Methotrexate degradation by UV-C and UV-C/TiO2 processes with and without H2O2 addition on pilot reactors

L. A. González-Burciaga; J. C. García-Prieto; C. M. Núñez-Núñez; M. García-Roig; J. B. Proal- Nájera

doi:10.18178/ijesd.2020.11.10.1292

Methotrexate degradation by UV-C and UV-C/TiO2 processes with and without H2O2 addition on pilot reactors

L. A. González-Burciaga, J. C. García-Prieto, C. M. Núñez-Núñez, M. García-Roig, J. B. Proal- Nájera

Centro Interdisciplinario de Investigación para el Desarrollo Integral Regional (CIIDIR), Unidad Durango

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

1 Scopus citations

Abstract

Methotrexate (MTX) is an anti-cancer drug that can be excreted up to 90% after administration due to its low biodegradability. Advanced Oxidation Processes (AOPs) are a feasible alternative for the elimination of MTX in the environment. In this research, AOPs were performed in specialized patented reactors (UBE Photocatalytic systems and BrightWater Titanium Advanced Oxidation Process) under experimental pilot conditions. Photolysis and heterogeneous photocatalysis (UV and UV/TiO2) experiments were performed with and without addition of H2O2 and at different initial pHs. Best degradation percentage was achieved by photolysis when initial pH was 3.5 and added H2O2 was 3 mM, reaching a MTX degradation of 82% after 120 min of reaction. HPLC-MS analysis of the resulting samples showed four possible byproducts of MTX degradation, which presented a higher ecotoxicity than the starting compound.

Original language	English
Pages (from-to)	471-476
Number of pages	6
Journal	International Journal of Environmental Science and Development
Volume	11
Issue number	10
DOIs	https://doi.org/10.18178/ijesd.2020.11.10.1292
State	Published - Oct 2020

Keywords

Cytostatics
Methotrexate
Photodegradation
Water treatment

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This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.18178/ijesd.2020.11.10.1292

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title = "Methotrexate degradation by UV-C and UV-C/TiO2 processes with and without H2O2 addition on pilot reactors",

abstract = "Methotrexate (MTX) is an anti-cancer drug that can be excreted up to 90% after administration due to its low biodegradability. Advanced Oxidation Processes (AOPs) are a feasible alternative for the elimination of MTX in the environment. In this research, AOPs were performed in specialized patented reactors (UBE Photocatalytic systems and BrightWater Titanium Advanced Oxidation Process) under experimental pilot conditions. Photolysis and heterogeneous photocatalysis (UV and UV/TiO2) experiments were performed with and without addition of H2O2 and at different initial pHs. Best degradation percentage was achieved by photolysis when initial pH was 3.5 and added H2O2 was 3 mM, reaching a MTX degradation of 82% after 120 min of reaction. HPLC-MS analysis of the resulting samples showed four possible byproducts of MTX degradation, which presented a higher ecotoxicity than the starting compound.",

keywords = "Cytostatics, Methotrexate, Photodegradation, Water treatment",

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doi = "10.18178/ijesd.2020.11.10.1292",

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T1 - Methotrexate degradation by UV-C and UV-C/TiO2 processes with and without H2O2 addition on pilot reactors

AU - González-Burciaga, L. A.

AU - García-Prieto, J. C.

AU - Núñez-Núñez, C. M.

AU - García-Roig, M.

AU - Proal- Nájera, J. B.

PY - 2020/10

Y1 - 2020/10

N2 - Methotrexate (MTX) is an anti-cancer drug that can be excreted up to 90% after administration due to its low biodegradability. Advanced Oxidation Processes (AOPs) are a feasible alternative for the elimination of MTX in the environment. In this research, AOPs were performed in specialized patented reactors (UBE Photocatalytic systems and BrightWater Titanium Advanced Oxidation Process) under experimental pilot conditions. Photolysis and heterogeneous photocatalysis (UV and UV/TiO2) experiments were performed with and without addition of H2O2 and at different initial pHs. Best degradation percentage was achieved by photolysis when initial pH was 3.5 and added H2O2 was 3 mM, reaching a MTX degradation of 82% after 120 min of reaction. HPLC-MS analysis of the resulting samples showed four possible byproducts of MTX degradation, which presented a higher ecotoxicity than the starting compound.

AB - Methotrexate (MTX) is an anti-cancer drug that can be excreted up to 90% after administration due to its low biodegradability. Advanced Oxidation Processes (AOPs) are a feasible alternative for the elimination of MTX in the environment. In this research, AOPs were performed in specialized patented reactors (UBE Photocatalytic systems and BrightWater Titanium Advanced Oxidation Process) under experimental pilot conditions. Photolysis and heterogeneous photocatalysis (UV and UV/TiO2) experiments were performed with and without addition of H2O2 and at different initial pHs. Best degradation percentage was achieved by photolysis when initial pH was 3.5 and added H2O2 was 3 mM, reaching a MTX degradation of 82% after 120 min of reaction. HPLC-MS analysis of the resulting samples showed four possible byproducts of MTX degradation, which presented a higher ecotoxicity than the starting compound.

KW - Cytostatics

KW - Methotrexate

KW - Photodegradation

KW - Water treatment

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U2 - 10.18178/ijesd.2020.11.10.1292

DO - 10.18178/ijesd.2020.11.10.1292

M3 - Artículo

AN - SCOPUS:85091418490

SN - 2010-0264

VL - 11

SP - 471

EP - 476

JO - International Journal of Environmental Science and Development

JF - International Journal of Environmental Science and Development

IS - 10

ER -

Methotrexate degradation by UV-C and UV-C/TiO2 processes with and without H2O2 addition on pilot reactors

Abstract

Keywords

UN SDGs

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