The Combined Use of High Pressure Processing and Lactic Acid Containing Fermentate on Inactivation of Salmonella, Shiga Toxin-producing E. coli, and Listeria monocytogenes in Raw Pet Foods

•HPP with the addition of LAF enhances pathogen reduction.•LAF may change the relative HPP resistance of pathogens.•Salmonella had >5 log inactivation at 1% LAF and 586 MPa for 4 min.•L. monocytogenes had >5 log inactivation at 1% LAF and 586 MPa for 4 min.•E. coli STEC had the highest inactiv...

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Veröffentlicht in:	Journal of food protection 2024-12, Vol.87 (12), p.100390, Article 100390
Hauptverfasser:	Lee, Alvin, Maks-Warren, Nicole, Aguilar, Viviana, Swicegood, Brittany, Halik, Lindsay, Warren, Joshua, O’Neill, Edward, Meents, Jason, Tejayadi, Susy
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Schlagworte:	Animals Chickens Colony Count, Microbial Fermentation Food Contamination - analysis Food Contamination - prevention & control Food Handling - methods Food Microbiology Food Preservation - methods High pressure processing Humans Lactic Acid Listeria monocytogenes Pathogen reduction Pressure Raw diet petfood Raw Foods - microbiology Salmonella Shiga Toxin-producing E. coli Shiga-Toxigenic Escherichia coli
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creator	Lee, Alvin Maks-Warren, Nicole Aguilar, Viviana Swicegood, Brittany Halik, Lindsay Warren, Joshua O’Neill, Edward Meents, Jason Tejayadi, Susy
description	•HPP with the addition of LAF enhances pathogen reduction.•LAF may change the relative HPP resistance of pathogens.•Salmonella had >5 log inactivation at 1% LAF and 586 MPa for 4 min.•L. monocytogenes had >5 log inactivation at 1% LAF and 586 MPa for 4 min.•E. coli STEC had the highest inactivation at 1% LAF at 586 MPa for 4 min. Raw meat pet foods can pose health risks to pets and humans. High-pressure processing (HPP) was used in a previous study to demonstrate its effectiveness in achieving a 5-log reduction of Salmonella, E. coli STEC, and L. monocytogenes in commercially available raw pet foods and maintaining the 5-log reduction throughout shelf-life with frozen storage being more effective than refrigerated. L. monocytogenes, being more HPP resistant, could potentially regrow when stored at refrigeration temperatures and required further optimization. Chicken-based raw diet pet food was inoculated with 7–8 log CFU/g cocktails of Salmonella spp., E. coli STEC, or L. monocytogenes and stored at 4 °C for 24 h before the addition of either 0.7% or 1.0% w/v lactic acid fermentate (LAF) and HPP treated at 586 MPa for 2, 3, and 4 min after 24 or 72 h storage at 4 °C. HPP-treated products were stored frozen (−10 to −16 °C) up to 21 days with microbiological analyses on days 1, 3, 5, 7, 14, and 21. All HPP-and LAF-treated samples demonstrated a 5-log reduction of Salmonella spp., E. coli STEC, and L. monocytogenes. Samples without LAF and HPP treated after 24 h storage at 4 °C resulted in an average 4.02 log cfu/g reduction of L. monocytogenes with 2 min HPP hold time while longer HPP hold times at 4 min improved L. monocytogenes reduction by 0.35 log cfu/g. E. coli was found to be more HPP resistant in this study than L. monocytogenes and the addition of LAF had a significant impact on the overall pathogen survival during post-HPP storage. Based on qualitative enrichment data for each pathogen, the use of LAF resulted in more complete inactivation compared to samples without LAF. The use of 1% LAF in combination with 586 MPa for 4 min was found to be most effective for the inactivation of Salmonella spp., E. coli STEC, and L. monocytogenes. The findings are significant as it provides both formulation and processing controls to ensure the safety of raw diet pet foods.
doi_str_mv	10.1016/j.jfp.2024.100390
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Raw meat pet foods can pose health risks to pets and humans. High-pressure processing (HPP) was used in a previous study to demonstrate its effectiveness in achieving a 5-log reduction of Salmonella, E. coli STEC, and L. monocytogenes in commercially available raw pet foods and maintaining the 5-log reduction throughout shelf-life with frozen storage being more effective than refrigerated. L. monocytogenes, being more HPP resistant, could potentially regrow when stored at refrigeration temperatures and required further optimization. Chicken-based raw diet pet food was inoculated with 7–8 log CFU/g cocktails of Salmonella spp., E. coli STEC, or L. monocytogenes and stored at 4 °C for 24 h before the addition of either 0.7% or 1.0% w/v lactic acid fermentate (LAF) and HPP treated at 586 MPa for 2, 3, and 4 min after 24 or 72 h storage at 4 °C. HPP-treated products were stored frozen (−10 to −16 °C) up to 21 days with microbiological analyses on days 1, 3, 5, 7, 14, and 21. 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All rights reserved.</rights><lds50>peer_reviewed</lds50><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed><cites>FETCH-LOGICAL-c278t-4799c9df9c0403184c86c1a1d3b64e52a8bb4c4f83cfa24cd10edf4d2c97e66a3</cites></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>315,781,785,865,27929,27930</link.rule.ids><backlink>$$Uhttps://www.ncbi.nlm.nih.gov/pubmed/39490988$$D View this record in MEDLINE/PubMed$$Hfree_for_read</backlink></links><search><creatorcontrib>Lee, Alvin</creatorcontrib><creatorcontrib>Maks-Warren, Nicole</creatorcontrib><creatorcontrib>Aguilar, Viviana</creatorcontrib><creatorcontrib>Swicegood, Brittany</creatorcontrib><creatorcontrib>Halik, Lindsay</creatorcontrib><creatorcontrib>Warren, Joshua</creatorcontrib><creatorcontrib>O’Neill, Edward</creatorcontrib><creatorcontrib>Meents, Jason</creatorcontrib><creatorcontrib>Tejayadi, Susy</creatorcontrib><title>The Combined Use of High Pressure Processing and Lactic Acid Containing Fermentate on Inactivation of Salmonella, Shiga Toxin-producing E. coli, and Listeria monocytogenes in Raw Pet Foods</title><title>Journal of food protection</title><addtitle>J Food Prot</addtitle><description>•HPP with the addition of LAF enhances pathogen reduction.•LAF may change the relative HPP resistance of pathogens.•Salmonella had >5 log inactivation at 1% LAF and 586 MPa for 4 min.•L. monocytogenes had >5 log inactivation at 1% LAF and 586 MPa for 4 min.•E. coli STEC had the highest inactivation at 1% LAF at 586 MPa for 4 min. Raw meat pet foods can pose health risks to pets and humans. High-pressure processing (HPP) was used in a previous study to demonstrate its effectiveness in achieving a 5-log reduction of Salmonella, E. coli STEC, and L. monocytogenes in commercially available raw pet foods and maintaining the 5-log reduction throughout shelf-life with frozen storage being more effective than refrigerated. L. monocytogenes, being more HPP resistant, could potentially regrow when stored at refrigeration temperatures and required further optimization. Chicken-based raw diet pet food was inoculated with 7–8 log CFU/g cocktails of Salmonella spp., E. coli STEC, or L. monocytogenes and stored at 4 °C for 24 h before the addition of either 0.7% or 1.0% w/v lactic acid fermentate (LAF) and HPP treated at 586 MPa for 2, 3, and 4 min after 24 or 72 h storage at 4 °C. HPP-treated products were stored frozen (−10 to −16 °C) up to 21 days with microbiological analyses on days 1, 3, 5, 7, 14, and 21. All HPP-and LAF-treated samples demonstrated a 5-log reduction of Salmonella spp., E. coli STEC, and L. monocytogenes. Samples without LAF and HPP treated after 24 h storage at 4 °C resulted in an average 4.02 log cfu/g reduction of L. monocytogenes with 2 min HPP hold time while longer HPP hold times at 4 min improved L. monocytogenes reduction by 0.35 log cfu/g. E. coli was found to be more HPP resistant in this study than L. monocytogenes and the addition of LAF had a significant impact on the overall pathogen survival during post-HPP storage. Based on qualitative enrichment data for each pathogen, the use of LAF resulted in more complete inactivation compared to samples without LAF. The use of 1% LAF in combination with 586 MPa for 4 min was found to be most effective for the inactivation of Salmonella spp., E. coli STEC, and L. monocytogenes. The findings are significant as it provides both formulation and processing controls to ensure the safety of raw diet pet foods.</description><subject>Animals</subject><subject>Chickens</subject><subject>Colony Count, Microbial</subject><subject>Fermentation</subject><subject>Food Contamination - analysis</subject><subject>Food Contamination - prevention & control</subject><subject>Food Handling - methods</subject><subject>Food Microbiology</subject><subject>Food Preservation - methods</subject><subject>High pressure processing</subject><subject>Humans</subject><subject>Lactic Acid</subject><subject>Listeria monocytogenes</subject><subject>Pathogen reduction</subject><subject>Pressure</subject><subject>Raw diet petfood</subject><subject>Raw Foods - microbiology</subject><subject>Salmonella</subject><subject>Shiga Toxin-producing E. coli</subject><subject>Shiga-Toxigenic Escherichia coli</subject><issn>0362-028X</issn><issn>1944-9097</issn><issn>1944-9097</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2024</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp9kcFu1DAURS0EokPhA9ggL1k0g-2YJBaratShlUaiolOJneU8v8x4NLEHO2npv_FxOEphycrvyude--kS8p6zJWe8-nRYHrrTUjAhs2alYi_IgispC8VU_ZIsWFmJgonmxxl5k9KBMSaUqF6Ts1LJjDTNgvze7pGuQt86j5beJ6Sho9dut6e3EVMaI-YhQB6d31HjLd0YGBzQS3A2G_1gnJ-u1hh7zGrICZ7e-Il6MIPLIifemWMfPB6P5oLe7d3O0G345XxxisGOMPmvlhTC0V3Mb7g0YHSGZlOApyHs0GOiztPv5pHe4kDXIdj0lrzqzDHhu-fznNyvr7ar62Lz7evN6nJTgKiboZC1UqBsp4BJVvJGQlMBN9yWbSXxszBN20qQXVNCZ4QEyxnaTloBqsaqMuU5-Tjn5u_-HDENuncJpm08hjHpkouyYWVdiYzyGYUYUorY6VN0vYlPmjM9laYPOpemp9L0XFr2fHiOH9se7T_H35Yy8GUGMC_54DDqBA49oHURYdA2uP_E_wHc2qoO</recordid><startdate>20241201</startdate><enddate>20241201</enddate><creator>Lee, Alvin</creator><creator>Maks-Warren, Nicole</creator><creator>Aguilar, Viviana</creator><creator>Swicegood, Brittany</creator><creator>Halik, Lindsay</creator><creator>Warren, Joshua</creator><creator>O’Neill, Edward</creator><creator>Meents, Jason</creator><creator>Tejayadi, Susy</creator><general>Elsevier Inc</general><scope>6I.</scope><scope>AAFTH</scope><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope></search><sort><creationdate>20241201</creationdate><title>The Combined Use of High Pressure Processing and Lactic Acid Containing Fermentate on Inactivation of Salmonella, Shiga Toxin-producing E. coli, and Listeria monocytogenes in Raw Pet Foods</title><author>Lee, Alvin ; 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Raw meat pet foods can pose health risks to pets and humans. High-pressure processing (HPP) was used in a previous study to demonstrate its effectiveness in achieving a 5-log reduction of Salmonella, E. coli STEC, and L. monocytogenes in commercially available raw pet foods and maintaining the 5-log reduction throughout shelf-life with frozen storage being more effective than refrigerated. L. monocytogenes, being more HPP resistant, could potentially regrow when stored at refrigeration temperatures and required further optimization. Chicken-based raw diet pet food was inoculated with 7–8 log CFU/g cocktails of Salmonella spp., E. coli STEC, or L. monocytogenes and stored at 4 °C for 24 h before the addition of either 0.7% or 1.0% w/v lactic acid fermentate (LAF) and HPP treated at 586 MPa for 2, 3, and 4 min after 24 or 72 h storage at 4 °C. HPP-treated products were stored frozen (−10 to −16 °C) up to 21 days with microbiological analyses on days 1, 3, 5, 7, 14, and 21. All HPP-and LAF-treated samples demonstrated a 5-log reduction of Salmonella spp., E. coli STEC, and L. monocytogenes. Samples without LAF and HPP treated after 24 h storage at 4 °C resulted in an average 4.02 log cfu/g reduction of L. monocytogenes with 2 min HPP hold time while longer HPP hold times at 4 min improved L. monocytogenes reduction by 0.35 log cfu/g. E. coli was found to be more HPP resistant in this study than L. monocytogenes and the addition of LAF had a significant impact on the overall pathogen survival during post-HPP storage. Based on qualitative enrichment data for each pathogen, the use of LAF resulted in more complete inactivation compared to samples without LAF. The use of 1% LAF in combination with 586 MPa for 4 min was found to be most effective for the inactivation of Salmonella spp., E. coli STEC, and L. monocytogenes. The findings are significant as it provides both formulation and processing controls to ensure the safety of raw diet pet foods.</abstract><cop>United States</cop><pub>Elsevier Inc</pub><pmid>39490988</pmid><doi>10.1016/j.jfp.2024.100390</doi><oa>free_for_read</oa></addata></record>
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subjects	Animals Chickens Colony Count, Microbial Fermentation Food Contamination - analysis Food Contamination - prevention & control Food Handling - methods Food Microbiology Food Preservation - methods High pressure processing Humans Lactic Acid Listeria monocytogenes Pathogen reduction Pressure Raw diet petfood Raw Foods - microbiology Salmonella Shiga Toxin-producing E. coli Shiga-Toxigenic Escherichia coli
title	The Combined Use of High Pressure Processing and Lactic Acid Containing Fermentate on Inactivation of Salmonella, Shiga Toxin-producing E. coli, and Listeria monocytogenes in Raw Pet Foods
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