New water disinfection system using UVA light-emitting diodes

Hamamoto, Akiko; Mori, Masashi; Takahashi, Akira; Nakano, Masayuki; Wakikawa, Noriko; Akutagawa, Masatake; Ikehara, Toshitaka; Nakaya, Yutaka; Kinouchi, Y.

doi:10.1111/j.1365-2672.2007.03464.x

Cited by 159 publications

(113 citation statements)

References 33 publications

(30 reference statements)

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“…Irradiation with ultraviolet-A UV-A light at wavelengths of 320-400 nm, and in particular light at a wavelength of 365 nm, has been reported to have lethal effects on bacteria, including pathogenic microbes Gadelmoula et al, 2009Hamamoto et al, 2007Mori et al, 2007 . UV-A light causes the generation of reactive oxygen species ROS such as singlet oxygen, superoxide anions, hydrogen peroxide and hydroxyl radicals in cells by photosensitization processes Pourzand and Tyrrell, 1999Hamamoto et al, 2007Morita et al, 1997 , resulting in lipid peroxidation and DNA oxidation Hamamoto et al, 2007 and .…”

Section: Introductionmentioning

confidence: 99%

“…UV-A light causes the generation of reactive oxygen species ROS such as singlet oxygen, superoxide anions, hydrogen peroxide and hydroxyl radicals in cells by photosensitization processes Pourzand and Tyrrell, 1999Hamamoto et al, 2007Morita et al, 1997 , resulting in lipid peroxidation and DNA oxidation Hamamoto et al, 2007 and . High bactericidal activity is caused by the combined use of UV-A light and a biocide in both cases, the bactericidal mechanism involves ROS Shirai et al, 2014 .…”

Section: Introductionmentioning

confidence: 99%

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Effect of Polyphenols on Reactive Oxygen Species Production and Cell Growth of Human Dermal Fibroblasts after Irradiation with Ultraviolet-A Light

et al. 2015

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Ultraviolet-A UV-A can damage microbes by generating reactive oxygen species ROS , singlet oxygen, superoxides, hydrogen peroxide and hydroxyl radicals. These species readily react with lipids, proteins, DNA and other constituents of cells, leading to oxidative deterioration and the eventual death of the microbe. However, the oxidative ability of these reactive species also harms the viability of mammalian cells such as fibroblasts and keratinocytes, as they cause both acute and chronic damage, photo-aging, and photo-carcinogenesis. This study describes a UV-A treatment that does not affect the viability or growth of human neonate dermal fibroblasts, as determined by examining the post-irradiation cell density after the addition of polyphenols as antioxidants. The results demonstrate the possible wide applicability of UV-A sterilization. The potency of polyphenols for attenuating UV-A-induced ROS generation in cells was tested using -catechin hydrate, -epigallocatechin gallate hydrate, morin hydrate, quercetin hydrate and resveratrol. The lowest concentration of polyphenols required to reduce ROS by 50 in cells upon exposure to a dose of 15 J cm -2 was determined and defined as its IC 50 . Pre-treatment with morin hydrate at its IC 50 allowed cells irradiated with 5.0 J cm -2 UV-A to recover to the level of the specific growth rate of cells incubated without UV-A irradiation. However, the growth rate of cells exposed to 15 J cm -2 UV-A irradiation was scarcely influenced by co-incubation with morin hydrate this dose of UV-A also suppressed cell growth completely in the absence of morin hydrate, although co-incubation resulted in no decrease in cell viability. This study demonstrates the potential of polyphenols for protecting both the viability of cells and their ability to proliferate from damage caused by UV-A-irradiation.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Effect of Polyphenols on Reactive Oxygen Species Production and Cell Growth of Human Dermal Fibroblasts after Irradiation with Ultraviolet-A Light

et al. 2015

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“…UV-absorption of proteins generally peaks at 280 nm [37] although proteins of some viruses may efficiently be affected by wavelengths below 240 nm [33,34]. In addition, wavelengths on UVA region (above 315 nm) may produce reactive intermediates and oxidative damage to DNA and other components of the bacterial cell [38,39]. Compared to a single wavelength, simultaneous treatment with multiple wavelengths of UV-C and UV-A have yielded higher reductions of fecal enterococci and total and fecal coliforms in wastewater and in pure cultures [40,41] and Vibrio parahaemolyticus in pure culture [42].…”

Section: Discussionmentioning

confidence: 99%

UV-LEDs Efficiently Inactivate DNA and RNA Coliphages

Zyara

Heinonen‐Tanski

Veijalainen

et al. 2017

Water

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UV-LEDs are a new method of disinfecting drinking water. Some viruses are very resistant to UV and the efficiency of UV-LEDs to disinfect them needs to be studied. Drinking water was disinfected with UV-LEDs after spiking the water with MS2 and four UV-and/or Cl-resistant coliphages belonging to RNA or DNA coliphages isolated from municipal wastewater. UV-LEDs operating at a wavelength of 270 nm for 2 min with 120 mW of irradiation caused 0.93-2.73 Log 10 -reductions of coliphages tested in a reactor of a 5.2 L volume. Irradiation time of 10 min in the same system increased the Log 10 -reductions to 4.30-5.16. Traditional mercury UV (Hg-UV) lamp at a 254 nm wavelength caused 0.67-4.08 Log 10 -reductions in 2 min and 4.56-7.21 Log 10 -reductions in 10 min in 10 mL of water. All coliphages tested except MS2 achieved 4 Log 10 -reductions with UV-LEDs at a dose that corresponded to 70 mWs/cm 2 using Hg-UV. Thus, UV-LEDs are a promising method of disinfecting UV-and/or Cl-resistant viruses.

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“…Sterilization by UV is friendlier to the environment and inactivates bacteria and viruses [2][3][4]. For many UV applications, however, there are sustainability issues that arise from current low-pressure lamp in use.…”

Section: Introductionmentioning

confidence: 99%

Combination of Light Emitting Diode at 375 nm and Photo-reactive TiO₂Layer Prepared by Electrostatic Spraying for Sterilization

Hwang¹,

Jeon²,

Choi³

et al. 2013

Journal of Electrical Engineering and Technology

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-The objective of this work was to increase the efficiency of ultraviolet-light emitting diodes at 375 nm for sterilization. Since TiO 2 had antibacterial properties, which were attributed to the appearance of hydroxyl radicals and superoxide radical anions on the surface species under ultra violet radiation at about 387 nm, photo-reactive layers such as Ag-doped TiO 2 were coated on aluminum substrates by electrostatic spraying. Crystallinity and surface morphology of the coating layer were examined by X-ray diffraction θ-2θ scan and field emission-scanning electron microscope, respectively. In an antibacterial test, we observed above 99% reduction of Escherichia coli populations on 3 or 5 mol% Ag-doped TiO 2 layers after irradiation for 2 hrs at 375 nm, while very low inactivation on bare aluminum substrates occurred after irradiation as the same condition.

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New water disinfection system using UVA light-emitting diodes

Cited by 159 publications

References 33 publications

Effect of Polyphenols on Reactive Oxygen Species Production and Cell Growth of Human Dermal Fibroblasts after Irradiation with Ultraviolet-A Light

Effect of Polyphenols on Reactive Oxygen Species Production and Cell Growth of Human Dermal Fibroblasts after Irradiation with Ultraviolet-A Light

UV-LEDs Efficiently Inactivate DNA and RNA Coliphages

Combination of Light Emitting Diode at 375 nm and Photo-reactive TiO₂Layer Prepared by Electrostatic Spraying for Sterilization

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New water disinfection system using UVA light-emitting diodes

Cited by 159 publications

References 33 publications

Effect of Polyphenols on Reactive Oxygen Species Production and Cell Growth of Human Dermal Fibroblasts after Irradiation with Ultraviolet-A Light

Effect of Polyphenols on Reactive Oxygen Species Production and Cell Growth of Human Dermal Fibroblasts after Irradiation with Ultraviolet-A Light

UV-LEDs Efficiently Inactivate DNA and RNA Coliphages

Combination of Light Emitting Diode at 375 nm and Photo-reactive TiO2Layer Prepared by Electrostatic Spraying for Sterilization

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Product

Resources

About

Combination of Light Emitting Diode at 375 nm and Photo-reactive TiO₂Layer Prepared by Electrostatic Spraying for Sterilization