Antibacterial effect of graphene oxide (GO) nano-particles against Pseudomonas putida biofilm of variable age

Fallatah, Hussam; Elhaneid, Mohamad; Ali‐Boucetta, Hanene; Overton, Tim W.; Kadri, Hani El; Gkatzionis, Konstantinos

doi:10.1007/s11356-019-05688-9

Cited by 49 publications

(34 citation statements)

References 75 publications

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“…(2) chemical [56][57][58]; (3) physical [59,60]; (4) physicochemical [61][62][63]; (5) physical in combination with natural [64], and (6) natural in combination with chemical [65]. A summary of the bacterial biofilm inhibition/control methods described in the past two years is shown in Figure 1.…”

Section: Biofilm Control Methodsmentioning

confidence: 99%

“…In order not to exclude search results that could be significant for the investigation, a general search term (keyword) "biofilm" was used. According to the scientific articles found in the PubMed database regarding biofilm inhibition and control, all methods, based on their nature, can be divided into six groups: (1) natural (biological) [53][54][55]; (2) chemical [56][57][58]; (3) physical [59,60]; (4) physicochemical [61][62][63]; (5) physical in combination with natural [64], and (6) natural in combination with chemical [65]. A summary of the bacterial biofilm inhibition/control methods described in the past two years is shown in Figure 1.…”

Section: Biofilm Control Methodsmentioning

confidence: 99%

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Antimicrobial Photoinactivation Approach Based on Natural Agents for Control of Bacteria Biofilms in Spacecraft

Buchovec

Gricajeva

Kalėdienė

et al. 2020

IJMS

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A spacecraft is a confined system that is inhabited by a changing microbial consortium, mostly originating from life-supporting devices, equipment collected in pre-flight conditions, and crewmembers. Continuous monitoring of the spacecraft’s bioburden employing culture-based and molecular methods has shown the prevalence of various taxa, with human skin-associated microorganisms making a substantial contribution to the spacecraft microbiome. Microorganisms in spacecraft can prosper not only in planktonic growth mode but can also form more resilient biofilms that pose a higher risk to crewmembers’ health and the material integrity of the spacecraft’s equipment. Moreover, bacterial biofilms in space conditions are characterized by faster formation and acquisition of resistance to chemical and physical effects than under the same conditions on Earth, making most decontamination methods unsafe. There is currently no reported method available to combat biofilm formation in space effectively and safely. However, antibacterial photodynamic inactivation based on natural photosensitizers, which is reviewed in this work, seems to be a promising method.

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Section: Biofilm Control Methodsmentioning

confidence: 99%

Section: Biofilm Control Methodsmentioning

confidence: 99%

Antimicrobial Photoinactivation Approach Based on Natural Agents for Control of Bacteria Biofilms in Spacecraft

Buchovec

Gricajeva

Kalėdienė

et al. 2020

IJMS

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“…Therefore, biomass derived graphene can also be used in disinfectant solutions or detergents. This is due to the fact that graphene has shown positive results as disinfectants in previous study [34] – [36] . For example, GO can destroy bacterial membranes by direct inorganic-biomolecule interactions where the attached proteins on GO always result in altering intrinsic structures and denature effects [37] .…”

Section: Biomass Derived Graphene As Promising Materials To Combat Thementioning

confidence: 74%

Potential application of biomass derived graphene for COVID-19 pandemic

Arifin

Nordin

Jaafar

et al. 2021

Materials Today: Proceedings

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“…Another author evaluated the antibiotic effect on biofilms [ 198 ], and the oxidation of graphene as antibacterial activity against the Pseudomonas putida biofilm with variable ages [ 199 ].…”

Section: Biofilm Identification Techniques and Methods To Visualismentioning

confidence: 99%

Microbial Biofilms in the Food Industry—A Comprehensive Review

Carrascosa

Raheem

Ramos

et al. 2021

IJERPH

216

109

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Biofilms, present as microorganisms and surviving on surfaces, can increase food cross-contamination, leading to changes in the food industry’s cleaning and disinfection dynamics. Biofilm is an association of microorganisms that is irreversibly linked with a surface, contained in an extracellular polymeric substance matrix, which poses a formidable challenge for food industries. To avoid biofilms from forming, and to eliminate them from reversible attachment and irreversible stages, where attached microorganisms improve surface adhesion, a strong disinfectant is required to eliminate bacterial attachments. This review paper tackles biofilm problems from all perspectives, including biofilm-forming pathogens in the food industry, disinfectant resistance of biofilm, and identification methods. As biofilms are largely responsible for food spoilage and outbreaks, they are also considered responsible for damage to food processing equipment. Hence the need to gain good knowledge about all of the factors favouring their development or growth, such as the attachment surface, food matrix components, environmental conditions, the bacterial cells involved, and electrostatic charging of surfaces. Overall, this review study shows the real threat of biofilms in the food industry due to the resistance of disinfectants and the mechanisms developed for their survival, including the intercellular signalling system, the cyclic nucleotide second messenger, and biofilm-associated proteins.

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Antibacterial effect of graphene oxide (GO) nano-particles against Pseudomonas putida biofilm of variable age

Cited by 49 publications

References 75 publications

Antimicrobial Photoinactivation Approach Based on Natural Agents for Control of Bacteria Biofilms in Spacecraft

Antimicrobial Photoinactivation Approach Based on Natural Agents for Control of Bacteria Biofilms in Spacecraft

Potential application of biomass derived graphene for COVID-19 pandemic

Microbial Biofilms in the Food Industry—A Comprehensive Review

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