Your search keyword '"Meade GK"' showing total 7 results

1. Evaluation of a Male-Specific DNA Coliphage Persistence Within Eastern Oysters (Crassostrea virginica).

Author

Kingsley DH, Chen H, Annous BA, and Meade GK

Subjects

Animals, Coliphages classification, Coliphages genetics, Male, Seawater virology, Sewage virology, Species Specificity, Temperature, Water Pollution, Coliphages isolation & purification, Crassostrea virology, DNA, Viral genetics, Shellfish virology

Abstract

Male-specific coliphages (MSCs) are currently used to assess the virologic quality of shellfish-growing waters and to assess the impact of sewage release or adverse weather events on bivalve shellfish. Since MSC can have either DNA or RNA genomes, and most research has been performed exclusively on RNA MSCs, persistence of M13, a DNA MSC, was evaluated for its persistence as a function of time and temperature within Eastern oysters (Crassostrea virginica). Oysters were individually exposed to seawater containing a total of 10 10 to 10 12 pfu of M13 for 24 h at 15 °C followed by maintenance in tanks with as many as 21 oysters in continuously UV-sterilized water for up to 6 weeks at either 7, 15, or 22 °C. Two trials for each temperature were performed combining three shucked oysters per time point which were assayed by tenfold serial dilution in triplicate. Initial contamination levels averaged 10 6.9 and ranged from 10 6.0 to 10 7.0 of M13. For oysters held for 3 weeks, log 10 reductions were 1.7, 3.8, and 4.2 log 10 at 7, 15, and 22 °C, respectively. Oysters held at 7 and 15 °C for 6 weeks showed average reductions of 3.6 and 5.1 log 10 , respectively, but still retained infectious M13. In total, this work shows that DNA MSC may decline within shellfish in a manner analogous to RNA MSCs.

Published

2019

2. Persistence of MS-2 Bacteriophage Within Eastern Oysters.

Author

Kingsley DH, Chen H, and Meade GK

Subjects

Animals, Environmental Monitoring, Humans, Models, Biological, Bacteriophages growth & development, Crassostrea virology, Seawater virology, Sewage virology, Shellfish virology, Temperature, Water Pollution

Abstract

Male-specific bacteriophages have been proposed as human enteric virus indicators for shellfish. In this study, Eastern oysters (Crassostrea virginica) were individually exposed to 5.6 × 10 10 PFU of MS-2 for 48 h at 15 °C followed by collective maintenance in continuously UV-sterilized seawater for 0-6 weeks at either 7, 15, or 24 °C. Initial contamination levels of MS-2 were >6 log PFU. Assessment of weekly declines of viable MS-2 indicated that cooler temperatures dramatically enhanced the persistence of MS-2 within oyster tissues. At 3 weeks, the average log PFU reductions for MS-2 within oysters were 2.28, 2.90, and 4.57 for oysters held at 7, 15, and 24 °C, respectively. Fitting temporal survival data with linear and nonlinear Weibull models indicated that the Weibull model best fit the observed reductions. In total, these data can serve as a guideline for regulatory agencies regarding the influence of water temperature on indicator phage after episodic sewage exposure.

Published

2018

3. Inactivation of human norovirus using chemical sanitizers.

Author

Kingsley DH, Vincent EM, Meade GK, Watson CL, and Fan X

Subjects

Caliciviridae Infections prevention & control, Chlorine pharmacology, Chlorine Compounds pharmacology, Humans, Hydrogen Peroxide pharmacology, Norovirus physiology, Oxides pharmacology, Peracetic Acid pharmacology, Phosphates pharmacology, Sodium Hypochlorite pharmacology, Time, Disinfectants pharmacology, Norovirus drug effects, Virus Inactivation

Abstract

The porcine gastric mucin binding magnetic bead (PGM-MB) assay was used to evaluate the ability of chlorine, chlorine dioxide, peroxyacetic acid, hydrogen peroxide, and trisodium phosphate to inactivate human norovirus within 10% stool filtrate. One-minute free chlorine treatments at concentrations of 33 and 189 ppm reduced virus binding in the PGM-MB assay by 1.48 and 4.14 log₁₀, respectively, suggesting that chlorine is an efficient sanitizer for inactivation of human norovirus (HuNoV). Five minute treatments with 5% trisodium phosphate (pH~12) reduced HuNoV binding by 1.6 log₁₀, suggesting that TSP, or some other high pH buffer, could be used to treat food and food contact surfaces to reduce HuNoV. One minute treatments with 350 ppm chlorine dioxide dissolved in water did not reduce PGM-MB binding, suggesting that the sanitizer may not be suitable for HuNoV inactivation in liquid form. However a 60-min treatment with 350 ppm chlorine dioxide did reduce human norovirus by 2.8 log₁₀, indicating that chlorine dioxide had some, albeit limited, activity against HuNoV. Results also suggest that peroxyacetic acid has limited effectiveness against human norovirus, since 1-min treatments with up to 195 ppm reduced human norovirus binding by <1 log₁₀. Hydrogen peroxide (4%) treatment of up to 60 min resulted in minimal binding reduction (~0.1 log₁₀) suggesting that H₂O₂ is not a good liquid sanitizer for HuNoV. Overall this study suggests that HuNoV is remarkably resistant to several commonly used disinfectants and advocates for the use of chlorine (sodium hypochlorite) as a HuNoV disinfectant wherever possible., (Copyright © 2013. Published by Elsevier B.V.)

Published

2014

4. Susceptibility of murine norovirus and hepatitis A virus to electron beam irradiation in oysters and quantifying the reduction in potential infection risks.

Author

Praveen C, Dancho BA, Kingsley DH, Calci KR, Meade GK, Mena KD, and Pillai SD

Subjects

Animals, Dose-Response Relationship, Radiation, Particle Accelerators, Radiometry, Electrons, Food Contamination prevention & control, Food-Processing Industry methods, Hepatitis A virus radiation effects, Norovirus radiation effects, Ostreidae virology

Abstract

Consumption of raw oysters is an exposure route for human norovirus (NoV) and hepatitis A virus (HAV). Therefore, efficient postharvest oyster treatment technology is needed to reduce public health risks. This study evaluated the inactivation of HAV and the NoV research surrogate, murine norovirus-1 (MNV-1), in oysters (Crassostrea virginica) by electron beam (E-beam) irradiation. The reduction of potential infection risks was quantified for E-beam irradiation technology employed on raw oysters at various virus contamination levels. The E-beam dose required to reduce the MNV and HAV titer by 90% (D(10) value) in whole oysters was 4.05 (standard deviations [SD], ±0.63) and 4.83 (SD, ±0.08) kGy, respectively. Microbial risk assessment suggests that if a typical serving of 12 raw oysters was contaminated with 10(5) PFU, a 5-kGy treatment would achieve a 12% reduction (from 4.49 out of 10 persons to 3.95 out of 10 persons) in NoV infection and a 16% reduction (from 9.21 out of 10 persons to 7.76 out of 10 persons) in HAV infections. If the serving size contained only 10(2) PFU of viruses, a 5-kGy treatment would achieve a 26% reduction (2.74 out of 10 persons to 2.03 out of 10 persons) of NoV and 91% reduction (2.1 out of 10 persons to 1.93 out of 100 persons) of HAV infection risks. This study shows that although E-beam processing cannot completely eliminate the risk of viral illness, infection risks can be reduced.

Published

2013

5. Resilience of norovirus GII.4 to freezing and thawing: implications for virus infectivity.

Author

Richards GP, Watson MA, Meade GK, Hovan GL, and Kingsley DH

Subjects

Food Microbiology, Genome, Viral, Genotype, Glycoproteins metabolism, Humans, Reverse Transcriptase Polymerase Chain Reaction, Ribonucleases pharmacology, Water Microbiology, Caliciviridae Infections virology, Capsid drug effects, Food Handling methods, Foodborne Diseases virology, Freezing, Norovirus genetics, RNA, Viral metabolism

Abstract

Genogroup II.4 norovirus (NoV) remains the predominant NoV strain in food- and water-borne outbreaks. Capsid integrity as well as viral RNA persistence were determined for GII.4 NoV by real-time RT-PCR after 1-14 freeze/thaw (F/T) cycles (-80 °C/+22 °C) or after -80 °C storage for up to 120 days. In both cases, capsid integrity and viral RNA titers remained stable. RNase was exogenously added after 1-14 F/T cycles, but did not alter the amount of genomic NoV RNA detected, indicating that capsids remained intact. Presumptive NoV infectivity was evaluated in functional studies by a porcine gastric mucin binding assay. Viruses frozen and thawed up to 14× bound similarly to porcine mucin, suggesting no reduction in virus infectivity. Overall, this study shows that a) NoV particles retain their integrity for at least 14 F/T cycles, b) long-term (120 day) frozen storage does not decrease NoV RNA titers, and c) capsid binding to receptor-like glycoprotein moieties remains unaltered after 14 F/T cycles. This work indicates that freezing and thawing of foods or beverages would not be a practical processing intervention to reduce NoV contamination. Likewise, repeated freezing and thawing, as might be encountered during winter months, is not expected to inactivate NoV in the environment. Results do show that laboratory samples destined for molecular biological analyses or for use as positive controls may be repeatedly frozen and thawed without any anticipated reduction in NoV RNA titers. This study documents the cryostability of NoV capsids and RNA to freezing and thawing and to the possible retention of virus infectivity.

Published

2012

6. High-pressure inactivation of hepatitis A virus within oysters.

Author

Calci KR, Meade GK, Tezloff RC, and Kingsley DH

Subjects

Animals, Viral Plaque Assay, Virology methods, Hepatitis A virus growth & development, Hydrostatic Pressure, Ostreidae virology, Shellfish virology, Virus Inactivation

Abstract

Previous results demonstrated that hepatitis A virus (HAV) could be inactivated by high hydrostatic pressure (HHP) (D. H. Kingsley, D. Hoover, E. Papafragkou, and G. P. Richards, J. Food Prot. 65:1605-1609, 2002); however, direct evaluation of HAV inactivation within contaminated oysters was not performed. In this study, we report confirmation that HAV within contaminated shellfish is inactivated by HHP. Shellfish were initially contaminated with HAV by using a flowthrough system. PFU reductions of >1, >2, and >3 log(10) were observed for 1-min treatments at 350, 375, and 400 megapascals, respectively, within a temperature range of 8.7 to 10.3 degrees C. Bioconcentration of nearly 6 log(10) PFU of HAV per oyster was achieved under simulated natural conditions. These results suggest that HHP treatment of raw shellfish will be a viable strategy for the reduction of infectious HAV.

Published

2005

7. Detection of both hepatitis A virus and Norwalk-like virus in imported clams associated with food-borne illness.

Author

Kingsley DH, Meade GK, and Richards GP

Subjects

Amino Acid Sequence, Animals, Base Sequence, Caliciviridae Infections virology, Commerce, Food Microbiology, Hepatitis A virology, Hepatitis A virus genetics, Humans, Molecular Sequence Data, Norovirus genetics, RNA, Viral analysis, Reverse Transcriptase Polymerase Chain Reaction, Sequence Analysis, DNA, Bivalvia virology, Disease Outbreaks, Gastroenteritis virology, Hepatitis A virus isolation & purification, Norovirus isolation & purification

Abstract

Hepatitis A virus (HAV) and Norwalk-like virus (NLV) were detected by reverse transcription-PCR in clams imported into the United States from China. An epidemiological investigation showed that these clams were associated with five cases of Norwalk-like gastroenteritis in New York State in August 2000 (Food and Drug Administration Import Alert 16-50). They were labeled "cooked" but appeared raw. Viral RNA extraction was performed by using dissected digestive tissues rather than whole shellfish meats; this was followed by glycine buffer elution, polyethylene glycol precipitation, Tri-Reagent treatment, and purification of poly(A) RNA with magnetic beads coupled to poly(dT) oligonucleotides. We identified HAV and NLV as genotype I and genogroup II strains, respectively. Both viruses have high levels of homology to Asian strains. An analysis of fecal coliforms revealed a most-probable number of 93,000/100 g of clam meat, which is approximately 300-fold higher than the hygienic standard for shellfish meats.

Published

2002