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Method for Reducing the Content of Pathogenic Organisms Present in Food Materials

a technology of pathogenic organisms and food materials, applied in the field of improving microbial safety, can solve the problems of serious safety problems, the presence of pathogenic organisms, listeria monocytogenes /i>, etc., and achieve the effect of high production of bacteriocin

Inactive Publication Date: 2008-05-01
CHR HANSEN AS
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0017]In a further aspect, the present invention provides, bacteriocin-producing Pediococcus species for use as an adjunct culture for securing microbial safety of a fermented food product, wherein said culture, when added to a food fermentation process, is being subjected to conditions that are sub-optimal for growth of said species, thereby producing bacteriocin without significantly affecting the acidification profile of the fermentation.DETAILED DISCLOSURE
[0070]The isolated strain is useful for the purposes of the invention described herein. Additionally, it is contemplated that the bacteriocin-producing Pediococcus species may be used as a bioprotective agent for improving safety of all food products.

Problems solved by technology

In particular, a fast pH-lowering may impair the quality and result in a less mature and less complex flavour profile that will force the food product manufacturer to ripen the food product for a longer period of time to reach the same flavour intensity (Tjener et al., 2003).
In manufacturing of fermented food products presence of pathogenic organisms like Listeria monocytogenes may be a problem if the raw materials are contaminated.
This may cause a serious safety problem as consumption of infected food may give rise to lethal listerial infections (listeriosis).
However, the fermentation of sausages was conducted at 38° C. which caused an extensive acid production and thus a very fast drop in pH.
As mentioned above a rapid pH-lowering impairs the general quality of the product and results in a less mature and less complex flavoured profile.
Thus, the adverse influence of Pediococcus acidilactici, on the general quality of the resulting product renders the method unsuitable for food fermentations where the above-mentioned conditions and features apply.
Evidently, Pediococcus spp. are often not well qualified as starter cultures in the manufacturing of food products although the species are known for their potential for reducing the amount of pathogenic organisms e.g. Listeria.

Method used

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  • Method for Reducing the Content of Pathogenic Organisms Present in Food Materials
  • Method for Reducing the Content of Pathogenic Organisms Present in Food Materials
  • Method for Reducing the Content of Pathogenic Organisms Present in Food Materials

Examples

Experimental program
Comparison scheme
Effect test

example 1

Influence of B-LC-20 on pH Development in Sausage Mince.

[0076]The influence of the adjunct culture on acidification is demonstrated and a summary of the pH / time profiles encountered when applying B-LC-20 to sausage mince. Table 1 shows the pH development during the fermentation period as determined every second day and table 2 shows the pH development as determined continuously from 0 to 68 hours.

TABLE 1pH development in sausage mince determined each second dayCodeDay 0Day 2Day 4Day 6Control5.79 ± 0.044.81 ± 0.034.80 ± 0.044.79 ± 0.01(starter culture)Control +5.79 ± 0.014.77 ± 0.014.77 ± 0.014.80 ± 0.04B-LC-20

TABLE 2pH development in sausage mince determinedby continuous measurementHoursCode010203040506068Control5.625.715.585.164.974.864.794.77(starter culture)Control +5.625.705.555.124.914.804.764.76B-LC-20

The results show that there is no significant influence on the final pH of adding the adjunct culture in form of B-LC-20 together with the control culture as compared to adding t...

example 2

Influence of B-CL-20 on Listeria Reduction

Summary of Trials

[0079]Two independent trials to assess the behavior of Listeria in sausages along the ripening process were performed. Three batches were manufactured in each trial. One with the control starter culture non active against Listeria and two batches with the control starter culture together with an antilisteria starter culture added at two different concentrations (B-LC-20, Chr. Hansen A / S). Each batch was inoculated with a cocktail of five Listeria monocytogenes strains (approx. 103 CFU / g) at the time of manufacturing.

[0080]Ripening was done in an adapted versatile environment test chamber Sanyo Model MLR-350H, with a fermentation period for 72 h at 14° C. with 80% RH.

[0081]At the selected times three sausages were sampled from each batch for determining Listeria and Lactic acid Bacteria counts, pH and weight loss.

[0082]The behavior of Listeria was similar in both trials, showing important differences between the control batch...

example 3

Influence of the Adjunct Culture on the Acidification Profile of Different Fermented Sausages

[0117]The influence of the adjunct culture B-LC-20 on the acidification profile of four types of sausages fermented with different starter cultures are demonstrated in FIGS. 1 and 2. In all cases, the addition of the adjunct culture in the sausage mince together with the starter culture did not influence the acidification profile of the sausages significantly. In addition, internal sensory evaluations showed that the sensory quality of the sausages was unchanged by addition of B-LC-20.

OrganismsInoculation, total LABF-1Pediococcus pentosaceus5 × 106 CFU / g minceF-SC-111Lactobacillus sakei1 × 107 CFU / g minceT-SPXPediococcus pentosaceus5.5 × 106 CFU / g mince  T-SC-150Lactobacillus sakei1 × 107 CFU / g mince

Literature

[0118]Foegeding, P. M.; Thomas, A. B.; Pilkington, D. H.; Klaenhammer, T. R. 1992. “Enhanced control of Listeria monocytogenes by in situ-produced pediocin during dry fermented sausage ...

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Abstract

The present invention relates to a method for reducing the concentration of pathogenic organisms such as Listeria spp. in fermented food products. The method comprises the steps of: (i) providing a food material, (ii) mixing said food material with a starter culture, (iii) mixing the food material with at least one adjunct culture in form of a bacteriocin-producing Pediococcus species, (iv) subjecting the mixture provided in step (iii) to a fermentation process, said fermentation process being conducted at conditions that are sub-optimal for growth of the bacteriocin-producing Pediococcus species in order to provide a limited acidification and allow for a high production of bacteriocin, and obtain a fermented food product. Furthermore, the invention relates to the use of bacteriocin-producing Pediococcus species as an adjunct culture for securing microbial safety of fermented food products.

Description

FIELD OF INVENTION[0001]The present invention relates to the field of improving microbial safety in the production of food products. In particular the present invention relates to microbial strains useful for reducing the amount of pathogenic organisms e.g. Listeria when added to a fermented food products, such as a fermented meat productPRIOR ART[0002]During the production of fermented food products, such as e.g. sausage products, a starter culture is most often applied in order to control the fermentation process instead of relying on the natural developing flora. Commonly, the starter culture comprises a combination of one or more lactic acid bacteria (LAB) and one or more species from the Micrococcaceae and Staphylococcaceae families. During the fermentation process the lactic acid bacteria primarily produce lactic acid whereby pH drops to the desired pH-value depending on the culture and the processing conditions (temperature, sugar type / content etc.) and the food product produ...

Claims

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Application Information

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IPC IPC(8): A23B4/12A23L1/03A23L13/40A23L29/00
CPCC12R1/01A23L1/31472A23Y2220/77A23V2002/00A23L3/3571A23L13/45C12N1/205C12R2001/01A23V2400/179C12N1/20
Inventor STAHNKE, MARIE LOUISE HELLER
Owner CHR HANSEN AS
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