after the last fluoride rinse. One-way anova, two-way anova, and Tukey's multiple comparison test were applied to the data., Results: Twenty-four hours after the last fluoride rinse, the resin-modified glass ionomer and the glass ionomer showed potent antibacterial properties, whereas the composite-based material Transbond XT encouraged bacterial growth. After 72 h, only Fuji Ortho LC maintained its bacteriostatic properties while all the other tested materials showed no antibacterial activity., Conclusions: Fourteen days daily fluoride rinse temporarily revives the antibacterial properties of the resin-modified glass ionomer cement and glass-ionomer-based cement., (© 2014 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2014

23. Effects of CO2 laser irradiation on tooth enamel coated with biofilm.

Author

Cohen J, Featherstone JD, Le CQ, Steinberg D, and Feuerstein O

Subjects

Animals, Cattle, Dental Caries etiology, Dental Caries microbiology, Dental Enamel microbiology, In Vitro Techniques, Microscopy, Confocal, Microscopy, Electron, Scanning, Spectrometry, X-Ray Emission, Spectroscopy, Fourier Transform Infrared, Streptococcus mutans radiation effects, Biofilms radiation effects, Dental Caries prevention & control, Dental Enamel radiation effects, Lasers, Gas therapeutic use, Streptococcus mutans physiology

Abstract

Background and Objectives: CO2 laser irradiation of tooth enamel can inhibit demineralization of tooth enamel, by changing enamel composition and resistance to acid attack. The aim of this work was to examine these effects of CO2 laser irradiation on enamel covered by biofilm., Materials and Methods: Streptococcus mutans was grown on bovine enamel surfaces for 48 hours to form a mature biofilm. Samples were irradiated by CO2 laser (wavelength of 10.6 µm) at a power of 0.08 W in a super-pulse mode for 1 second and 24 pulses/second, with an energy density of 0.77 J/cm(2) per pulse. Untreated controls and laser treated samples with and without biofilm were examined for the morphology of the biofilm and the enamel surface by scanning electron microscopy (SEM). Structural biofilm viability was assessed using confocal laser scanning microscopy with live/dead staining. The biofilm was removed in a sonication water bath and the non-treated and irradiated enamel samples were chemically analyzed using energy dispersive X-ray spectrometry (EDS) and Fourier transform infrared spectroscopy (FTIR)., Results: Irradiated samples showed a melt zone with micro-cracks in the center of the irradiating beam position, which was smaller when irradiated enamel was covered by biofilm. Confocal microscopy images demonstrated higher proportion of dead bacteria at the margins of the irradiated spot area, while at the spot center the bacteria were evaporated exposing the enamel surface to direct laser irradiation. EDS analysis showed an increase in Ca/P ratio after irradiation of enamel covered with biofilm. FTIR analysis showed an approximately 40% carbonate loss in the irradiated enamel samples, including those with biofilms., Conclusion: Biofilms protect enamel surfaces from possible morphological irradiation damage without interfering with the resultant chemical changes that may increase the enamel resistance to acid attack. Therefore, under certain exposure regimens that are thermally and mechanically safe for enamel, CO2 laser irradiation of biofilms on dental hard tissues is suggested as a potential novel preventive treatment for controlling dental caries., (© 2014 Wiley Periodicals, Inc.)

Published

2014

24. Changes in gene expression of Streptococcus mutans in planktonic environment following CO2 laser irradiation.

Author

Sol A, Steinberg D, Featherstone JD, and Feuerstein O

Subjects

Dose-Response Relationship, Radiation, Microbial Viability radiation effects, Oligonucleotide Array Sequence Analysis, Suspensions, Temperature, Gene Expression radiation effects, Lasers, Gas, Streptococcus mutans genetics

Abstract

Unlabelled: Abstract Objective: The aim of this work was to study the effect of CO2 laser light on gene expression of Streptococcus mutans in a planktonic environment irradiated by sublethal energies., Background Data: The use of the CO2 laser for oral clinical applications has great benefits over the traditional procedures, including a reduced bacterial environment., Materials and Methods: In order to determine the sublethal irradiation dose, S. mutans in suspension was irradiated with a continuous wave CO2 laser (wavelength 10.6 μm) for duration times of 0.5-1.5 min at fluences ranging from 65 to 536 J/cm(2), following bacterial growth and viability measurements. The effect of CO2 laser irradiation at sublethal dose on gene expression was evaluated by DNA microarray. Temperature rise in the suspension caused by laser irradiation was measured using thermocouple electrodes., Results: Bacterial growth and viability began to decrease after exposure to laser irradiation using 284 J/cm(2). Following irradiation with sublethal fluences of 134 and 268 J/cm(2), changes in gene expression were found with seven downregulated genes being common to both fluences. The temperature rise in the bacterial sample after irradiation with 268 J/cm(2) was from room temperature to only 35°C., Conclusions: CO2 laser irradiation inhibited viability and growth of S. mutans in suspension in a dose-dependent manner. Irradiation of planktonic bacterial suspensions with sublethal fluences resulted in changes mostly of downregulation in gene expression in a fashion similar to S. mutans in biofilm, except that different genes were involved.

Published

2013

25. Influence of blue light on Streptococcus mutans re-organization in biofilm.

Author

Chebath-Taub D, Steinberg D, Featherstone JD, and Feuerstein O

Subjects

Cells, Immobilized radiation effects, Color, Microbial Viability radiation effects, Streptococcus mutans cytology, Time Factors, Biofilms growth & development, Biofilms radiation effects, Light, Streptococcus mutans physiology, Streptococcus mutans radiation effects

Abstract

Our aim was to examine the viability and structure of new biofilm formed by Streptococcus mutans that was previously exposed to blue light. S. mutans bacteria were grown to form a mature biofilm, that was exposed to blue light (wavelengths, 400-500 nm) for 1-10 min (equivalent to 68-680 J/cm(2)). Biofilm was dispersed by sonication, and then the suspended bacteria were grown to re-organize as a new biofilm. Biofilm formation after 2, 4, and 6 h, was examined by viable counts and by confocal laser scanning microscopy using live/dead bacterial staining. A significant decrease in bacterial viability was found in the 6h biofilms formed by bacteria that had been previously exposed to blue light for 7 or 10 min. Confocal microscopy images showed a decrease in the live/dead bacterial ratio after 3-10 min of light exposures. Dead bacteria were mainly at the outer layers of the biofilm. Exposure of S. mutans in biofilm to blue light affected the re-formation of a new biofilm, showing an increase in the amount of dead bacteria. This phenomenon suggests that blue light has a delayed antibacterial effect, although it does not interfere with bacterial capability to reform an initial biofilm., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published

2012

26. Effects of amorphous calcium phosphate stabilized by casein phosphopeptides on enamel de- and remineralization in primary teeth: an in vitro study.

Author

Bar-Hillel R, Feuerstein O, Tickotsky N, Shapira J, and Moskovitz M

Subjects

Analysis of Variance, Drug Combinations, Humans, In Vitro Techniques, Random Allocation, Tooth Extraction, Tooth, Deciduous, Caseins pharmacology, Dental Enamel drug effects, Tooth Demineralization prevention & control, Tooth Remineralization methods

Abstract

Purpose: Amorphous calcium phosphate, stabilized by casein phosphopeptides, has been found to enhance remineralization of subsurface lesions in permanent teeth. The purpose of the present in vitro study was to evaluate the potential of GC Tooth Mousse to enhance remineralization of initial demineralized enamel sites in primary teeth., Methods: Forty-four demineralization sites were created in 22 extracted primary teeth. Samples were randomly assigned to 6 treatment groups (GC Tooth Mousse covering, GC Tooth Mousse covering and demineralization, and control groups). The mineral content of each sample was evaluated using energy dispersive X-ray analysis, performed from the enamel surface of each lesion inwards. The results were analyzed using analysis of variance, with a significance level P<.05., Results: Samples treated with GC Tooth Mousse demonstrated an increase in the calcium-phosphate ratio by approximately 2% near the surface, a minimal increase of 1% at a depth over 60 μm, and no change at a depth from 40 to 60 μm, with no statistically significant differences (P>.05)., Conclusion: This study demonstrates a minimal increase in the subsurface calcium-phosphate ratio following GC Tooth Mousse treatment, especially in demineralized enamel tissue.

Published

2012

27. Visible light promotes interleukin-10 secretion by sublethal fluences.

Author

Feuerstein O, Assad R, Koren E, Ginsburg I, Weiss EI, and Houri-Haddad Y

Subjects

Animals, Cell Culture Techniques, Cell Survival radiation effects, Interferon-gamma metabolism, Interferon-gamma radiation effects, Interleukin-10 radiation effects, Mice, Reactive Oxygen Species metabolism, Reactive Oxygen Species radiation effects, Spleen pathology, Tumor Necrosis Factor-alpha metabolism, Tumor Necrosis Factor-alpha radiation effects, Interleukin-10 metabolism, Light, Spleen metabolism, Spleen radiation effects

Abstract

Objective: To determine the effect of blue light on cultured splenocyte viability and secretion of cytokines involved in the regulation of immune responses in the inflammatory process., Background Data: Previous studies showed that red light has various effects on lymphocyte proliferation and production of cytokines., Materials and Methods: Cultured mouse splenocytes were exposed to visible light (wavelengths, 450-490 nm) using 2-108 J/cm(2), with and without scavengers of reactive oxygen species (ROS). One half of the samples were stimulated by the heat-killed periopathogenic bacterium Porphyromonas gingivalis. Following incubation for 48 h, the levels of the cytokines interleukin-10 (IL-10), tumor necrosis factor alpha (TNFα), and interferon gamma (IFNγ) were analyzed, and the viability of the cells was tested using the XTT assay. The total oxidant-scavenging capacity of the nonexposed and exposed splenocytes to light was determined by a chemiluminescence assay, and the temperature of the cell culture medium was measured after light exposure., Results: Exposure to blue light at fluences of 27-108 J/cm(2) caused a decrease in splenocyte viability. Lower fluences increased the secretion of cytokine IL-10, which was abolished by ROS scavengers. Exposure to light had no effect on the secretion of cytokines TNFα and IFNγ. Following exposure to light, more ROS were detected and the temperature measured did not exceed 30.7°C., Conclusions: Blue light had a stimulatory effect on cell secretion of IL-10, mediated by ROS. Therefore, an increase in IL-10 might be a potential method for modulating the inflammatory processes of local disorders, such as periodontitis and arthritis.

Published

2011

28. Mechanical, morphologic, and chemical effects of carbamide peroxide bleaching agents on human enamel in situ.

Author

Smidt A, Feuerstein O, and Topel M

Subjects

Adult, Calcium analysis, Carbamide Peroxide, Carbon analysis, Dental Enamel chemistry, Dental Enamel ultrastructure, Fluorides analysis, Hardness, Humans, Microscopy, Electron, Scanning, Oxygen analysis, Peroxides administration & dosage, Phosphorus analysis, Spectrometry, X-Ray Emission, Stress, Mechanical, Tooth Bleaching Agents administration & dosage, Urea administration & dosage, Urea pharmacology, Dental Enamel drug effects, Peroxides pharmacology, Tooth Bleaching Agents pharmacology, Urea analogs & derivatives

Abstract

Objectives: To evaluate the morphologic, mechanical, and chemical effects of carbamide peroxide bleaching agents on human enamel in situ., Method and Materials: Enamel slabs from extracted human teeth were divided in two and mounted on contralateral sides of removable maxillary appliances fabricated for three participants. Soft vinyl trays were adapted intraorally over the arch; one side contained a bleaching agent, and the other served as a control. Vital bleaching was conducted in vivo three times with three different bleaching agents and with new enamel specimens each time. Tests of Knoop microhardness, scanning electronic microscopy (SEM), and energy dispersive x-ray (EDX) were performed and analyzed by ANOVA., Results: No statistically significant differences were found between matched test and control specimens concerning microhardness values, morphology, or elemental content., Conclusions: Enamel surface showed no mechanical, morphologic, or chemical changes following bleaching in situ with three different carbamide peroxide agents.

Published

2011

29. In vivo changes in dental implant temperatures during hot beverage intake: a pilot study.

Author

Ormianer Z, Feuerstein O, Assad R, Samet N, and Weiss EI

Subjects

Dental Abutments, Dental Materials chemistry, Hot Temperature, Humans, Osseointegration physiology, Pilot Projects, Surface Properties, Tea, Temperature, Thermal Conductivity, Thermometers, Time Factors, Titanium chemistry, Beverages, Dental Implants, Drinking

Abstract

Purpose: The aim of this study was to measure the increase in temperature in dental implants during the intake of hot beverages in vivo., Materials and Methods: Eight successfully osseointegrated implants in 7 subjects were examined. Each subject was asked to drink the same volume of hot beverage. While drinking, temperature changes were recorded via 3 embedded thermocouples placed (i) in the implant's internal space, (ii) at the implant-abutment interface, and (iii) at the abutment. All thermocouples were linked to a computer and analyzed with appropriate software., Results: The maximum temperatures were 47.3 degrees C at the abutment, 45.6 degrees C at the implant's internal space, and 44.6 degrees C at the implant-abutment interface. A linear correlation was found between the temperatures measured (i) at the implant abutment and in the implant's internal space, and (ii) at the abutment and at the abutment-implant interface., Conclusions: Further clinical studies are required to determine whether the habitual consumption of hot food and beverages may be considered a risk factor in the success of implant-supported prostheses.

Published

2009

30. Genetic and physiological effects of noncoherent visible light combined with hydrogen peroxide on Streptococcus mutans in biofilm.

Author

Steinberg D, Moreinos D, Featherstone J, Shemesh M, and Feuerstein O

Subjects

Base Sequence, Biofilms growth & development, Colony Count, Microbial, DNA Primers genetics, DNA, Bacterial genetics, Gene Expression drug effects, Gene Expression radiation effects, Genes, Bacterial drug effects, Genes, Bacterial radiation effects, Humans, Hydrogen Peroxide pharmacology, Light, Microscopy, Confocal, Mouth microbiology, Streptococcus mutans genetics, Streptococcus mutans physiology, Biofilms drug effects, Biofilms radiation effects, Streptococcus mutans drug effects, Streptococcus mutans radiation effects

Abstract

Oral biofilms are associated with the most common infections of the oral cavity. Bacteria embedded in the biofilms are less sensitive to antibacterial agents than planktonic bacteria are. Recently, an antibacterial synergic effect of noncoherent blue light and hydrogen peroxide (H(2)O(2)) on planktonic Streptococcus mutans was demonstrated. In this study, we tested the effect of a combination of light and H(2)O(2) on the vitality and gene expression of S. mutans embedded in biofilm. Biofilms of S. mutans were exposed to visible light (wavelengths, 400 to 500 nm) for 30 or 60 s (equivalent to 34 or 68 J/cm(2)) in the presence of 3 to 300 mM H(2)O(2). The antibacterial effect was assessed by microbial counts of each treated sample compared with that of the control. The effect of light combined with H(2)O(2) on the different layers of the biofilm was evaluated by confocal laser scanning microscopy. Gene expression was determined by real-time reverse transcription-PCR. Our results show that noncoherent light, in combination with H(2)O(2), has a synergistic antibacterial effect through all of the layers of the biofilm. Furthermore, this treatment was more effective against bacteria in biofilm than against planktonic bacteria. The combined light and H(2)O(2) treatment up-regulated the expression of several genes such as gtfB, brp, smu630, and comDE but did not affect relA and ftf. The ability of noncoherent visible light in combination with H(2)O(2) to affect bacteria in deep layers of the biofilm suggests that this treatment may be applied in biofilm-related diseases as a minimally invasive antibacterial procedure.

Published

2008

31. Temperature changes in dental implants following exposure to hot substances in an ex vivo model.

Author

Feuerstein O, Zeichner K, Imbari C, Ormianer Z, Samet N, and Weiss EI

Subjects

Animals, Cattle, Dental Prosthesis Retention, Female, Humans, Linear Models, Male, Thermal Conductivity, Titanium, Dental Implants, Energy Transfer physiology, Hot Temperature adverse effects, Mandible physiology, Osseointegration physiology

Abstract

Objectives: The habitual consumption of extremely hot foods and beverages may affect implant treatment modality. Our objectives were to: (i) establish the maximum temperature produced intra-orally while consuming very hot substances and (ii) use these values in an ex vivo model to assess the temperature changes along the implant-bone interface., Materials and Methods: Temperatures were measured using thermocouples linked to a computer. The thermocouple electrodes were attached to the tooth-gum interface of the interproximal areas in 14 volunteers during consumption of extremely hot foods and beverages. The in vivo measured temperature values obtained were used in an ex vivo model of a bovine mandible block with an implant and with an assembled abutment. Temperatures were measured by thermocouple electrodes attached to five locations, three of them along the implant-bone interface., Results: During consumption of a hot beverage, a maximum temperature of up to 76.3 degrees C was recorded, and a calculated extreme intra-oral temperature of 61.4 degrees C was established. The ex vivo model showed a high correlation between the temperature measured at the abutment and that measured at the abutment-implant interface and inside the implant, reaching maximum temperatures close to 60 degrees C. At the mid-implant-bone and apical implant-bone interfaces, the maximum temperatures measured were 43.3 and 42 degrees C, respectively., Conclusions: The maximum temperatures measured at the implant-bone interfaces reached the temperature threshold of transient changes in bone (42 degrees C). The results of this study support the notion that intra-oral temperatures, developed during the consumption of very hot substances, may be capable of damaging peri-implant tissues.

Published

2008

32. Effect of liquid-polish coating on in vivo biofilm accumulation on provisional restorations: part 1.

Author

Perez Davidi M, Beyth N, Sterer N, Feuerstein O, and Weiss EI

Subjects

Acrylates therapeutic use, Acrylic Resins, Bacterial Adhesion, Biofilms, Dental Plaque microbiology, Humans, Methacrylates therapeutic use, Microscopy, Confocal, Microscopy, Electron, Scanning, Phosphoric Acids therapeutic use, Statistics, Nonparametric, Crowns microbiology, Dental Plaque prevention & control, Dental Restoration, Temporary, Resin Cements therapeutic use

Abstract

Objective: Biofilm accumulation on provisional restorations may affect the surrounding tissues' integrity. The purpose of this study was to test in vivo biofilm formation on polymethyl methacrylate (PMMA) self-cured acrylic resin provisional crowns., Method and Materials: Three types of PMMA surfaces were tested: (1) polished, (2) polished and coated with bonding agent, and (3) polished and coated with light-cured liquid polish. After 12 hours in the oral cavity, the crown was removed and examined by confocal laser scanning microscope (CLSM) and scanning electron microscope (SEM)., Results: Biofilm, 250 Mum thick, was observed with CLSM on the polished acrylic surface. Significantly less bacterial accumulation was observed on the crowns coated with bonding agent, whereas no biofilm was observed on the crowns coated with liquid polish (P <.001). SEM examination confirmed these findings., Conclusions: Bonding resin or liquid polish coatings significantly reduce early biofilm formation, which in turn might affect the overall plaque accumulation on provisional restorations.

Published

2007

33. Antibacterial properties of self-etching dental adhesive systems.

Author

Feuerstein O, Matalon S, Slutzky H, and Weiss EI

Subjects

Streptococcus mutans drug effects, Adhesives chemistry, Anti-Bacterial Agents chemistry, Dental Materials chemistry

Abstract

Background: Dental adhesives with antibacterial properties may reduce recurrent or secondary caries. The authors conducted a study to examine the immediate and long-lasting antibacterial properties of four self-etching adhesive systems., Methods: The authors used the agar diffusion test (ADT) and direct contact test (DCT) to measure the antibacterial properties of AdheSe (Ivoclar Vivadent, Schaan, Liechtenstein), Adper Prompt L-Pop (3M ESPE, Seefeld, Germany), Clearfil Protect Bond (Kuraray, Kurashiki, Okayama, Japan) and Xeno III (Dentsply, Konstanz, Germany) on Streptoccocus mutans after aging samples in phosphate-buffered saline for one, two, seven and 14 days., Results: Only Clearfil Protect Bond showed an inhibition halo in the ADT. In the DCT, fresh samples of all of the tested materials exhibited potent antibacterial properties, which were maintained by AdheSe for one day and Clearfil Protect Bond for seven days. None of the adhesive systems exhibited any antibacterial properties after 14 days., Conclusions: All of the tested adhesives had an immediate bactericidal effect on S. mutans. None, however, had long-lasting antibacterial properties., Clinical Implications: The application of self-etching adhesive materials could contribute to the immediate elimination of residual bacteria. The likelihood of developing secondary caries as a consequence of bacterial microleakage may not be affected by the use of the adhesive systems tested in this study.

Published

2007

34. Detection of cavitated carious lesions in approximal tooth surfaces by ultrasonic caries detector.

Author

Matalon S, Feuerstein O, Calderon S, Mittleman A, and Kaffe I

Subjects

Adult, Diagnosis, Computer-Assisted instrumentation, Humans, Middle Aged, Observer Variation, Radiography, Bitewing, Sensitivity and Specificity, Single-Blind Method, Ultrasonography, Dental Caries diagnostic imaging, Dental Caries Activity Tests instrumentation

Abstract

Objective: A new diagnostic method for detecting cavitated carious lesions in approximal surfaces with the aid of an ultrasonic caries detector (UCD) was tested for clinical use. The objective of this study was to evaluate the efficacy and clinical performance of the UCD system and to compare it with bite-wing radiography by using direct visual inspection during restoration preparation as a validation method., Study Design: One hundred ninety-seven directly inspected approximal sites, 95 as cavitated carious lesions and 102 as intact sites, of adults 22 to 45 years of age were examined by UCD and radiography., Results: Ultrasonic caries detector sensitivity was 0.82 compared with 0.75 for bite-wing radiographs when the threshold was determined as radiolucency in inner enamel and dentin, and 0.49 when the threshold of radiolucency was in dentin. The specificity of UCD was 0.75 versus 0.9 for radiographs., Conclusions: The UCD exhibited a higher sensitivity than the radiographs but a lower specificity. This study presents a new diagnostic tool that can reduce patient exposure to ionizing radiation and improve caries detection.

Published

2007

35. [Hi-tech trends in future dentistry--Part B: diagnostic and therapeutic technologies].

Author

Feuerstein O, Houri-Haddad Y, Lipovetsky M, Perez-Davidi M, and Weiss EI

Subjects

Dental Implants, Drug Delivery Systems, Guided Tissue Regeneration, Humans, Israel, Lasers, Technology, Dental trends

Abstract

The technology advance and the growing amount of knowledge had a great impact on dental practice for the last decade. The prominent change began with digital revolution presenting new computed technologies and accessible communicational means for sharing literal and imaging information. Following toward the coming biotechnological revolution, dentistry will be even further changed. This article presents dental innovations of Israeli Hi-Tech companies, sorted into two groups. Part A of the article discussed the area of computed imaging systems for educational purposes, diagnostic and treatment. While part B presents other diagnostic or therapeutic technologies. However, because some of the described technologies are still on their R&D (Research and Development) phases, they are not commercialized yet in the market.

Published

2006

36. [Hi-tech trends in future dentistry--part A: computerized technologies].

Author

Feuerstein O, Houri-Haddad Y, Lipovetsky M, Perez-Davidi M, and Weiss EI

Subjects

Computer-Aided Design, Dental Implantation, Endosseous methods, Dental Prosthesis Design methods, Education, Dental, Educational Technology, Humans, Imaging, Three-Dimensional, Radiography, Dental, Digital, Surgery, Computer-Assisted, Computer Systems, Technology, Dental trends

Abstract

Growing knowledge and information in the field of dentistry has had a great impact on dental education, management and practice. A prominent change is the digital revolution, which presents new computed technologies and accessible means of communication for sharing written and visual information. Biotechnology, yet another innovated field, will change dentistry even further. This article presents dental innovations forwarded by Israeli Hi-Tech companies. An overview of some advances in technology in the field of dentistry is presented. Part of the described technologies is in R&D phase, part is under preliminary clinical evaluation, and a few have undergone short-term clinical studies. Part A of the article discusses the application of computerized imaging systems to educational purposes, diagnostics and treatment; part B presents other diagnostic and therapeutic technologies.

Published

2006

37. Synergic antibacterial effect between visible light and hydrogen peroxide on Streptococcus mutans.

Author

Feuerstein O, Moreinos D, and Steinberg D

Subjects

Dental Caries microbiology, Reactive Oxygen Species metabolism, Temperature, Anti-Bacterial Agents pharmacology, Hydrogen Peroxide pharmacology, Light, Streptococcus mutans drug effects, Streptococcus mutans growth & development, Streptococcus mutans radiation effects

Abstract

Objectives: To evaluate the possibility of enhancing the phototoxic effect on Streptococcus mutans using a potentially antibacterial synergic effect between blue light and hydrogen peroxide (H2O2), and to investigate the antibacterial mechanism involved., Methods: Growth of S. mutans samples was determined after exposure to light in the presence and absence of H2O2. The effect of such light on H2O2 degradation, on reactive oxygen species (ROS) generation and on the exposed-medium temperature was examined., Results: The combination of light exposure for 20 s (approximately 23 J/cm2) and a concentration of 0.3 mM H2O2 yielded 96% growth inhibition, whereas, when applied separately, light exposure decreased bacterial growth by 3% and H2O2 by 30% compared with the control. The results showed no direct effect of the light on H2O2 degradation, a partial protective effect of ROS scavengers on S. mutans and a non-lethal increase in the medium temperature after light exposure., Conclusions: An antibacterial synergic effect between blue light and H2O2 was observed. The mechanism of the phototoxic effect on S. mutans was basically a photochemical process, in which ROS were involved. Application of such light in combination with H2O2 to an infected tooth could be an alternative to or serve as an additional minimally invasive antibacterial treatment.

Published

2006

38. Effect of visible light on malodour production by mixed oral microflora.

Author

Sterer N and Feuerstein O

Subjects

Electrophoresis, Polyacrylamide Gel, Gram-Positive Bacteria metabolism, Gram-Positive Bacteria radiation effects, Humans, Odorants, Salivary Proteins and Peptides analysis, Gram-Positive Bacteria isolation & purification, Halitosis microbiology, Light, Saliva microbiology, Sulfides analysis

Abstract

Oral malodour is considered to be caused by the proteolytic activity of anaerobic Gram-negative oral bacteria. In a previous study, it was shown that these bacteria were susceptible to blue light (wavelengths of 400-500 nm). In this study, the effect of blue light on malodour production by mixed oral microflora was tested in a salivary incubation assay. Whole saliva samples were exposed to a xenon light source for 30, 60, 120 and 240 s, equivalent to fluences of 34, 68, 137 and 274 J cm(-2), respectively. Malodour was scored by two judges. The levels of volatile sulfide compounds (VSC) were measured using a sulfide monitor (Halimeter), the microbial population was assessed using viable counts and microscopy, salivary protein degradation was followed by SDS-PAGE densitometry and VSC-producing bacteria were demonstrated using a differential agar. The results showed that the exposure of mixed salivary microflora to blue light caused a reduction in malodour production concomitant with a selective inhibitory effect on the population of Gram-negative oral bacteria. These results suggest that light exposure might have clinical applications for the treatment of oral malodour.

Published

2005

39. Mechanism of visible light phototoxicity on Porphyromonas gingivalis and Fusobacterium nucleatum.

Author

Feuerstein O, Ginsburg I, Dayan E, Veler D, and Weiss EI

Subjects

Microbial Viability, Fusobacterium nucleatum radiation effects, Light, Porphyromonas gingivalis radiation effects

Abstract

Phototoxicity of visible light laser on the porphyrin-producing bacteria, Porphyromonas gingivalis, in the absence of photosensitizers and under aerobic conditions was shown in previous studies. Recently, we found that the noncoherent visible light sources at wavelengths of 400-500 nm, commonly used in restorative dentistry, induced a phototoxic effect on P. gingivalis, as well as on Fusobacterium nucleatum, and to a lesser extent on the Streptococci sp. To elucidate the mechanism of this phototoxic effect, P. gingivalis and F. nucleatum were exposed to light (1) under aerobic and anaerobic environments and (2) in the presence of scavengers of reactive oxygen species (ROS). Phototoxic effect was not observed when the bacteria were exposed to light under anaerobic conditions. Dimethyl thiourea, a hydroxyl radical scavenger, was effective in reducing phototoxicity (P

Published

2005

40. Physico-chemical changes of human enamel irradiated with ArF excimer laser.

Author

Feuerstein O, Mayer I, and Deutsch D

Subjects

Calcium analysis, Calcium Phosphates analysis, Carbonates analysis, Humans, Phosphates analysis, Phototherapy, Proteins analysis, Dental Enamel chemistry, Dental Enamel radiation effects, Laser Therapy, Low-Level Light Therapy

Abstract

Background and Objectives: Irradiation of tooth enamel by lasers can alter its structure and chemical composition. The purpose of this work was to determine the compositional changes and to elucidate the mechanisms of laser-enamel interaction using ArF excimer laser., Study Design/materials and Methods: Human enamel irradiated with ArF excimer laser (wavelength, 193 nm) at different fluences, was examined using X-ray diffraction, infrared (IR) spectroscopy and microprobe analysis., Results: Ablation without significant compositional changes in irradiated enamel was evident when low fluences (approximately 200-380 mJ/cm2) were used. However, fluences between 640 and 2,300 mJ/cm2 resulted in an increased Ca/P ratio, decreased amount of carbonate and protein, and the formation of tricalcium phosphate and tetracalcium phosphate, suggesting the involvement of a photothermal mechanism., Conclusions: The results show that ArF excimer laser can alter the chemical composition and morphology of the highly mineralized (96%) dental enamel, depending on the fluence used., (Copyright 2005 Wiley-Liss, Inc.)

Published

2005

41. Phototoxic effect of visible light on Porphyromonas gingivalis and Fusobacterium nucleatum: an in vitro study.

Author

Feuerstein O, Persman N, and Weiss EI

Subjects

Culture Media, Fusobacterium nucleatum cytology, Fusobacterium nucleatum drug effects, Porphyromonas gingivalis cytology, Porphyromonas gingivalis drug effects, Temperature, Fusobacterium nucleatum radiation effects, Light, Photosensitizing Agents toxicity, Porphyromonas gingivalis radiation effects

Abstract

The antibacterial effect of visible light irradiation combined with photosensitizers has been reported. The objective of this was to test the effect of visible light irradiation without photosensitizers on the viability of oral microorganisms. Strains of Porphyromonas gingivalis, Fusobacterium nucleatum, Streptococcus mutans and Streptococcus faecalis in suspension or grown on agar were exposed to visible light at wavelengths of 400-500 nm. These wavelengths are used to photopolymerize composite resins widely used for dental restoration. Three photocuring light sources, quartz-tungsten-halogen lamp, light-emitting diode and plasma-arc, at power densities between 260 and 1300 mW/cm2 were used for up to 3 min. Bacterial samples were also exposed to a near-infrared diode laser (wavelength, 830 nm), using identical irradiation parameters for comparison. The results show that blue light sources exert a phototoxic effect on P. gingivalis and F. nucleatum. The minimal inhibitory dose for P. gingivalis and F. nucleatum was 16-62 J/cm2, a value significantly lower than that for S. mutans and S. faecalis (159-212 J/cm2). Near-infrared diode laser irradiation did not affect any of the bacteria tested. Our results suggest that visible light sources without exogenous photosensitizers have a phototoxic effect mainly on Gram-negative periodontal pathogens.

Published

2004

42. Diagnosis of approximal caries: bite-wing radiology versus the Ultrasound Caries Detector. An in vitro study.

Author

Matalon S, Feuerstein O, and Kaffe I

Subjects

Area Under Curve, Bicuspid diagnostic imaging, Chi-Square Distribution, Equipment Design, Humans, Molar diagnostic imaging, Observer Variation, Predictive Value of Tests, ROC Curve, Reproducibility of Results, Sensitivity and Specificity, Ultrasonography instrumentation, Ultrasonography statistics & numerical data, Dental Caries diagnostic imaging, Radiography, Bitewing statistics & numerical data

Abstract

Objective: We sought to examine the validity, sensitivity, and specificity of bite-wing radiographs and a high-frequency sound wave device (the Ultrasound Caries Detector) used to detect caries on contacting approximal surfaces., Methods: A total of 36 extracted premolars and molars were first visually examined for the presence of caries; then a probe was used. Twelve models were prepared, each containing 3 teeth with 2 approximal surfaces and 2 contacted surfaces (of adjacent teeth). Bite-wing radiographs were taken and evaluated for proximal caries lesions. A high-frequency sound wave (ultrasound) device called the Ultrasound Caries Detector was also used to detect caries. Examinations were repeated after 1 week. Teeth were then sectioned and viewed under a stereomicroscope at 20x magnification, with which the true interproximal caries diagnosis was validated. The receiver operating characteristic curves were computed to establish the accuracy of the observer data., Results: The efficacy of the ultrasound diagnostic device for cavitated carious lesion detection was assessed by determining its specificity and sensitivity, 1.0 for each, in comparison with those of bite-wing radiography, 0.92 and 0.90, respectively (P <.001). The mean receiver operating characteristic value for the area under the curve was 0.934 with bite-wing radiography and 1 with the ultrasound diagnostic device., Conclusions: Under in vitro conditions, the ultrasound diagnostic device had a higher sensitivity and specificity, in terms of the detection of approximal carious lesions, than bite-wing radiographs.

Published

2003

43. Image-guided navigational implantology.

Author

Feuerstein O and Weiss E

Subjects

Dental Implants, Humans, Image Processing, Computer-Assisted, Imaging, Three-Dimensional, Mandible surgery, Maxilla surgery, Tomography, X-Ray Computed methods, Dental Implantation, Endosseous methods, Surgery, Computer-Assisted instrumentation, Surgery, Computer-Assisted methods

Published

2002