David T. Laird scite author profile

David T. Laird

3Publications

40Citation Statements Received

18Citation Statements Given

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Affiliations

Institute for Food Safety and Health, United States Food and Drug Administration, Center for Food Safety and Applied Nutrition

Publications

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Survival of Hepatitis A Virus in Spinach during Low Temperature Storage

Shieh

Stewart

Laird

2009

Journal of Food Protection

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Spinach leaves are frequently consumed raw and have been involved with past foodborne outbreaks. In this study, we examined the survival of hepatitis A virus (HAV) on fresh spinach leaves in moisture- and gas-permeable packages that were stored at 5.4 +/- 1.2 degrees C for up to 42 days. Different eluents including phosphate-buffered saline (PBS), pH 7.5 (with and without 2% serum), and 3% beef extract (pH 7.5 and 8) were compared for how efficiently they recovered viruses from spinach by using a simple elution procedure (<1 h). The recoveries were compared and determined by a plaque assay with FRhK-4 cells. Culture grade PBS containing 2% serum was found to be appropriate for HAV elution from spinach leaves, with an average recovery of 45% +/- 10%. Over 4 weeks of storage at 5.4 +/- 1.2 degrees C, HAV in spinach decreased slightly more than 1 log, with 6.75% of the original titer remaining. HAV survived under refrigerated temperatures on spinach leaves with a D-value of 28.6 days (equivalent to an inactivation rate of -0.035 log of HAV per day, r(2) = 0.88). In comparison, HAV in PBS containing 2% serum under the same storage conditions remained constant throughout 7 weeks. The inactivation rate of -0.035 log each day for HAV on spinach leaves was possibly due to the interaction of the virus and the leaf.

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Temperature-Dependent Survival of Hepatitis A Virus during Storage of Contaminated Onions

Sun

Laird

Shieh

2012

Appl Environ Microbiol

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ABSTRACTPre- or postharvest contamination of green onions by hepatitis A virus (HAV) has been linked to large numbers of food-borne illnesses. Understanding HAV survival in onions would assist in projecting the risk of the disease associated with their consumption. This study defined HAV inactivation rates in contaminated green onions contained in air-permeable, moisture-retaining high-density polyethylene packages that were stored at 3, 10, 14, 20, 21, 22, and 23°C. A protocol was established to recover HAV from whole green onions, with 31% as the average recovery by infectivity assay. Viruses in eluates were primarily analyzed by a 6-well plaque assay on FRhK-4 cells. Eight storage trials, including two trials at 3°C, were conducted, with 3 to 7 onion samples per sampling and 4 to 7 samplings per trial. Linear regression correlation (r2= 0.80 to 0.98) was observed between HAV survival and storage time for each of the 8 trials, held at specific temperatures. Increases in the storage temperature resulted in greater HAV inactivation rates, e.g., a reduction of 0.033 log PFU/day at 3.4 ± 0.3°C versus 0.185 log PFU/day at 23.4 ± 0.7°C. Thus, decimal reduction time (D) values of 30, 14, 11, and 5 days, respectively, were obtained for HAV in onions stored at 3, 10, 14, and 23°C. Further regression analysis determined that 1 degree Celsius increase would increase inactivation of HAV by 0.007 log PFU/day in onions (r2= 0.97). The data suggest that natural degradation of HAV in contaminated fresh produce is minimal and that a preventive strategy is critical to produce safety. The results are useful in predicting the risks associated with HAV contamination in fresh produce.

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Effective hepatitis A virus inactivation during low-heat dehydration of contaminated green onions

et al. 2011

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David T. Laird

Survival of Hepatitis A Virus in Spinach during Low Temperature Storage

Temperature-Dependent Survival of Hepatitis A Virus during Storage of Contaminated Onions

Effective hepatitis A virus inactivation during low-heat dehydration of contaminated green onions

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