下一代测序技术在感染性足部溃疡病原体鉴定中的应用
Next-Generation Sequencing for Pathogen Identification in Infected Foot Ulcers.
作者信息
Choi Yoonjung, Oda Eimi, Waldman Olivia, Sajda Thomas, Beck Christopher, Oh Irvin
机构信息
Department of Orthopaedics and Rehabilitation, University of Rochester Medical Center, Rochester, NY, USA.
Jacobs School of Medicine and Biomedical Sciences, University at Buffalo, Buffalo, NY, USA.
出版信息
Foot Ankle Orthop. 2021 Jul 12;6(3):24730114211026933. doi: 10.1177/24730114211026933. eCollection 2021 Jul.
BACKGROUND
Accurate identification of primary pathogens in foot infections remains challenging due to the diverse microbiome. Conventional culture may show false-positive or false-negative growth, leading to ineffective postoperative antibiotic treatment. Next-generation sequencing (NGS) has been explored as an alternative to standard culture in orthopedic infections. NGS is highly sensitive and can detect an entire bacterial genome along with genes conferring antibiotic resistance in a given sample. We investigated the potential use of NGS for accurate identification and quantification of microbes in infected diabetic foot ulcer (DFU). We hypothesize that NGS will aid identification of dominant pathogen and provide a more complete profile of microorganisms in infected DFUs compared to the standard culture method.
METHODS
Data were prospectively collected from 30 infected DFU patients who underwent operative treatment by a fellowship-trained orthopedic foot and ankle surgeon from October 2018 to September 2019. The average age of the patient was 60.4 years. Operative procedures performed were irrigation and debridement (12), toe or ray amputation (13), calcanectomies (4), and below-the-knee amputation (1). Infected bone specimens were obtained intraoperatively and processed for standard culture and NGS. Concordance between the standard culture and NGS was assessed.
RESULTS
In 29 of 30 patients, pathogens were identified by both NGS and culture, with a concordance rate of 70%. In standard culture, (58.6%) was the most common pathogen, followed by coagulase-negative (24.1%), (17.2%), and (17.2%). In NGS, (44.8%) was the most common microorganism followed by (41.4%), and (24.1%). On average, NGS revealed 5.1 (range, 1-11) pathogens in a given sample, whereas culture revealed 2.6 (range, 1-6) pathogens.
CONCLUSION
NGS is an emerging molecular diagnostic method of microbial identification in orthopedic infection. It frequently provides different profiles of microorganisms along with antibiotic-resistant gene information compared to conventional culture in polymicrobial foot infection. Clinical use of NGS for management of foot and ankle infections warrants further investigation.
LEVEL OF EVIDENCE
Level II, diagnostic study.
背景
由于微生物群落的多样性,准确识别足部感染的主要病原体仍然具有挑战性。传统培养可能会出现假阳性或假阴性生长,导致术后抗生素治疗无效。下一代测序(NGS)已被探索作为骨科感染中标准培养的替代方法。NGS高度敏感,能够在给定样本中检测整个细菌基因组以及赋予抗生素抗性的基因。我们研究了NGS在准确识别和定量感染性糖尿病足溃疡(DFU)中的微生物的潜在用途。我们假设,与标准培养方法相比,NGS将有助于识别主要病原体,并提供感染性DFU中微生物更完整的概况。
方法
前瞻性收集了2018年10月至2019年9月期间由一名接受过专科培训的骨科足踝外科医生进行手术治疗的30例感染性DFU患者的数据。患者的平均年龄为60.4岁。所进行的手术操作包括冲洗和清创术(12例)、趾或跖骨截除术(13例)、跟骨切除术(4例)和膝下截肢术(1例)。术中获取感染的骨标本并进行标准培养和NGS检测。评估标准培养和NGS之间的一致性。
结果
30例患者中有29例通过NGS和培养均鉴定出病原体,一致率为70%。在标准培养中,金黄色葡萄球菌(58.6%)是最常见的病原体,其次是凝固酶阴性葡萄球菌(24.1%)、肠杆菌科细菌(17.2%)和肠球菌(17.2%)。在NGS检测中,葡萄球菌(44.8%)是最常见的微生物,其次是肠杆菌科细菌(41.4%)和肠球菌(24.1%)。平均而言,NGS在给定样本中检测到5.1种(范围为1 - 11种)病原体,而培养检测到2.6种(范围为1 - 6种)病原体。
结论
NGS是骨科感染中一种新兴的微生物鉴定分子诊断方法。与多微生物足部感染中的传统培养相比,它经常提供不同的微生物概况以及抗生素抗性基因信息。NGS在足踝感染管理中的临床应用值得进一步研究。
证据水平
二级,诊断性研究。
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