Karriann Ruggiero scite author profile

We investigated the photodynamic effects of methylene blue (MB) on multi-species root canal biofilms comprising Actinomyces israelii, Fusobacterium nucleatum subspecies nucleatum, Porphyromonas gingivalis and Prevotella intermedia in experimentally infected root canals of extracted human teeth in vitro. The four test microorganisms were detected in root canals using DNA probes. Scanning electron microscopy (SEM) showed the presence of biofilms in root canals prior to therapy. Root canal systems were incubated with MB (25 µg/ml) for 10 minutes followed by exposure to red light at 665 nm with an energy fluence of 30 J/cm 2 . Light was delivered from a diode laser via a 250 µm diameter polymethyl methacrylate optical fiber that uniformly distributed light at 360°. Photodynamic therapy (PDT) achieved up to 80% reduction of colony-forming unit counts. We conclude that PDT can be an effective adjunct to standard endodontic antimicrobial treatment when the PDT parameters are optimized.

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The antibacterial effect of photodynamic therapy in dental plaque‐derived biofilms

Fontana

Abernethy²,

Som³

et al. 2009

J of Periodontal Research

198

164

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Background and Objective-Photodynamic therapy (PDT) has been advocated as an alternative to antimicrobial agents to suppress subgingival species and treat periodontitis. Bacteria located within dense biofilms, such as those encountered in dental plaques, have been found to be relatively resistant to antimicrobial therapy. In the present study, we investigated the ability of PDT to affect bacteria resistant in biofilms by comparing the photodynamic effects of methylene blue (MB) on human dental plaque microorganisms in planktonic phase and in biofilms.

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Phototargeting Oral Black-Pigmented Bacteria

Soukos¹,

Som²,

Abernethy³

et al. 2005

Antimicrob Agents Chemother

182

165

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We have found that broadband light (380 to 520 nm) rapidly and selectively kills oral black-pigmented bacteria (BPB) in pure cultures and in dental plaque samples obtained from human subjects with chronic periodontitis. We hypothesize that this killing effect is a result of light excitation of their endogenous porphyrins. Cultures of Prevotella intermedia and P. nigrescens were killed by 4.2 J/cm2, whereas P. melaninogenica required 21 J/cm2. Exposure to light with a fluence of 42 J/cm2 produced 99% killing of P. gingivalis. High-performance liquid chromatography demonstrated the presence of various amounts of different porphyrin molecules in BPB. The amounts of endogenous porphyrin in BPB were 267 (P. intermedia), 47 (P. nigrescens), 41 (P. melaninogenica), and 2.2 (P. gingivalis) ng/mg. Analysis of bacteria in dental plaque samples by DNA-DNA hybridization for 40 taxa before and after phototherapy showed that the growth of the four BPB was decreased by 2 and 3 times after irradiation at energy fluences of 4.2 and 21 J/cm2, respectively, whereas the growth of the remaining 36 microorganisms was decreased by 1.5 times at both energy fluences. The present study suggests that intraoral light exposure may be used to control BPB growth and possibly benefit patients with periodontal disease.

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Nanoparticle-based Endodontic Antimicrobial Photodynamic Therapy

Pagonis

Chen

Fontana³

et al. 2010

Journal of Endodontics

200

136

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Objective-To study the in vitro effects of poly(lactic-co-glycolic acid) (PLGA) nanoparticles loaded with the photosensitizer methylene blue (MB) and light against Enterococcus faecalis (ATCC 29212).Materials and Methods-The uptake and distribution of nanoparticles in E. faecalis in suspension was investigated by transmission electron microscopy (TEM) after incubation with PLGA complexed with colloidal gold particles for 2.5, 5 and 10 minutes. E. faecalis species were sensitized in planktonic phase and in experimentally infected root canals of human extracted teeth with MB-loaded nanoparticles for 10 minutes followed by exposure to red light at 665 nm.Results-The nanoparticles were found to be concentrated mainly on the cell walls of microorganisms at all three time points. The synergism of light and MB-loaded nanoparticles led to approximately 2 and 1 log 10 reduction of colony-forming units in planktonic phase and root canals, respectively. In both cases, mean log 10 CFU levels were significantly lower than controls and MBloaded nanoparticles without light.Conclusion-The utilization of PLGA nanoparticles encapsulated with photoactive drugs may be a promising adjunct in antimicrobial endodontic treatment.

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