Effect of Dietary &lt;i&gt;Bacillus Subtilis &lt;/i&gt;C14 and RX7 Strains on Growth Performance, Blood Parameter, and Intestinal Microbiota in Broiler Chickens Challenged with &lt;i&gt;Salmonella Gallinarum&lt;/i&gt;

Park, Jaehong; Kim, Yongmin; Kang, Dae‐Kyung; Kim, Inho

doi:10.2141/jpsa.0160078

Cited by 7 publications

(8 citation statements)

References 28 publications

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“…B. subtilis strains have been shown before to reduce pathogens like E. coli (La Ragione et al, 2001) and Salmonella (La Ragione and Woodward, 2003) in the intestine by means of competitive exclusion. Some B. subtilis strains have been shown to promote the colonization of Lactobacillus in chicken intestine (Park et al, 2017), thereby acidifying the intestine and making it an unfriendly environment for C. jejuni. B. subtilis is also known to produce antimicrobials (Tamehiro et al, 2002;Huang et al, 2009;Efremenkova et al, 2016) that might act in the gut, although it is not clear whether these would be expressed in the broiler intestine.…”

Section: Discussionmentioning

confidence: 99%

“…Adding probiotics as feed/water supplements represents a good Campylobacter control strategy (Koutsoumanis et al, 2020). B. subtilis probiotics have been shown to have immunomodulatory effects in the gut and to modulate the gut microbiota (Hayashi et al, 2018), promote muscle development and meat quality (Zhou et al, 2015), and promote growth, feed conversion and body weight in chickens with potential anti-pathogenic effects, due to their good enzymatic activity (Fritts et al, 2000;Hmani et al, 2017;Park et al, 2017). Although such an intervention might increase production costs somewhat, and consequently the cost of the food on the market, it can also be a cost-effective intervention when the addition of probiotics reduces the risk of Campylobacter and simultaneously increases the growth performance (van Wagenberg et al, 2020).…”

Section: Discussionmentioning

confidence: 99%

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Bacillus subtilis PS-216 Spores Supplemented in Broiler Chicken Drinking Water Reduce Campylobacter jejuni Colonization and Increases Weight Gain

et al. 2022

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Campylobacter jejuni is the leading cause of bacterial gastroenteritis, or campylobacteriosis, in humans worldwide, and poultry serves as a major source of infection. To reduce the risk associated with C. jejuni transmission via poultry meat, effective interventions during poultry production are needed, and the use of probiotics is a promising approach. In this study, 15 Bacillus subtilis strains were initially screened for their anti-Campylobacter activities. B. subtilis PS-216 strain demonstrated the best anti-Campylobacter activity against 15 C. jejuni isolates when examined using in vitro co-cultures. To evaluate the suitability of B. subtilis PS-216 for probiotic use, its susceptibility to eight clinically important antimicrobials and simulated gastric conditions was investigated. B. subtilis PS-216 was sensitive to all of the tested antibiotics. Although vegetative cells were sensitive to gastric conditions, B. subtilis PS-216 spores were highly resistant. We further evaluated the use of a B. subtilis PS-216 spore preparation (2.5 × 106 CFU/mL water) to prevent and/or reduce C. jejuni colonization in broiler chickens in vivo. Compared to the untreated group, significantly lower Campylobacter counts were detected in caeca of broilers continuously treated with B. subtilis PS-216 spores in their drinking water. Furthermore, broilers continuously treated with B. subtilis PS-216 spores showed improved weight gain, compared to the control group. Together, these results demonstrate the potential of B. subtilis PS-216 for use in poultry to reduce C. jejuni colonization and improve weight gain.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Bacillus subtilis PS-216 Spores Supplemented in Broiler Chicken Drinking Water Reduce Campylobacter jejuni Colonization and Increases Weight Gain

et al. 2022

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“…For example, an administration of Bacillus Subtilis led to an increase in the abundance of Lactobacillus (Khan & Chousalkar, 2020b;Park et al, 2017;Xing et al, 2021). The administration of probiotics reduced/ prevented the establishment of Salmonella in the gastro-intestinal tract regardless of its serovar (Chen et al, 2020;Deng et al, 2021;Hayashi et al, 2018;Jazi et al, 2019;Khan & Chousalkar, 2020a;Mountzouris et al, 2015;Olnood et al, 2015;Park et al, 2017) but also in other compartments such as the liver or the spleen what could be explain by the increase in intestinal permeability (Hayashi et al, 2018;Jazi et al, 2019;Khan & Chousalkar, 2020a, 2020bXing et al, 2021). In some studies, probiotics have also reduced the www.efsa.europa.eu/publications EFSA Supporting publication 2024:EN-8597…”

Section: Effect Of Gastrointestinal Microbiota Modulators On Salmonel...mentioning

confidence: 99%

“…In some cases, the use of probiotics has prevented Salmonella-induced weight loss (Chen et al, 2020;Deng et al, 2021;Jazi et al, 2019;Mountzouris et al, 2015;Park et al, 2017). This can be explained by the decrease in diarrhea (Deng et al, 2021), the increase in the intestinal villi height (Chen et al, 2020;Deng et al, 2021;Jazi et al, 2019) but also the decrease in inflammatory and oxidative markers (Adhikari et al, 2019;Chang et al, 2019Chang et al, , 2020Chen et al, 2020;Deng et al, 2021;Park et al, 2017).…”

Section: Effect Of Gastrointestinal Microbiota Modulators On Salmonel...mentioning

confidence: 99%

Roadmap for the integration of gastro‐intestinal (GI) tract microbiomes (human and domestic animal) in risk assessments under EFSA's remit

Moreno,

Pazos,

Garrido‐Romero

et al. 2024

EFSA Supporting Publications

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This report describes the work developed during the execution of the Review Impact MICrobiome In Assesment (RIMICIA) project. This project has performed a comprehensive and critical assessment of the evidence-based research about: i) the impact of dietary compounds in the human and some domestic animals (i.e., poultry, ruminants and pigs) gut microbiome; ii) the most representative in vitro and in vivo models of the human gut microbiota currently used in microbiome research studies; and iii) the methodology used to measure changes in the microbiota. This project has also gathered and appraised information www.efsa.europa.eu/publications EFSA Supporting publication 2024:EN-8597The present document has been produced and adopted by the bodies identified above as authors. In accordance with Article 36 of Regulation (EC) No 178/2002, this task has been carried out exclusively by the authors in the context of a grant agreement between the European Food Safety Authority and the authors. The present document is published complying with the transparency principle to which the Authority is subject. It cannot be considered as an output adopted by the Authority. The European Food Safety Authority reserves its rights, view and position as regards the issues addressed and the conclusions reached in the present document, without prejudice to the rights of the authors.2Organisation for Economic Co-operation and Development (OECD) or other international test guidelines and, ultimately, into regulatory programs.

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“…There is a large number of studies with data showing that addition of Bacillus [58,208,[210][211][212][213][214][215][216][217][218][220][221][222][223][224]226] and lactic acid bacteria (LAB) based DFM additives [26,46,47,103,180,182,208,210,[228][229][230]234,235] to feed can be effective against Salmonella in broilers, while Saccharomyces [26,[242][243][244] and combinations of Saccharomyces and bacteria [240,246,247,249] also may be effective. Bacillus-based DFMs are particularly suited to use as feed additives as Bacillus is a spore-forming organism, giving it resistance to stress during storage and the high temperatures used in the feed pelleting process [206].…”

Section: Direct Fed Microbials (Dfms)mentioning

confidence: 99%

Advances in Enteropathogen Control Throughout the Meat Chicken Production Chain

Stewart¹,

Pavic²

2022

Preprint

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Enteropathogens, namely Salmonella and Campylobacter, are a concern in global public health and have been attributed in numerous risk assessments to a poultry source. During the last decade a large body of research addressing this problem has been published. The literature reviewed contains review articles on certain aspects of poultry production chain, however in the past decade there hasn’t been a review on the through production chain, farm to fork, production of poultry. This review, a pool of 514 articles were selected for relevance via a systematic screening process (from >7500 original search articles). These studies identified a diversity of management and intervention strategies for the elimination or reduction of enteropathogens in poultry production. Many studies were laboratory or limited field trials with implementation in true commercial operations being problematic. Entities considering using commercial anti-enteropathogen products and interventions are advised to perform an internal validation and fit for purpose trial as Salmonella and Campylobacter serovars and biovars may have regional diversity. Future research should focus on non-chemical application within the processing plant and how synergistic through chain intervention may contribute to reducing the overall carcass burden of enteropathogen, coupled with increased consumer education on safe handling and cooking of poultry.

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Effect of Dietary <i>Bacillus Subtilis </i>C14 and RX7 Strains on Growth Performance, Blood Parameter, and Intestinal Microbiota in Broiler Chickens Challenged with <i>Salmonella Gallinarum</i>

Cited by 7 publications

References 28 publications

Bacillus subtilis PS-216 Spores Supplemented in Broiler Chicken Drinking Water Reduce Campylobacter jejuni Colonization and Increases Weight Gain

Bacillus subtilis PS-216 Spores Supplemented in Broiler Chicken Drinking Water Reduce Campylobacter jejuni Colonization and Increases Weight Gain

Roadmap for the integration of gastro‐intestinal (GI) tract microbiomes (human and domestic animal) in risk assessments under EFSA's remit

Advances in Enteropathogen Control Throughout the Meat Chicken Production Chain

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