Kubra Atilan, Tayfun Ozdem, Canset Nur Aydogan, Tugrul Hosbul
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While MALDI-TOF MS is a valuable tool for identification in clinical diagnostic microbiology, sequencing may be necessary for precise identification. To determine the antibiotic susceptibility profile, various methods can be utilized, including minimum inhibitory concentration determination, disk diffusion testing (Kirby-Bauer test), genotypic resistance assays (PCR and sequencing), and automated systems. The literature reports a limited number of cases associating P. piersonii with human infection. This study contributes to this body of knowledge by reporting a novel case in which P. piersonii was isolated from a tissue sample for the first time. In this case report, the patient achieved recovery following the administration of appropriate antibiotic treatment based on the diagnosis. 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Despite initial predictions suggesting the non-pathogenicity of P. piersonii strains, evidence from observed cases indicates potential pathogenicity. According to documented evidence in the literature, this microorganism is capable of causing severe and life-threatening conditions, including sepsis. Traditional tests, as well as automated systems, may fail to provide complete differentiation due to these similarities. While MALDI-TOF MS is a valuable tool for identification in clinical diagnostic microbiology, sequencing may be necessary for precise identification. To determine the antibiotic susceptibility profile, various methods can be utilized, including minimum inhibitory concentration determination, disk diffusion testing (Kirby-Bauer test), genotypic resistance assays (PCR and sequencing), and automated systems. The literature reports a limited number of cases associating P. piersonii with human infection. This study contributes to this body of knowledge by reporting a novel case in which P. piersonii was isolated from a tissue sample for the first time. In this case report, the patient achieved recovery following the administration of appropriate antibiotic treatment based on the diagnosis. 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引用次数: 0
摘要
2019 年,最初从国际空间站的内部表面分离出 Pantoea piersonii。这种微生物是埃文菌科泛氏菌属中的一个物种,属于肠杆菌目。最近的文献记录了四例分离到它的病例。尽管最初的预测表明 P. piersonii 菌株不具有致病性,但观察到的病例证据表明其具有潜在的致病性。根据文献记载的证据,这种微生物能够引起严重的危及生命的病症,包括败血症。由于这些相似性,传统检测方法和自动化系统可能无法完全区分。虽然 MALDI-TOF MS 是临床诊断微生物学鉴定的重要工具,但要精确鉴定可能还需要测序。要确定抗生素敏感性概况,可采用多种方法,包括最小抑菌浓度测定法、盘扩散试验(柯比-鲍尔试验)、基因型耐药性测定法(PCR 和测序)以及自动化系统。文献报道的皮尔森癣菌与人类感染相关的病例数量有限。本研究报告了一个新病例,首次从组织样本中分离出了皮尔森氏菌,为这一知识体系做出了贡献。在该病例报告中,根据诊断结果给予适当的抗生素治疗后,患者获得了康复。它强调了精确鉴定和了解其致病性的必要性。
A rare case report of tissue infection caused by Pantoea piersonii (basionym Kalamiella piersonii).
In 2019, Pantoea piersonii was initially isolated from the interior surfaces of the International Space Station. This microorganism is a species within the genus Pantoea in the family Erwiniaceae, belonging to the order Enterobacterales. Recent literature has documented four cases of its isolation. Despite initial predictions suggesting the non-pathogenicity of P. piersonii strains, evidence from observed cases indicates potential pathogenicity. According to documented evidence in the literature, this microorganism is capable of causing severe and life-threatening conditions, including sepsis. Traditional tests, as well as automated systems, may fail to provide complete differentiation due to these similarities. While MALDI-TOF MS is a valuable tool for identification in clinical diagnostic microbiology, sequencing may be necessary for precise identification. To determine the antibiotic susceptibility profile, various methods can be utilized, including minimum inhibitory concentration determination, disk diffusion testing (Kirby-Bauer test), genotypic resistance assays (PCR and sequencing), and automated systems. The literature reports a limited number of cases associating P. piersonii with human infection. This study contributes to this body of knowledge by reporting a novel case in which P. piersonii was isolated from a tissue sample for the first time. In this case report, the patient achieved recovery following the administration of appropriate antibiotic treatment based on the diagnosis. It underscores the need for precise identification and understanding of its pathogenicity.