Ultraviolet germicidal efficacy as a function of pulsed radiation parameters studied by spore film dosimetry

Disinfection by pulsed ultraviolet (UV) radiation is a commonly used method, e.g. in industry or medicine and can be carried out either with lasers or broadband UV radiation sources. Detrimental effects to biological materials depending on parameters such as pulse duration τ or pulse repetition freq...

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Published inJournal of photochemistry and photobiology. B, Biology Vol. 178; pp. 69 - 75
Main Authors Bauer, Stefan, Holtschmidt, Hans, Ott, Günter
Format Journal Article
LanguageEnglish
Published Switzerland Elsevier B.V 01.01.2018
Elsevier BV
Subjects
Analysis
Biological effects
Biological materials
Broadband
Disinfection
Disinfection & disinfectants
Dosimeters
Dosimetry
Exposure
Germicidal efficacy
Incoherent UV radiation
Irradiance
Lasers
Parameters
Pulse duration
Pulse parameter
Pulse repetition frequency
Pulsed radiation
Pulsed ultraviolet radiation
Radiation sources
Spore film
Spores
Ultraviolet radiation
Disinfection
Germicidal efficacy
Spore film
Pulse parameter
Incoherent UV radiation
Pulsed ultraviolet radiation
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Abstract Disinfection by pulsed ultraviolet (UV) radiation is a commonly used method, e.g. in industry or medicine and can be carried out either with lasers or broadband UV radiation sources. Detrimental effects to biological materials depending on parameters such as pulse duration τ or pulse repetition frequency fp are well-understood for pulsed coherent UV radiation, however, relatively little is known for its incoherent variant. Therefore, within this work, it is the first time that disinfection rates of pulsed and continuous (cw) incoherent UV radiation studied by means of spore film dosimetry are presented, compared with each other, and in a second step further investigated regarding two pulse parameters. After analyzing the dynamic range of the Bacillus subtilis spore films with variable cw radiant exposures H=5–100Jm−2 a validation of the Bunsen-Roscoe law revealed its restricted applicability and a 28% enhanced detrimental effect of pulsed compared to cw incoherent UV radiation. A radiant exposure H=50Jm−2 and an irradiance E=0.5Wm−2 were found to be suitable parameters for an analysis of the disinfection rate as a function of τ=0.5–10ms and fp=25–500Hz unveiling that shorter pulses and lower frequencies inactivate more spores. Finally, the number of applied pulses as well as the experiment time were considered with regard to spore film disinfection. [Display omitted] •Disinfection rates of incoherent UV radiation were studied by spore film dosimetry.•The Bunsen-Roscoe law is restricted to a certain irradiance-exposure time-regime.•Pulsed compared to cw irradiation yields a 28% enhanced germicidal efficacy.•Shorter pulses and higher pulse repetition frequencies inactivate more spores.
AbstractList Disinfection by pulsed ultraviolet (UV) radiation is a commonly used method, e.g. in industry or medicine and can be carried out either with lasers or broadband UV radiation sources. Detrimental effects to biological materials depending on parameters such as pulse duration τ or pulse repetition frequency fp are well-understood for pulsed coherent UV radiation, however, relatively little is known for its incoherent variant. Therefore, within this work, it is the first time that disinfection rates of pulsed and continuous (cw) incoherent UV radiation studied by means of spore film dosimetry are presented, compared with each other, and in a second step further investigated regarding two pulse parameters. After analyzing the dynamic range of the Bacillus subtilis spore films with variable cw radiant exposures H=5-100Jm-2 a validation of the Bunsen-Roscoe law revealed its restricted applicability and a 28% enhanced detrimental effect of pulsed compared to cw incoherent UV radiation. A radiant exposure H=50Jm-2 and an irradiance E=0.5Wm-2 were found to be suitable parameters for an analysis of the disinfection rate as a function of τ=0.5-10ms and fp=25-500Hz unveiling that shorter pulses and lower frequencies inactivate more spores. Finally, the number of applied pulses as well as the experiment time were considered with regard to spore film disinfection.
Disinfection by pulsed ultraviolet (UV) radiation is a commonly used method, e.g. in industry or medicine and can be carried out either with lasers or broadband UV radiation sources. Detrimental effects to biological materials depending on parameters such as pulse duration τ or pulse repetition frequency fp are well-understood for pulsed coherent UV radiation, however, relatively little is known for its incoherent variant. Therefore, within this work, it is the first time that disinfection rates of pulsed and continuous (cw) incoherent UV radiation studied by means of spore film dosimetry are presented, compared with each other, and in a second step further investigated regarding two pulse parameters. After analyzing the dynamic range of the Bacillus subtilis spore films with variable cw radiant exposures H=5–100Jm−2 a validation of the Bunsen-Roscoe law revealed its restricted applicability and a 28% enhanced detrimental effect of pulsed compared to cw incoherent UV radiation. A radiant exposure H=50Jm−2 and an irradiance E=0.5Wm−2 were found to be suitable parameters for an analysis of the disinfection rate as a function of τ=0.5–10ms and fp=25–500Hz unveiling that shorter pulses and lower frequencies inactivate more spores. Finally, the number of applied pulses as well as the experiment time were considered with regard to spore film disinfection. [Display omitted] •Disinfection rates of incoherent UV radiation were studied by spore film dosimetry.•The Bunsen-Roscoe law is restricted to a certain irradiance-exposure time-regime.•Pulsed compared to cw irradiation yields a 28% enhanced germicidal efficacy.•Shorter pulses and higher pulse repetition frequencies inactivate more spores.
Disinfection by pulsed ultraviolet (UV) radiation is a commonly used method, e.g. in industry or medicine and can be carried out either with lasers or broadband UV radiation sources. Detrimental effects to biological materials depending on parameters such as pulse duration τ or pulse repetition frequency f are well-understood for pulsed coherent UV radiation, however, relatively little is known for its incoherent variant. Therefore, within this work, it is the first time that disinfection rates of pulsed and continuous (cw) incoherent UV radiation studied by means of spore film dosimetry are presented, compared with each other, and in a second step further investigated regarding two pulse parameters. After analyzing the dynamic range of the Bacillus subtilis spore films with variable cw radiant exposures H=5-100Jm a validation of the Bunsen-Roscoe law revealed its restricted applicability and a 28% enhanced detrimental effect of pulsed compared to cw incoherent UV radiation. A radiant exposure H=50Jm and an irradiance E=0.5Wm were found to be suitable parameters for an analysis of the disinfection rate as a function of τ=0.5-10ms and f =25-500Hz unveiling that shorter pulses and lower frequencies inactivate more spores. Finally, the number of applied pulses as well as the experiment time were considered with regard to spore film disinfection.
Author Holtschmidt, Hans
Bauer, Stefan
Ott, Günter
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/29125984$$D View this record in MEDLINE/PubMed
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Keywords Disinfection
Germicidal efficacy
Spore film
Pulse parameter
Incoherent UV radiation
Pulsed ultraviolet radiation
Language English
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Snippet Disinfection by pulsed ultraviolet (UV) radiation is a commonly used method, e.g. in industry or medicine and can be carried out either with lasers or...
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SubjectTerms Analysis
Biological effects
Biological materials
Broadband
Disinfection
Disinfection & disinfectants
Dosimeters
Dosimetry
Exposure
Germicidal efficacy
Incoherent UV radiation
Irradiance
Lasers
Parameters
Pulse duration
Pulse parameter
Pulse repetition frequency
Pulsed radiation
Pulsed ultraviolet radiation
Radiation sources
Spore film
Spores
Ultraviolet radiation
Title Ultraviolet germicidal efficacy as a function of pulsed radiation parameters studied by spore film dosimetry
URI https://dx.doi.org/10.1016/j.jphotobiol.2017.10.027
https://www.ncbi.nlm.nih.gov/pubmed/29125984
https://www.proquest.com/docview/2012061572
https://search.proquest.com/docview/1963273859
Volume 178
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