Zhang Xiao-Qin, Lei Yu, Tan Xiao-Li, Guo Lu, Huang Xiao-Bo, Yang Fu-Xun, Yu Hua, Liu Xiao-Shu, Wang Yi-Ping, Lu Sen, Pan Ling-Ai
Department of Critical Care Medicine, Sichuan Academy of Medical Sciences and Sichuan Provincial People's Hospital, Chengdu, China.
Genoxor Medical Science and Technology Inc., Taizhou, China.
Front Microbiol. 2022 Mar 23;13:839698. doi: 10.3389/fmicb.2022.839698. eCollection 2022.
The management of perioperative antibiotic options after lung transplantation varies widely around the world, but there is a common trend to limit antibiotic use duration. Metagenomic next-generation sequencing (mNGS) has become a hot spot in clinical pathogen detection due to its precise, rapid, and wide detection spectrum of pathogens. Thus, we defined a new antibiotic regimen adjustment strategy in the very early stage (within 7 days) after lung transplantation mainly depending on mNGS reports combined with clinical conditions to reduce the use of antibiotics. To verify the clinical effect of the strategy, we carried out this research. Thirty patients who underwent lung transplantation were finally included, whose information including etiology, antibiotic adjustment, and the effect of our strategy was recorded. Lung transplant recipients in this study were prescribed with initial antibiotic regimen immediately after surgery; their antibiotic regimens were adjusted according to the strategy. According to our study, the entire effectiveness of the strategy was 90.0% (27/30). Besides, a total of 86 samples containing donor lung tissue, recipient lung tissue, and bronchoalveolar lavage fluid (BALF) were obtained in this study; they were all sent to mNGS test, while BALF was also sent to pathogen culture. Their results showed that the positive rate of BALF samples was higher (86.67%) than that of donor's lung tissue (20.0%) or recipient's lung tissue (13.33%) by mNGS test, indicating BALF samples are more valuable than other clinical samples from early postoperative period to guide the early adjustment of antibiotics after lung transplantation. It is effective for mNGS combined with traditional methods and clinical situations to optimize antibiotic regimens in lung transplantation recipients within 7 days after surgery.
肺移植围手术期抗生素选择的管理在世界各地差异很大,但限制抗生素使用时长是一个普遍趋势。宏基因组下一代测序(mNGS)因其对病原体检测精确、快速且检测谱广,已成为临床病原体检测的热点。因此,我们制定了一种肺移植术后极早期(7天内)的新抗生素方案调整策略,主要依据mNGS报告并结合临床情况来减少抗生素的使用。为验证该策略的临床效果,我们开展了此项研究。最终纳入30例接受肺移植的患者,记录其病因、抗生素调整情况及我们策略的效果。本研究中的肺移植受者术后立即给予初始抗生素方案;其抗生素方案根据该策略进行调整。根据我们的研究,该策略的整体有效率为90.0%(27/30)。此外,本研究共获取了86份包含供体肺组织、受体肺组织和支气管肺泡灌洗(BALF)液的样本;所有样本均送去进行mNGS检测,同时BALF液也送去进行病原体培养。结果显示,通过mNGS检测,BALF样本的阳性率(86.67%)高于供体肺组织(20.0%)或受体肺组织(13.33%),表明从术后早期到指导肺移植术后抗生素的早期调整,BALF样本比其他临床样本更有价值。mNGS结合传统方法及临床情况,对优化肺移植受者术后7天内的抗生素方案是有效的。
