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A Pseudomonas aeruginosa biofilm was produced in a model system using the bacterial strain NCIMB 8295, grown on silicone tubing (bore size 0.75 cm). Destruction of the biofilm was attempted using either ampicillin or a combination of white light (light dose=7.2 J cmm 2) and the phenothiazinium photosensitiser new methylene blue, and damage, both to extra-cellular polymeric substance (EPS) and to the organism, was monitored. It was found that although little damage to the EPS occurred with ampicillin, NMB caused both cell death and breakdown of the EPS, suggesting the use of photodynamic antimicrobial chemotherapy (PACT) in the disinfection of pathogenic biofilms, e.g. at external catheter surfaces. 相似文献
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McCaughan B Rouanet C Fowley C Nomikou N McHale AP McCarron PA Callan JF 《Bioorganic & medicinal chemistry letters》2011,21(19):5750-5752
A combination of light and ultrasound activation of two conventional photosensitising drugs, methylene blue and rose bengal, was shown to generate higher levels of reactive oxygen species (ROS) and lower LD50 values than either light or ultrasound activation alone. 相似文献
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Heidi K. Grnlien Arne M. Lvlie Olav Sand 《Comparative biochemistry and physiology. Part A, Molecular & integrative physiology》2001,130(4)
The ciliate Tetrahymena vorax is normally insensitive to light. However, after uptake of acridine orange, blue light evokes instant backward swimming. The dye accumulates mainly in posterior vacuoles, with half-maximal uptake after 1 min. Illumination for 10 s induced a depolarisation of approximately 15 mV lasting less than 2 s, followed by a sustained hyperpolarisation of approximately 20 mV. Deciliated cells displayed a similar response. The hyperpolarisation was linked to reduced membrane resistance, showed a reversal potential of approximately −55 mV and was blocked by 1 mmol l−1 TEA. The rate of rise of electrically evoked Ca2+-spikes was reduced during the hyperpolarisation, which is compatible with elevated cytosolic Ca2+ concentration. This suggests that the hyperpolarisation may be caused by activation of Ca2+-sensitive K+ channels. The depolarisation was abolished in Ca2+-free medium, whereas the hyperpolarisation was unaffected. Illumination for 2 s, or prolonged stimulation restricted to the anterior part of the cell, induced depolarisation only. Illumination of the posterior part caused delayed hyperpolarisation with no preceding depolarisation. We conclude that the induced backward swimming is associated with Ca2+ influx through anterior channels, while Ca2+ released from intracellular stores activates K+ channels responsible for the delayed hyperpolarisation. 相似文献
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Andrew R. Collins Catherine Gedik Sharon Wood Ann White Jacques Dubois Pierre Duez 《Free radical research》2013,47(3):239-245
The aim of ESCODD, a European Commission funded Concerted Action, is to improve the precision and accuracy of methods for measuring 8-oxo-7,8-dihydroguanine (8-oxoGua) or the nucleoside (8-oxodG). On two occasions, participating laboratories received samples of different concentrations of 8-oxodG for analysis. About half the results returned (for 8-oxodG) were within 20% of the median values. Coefficients of variation (for three identical samples) were commonly around 10%. A sample of calf thymus DNA was sent, dry, to all laboratories. Analysis of 8-oxoGua/8-oxodG in this sample was a test of hydrolysis methods. Almost half the reported results were within 20% of the median value, and half obtained a CV of less than 10%. In order to test sensitivity, as well as precision, DNA was treated with photosensitiser and light to introduce increasing amounts of 8-oxoGua and samples were sent to members. Median values calculated from all returned results were 45.6 (untreated), 53.9, 60.4 and 65.6 8-oxoGua/10 6 Gua; only seven laboratories detected the increase over the whole range, while all but one detected a dose response over two concentration intervals. Results in this trial reflect a continuing improvement in precision and accuracy. The next challenge will be the analysis of 8-oxodG in DNA isolated from cells or tissue, where the concentration is much lower than in calf thymus DNA. 相似文献
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Dennis Mohan Sunith Maruthingal Rajamani Indira Darshan Devang Divakar Abdulaziz Abdullah Al Kheraif Ravikumar Ramakrishnaiah B.H. Durgesh Santhosh Basavarajappa Jacob John 《Saudi Journal of Biological Sciences》2016,23(1):122-127
AimTo investigate the efficacy of photo activated disinfection (PAD) in reducing colony-forming unit (CFU) counts of Enterococcus faecalis (E. faecalis) in infected dental root canals. The study compared the efficacy of PAD with conventional endodontic treatment (CET) and also a combination of CET along with PAD.Material and Methods53 maxillary incisors were taken for the study. Teeth were divided into 3 groups, CET (Group I) (n = 11), PAD (Group II) (n = 21), and a combination of CET and PAD (Group III) which consisted of (n = 21) samples, Group II and Group III were further divided into 2 subgroups, Group IIa, IIb and Group IIIa, IIIb. Strains of E. faecalis were inoculated in all the root canals. CET group samples were treated by chemo-mechanical preparation (CMP) alone, PAD samples were treated with laser alone at 2 different exposure time (4 min and 2 min). In the combination treatment, samples were treated initially by CET and then by PAD for a time period of 4 min and 2 min. Contents of the root canal were aspirated, diluted and plated in Tryptone Soya Broth (TSB) and plates were incubated for 24 h to observe the bacterial regrowth.ResultsShowed PAD used along with CMP reduced the bacterial load of E. faecalis by 99.5% at 4 min and 98.89% at 2 min.ConclusionPAD may be an adjunctive procedure to kill residual bacteria in the dental root canal systems after standard endodontic root canal preparation. 相似文献
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Light-activated cytotoxic compounds from Malaysian microorganisms for photodynamic therapy of cancer
Nurkhalida Kamal Vikineswary Sabaratnam Noorlidah Abdullah Anthony S. H. Ho Soo H. Teo Hong B. Lee 《Antonie van Leeuwenhoek》2009,95(2):179-188
Photodynamic therapy (PDT) is a promising cancer treatment which involves activation of a photosensitizing drug with light to produce reactive oxygen species that kill tumors without causing damage to unirradiated normal tissues. To date, only Photofrin®, Foscan® and Levulan® have been approved for clinical treatment of cancer. Tropical habitats such as those found in Malaysia are attractive sources of new therapeutic compounds as tremendous chemical diversity is found in a large number of plants, animals, marine- and micro-organisms. In our screening program for novel photosensitizers from nature, colorful strains of fungi (from Aspergillus and Penicillium genus) and bacteria (including actinomycetes and photosynthetic bacteria) were collected from various habitats in Peninsular Malaysia, such as coastal soil, peat soil, marine sponges and wastewater ponds. Methanolic extracts from a total of 85 different species were evaluated with a short-term cell viability assay for photo-cytotoxicity, where a promyelocytic leukemia cell-line, HL60 incubated with 20 μg/ml of extracts was irradiated with 9.6 J/cm2 of a broad spectrum light. Two of these extracts, one from Rhodobacter sphaeroides (PBUM003) and one from Rhodopseudomonas palustris (PBUM001) showed moderate to strong photo-cytotoxicity. Subsequent bioassay guided isolation of the PBUM001 extract yielded known photosensitisers that are based on bacteriochlorophyll-a by comparing their molecular weight data, HPLC profiles and UV–vis absorption spectra with literature values, thereby demonstrating the validity of our screening approach. 相似文献
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