Your search keyword '"Ferro, Sergio"' showing total 8 results

1. Decontamination of aerosolised bacteria from a pig farm environment using a pH neutral electrochemically activated solution (Ecas4 anolyte).

Author

Tenzin S, Ogunniyi AD, Khazandi M, Ferro S, Bartsch J, Crabb S, Abraham S, Deo P, and Trott DJ

Subjects

Actinobacillus pleuropneumoniae drug effects, Actinobacillus pleuropneumoniae isolation & purification, Aerosols, Air Microbiology, Animals, Bacteria isolation & purification, Bacterial Infections microbiology, Bacterial Infections veterinary, Bacterial Load, Disinfectants chemistry, Electrolysis, Fumigation methods, Humidifiers, Hydrogen-Ion Concentration, Hypochlorous Acid administration & dosage, Hypochlorous Acid chemistry, Methicillin-Resistant Staphylococcus aureus drug effects, Methicillin-Resistant Staphylococcus aureus isolation & purification, Swine microbiology, Bacteria drug effects, Bacterial Infections prevention & control, Decontamination methods, Disinfectants administration & dosage, Farms

Abstract

An electrochemically activated solution (ECAS), generated by electrolysis of a dilute sodium chloride solution in a four-chamber electrolytic cell (Ecas4), was tested as a sanitising aerosol in eliminating bacteria from the environment of a weaning room vacated 24-48h earlier, at a continuous flow pig farm. An ultrasonic humidifier was used to fill the environment with a fog (droplets with diameters of 1-5 μm) containing 0.25 ppm of hypochlorous acid. The weaning room was fogged for 3 min at 30 min intervals during five hours of aerosol disinfection. An innovative sample treatment with propidium monoazide dye in conjunction with cyclonic air sampling was optimised and adapted for discerning live/dead bacteria in subsequent molecular quantification steps. Without fogging, total bacterial load ranged from 5.06 ± 0.04 to 5.75 ± 0.04 Log10 CFU/m3. After the first hour of fogging, a 78% total bacterial reduction was observed, which further increased to > 97% after the second hour, > 99.4% after the third and 99.8% after the fourth hour, finally resulting in a 99.99% reduction from the farm environment over five hours. Unlike the current formaldehyde spray disinfection protocol, which requires a long empty period because of its hazardous properties, this economically viable and environmentally friendly disinfection protocol may significantly lower downtime. Moreover, ECAS fogging can be easily adapted to a variety of applications, including the elimination of pathogens from livestock farm air environment for disease prevention, as well as decontamination after disease outbreaks., Competing Interests: Ecas4 Australia Pty Ltd contributed in cash and in-kind towards this Pork CRC Innovation project no. 2C-121. Dr. Sergio Ferro is the Technical Manager and Mr. Simon Cribb is the National Business Manager of Ecas4 Australia Pty Ltd. Ecas4 Australia Pty Ltd had patent for Ecas4 anolyte production apparatus (Patents - PCT/IT 2006 000 829 and PCT/EP 2009 065 077). Dr. Jonathon Bartsch is employed by Dr Barry Lloyd Pty. Ltd. Dr. Barry Llyod Pty. Ltd. is the consulting veterinary firm for the farm where we carried out our fogging experiment. This does not alter our adherence to all the PLOS ONE policies on sharing data and materials.

Published

2019

2. Efficacy evaluation of a new water sanitizer for increasing the shelf life of Southern Australian King George Whiting and Tasmanian Atlantic Salmon fillets.

Author

Khazandi M, Deo P, Ferro S, Venter H, Pi H, Crabb S, Amorico T, Ogunniyi AD, and Trott DJ

Subjects

Animals, Bacteria growth & development, Bacteria isolation & purification, Food Preservation instrumentation, Food Storage, Bacteria drug effects, Disinfectants pharmacology, Fish Products microbiology, Food Contamination prevention & control, Food Preservation methods, Food Preservatives pharmacology, Salmo salar microbiology

Abstract

The bacterial species and specific spoilage organisms associated with the Southern Australian King George Whiting (KGW) and Tasmanian Atlantic Salmon (TAS), and the efficacy of a HOCl-containing water-based sanitization product (Electro-Chemically Activated Solution, by ECAS4) in extending the shelf life of KGW and TAS fillets were evaluated. Fillets were washed with an ECAS4 solution containing either 45 ppm or 150 ppm of free chlorine and bacterial species enumerated on selective and non-selective media, followed by identification of pure isolates by 16 S rRNA gene sequencing. The dominant spoilage microbiota in KGW and TAS fillets stored at 4 ± 1 °C were Pseudomonas spp. and Shewanella spp. At either concentration, ECAS4 significantly reduced total bacterial load and specific spoilage organisms on KGW and TAS fillets (approx. 1-2 log colony-forming units) during storage and significantly extended the shelf life of the fillets by 2 and 4 days, respectively. The significant increase in shelf life and quality of fillets was corroborated by raw and cooked sensory evaluation. ECAS4 sanitization could have a significant impact on the overall food industry, translating into health and economic benefits through reduction of food spoilage bacteria and potentially, foodborne pathogens without many of the disadvantages of currently approved biocides., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

3. Comparative antibacterial activities of neutral electrolyzed oxidizing water and other chlorine-based sanitizers

Author

Abiodun D. Ogunniyi, Catherine E. Dandie, Enzo Lombi, Gianluca Brunetti, Barbara Hall, Erica Donner, Henrietta Venter, Barbara Drigo, Permal Deo, Sergio Ferro, Baden Myers, Ogunniyi, Abiodun D, Dandie, Catherine E, Ferro, Sergio, Hall, Barbara, Drigo, Barbara, Brunetti, Gianluca, Venter, Henrietta, Myers, Baden, Deo, Permal, Donner, Erica, and Lombi, Enzo

Subjects

Water microbiology, 0301 basic medicine, Food Handling, Listeria, Sodium Hypochlorite, 030106 microbiology, lcsh:Medicine, chemistry.chemical_element, hydrology, 010501 environmental sciences, Escherichia coli O157, 01 natural sciences, Electrolysis, Article, Water Purification, 03 medical and health sciences, chemistry.chemical_compound, Chlorides, Salmonella, Dissolved organic carbon, Oxidizing agent, Chlorine, Organic matter, Food science, lcsh:Science, 0105 earth and related environmental sciences, chemistry.chemical_classification, Chlorine dioxide, Multidisciplinary, biology, lcsh:R, Water, Oxides, water microbiology, biology.organism_classification, Anti-Bacterial Agents, Disinfection, chemistry, Sodium hypochlorite, lcsh:Q, Hydrology, Chlorine Compounds, Oxidation-Reduction, Bacteria, Disinfectants

Abstract

There is increasing demand for safe and effective sanitizers for irrigation water disinfection to prevent transmission of foodborne pathogens to fresh produce. Here we compared the efficacy of pH-neutral electrolyzed oxidizing water (EOW), sodium hypochlorite (NaClO) and chlorine dioxide (ClO2) against single and mixed populations of E. coli, Listeria and Salmonella under a range of pH and organic matter content. EOW treatment of the mixed bacterial suspension resulted in a dose-dependent (10) reduction of the microbial load in water devoid of organic matter under the range of pH conditions tested (pH, 6.0, 7.0, 8.4 and 9.2). The efficacy of EOW containing 5 mg/L free chlorine was unaffected by increasing organic matter, and compared favourably with equivalent concentrations of NaClO and ClO2. EOW at 20 mg/L free chlorine was more effective than NaClO and ClO2 in reducing bacterial populations in the presence of high (20–100 mg/L) dissolved organic carbon, and no regrowth or metabolic activity was observed for EOW-treated bacteria at this concentration upon reculturing in rich media. Thus, EOW is as effective or more effective than other common chlorine-based sanitizers for pathogen reduction in contaminated water. EOW’s other characteristics, such as neutral pH and ease of handling, indicate its suitability for fresh produce sanitation.

Published

2019

4. Efficacy evaluation of a new water sanitizer for increasing the shelf life of Southern Australian King George Whiting and Tasmanian Atlantic Salmon fillets

Author

Manouchehr Khazandi, Tony Amorico, Henrietta Venter, Abiodun D. Ogunniyi, Hongfei Pi, Sergio Ferro, Permal Deo, Darren J. Trott, Simon Crabb, Khazandi, Manouchehr, Deo, Permal, Ferro, Sergio, Venter, Henrietta, Pi, Hongfei, Crabb, Simon, Amorico, Tony, Ogunniyi, Abiodun D, and Trott, Darren J

Subjects

0301 basic medicine, Food industry, Salmo salar, 030106 microbiology, Food spoilage, Food Contamination, Shelf life, Microbiology, Shewanella, 03 medical and health sciences, Hand sanitizer, Food Preservation, Fish Products, Animals, Food science, Tasmanian atlantic salmon (TAS), fish spoilage, Bacteria, biology, business.industry, King George whiting (KGW), biology.organism_classification, Food safety, Economic benefits, Whiting, food safety, 030104 developmental biology, Food Storage, Food Preservatives, shelf life, electro-chemically activated solution (ECAS4), business, Disinfectants, Food Science

Abstract

The bacterial species and specific spoilage organisms associated with the Southern Australian King George Whiting (KGW) and Tasmanian Atlantic Salmon (TAS), and the efficacy of a HOCl-containing water-based sanitization product (Electro-Chemically Activated Solution, by ECAS4) in extending the shelf life of KGW and TAS fillets were evaluated. Fillets were washed with an ECAS4 solution containing either 45 ppm or 150 ppm of free chlorine and bacterial species enumerated on selective and non-selective media, followed by identification of pure isolates by 16 S rRNA gene sequencing. The dominant spoilage microbiota in KGW and TAS fillets stored at 4 ± 1 °C were Pseudomonas spp. and Shewanella spp. At either concentration, ECAS4 significantly reduced total bacterial load and specific spoilage organisms on KGW and TAS fillets (approx. 1–2 log colony-forming units) during storage and significantly extended the shelf life of the fillets by 2 and 4 days, respectively. The significant increase in shelf life and quality of fillets was corroborated by raw and cooked sensory evaluation. ECAS4 sanitization could have a significant impact on the overall food industry, translating into health and economic benefits through reduction of food spoilage bacteria and potentially, foodborne pathogens without many of the disadvantages of currently approved biocides Refereed/Peer-reviewed

Published

2017

5. Decontamination of aerosolised bacteria from a pig farm environment using a pH neutral electrochemically activated solution (Ecas4 anolyte)

Author

Sangay Tenzin, Manouchehr Khazandi, Sam Abraham, Permal Deo, Abiodun D. Ogunniyi, Jonathon Bartsch, Darren J. Trott, Sergio Ferro, Simon J. Crabb, Tenzin, Sangay, Ogunniyi, Abiodun David, Khazandi, Manouchehr, Ferro, Sergio, Bartsch, Jonathon, Crabb, Simon, Abraham, Sam, Deo, Permal, and Trott, Darren J

Subjects

0301 basic medicine, Atmospheric Science, Fogging, antibiotic resistance, veterinary diseases, Swine, Sanitization, Staphylococcus, Air Microbiology, Biochemistry, Humidifiers, law.invention, Fog, chemistry.chemical_compound, law, Propidium monoazide, Nucleic Acids, Public and Occupational Health, Decontamination, Pathology and laboratory medicine, Mammals, Multidisciplinary, Actinobacillus pleuropneumoniae, Eukaryota, Agriculture, Bacterial Infections, Human decontamination, Hydrogen-Ion Concentration, Medical microbiology, Pulp and paper industry, fog, Infectious Diseases, Veterinary Diseases, Fumigation, Vertebrates, Medicine, Methicillin-resistant Staphylococcus aureus, Pathogens, Research Article, Staphylococcus aureus, Farms, Livestock, Infectious Disease Control, Hypochlorous acid, Sodium, Science, 030106 microbiology, Formaldehyde, chemistry.chemical_element, Microbiology, Electrolysis, 03 medical and health sciences, Meteorology, Microbial Control, Genetics, Animals, disinfection, Aerosols, Medicine and health sciences, Pharmacology, Bacteria, Biology and life sciences, Organisms, swine, DNA, Bacterial Load, Hypochlorous Acid, Microbial pathogens, Aerosol, Health Care, Disinfection, livestock, 030104 developmental biology, chemistry, Antibiotic Resistance, Amniotes, Earth Sciences, Bacterial pathogens, Veterinary Science, Preventive Medicine, Antimicrobial Resistance, Disinfectants

Abstract

An electrochemically activated solution (ECAS), generated by electrolysis of a dilute sodium chloride solution in a four-chamber electrolytic cell (Ecas4), was tested as a sanitising aerosol in eliminating bacteria from the environment of a weaning room vacated 24-48h earlier, at a continuous flow pig farm. An ultrasonic humidifier was used to fill the environment with a fog (droplets with diameters of 1–5 μm) containing 0.25 ppm of hypochlorous acid. The weaning room was fogged for 3 min at 30 min intervals during five hours of aerosol disinfection. An innovative sample treatment with propidium monoazide dye in conjunction with cyclonic air sampling was optimised and adapted for discerning live/dead bacteria in subsequent molecular quantification steps. Without fogging, total bacterial load ranged from 5.06 ± 0.04 to 5.75 ± 0.04 Log10 CFU/m3. After the first hour of fogging, a 78% total bacterial reduction was observed, which further increased to > 97% after the second hour, > 99.4% after the third and 99.8% after the fourth hour, finally resulting in a 99.99% reduction from the farm environment over five hours. Unlike the current formaldehyde spray disinfection protocol, which requires a long empty period because of its hazardous properties, this economically viable and environmentally friendly disinfection protocol may significantly lower downtime. Moreover, ECAS fogging can be easily adapted to a variety of applications, including the elimination of pathogens from livestock farm air environment for disease prevention, as well as decontamination after disease outbreaks. Refereed/Peer-reviewed

Published

2019

6. A pH-neutral electrolyzed oxidizing water significantly reduces microbial contamination of fresh spinach leaves

Author

Tony Amorico, Sangay Tenzin, Henrietta Venter, Sergio Ferro, Darren J. Trott, Abiodun D. Ogunniyi, Hongfei Pi, Permal Deo, Ogunniyi, Aiodun D, Tenzin, Sangay, Ferro, Sergio, Venter, Henrietta, Pi, Hongfei, Amorico, Tony, Deo, Permal, and Trott, Darren J

Subjects

Food Safety, Listeria, Food spoilage, Food Contamination, Shelf life, Microbiology, Electrolysis, Foodborne Diseases, 03 medical and health sciences, Hand sanitizer, Spinacia oleracea, Oxidizing agent, Escherichia coli, Peracetic Acid, Food science, post-harvest sanitation, foodborne pathogens, baby spinach, 030304 developmental biology, 0303 health sciences, peroxyacetic acid, Bacteria, Vitamin C, biology, 030306 microbiology, Chemistry, Inoculation, Temperature, Water, Hydrogen-Ion Concentration, biology.organism_classification, Plant Leaves, food safety, electrolyzed oxidizing water, Food Storage, Salmonella enteritidis, Food Microbiology, Spinach, Oxidation-Reduction, Food Science

Abstract

There are growing demands globally to use safe, efficacious and environmentally friendly sanitizers for post-harvest treatment of fresh produce to reduce or eliminate spoilage and foodborne pathogens. Here, we compared the efficacy of a pH-neutral electrolyzed oxidizing water (Ecas4 Anolyte; ECAS) with that of an approved peroxyacetic acid-based sanitizer (Ecolab Tsunami® 100) in reducing the total microbial load and inoculated Escherichia coli, Salmonella Enteritidis and Listeria innocua populations on post-harvest baby spinach leaves over 10 days. The impact of both sanitizers on the overall quality of the spinach leaves during storage was also assessed by shelf life and vitamin C content measurements. We show that ECAS at 50 ppm and 85 ppm significantly reduced the bacterial load compared to tap water-treated or untreated (control) leaves, and at similar levels (approx. 10-fold reduction) to those achieved using 50 ppm of Ecolab Tsunami®. While there were no obvious deleterious effects of treatment with 50 ppm Tsunami® or ECAS at 50 ppm and 85 ppm on plant leaf appearance, tap water-treated and untreated leaves showed some yellowing, bruising and sliming. Given its safety, efficacy and environmentally-friendly characteristics, ECAS could be a viable alternative to chemical-based sanitizers for post-harvest treatment of fresh produce. Refereed/Peer-reviewed

Published

2021

7. Comments on Botta et al. (2018). Potentially active spoilage bacteria community during the storage of vacuum packaged beefsteaks treated with aqueous ozone and electrolysed water. International Journal of Food Microbiology, 266, 337–345

Author

Tony Amorico, Permal Deo, Sergio Ferro, Ferro, Sergio, Amorico, Tony, and Deo, Permal

Subjects

aqueous ozone, Spoilage bacteria, Ozone, Aqueous solution, Bacteria, Vacuum, Electrolysed water, Food Packaging, Water, General Medicine, Microbiology, chemistry.chemical_compound, chemistry, Food Microbiology, Food microbiology, electrolysed water, Food science, Food Science

Abstract

Refereed/Peer-reviewed

Published

2019

8. Replies to the Authors' responses to 'Comments on Botta et al. (2018). Potentially active spoilage bacteria community during the storage of vacuum packaged beefsteaks treated with aqueous ozone and electrolysed water. International Journal of Food Microbiology, 266, 337–345.'

Author

Permal Deo, Tony Amorico, Sergio Ferro, Ferro, Sergio, Amorico, Tony, and Deo, Permal

Subjects

Spoilage bacteria, Ozone, Bacteria, Vacuum, Electrolysed water, Food Packaging, Water, General Medicine, Microbiology, chemistry.chemical_compound, chemistry, Food Microbiology, Environmental science, Food microbiology, Food science, Food Science

Abstract

Refereed/Peer-reviewed

Published

2019