APPLICATION OF PHOTODYNAMIC OXIDATION TO THE DISINFECTION OF TAPWATER, SEA WATER, AND SEWAGE CONTAMINATED WITH POLIOVIRUS

Charles P. Gerba; Craig Wallis; Joseph L. Melnick

doi:10.1111/j.1751-1097.1977.tb07521.x

APPLICATION OF PHOTODYNAMIC OXIDATION TO THE DISINFECTION OF TAPWATER, SEA WATER, AND SEWAGE CONTAMINATED WITH POLIOVIRUS

Charles P. Gerba, Craig Wallis, Joseph L. Melnick

Research output: Contribution to journal › Article › peer-review

20 Scopus citations

Abstract

Abstract. Poliovirus when added to tapwater, sewage or seawater was readily photoinactivated by methylene blue and visible light. Typically, almost 2.5 logs of virus could be inactivated upon a 5‐min exposure to 670 nm light (20 W/m²) in solutions containing 13 μM methylene blue at pH 10.0. A biphasic inactivation curve was produced for poliovirus, regardless of dye concentration, pH, temperature, sensitization time, nature of suspending solution or sequence of light exposure. These results indicated that a multi‐hit inactivation event was occurring. Preincubation of the dye‐virus mixture at 24°C increased the rate of virus photoinactivation. Dye concentrations above 26 μM have little advantage in increasing the amount of virus photoinactivated. Significant inactivation of the virus in the dark occurred at high dye concentrations (52–130μM).

Original language	English (US)
Pages (from-to)	499-504
Number of pages	6
Journal	Photochemistry and Photobiology
Volume	26
Issue number	5
DOIs	https://doi.org/10.1111/j.1751-1097.1977.tb07521.x
State	Published - Nov 1977

ASJC Scopus subject areas

Biochemistry
Physical and Theoretical Chemistry

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Cite this

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title = "APPLICATION OF PHOTODYNAMIC OXIDATION TO THE DISINFECTION OF TAPWATER, SEA WATER, AND SEWAGE CONTAMINATED WITH POLIOVIRUS",

abstract = "Abstract. Poliovirus when added to tapwater, sewage or seawater was readily photoinactivated by methylene blue and visible light. Typically, almost 2.5 logs of virus could be inactivated upon a 5‐min exposure to 670 nm light (20 W/m2) in solutions containing 13 μM methylene blue at pH 10.0. A biphasic inactivation curve was produced for poliovirus, regardless of dye concentration, pH, temperature, sensitization time, nature of suspending solution or sequence of light exposure. These results indicated that a multi‐hit inactivation event was occurring. Preincubation of the dye‐virus mixture at 24°C increased the rate of virus photoinactivation. Dye concentrations above 26 μM have little advantage in increasing the amount of virus photoinactivated. Significant inactivation of the virus in the dark occurred at high dye concentrations (52–130μM).",

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AU - Wallis, Craig

AU - Melnick, Joseph L.

PY - 1977/11

Y1 - 1977/11

N2 - Abstract. Poliovirus when added to tapwater, sewage or seawater was readily photoinactivated by methylene blue and visible light. Typically, almost 2.5 logs of virus could be inactivated upon a 5‐min exposure to 670 nm light (20 W/m2) in solutions containing 13 μM methylene blue at pH 10.0. A biphasic inactivation curve was produced for poliovirus, regardless of dye concentration, pH, temperature, sensitization time, nature of suspending solution or sequence of light exposure. These results indicated that a multi‐hit inactivation event was occurring. Preincubation of the dye‐virus mixture at 24°C increased the rate of virus photoinactivation. Dye concentrations above 26 μM have little advantage in increasing the amount of virus photoinactivated. Significant inactivation of the virus in the dark occurred at high dye concentrations (52–130μM).

AB - Abstract. Poliovirus when added to tapwater, sewage or seawater was readily photoinactivated by methylene blue and visible light. Typically, almost 2.5 logs of virus could be inactivated upon a 5‐min exposure to 670 nm light (20 W/m2) in solutions containing 13 μM methylene blue at pH 10.0. A biphasic inactivation curve was produced for poliovirus, regardless of dye concentration, pH, temperature, sensitization time, nature of suspending solution or sequence of light exposure. These results indicated that a multi‐hit inactivation event was occurring. Preincubation of the dye‐virus mixture at 24°C increased the rate of virus photoinactivation. Dye concentrations above 26 μM have little advantage in increasing the amount of virus photoinactivated. Significant inactivation of the virus in the dark occurred at high dye concentrations (52–130μM).

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APPLICATION OF PHOTODYNAMIC OXIDATION TO THE DISINFECTION OF TAPWATER, SEA WATER, AND SEWAGE CONTAMINATED WITH POLIOVIRUS

Abstract

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