LUIS CLAUDIO SUZUKI
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Artigo IPEN-doc 25857 Effect of photodynamic antimicrobial chemotherapy on Candida albicans in the presence of glucose2019 - OLIVEIRA-SILVA, TAMIRES de; ALVARENGA, LETICIA H.; LIMA-LEAL, CINTIA; GODOY-MIRANDA, BIANCA; CARRIBEIRO, PAMELA; SUZUKI, LUIS C.; RIBEIRO, MARTHA S.; KATO, ILKA T.; PAVANI, CHRISTIANE; PRATES, RENATO A.Background: Candida albicans is an opportunistic commensal microorganism, often associated with severe infections in immunosuppressed individuals. C. albicans has hexose transporters that may favor the intracellular accumulation of photosensitizer (PS). the aims of this study were to investigate the influence of glucose load on photodynamic antimicrobial chemotherapy (PACT); and the role that membrane transport system plays on this therapy in the presence of glucose. Material and methods: Strains of C. albicans were selected: ATCC 10231, YEM 12, YEM 13, YEM 14 and YEM 15. All strains were grown aerobically on Sabouraud agar and incubated at 30 °C for 24 h. The strains were treated with and without glucose, and divided into Control (no treatment), LED light (660 nm, 166 mW/cm2), Photosensitizer (100 μM methylene blue) and PACT at 1, 3 and 6 min of irradiation groups. The colony forming units were counted and data submitted to statistical analysis (ANOVA) and Tukey's test. The concentration of methylene blue (MB) outside the yeast was measured by fluorescence spectroscopy. Results: PACT inactivate C. albicans and the presence of glucose did not affect the killing effect for most strains. Only YEM12 was partially affected by its presence. Regarding efflux systems, ABC overexpressing strain showed a protective effect on the yeast cells. We observed that yeast with overexpression of major facilitator superfamily (MFS) membrane pore tended to accumulate more MB in its cytoplasm, whereas strains that overexpressed ABC pumps (ATP-binding cassette transporters) tended to decrease MB uptake and survive the photodynamic challenge. Conclusion: Presence of glucose showed a small effect on PACT . The accumulation of MB on yeast induces more photodynamic inactivation; however, the photodynamic efficacy depends on the type and characteristics of the microbial strain.Artigo IPEN-doc 23521 Glucose modulates antimicrobial photodynamic inactivation ofCandida albicans in biofilms2017 - SUZUKI, LUIS C.; KATO, ILKA T.; PRATES, RENATO A.; SABINO, CAETANO P.; YOSHIMURA, TANIA M.; SILVA, TAMIRES O.; RIBEIRO, MARTHA S.Candida albicans biofilm is a main cause of infections associated with medical devices such as catheters,contact lens and artificial joint prosthesis. The current treatment comprises antifungal chemotherapy thatpresents low success rates. Photodynamic inactivation (PDI) involves the combination of a photosensitiz-ing compound (PS) and light to generate oxidative stress that has demonstrated effective antimicrobialactivity against a broad-spectrum of pathogens, including C. albicans. This fungus senses glucose induc-ing an upregulation of membrane transporters that can facilitate PS uptake into the cell. The aim ofthis study was to evaluate the effects of glucose on methylene blue (MB) uptake and its influence onPDI efficiency when combined to a red LED with central wavelength at = 660 nm. C. albicans biofilmswere grown on hydrogel disks. Prior to PDI assays, MB uptake tests were performed with and withoutglucose-sensitization. In this system, the optimum PS administration was determined as 500 M of MBin contact with the biofilm during 30 min before irradiation. Irradiation was performed during 3, 6, 9, 12,15 and 18 min with irradiance of 127.3 mW/cm2. Our results showed that glucose was able to increaseMB uptake in C. albicans cells. In addition, PDI without glucose showed a higher viability reduction until6 min; after 9 min, glucose group demonstrated a significant decrease in cell viability when compared toglucose-free group. Taken together, our data suggest that glucose is capable to enhance MB uptake andmodulate photodynamic inactivation of C. albicans biofilm.Artigo IPEN-doc 20784 Estudo comparativo entre dois comprimentos de onda no efeito fotodinâmico em biofilmes de Candida albicans2014 - SUZUKI, L.C.; YOSHIMURA, T.M.; KATO, I.T.; PRATES, R.A.; RIBEIRO, M.S.Artigo IPEN-doc 20714 Aggregatibacter actinomycetemcomitans biofilm can be inactivated by methylene blue-mediated photodynamic therapy2015 - ALVARENGA, LETICIA H.; PRATES, RENATO A.; YOSHIMURA, TANIA M.; KATO, ILKA T.; SUZUKI, LUIS C.; RIBEIRO, MARTHA S.; FERREIRA, LUIS R.; PEREIRA, SILVIO A. dos S.; MARTINEZ, ELIZABETH F.; SABA CHUJFI, EDUARDOResumo IPEN-doc 14811 Strategies to optimize photodynamic antimicrobial therapy2009 - RIBEIRO, M.S.; GARCEZ, A.S.; NUNEZ, S.C.; KATO, I.T.; SUZUKI, L.C.; PRATES, R.A.Resumo IPEN-doc 16001 Candida albicans biofilm alterations during photodynamic therapy by optical coherence tomography video monitoring2010 - FREITAS, ANDERSON Z. de; SUZUKI, LUIS C.; PRATES, RENATO A.; RAELE, MARCUS P.; AMARAL, MARCELLO M.; RIBEIRO, MARTHA S.Resumo IPEN-doc 17759 Photosensitization of Actinobacillus actinomycetemcomitans with malachite green and methylene blue: microbiological analysis2006 - YAMADA JUNIOR, A.M.; PRATES, R.A.; HASHIMOTO, M.C.; SUZUKI, L.C.; CAI, S.; RIBEIRO, M.S.Resumo IPEN-doc 17758 Histological analysis in ligature induced periodontitis in rats following photodynamic therapy2006 - YAMADA JUNIOR, A.M.; PRATES, R.A.; SUZUKI, L.C.; VILLA, N.; CAI, S.; RIBEIRO, M.S.Resumo IPEN-doc 11840 Azul de metileno, verde de malaquita, indocianina verde e veterporfirina: acao fotodinamica antimicrobiana sobre Escherichia coli2007 - PRATES, R.A.; SUZUKI, L.C.; YAMADA JUNIOR, A.M.; RIBEIRO, M.S.Resumo IPEN-doc 11836 Reducao microbiana em periodontite apos terapia fotodinamica2007 - YAMADA JUNIOR, A.M.; SUZUKI, L.C.; PRATES, R.A.; CAI, S.; RIBEIRO, M.S.