与犬呼吸疾病气管冲洗液临床解读相关的因素:281 例病例(2012-2017 年)。
Factors associated with clinical interpretation of tracheal wash fluid from dogs with respiratory disease: 281 cases (2012-2017).
机构信息
Department of Clinical Sciences, College of Veterinary Medicine, North Carolina State University, Raleigh, North Carolina, USA.
Department of Population Health and Pathobiology, College of Veterinary Medicine, North Carolina State University, Raleigh, North Carolina, USA.
出版信息
J Vet Intern Med. 2021 Mar;35(2):1073-1079. doi: 10.1111/jvim.16052. Epub 2021 Feb 5.
BACKGROUND
Clinicians face several dilemmas regarding tracheal washes (TWs) for the diagnosis of respiratory disease, including method and prediction of bacterial growth from cytology results.
OBJECTIVE
To compare cytology and culture of endotracheal and transtracheal washes and identify factors associated with discordancy and bacterial growth.
ANIMALS
Two hundred forty-five dogs with respiratory disease.
METHODS
Retrospective study. Tracheal wash submissions were included if cellularity was sufficient for cytologic interpretation and aerobic cultures were performed. Collection technique, cytology, bacterial growth, and antibiotic history were analyzed.
RESULTS
Fewer transtracheal specimens (9/144, 6.3%) were excluded for hypocellularity than endotracheal (28/174, 16.1%); otherwise, results were similar and were combined. Of 281 specimens with cellularity sufficient for interpretation, 97 (34.5%) had bacteria on cytology and 191 (68.0%) had bacterial growth. Cytology positive/culture negative discordancy was uncommon (8/97, 8%). Cytology negative/culture positive discordancy was frequent (102/184, 55.4%), but occurred less often (28/184, 14.2%) when only 1+ growth or greater was considered positive. Oropharyngeal contamination was associated with bacterial growth, but not discordancy. No association was found between antibiotic administration and bacterial growth.
CONCLUSIONS AND CLINICAL IMPORTANCE
Endotracheal wash fluid, in particular, should be screened for gross mucus or turbidity to maximize the likelihood of an adequate specimen. Otherwise, endotracheal and transtracheal specimens were similar. Presence of bacteria on cytology was a good predictor of any growth, while their absence was a good predictor of the absence of growth of 1+ or more. Recent antibiotic usage should not discourage TW culture if there is compelling reason to avoid delay.
背景
临床医生在进行气管冲洗(TW)以诊断呼吸疾病时面临着多个难题,包括方法和细胞学结果预测细菌生长。
目的
比较经气管和经气管冲洗的细胞学和培养结果,并确定与不一致和细菌生长相关的因素。
动物
245 只患有呼吸疾病的狗。
方法
回顾性研究。如果细胞数量足以进行细胞学解释且进行了需氧培养,则纳入气管冲洗标本。分析采集技术、细胞学、细菌生长和抗生素史。
结果
与经气管冲洗相比,经气管冲洗标本因细胞数量少而被排除的比例更低(9/144,6.3%);否则,结果相似,合并在一起。在 281 份具有足够细胞数量进行解释的标本中,97 份(34.5%)的细胞学检查有细菌,191 份(68.0%)有细菌生长。细胞学阳性/培养阴性的不相符并不常见(8/97,8%)。细胞学阴性/培养阳性的不相符更为常见(102/184,55.4%),但当仅考虑 1+或更多生长时,阳性的发生率较低(28/184,14.2%)。口咽污染与细菌生长有关,但与不相符无关。抗生素使用与细菌生长之间未发现关联。
结论和临床意义
特别是经气管冲洗液,应该筛选是否存在大量黏液或混浊,以最大限度地提高获得充分标本的可能性。否则,经气管和经气管冲洗标本相似。细胞学上有细菌存在是任何生长的良好预测指标,而其不存在是 1+或更高生长不存在的良好预测指标。如果有充分的理由避免延误,最近使用抗生素不应阻止进行 TW 培养。
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