Abstract
This study investigated hydrostatic pressure (HP) treatment with the addition of thiamine dilaurylsulfate (TDS) for the microbial safety of the final product (salted-fermented-seasoned short-neck clam) during Jogaejeot-muchim manufacturing process. HP treatment (100–600 MPa) was performed at each step (raw, salted-fermented, and salted-fermented-seasoned short-neck clam) of the Jogaejeot-muchim manufacturing process. The reduction effect on Staphylococcus aureus in the salted-fermented-seasoned short-neck clam step was 1.2 log after 400 MPa treatment, and it was lower than those of raw and salted-fermented short-neck clam steps (4.3 and 4.9 log, respectively) after 400 MPa treatment. To improve the microbial safety of the salted-fermented-seasoned short-neck clam step, TDS (1 g/kg) was added, and 1 log reduction was obtained. In the salted-fermented-seasoned short-neck clam step, HP treatment with TDS addition showed a synergistic effect, and the HP intensity for a 2 log reduction was reduced from 500 to 100 MPa treatment with TDS addition, and a 4 log reduction was achieved by the 300 MPa treatment with addition of TDS. This study concluded that the TDS addition contributed to reducing the intensity of HP treatment required for 99 % inactivation of S. a ureus, and that combined treatment (300 MPa treatment with TDS) can be used to provide microbial safety assurance in Korean Jogaejeot-muchim.
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Ananou S, Garriga M, Jofrè A, Aymerich T, Galves A, Maqueda M, Martines-Bueno M, Valdivia E (2010) Combined effect of enterocin AS-48 and high hydrostatic pressure to control food-borne pathogens inoculated in low acid fermented sausages. Meat Sci 84:594–600
Aymerich MT, Jofré A, Garriga M, Hugas M (2005) Inhibition of Listeria monocytogenes and Salmonella by natural antimicrobials and high hydrostatic pressure in sliced cooked ham. J Food Prot 68:173–177
Buchanan RL, Smith JL, McMolgan C, Marmer BS, Golden M, Dell B (1993) Response surface models for the effects of temperature, pH, sodium chloride, and sodium nitrite on the aerobic and anaerobic growth of Staphylococcus aureus 196E. J Food Saf 13:159–175
Buckenhuskes HJ, Rendlen M (2004) Hygienic problems of phytogenic raw materials for food production with special emphasis to herbs and spices. Food Sci Biotechnol 13:262–268
Cha TJ, Chung SY, Ha JH, Jeong IC, Lee EH (1993) Studies on the processing of low salt fermented sea foods. 3. Changes of microflora during fermentation of low salted sardine. Bull Korean Fish Soc 16:211–215
Chawla R, Patil GR, Singh AK (2011) High hydrostatic pressure technology in dairy processing: a review. J Food Sci Technol 48:260–268
Che SK (1998) Sodium chloride analysis. In: Food analysis, Jigu Publishing Co., Seoul, pp 460–463
Cheftel JC (1995) Review : high-pressure, microbial inactivation and food preservation. Food Sci Technol Int 1:75–90
Choi M-R, Jeong S-G, Liu Q, Ban G-H, Lee S-Y, Park J-Q, Kang D-H (2015) Effect of thiamine dilaurylsulfate against Escherichia coli O157:H7, Salmonella typhimurium, Listeria monocytogenes and Bacillus cereus spores in custard cream. LWT-Food Sci Technol 60:320–324
Corbo MR, Bevilacqua A, Campaniello D, D’amato D, Speranza B, Sinigaglia M (2009) Prolonging microbial shelf life of foods through the use of natural compounds and non-thermal approaches-a review. Int J Food Sci Technol 44:223–241
Guan D, Chen H, Ting EY, Hoover DG (2006) Inactivation of Staphylococcus aureus and Escherichia coli O157:H7 under isothermal-endpoint pressure conditions. J Food Eng 77:620–627
Ham HJ, Jin YH (2002) Bacterial distribution of salt-fermented fishery products in Seoul Garak wholesale market. J Food Hyg Saf 17:173–177
Koivunen J, Heinonen-Tanski H (2005) Inactivation of enteric microorganisms with chemical disinfectants, UV irradiation and combined chemical/UV treatments. Water Res 39:1519–1526
Koseki S, Yamamoto K (2007) Water activity of bacterial suspension media unable to account for the baroprotective effect of solute concentration on the inactivation of Listeria monocytoge nes by high hydrostatic pressure. Int J Food Microbiol 115:43–47
Lambert RJW, Bidlas E (2007) An investigation of the gamma hypothesis: a predictive modeling study on the effect of combined inhibitors (salt, pH and weak acids) on the growth of Aeromonas hydrophila. Int J Food Microbiol 115:12–28
Leistner L (1978) Hurdle effect and energy saving. In: Downey WK (ed) Food quality and nutrition. Applied Science Publishers, London, pp 553–557
Leistner L (2000) Basic aspects of food preservation by hurdle technology. Int J Food Microbiol 55:181–186
Marcos B, Jofre A, Aymerich T, Monfort JM, Garriga M (2008) Combined effect of natural antimicrobials and high pressure processing to prevent Listeria monocytogenes growth after a cold chain break during storage of cooked ham. Food Control 19:76–81
Mok C, Song KT (2000) High hydrostatic pressure sterilization of putrefactive bacteria in salted and fermented shrimp with different salt content. Korean J Food Sci Technol 32:598–603
Oh SR, Park SY, Ha SD (2014) Combined effects of chlorine and thiamine dilauryl sulfate in reduction of Listeria monocytogenes in chicken breast and development of predictive growth models. Poult Sci 93:1503–1510
Patterson MF, Quinn M, Simpson R, Gilmour A (1995) Sensitivity of vegetative pathogens to high hydrostatic pressure treatment in phosphate-buffered saline and foods. J Food Prot 5:524–529
Patterson MF, Mackle A, Linton M (2011) Effect of high pressure, in combination with antilisterial agents, on the growth of Listeria monocytogenes during extended storage of cooked chicken. Food Microbiol 28:1505–1508
Pina-Pérez MC, Silva-Angulo AB, Muguerza-Marquínes B, Aliaga DR, López AM (2009) Synergistic effect of high hydrostatic pressure and natural antimicrobials on inactivation kinetics of Bacillus cereus in a liquid whole egg and skim milk mixed beverage. Foodborne Pathog Dis 6:649–656
Pulido RP, Árbol T, Burgos JG, Gálvez A (2012) Bactericidal effects of high hydrostatic pressure treatment singly or in combination with natural antimicrobials on Staphylococcus aureus in rice pudding. Food Control 28:19–24
Ross AIV, Griffiths MW, Mittal GS, Deeth HC (2003) Combining nonthermal technologies to control foodborne microorganisms. Int J Food Microbiol 89:125–138
Rykke M, Rolla G, Sonju T (1990) Effect of sodium lauryl sulfate on protein adsorption to hydroxyapatite in vitro and on pelicle formation in vivo. J Dent Res 98:135–143
Sàiz AH, Mingo ST, Balda FP, Samson CT (2008) Advances in design for successful commercial high pressure food processing. Food Aust 60:154–156
Shin HW, Lim YH, Lee JK, Kim YJ, Oh SW, Shin CS (2008) Effect of commercial antimicrobials in combination with heat treatment on inactivation of Bacillus cereus spore. Food Sci Biotechnol 17:603–607
Thorsteinsson T, Masson M, Kristinsson KG, Hjálmarsdóttir MA, Hilmarsson H, Loftsson T (2003) Soft antimicrobial agents: synthesis and acticvity of labile environmentally friendly long chain quaternary ammonium compounds. J Med Chem 46:4173–4181
Valero M, Salmeron MC (2003) Antibacterial activity of 11 essential oils against Bacillus cereus in tyndallized carrot broth. Int J Food Microbiol 83:73–81
Wei L, Cheng J, Meng Y, Ren Y, Deng Y, Guo Y (2014) A novel formulation of thiamin dilaurylsulphate and its preservative effect on apple juice and sterilized milk. Food Chem 152:415–422
Wieneke AA, Roberts D, Gilbert RJ (1993) Staphylococcal food poisoning in the United Kingdom, 1969-90. Epidemiol Infect 110:519–531
Zhengyi WX, Zhengshu J (1999) Chronic toxicity test mixed forage with drug of thiamine dilauryl sulfate by the rats. Food additive official comment book, 7th edn. E-publishing, Inc., Tokyo, pp 1–31
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Lee, EJ., Kim, JS. & Kim, YJ. Addition of thiamine dilaurylsulfate to reduce the intensity of hydrostatic pressure treatment for microbial safety of Korean Jogaejeot-muchim (salted-fermented-seasoned short-neck clam). J Korean Soc Appl Biol Chem 58, 937–944 (2015). https://doi.org/10.1007/s13765-015-0125-8
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DOI: https://doi.org/10.1007/s13765-015-0125-8