Antimicrobial photodynamic therapy alone or in combination with antibiotic local administration against biofilms of Fusobacterium nucleatum and Porphyromonas gingivalis.

Antimicrobial photodynamic therapy (aPDT) kills several planktonic pathogens. However, the susceptibility of biofilm-derived anaerobic bacteria to aPDT is poorly characterized. Here, we evaluated the effect of Photodithazine (PDZ)-mediated aPDT on Fusobacterium nucleatum and Porphyromonas gingivalis biofilms. In addition, aPDT was tested with metronidazole (MTZ) to explore the potential antimicrobial effect of the treatment. The minimum inhibitory concentration (MIC) of MTZ was defined for each bacterial species. Single-species biofilms of each species were grown on polystyrene plates under anaerobic conditions for five days. aPDT was performed by applying PDZ at concentrations of 50, 75 and 100 mg/L, followed by exposure to 50 J/cm2 LED light (660 nm) with or without MTZ. aPDT exhibited a significant reduction in bacterial viability at a PDZ concentration of 100 mg/L, with 1.12 log10 and 2.66 log10 reductions for F. nucleatum and P. gingivalis in biofilms, respectively. However, the antimicrobial effect against F. nucleatum was achieved only when aPDT was combined with MTZ at 100× MIC. Regarding P. gingivalis, the combination of PDZ-mediated aPDT at 100 mg/L with MTZ 100× MIC resulted in a 5 log10 reduction in the bacterial population. The potential antimicrobial effects of aPDT in combination with MTZ for both single pathogenic biofilms were confirmed by live/dead staining. These results suggest that localized antibiotic administration may be an adjuvant to aPDT to control F. nucleatum and P. gingivalis biofilms.

Comparative effects of photodynamic therapy mediated by curcumin on standard and clinical isolate of Streptococcus mutans.

AIM: The aim of this study was investigate the effect of photodynamic therapy (PDT) using curcumin (C) as a photosensitizing agent irradiated with an LED (L) in the blue wavelength as a light source on a standard and clinical isolate of Streptococcus mutans (S. mutans) in a planktonic suspension model. MATERIALS AND METHODS: Suspensions of both strains were divided into 4 groups as follows: absence of C and L (control group: C-L-), with C and without L (C group: C+L-), absence of C with L (L group: C-L+) and presence of C and L (PDT group: C+L+). Three different concentrations of curcumin (0.75 mg/ml, 1.5 mg/ml and 3 mg/ml) and three light fluences of studied light source (24, 48 and 72 J cm(-2)) were tested. Aliquots of each studied group was plated in BHI agar and submitted to colony forming units counting (CFU/ml) and the data transformed into logarithmical scale. RESULTS: A high photoinactivation rate of more than 70% was verified to standard S. mutans strain submitted to PDT whereas the clinical isolate showed a lower sensitivity to all the associations of curcumin and LED. A slight bacterial reduction was verified to C+L- and C-L+, demonstrating no toxic effects to the isolated application of light and photosensitizer to both S. mutans strains tested. CONCLUSION: Photodynamic therapy using a combination of curcumin and blue LED presented a substantial antimicrobial effect on S. mutans standard strain in a planktonic suspension model with a less pronounced effect on its clinical isolate counterparts due to resistance to this alternative approach. CLINICAL SIGNIFICANCE: Alternative antimicrobial approaches, as photodynamic therapy, should be encouraged due to optimal results against cariogenic bacteria aiming to prevent or treat dental caries.

Mechanical and biological characterization of resin-modified glass-ionomer cement containing doxycycline hyclate.

OBJECTIVES: To characterize the mechanical and biological properties of a resin-modified glass ionomer cement (RMGIC) containing doxycycline hyclate. METHODS: The antibacterial effect of RMGIC containing 1.5, 3.0 and 4.5% doxycycline hyclate was assessed using two experiments - agar diffusion test for 24h and biofilm assay for 24h and 7 days - against some cariogenic bacteria. Briefly, base layers of BHI agar and 300µL of each inoculum were prepared in Petri dishes with 6 wells that were completely filled with materials. After 24h incubation, zones of bacterial growth inhibition were measured using a digital caliper. Biofilm assays were conducted using RMGIC specimens immersed in 24-well plates containing the inoculum in BHI broth. After 24h and 7 days, each specimen were removed, vortexed and the suspension diluted and inoculated in BHI plates for subsequent bacterial counting. Cytotoxicity tests used 50 specimens made in sterilized metal molds, including Vitrebond as positive control. Extracts from every specimen were applied on the MDPC-23 odontoblast-like cells for 24h. The MTT assay and SEM evaluation determined cell metabolism and morphology, respectively. 80 cylindrical specimens were made from the previously cited groups, and were submitted to testing with a universal testing machine (Instron 4411) using a crosshead speed of 1.0mm/min for compressive strength and 0.5mm/min for diametral tensile strength, respectively. Data from antibacterial and cytotoxic effects, and mechanical properties were submitted to appropriated statistical tests. RESULTS: All tested groups showed growth inhibition of all tested strains (p<0.05) in 24h for both microbiological tests, but only 4.5% doxycycline have antibacterial effect after 7 days. None of doxycycline concentrations caused toxic effect to the MDPC-23 cells or presenting alterations to mechanical properties. CONCLUSION: The incorporation of up to 4.5% doxycycline hyclate into RMGIC inhibits important oral microorganisms, without modifying biological and mechanical characteristics of the dental material, suggesting a new alternative for the treatment of dental caries.

In Vitro effect of low-level laser therapy on typical oral microbial biofilms.

The aim of this study was to evaluate the effect of specific parameters of low-level laser therapy (LLLT) on biofilms formed by Streptococcus mutans, Candida albicans or an association of both species. Single and dual-species biofilms--SSB and DSB--were exposed to laser doses of 5, 10 or 20 J/cm(2) from a near infrared InGaAsP diode laser prototype (LASERTable; 780 ± 3 nm, 0.04 W). After irradiation, the analysis of biobilm viability (MTT assay), biofilm growth (cfu/mL) and cell morphology (SEM) showed that LLLT reduced cell viability as well as the growth of biofilms. The response of S. mutans (SSB) to irradiation was similar for all laser doses and the biofilm growth was dose dependent. However, when associated with C. albicans (DSB), S. mutans was resistant to LLLT. For C. albicans, the association with S. mutans (DSB) caused a significant decrease in biofilm growth in a dose-dependent fashion. The morphology of the microorganisms in the SSB was not altered by LLLT, while the association of microbial species (DSB) promoted a reduction in the formation of C. albicans hyphae. LLLT had an inhibitory effect on the microorganisms, and this capacity can be altered according to the interactions between different microbial species.

The in vitro antimicrobial activity of natural infant fluoride-free toothpastes on oral micro-organisms.

PURPOSE: The objective of this study was to evaluate the antimicrobial activity of six toothpastes for infants: 3 fluoride-free experimental toothpastes--cashew-based, mango-based and without plant extract and fluoride compared with 2 commercially fluoride-free toothpastes and 1 fluoridated toothpastes. METHODS: Six toothpastes for infants were evaluated in this study: (1) experimental cashew-based toothpaste; (2) experimental mango-based toothpaste; (3) experimental toothpaste without plant extract and fluoride (negative control); (4) First Teeth brand toothpaste; (5) Weleda brand toothpaste; and (6) Tandy brand toothpaste (positive control). The antimicrobial activity was recorded against Streptococcus mutans, Streptococcus sobrinus, Lactobacillus acidophilus, and Candida albicans using the agar plate diffusion test. RESULTS: First Teeth, Weleda, mango-based toothpaste, and toothpaste without plant extract presented no antimicrobial effect against any of the tested micro-organisms. Cashew toothpaste had antimicrobial activity against S mutans, S sobrinus, and L acidophilus, but it showed no antimicrobial activity against C albicans. There was no statistical difference between the inhibition halo of cashew and Tandy toothpastes against S mutans and L acidophilus. CONCLUSIONS: Cashew fluoride-free toothpaste had inhibitory activity against Streptococcus mutans and Lactobacillus acidophilus, and these results were similar to those obtained for fluoridated toothpaste.

In Vitro effect of low-level laser therapy on typical oral microbial biofilms

The aim of this study was to evaluate the effect of specific parameters of low-level laser therapy (LLLT) on biofilms formed by Streptococcus mutans, Candida albicans or an association of both species. Single and dual-species biofilms - SSB and DSB - were exposed to laser doses of 5, 10 or 20 J/cm2 from a near infrared InGaAsP diode laser prototype (LASERTable; 780 ± 3 nm, 0.04 W). After irradiation, the analysis of biobilm viability (MTT assay), biofilm growth (cfu/mL) and cell morphology (SEM) showed that LLLT reduced cell viability as well as the growth of biofilms. The response of S. mutans (SSB) to irradiation was similar for all laser doses and the biofilm growth was dose dependent. However, when associated with C. albicans (DSB), S. mutans was resistant to LLLT. For C. albicans, the association with S. mutans (DSB) caused a significant decrease in biofilm growth in a dose-dependent fashion. The morphology of the microorganisms in the SSB was not altered by LLLT, while the association of microbial species (DSB) promoted a reduction in the formation of C. albicans hyphae. LLLT had an inhibitory effect on the microorganisms, and this capacity can be altered according to the interactions between different microbial species.

O objetivo deste estudo foi avaliar o efeito de parâmetros específicos de irradiação com laser de baixa intensidade sobre biofilmes formados por Streptococcus mutans (S. mutans), Candida albicans (C. albicans) ou associação de ambas as espécies. Biofilmes isolados ou associados destes microrganismos foram irradiados com um dispositivo laser infra-vermelho próximo de diodos InGaAsP (LaserTABLE 780 ±3 nm, 0,04W), utilizando-se para isto o dispositivo LASERTable. Quinze horas após a irradiação, foi demonstrado, por meio da avaliação da viabilidade celular (Teste de MTT), da morfologia das células (MEV) e do crescimento do biofilme (UFC/mL), que esta terapia foi capaz de reduzir o metabolismo celular, número de microrganismos presentes no biofilme, bem como seu crescimento no local. Quanto à viabilidade celular, a resposta à irradiação do biofilme de S. mutans (SSB) foi semelhante para todas as doses de energia, sendo que o crescimento do biofilme foi dose dependente. Porém, quando associado à C. albicans, este microrganismo apresentou resistência à fototerapia. Já a C. albicans associada ao S. mutans apresentou redução de crescimento significativa, sendo este resultado também foi dose dependente. A morfologia dos microrganismos não foi alterada pelas irradiações realizadas quando em biofilmes isolados. A associação entre os microrganismos promoveu redução na formação de hifas pela C. albicans. A laserterapia de baixa intensidade apresentou efeito inibitório sobre microrganismos, sendo que esta capacidade pode ser alterada de acordo com a interação entre diferentes microrganismos.

Efeito antimicrobiano e citotóxico do óleo essencial de cymbopogon citratus sobre células odontoblastóides / Antimicrobial and cytotoxic effects of the essential oil of cymbopogon citratus on odontoblast-like cells

O objetivo deste trabalho foi avaliar a atividade antimicrobiana e o efeito citotóxico do óleo essencial (OE) de capim-limão (Cymbopogon citratus). A partir do método de difusão em ágar, diferentes concentrações de OE (0,1%; 0,2% e 1%), e soluções controle (clorexidina (Chx), água destilada (Ad) e álcool de cereais (Ac) foram aplicados sobre culturas de Candida albicans (C.a), Streptococos mutans (S.m), Streptococos sobrinus (S.sob) e Lactobacilus acidoflus (L.a). Para C.a, S.m e S.sob, os maiores halos de inibição, em ordem decrescente foram: Chx, Ac e óleo 1%, sendo os dois últimos semelhantes estatisticamente (Mann-Whitney, p>0,05). Para L.a, o maior halo de inibição foi observado para a Chx, seguido do óleo a 1%, 0,2%, 0,1% e Ac. Para avaliação da citotoxicidade foram determinados os seguintes grupos: OE a 0,1%; G2: OE puro; G3 (controle positivo): H2O2; G4: álcool de cereais (Ac); e G5 (controle negativo): meio de cultura (DMEM). As soluções foram aplicadas sobre cultura de células MDPC-23 (30.000 células/cm2) semeadas em placas de 24 wells. O metabolismo celular foi avaliado pelo teste do MTT. Considerando G5 como 100% de metabolismo celular, foi observado para os grupos G1, G2, G3, e G4 uma redução percentual no metabolismo das células de 29,6%; 82%; 81,2%; e 33,4%, respectivamente. Concluiu-se que o OE a 0,1% foi capaz de inibir o crescimento das cepas avaliadas e de causar discreta citotoxicidade sobre células odontoblastóides MDPC-23.

The aim of this study was to evaluate the antimicrobial and cytotoxic efect of essential oil (EO) of lemon grass (Cymbo-pogon citratus). From the agar difusion method, diferent concentrations of EO (0.135%, 0.2% and 1%), and control solutions (chlorhexidine (Chx), distilled water (Ad) and cereal alcohol (Ac)) were applied on cultures of Candida albicans (C.a), Streptococcus mutans (S.m), Streptococcus sobrinus (S.sob) and Lacto-bacillus acidophilus (L.a). For C.a, S.m and S.sob, the largest inhibition zones in descending order were: Chx, Ac and EO 1%, while the later two were statistically similar (Mann-Whitney, p> 0.05). For L.a, the largest inhibition halo was observed for the Chx, followed by EO at 1%, 0.2%, 0.135% and Ac. For evaluation of cytotoxicity, the following groups were set: G1: 0,1% EO; G2: pure EO; G3 (positive control): H2O2; G4: cereal alcohol; and G5 (negative control): culture medium - DMEM. The solutions were applied on the cultured MDPC-23 cells, which were plated (30,000 cells/cm2) in wells of 24 well-dishes. Cell metabolism was evaluated by MTT assay. Considering G5 (negative control) as 100% of cell metabolism, it was observed for G1, G2, G3 and G4 a percentage reduction in cell metabolism of 29.6%, 82%, 81.2% and 33.4%, respectively. It was concluded that the low concentration of 0,1% OE (C. citratus) was able to inhibit the growth of the strains tested as well as caused mild cytotoxicity to the cultured MDPC-23 cells.