Application of TiO2-Based Photocatalysts to Antibiotics Degradation: Cases of Sulfamethoxazole, Trimethoprim and Ciprofloxacin

Kutuzova, Anastasiya; Dontsova, Tetiana; Kwapiński, Witold

doi:10.3390/catal11060728

Cited by 72 publications

(36 citation statements)

References 158 publications

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“…These results were consistent with previous studies that showed that the concentrations of antibiotics in HWW were 3–10 times higher than those in MWW [ 37 , 59 ]. In the same context, Kutuzova et al (2021) noted that the most frequently detected antibiotics in wastewater were SMX and CIP [ 60 ].…”

Section: Resultsmentioning

confidence: 99%

Literature Review: Evaluation of Drug Removal Techniques in Municipal and Hospital Wastewater

Rodríguez-Serin

Gamez-Jara

Cruz-Noriega

et al. 2022

IJERPH

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There are several techniques for the removal of pharmaceuticals (drugs) from wastewater; however, strengths and weaknesses have been observed in their elimination processes that limit their applicability. Therefore, we aimed to evaluate the best techniques for the removal of pharmaceuticals from municipal and hospital wastewater. For this, a non-experimental, descriptive, qualitative–quantitative design was used, corresponding to a systematic review without meta-analysis. Based on established inclusion and exclusion criteria, 31 open-access articles were selected from the Scopus, ProQuest, EBSCOhost, and ScienceDirect databases. The results showed that high concentrations of analgesics such as naproxen (1.37 mg/L) and antibiotics such as norfloxacin (0.561 mg/L) are frequently found in wastewater and that techniques such as reverse osmosis, ozonation, and activated sludge have the best removal efficiency, achieving values of 99%. It was concluded that reverse osmosis is one of the most efficient techniques for eliminating ofloxacin, sulfamethoxazole, carbamazepine, and diclofenac from municipal wastewater, with removal rates ranging from 96 to 99.9%, while for hospital wastewater the activated sludge technique proved to be efficient, eliminating analgesics and antibiotics in the range of 41–99%.

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Section: Resultsmentioning

confidence: 99%

Literature Review: Evaluation of Drug Removal Techniques in Municipal and Hospital Wastewater

Rodríguez-Serin

Gamez-Jara

Cruz-Noriega

et al. 2022

IJERPH

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“…These semiconductor-promoted oxidation mechanisms are complementary to the ROS formation pathways mentioned above for the TPM-based catalysts and thus potentiate drug degradation. [1,13] Thus, a significant portion of the work developed in this field has been focused on the development of hybrid catalysts comprising TPM immobilized in semiconductors [2,[14][15][16][17][18][19][20][21][22].…”

Section: Oxidation Mechanisms Using Tetrapyrrolic Macrocycle-based Catalystsmentioning

confidence: 99%

“…Therefore, it is urgent to develop processes capable of destroying these drug-based pollutants in the environment. Among the multiple oxidative processes described in the literature so far [1][2][3][4][5][6][7], this review intends to cover exclusively the ones based on the use of tetrapyrrolic macrocycle (TPM) catalysts over the last decade. First, for systematic-mechanistic clarification, we present the accepted photo-and nonphoto oxidation mechanisms, and the following sections are focused on the photochemical and non-photochemical degradation of several families of pharmaceutical drugs using TPM-based catalysts.…”

Section: Introductionmentioning

confidence: 99%

Oxidative Degradation of Pharmaceuticals: The Role of Tetrapyrrole-Based Catalysts

et al. 2021

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Nowadays, society’s widespread consumption of pharmaceutical drugs and the consequent accumulation of such compounds or their metabolites in effluents requires the development of efficient strategies and systems that lead to their effective degradation. This can be done through oxidative processes, in which tetrapyrrolic macrocycles (porphyrins, phthalocyanines) deserve special attention since they are among the most promising degradation catalysts. This paper presents a review of the literature over the past ten years on the major advances made in the development of oxidation processes of pharmaceuticals in aqueous solutions using tetrapyrrole-based catalysts. The review presents a brief discussion of the mechanisms involved in these oxidative processes and is organized by the degradation of families of pharmaceutical compounds, namely antibiotics, analgesics and neurological drugs, among others. For each family, a critical analysis and discussion of the fundamental roles of tetrapyrrolic macrocycles are presented, regarding both photochemical degradative processes and direct oxidative chemical degradation.

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“…For decades, plenty of strategies have been used to enhance the antibacterial capability of titanium surfaces by modification with antibacterial agents such as antimicrobial peptides ( Ma et al, 2012 ), metals ions ( Zielińska-Jurek et al, 2015 ), polymers ( Kubacka et al, 2007 ), and antibiotics ( Kutuzova et al, 2021 ). In recent years, for minimal invasiveness and well-established clinical effect, reactive oxygen species (ROS)-associated antibacterial therapy has attracted much attention, such as photodynamic therapy (PDT) ( Xu et al, 2019 ).…”

Section: Introductionmentioning

confidence: 99%

Gold nanoparticle decoration potentiate the antibacterial enhancement of TiO2 nanotubes via sonodynamic therapy against peri-implant infections

Sun

Jiang

et al. 2022

Front. Bioeng. Biotechnol.

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Inflammatory damage from bacterial biofilms usually causes the failure of tooth implantation. A promising solution for this challenge is to use an implant surface with a long-term, in-depth and efficient antibacterial feature. In this study, we developed an ultrasound-enhanced antibacterial implant surface based on Au nanoparticle modified TiO2 nanotubes (AuNPs-TNTs). As an artificial tooth surface, films based on AuNPs-TNTs showed excellent biocompatibility. Importantly, compared to bare titania surface, a larger amount of reactive oxygen radicals was generated on AuNPs-TNTs under an ultrasound treatment. For a proof-of-concept application, Porphyromonas gingivalis (P. gingivalis) was used as the model bacteria; the as-proposed AuNPs-TNTs exhibited significantly enhanced antibacterial activity under a simple ultrasound treatment. This antibacterial film offers a new way to design the surface of an artificial implant coating for resolving the bacterial infection induced failure of dental implants.

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Application of TiO2-Based Photocatalysts to Antibiotics Degradation: Cases of Sulfamethoxazole, Trimethoprim and Ciprofloxacin

Cited by 72 publications

References 158 publications

Literature Review: Evaluation of Drug Removal Techniques in Municipal and Hospital Wastewater

Literature Review: Evaluation of Drug Removal Techniques in Municipal and Hospital Wastewater

Oxidative Degradation of Pharmaceuticals: The Role of Tetrapyrrole-Based Catalysts

Gold nanoparticle decoration potentiate the antibacterial enhancement of TiO2 nanotubes via sonodynamic therapy against peri-implant infections

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