日本肉鸡群中沙门氏菌属表型的变化。

Food safety (Tokyo, Japan) Pub Date : 2024-05-31 eCollection Date: 2024-06-01 DOI:10.14252/foodsafetyfscj.D-24-00001
Yoshika Momose, Yoshimasa Sasaki, Kenzo Yonemitsu, Makoto Kuroda, Tetsuya Ikeda, Masashi Uema, Yoko Furuya, Hajime Toyofuku, Shizunobu Igimi, Tetsuo Asai
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引用次数: 0

摘要

沙门氏菌感染是食源性疾病的主要病因;第三代头孢菌素(TGCs)是治疗人类沙门氏菌肠炎的首选抗菌药,其耐药性已成为全球严重的公共卫生问题。由于食用未煮熟的鸡肉产品是日本食源性沙门氏菌病的主要原因,因此我们在 2017 年至 2022 年的不同时期,与四家屠宰场(东日本和西日本各两家)合作进行了三次调查。第一次调查在位于日本东部的 A 屠宰场进行。在检测的肉鸡群(27/32)中,84.4% 的鸡群检测到沙门氏菌;其中,从一个农场(FA 农场)获得的所有抗 TGC 分离物均被鉴定为 S. Infantis。62.5% 的胸肉样本(20/32)检出沙门氏菌,其中一例表明存在交叉感染。第二项调查在日本西部(屠宰场 B 和 C)和东部(屠宰场 D)的另外三个屠宰场进行,以检查耐 TGC 沙门氏菌的流行情况。在 90.6% 的受检肉鸡群(29/32)中检测到沙门氏菌。直到 2018 年,才从 2 个鸡群中分离出抗 TGC 的 Infantis 沙门氏菌,此后再无分离。随后,这两个地区的分离物均被鉴定为对 TGC 敏感的 S. Schwarzengrund。第三次调查是在 A 屠宰场进行的,目的是弄清表型是否发生了变化。从 FA 农场引进的 11 个肉鸡群中,10 个对沙门氏菌呈阳性(90.9%);所有分离物均为对 TGC 敏感的施瓦曾氏沙门氏菌。这项研究表明,在日本东部和西部的肉鸡群中,对 TGC 易感的 S. Schwarzengrund 已取代了抗性表型。尽管鸡肉产品在屠宰过程中可能会受到沙门氏菌的交叉污染,但降低肉鸡群中沙门氏菌的流行率对于减少人类患沙门氏菌肠炎仍然非常重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Changes in the Phenotypes of Salmonella spp. in Japanese Broiler Flocks.

Salmonella infections represent a leading cause of foodborne illnesses; resistance to third-generation cephalosporins (TGCs), which are a first-choice antimicrobial for treating human Salmonella enteritis, has become a serious public health concern worldwide. Because the consumption of undercooked chicken meat products is a major cause of foodborne salmonellosis in Japan, we conducted three surveys at different periods between 2017 and 2022, with the cooperation of four abattoirs (two in Eastern and two in Western Japan). The first survey was conducted at abattoir A, which is located in Eastern Japan. Salmonella was detected in 84.4% of broiler flocks tested (27/32); among them, all the TGC-resistant isolates obtained from one farm (farm FA) were identified as S. Infantis. Salmonella was recovered from 62.5% of breast meat samples (20/32), with one case suggesting cross-contamination. The second survey was conducted at three other abattoirs to examine the prevalence of TGC-resistant Salmonella, in both Western (abattoirs B and C) and Eastern (abattoir D) Japan. Salmonella was detected in 90.6% of broiler flocks examined (29/32). TGC-resistant S. Infantis was isolated from 2 flocks until 2018 and not thereafter. Subsequently, isolates were identified as TGC-susceptible S. Schwarzengrund in both regions. The third survey was performed at abattoir A to elucidate whether there were changes in the phenotypes. Of the 11 broiler flocks introduced from farm FA, 10 were positive for Salmonella (90.9%); all the isolates were S. Schwarzengrund susceptible to TGC. This study shows that TGC-susceptible S. Schwarzengrund has replaced the resistant phenotypes among broiler flocks in both Eastern and Western Japan. Although chicken meat products could be cross-contaminated with Salmonella during the slaughtering process, reducing the prevalence of Salmonella in broiler flocks remains important to decrease Salmonella enteritis in humans.

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