National Virus Reference Laboratory, University College Dublin, Dublin, Ireland.
Division of Medical Microbiology, Galway University Hospital, Galway, Ireland.
Eur J Pediatr. 2024 Jul;183(7):3063-3071. doi: 10.1007/s00431-024-05544-0. Epub 2024 Apr 24.
The major determinant of blood culture (BC) diagnostic performance is blood volume, and pediatric sample volumes are frequently low. We aimed to assess BC volumes in our institution, design an intervention to increase volumes, and assess its impact. All pediatric BCs submitted over a 7-month period to the microbiology laboratory in a university hospital (including emergency department, pediatric ward, and neonatal unit) were included. A pre-intervention period assessed current practice. A multi-faceted intervention (education, guideline introduction, active feedback strategies) was collaboratively designed by all stakeholders. Impact was assessed in a post-intervention period. The main outcome measures included the percentage of samples adequately filled using three measures of sample adequacy (1) manufacturer-recommended minimum validated volume-> 0.5 ml, (2) manufacturer-recommended optimal minimum volume-> 1.0 ml, (3) newly introduced age-specific recommendations. Three hundred ninety-eight pre-intervention and 388 post-intervention samples were included. Initial volumes were low but increased significantly post-intervention (median 0.77 ml vs. 1.52 ml), with multivariable regression analysis estimating volumes increased 89% post-intervention. There were significant increases in all measures of volume adequacy, including an increase in age-appropriate filling (20.4-53.1%), with less improvement in those aged > 3 years. Overall, 68.4% of pathogens were from adequately filled cultures, while 76% of contaminants were from inadequately filled cultures. A pathogen was detected in a higher proportion of adequately filled than inadequately filled cultures (9.4% vs. 2.2%, p < 0.001). Conclusion: Blood volume impacts BC sensitivity, with lower volumes yielding fewer pathogens and more contaminants. Focused intervention can significantly improve volumes to improve diagnostic performance. What is Known: • Blood volume is the major determinant of blood culture positivity, and yet pediatric blood culture volumes are frequently low, resulting in missed pathogens and increased contamination. What is New: • Adequately filled (for age) blood cultures have a pathogen detection rate three times higher than inadequately filled blood cultures. • This interventional study shows that collaboratively designed multi-modal interventions including focus on accurate volume measurement can lead to significant increases in blood volumes and improve blood culture diagnostic performance.
血培养(BC)诊断性能的主要决定因素是血量,而儿科样本量通常较低。我们旨在评估本机构的 BC 量,设计增加血量的干预措施,并评估其影响。在大学医院的微生物实验室(包括急诊部、儿科病房和新生儿科)提交的所有儿科 BC 都包括在内。在预干预阶段评估了当前的做法。所有利益相关者共同设计了多方面的干预措施(教育、指南介绍、积极的反馈策略)。在干预后阶段评估了影响。主要观察指标包括使用三种样本充足性测量方法(1)制造商推荐的最小验证体积->0.5ml,(2)制造商推荐的最佳最小体积->1.0ml,(3)新引入的年龄特异性建议,评估样本充足性的百分比。纳入了 398 例预干预和 388 例干预后样本。初始血量较低,但干预后显著增加(中位数 0.77ml 与 1.52ml),多变量回归分析估计干预后血量增加了 89%。所有血量充足性测量方法均有显著增加,包括年龄适当填充的增加(20.4-53.1%),而年龄>3 岁的患者改善较少。总体而言,68.4%的病原体来自充足填充的培养物,而 76%的污染物来自填充不足的培养物。在充足填充的培养物中检测到病原体的比例高于填充不足的培养物(9.4%比 2.2%,p<0.001)。结论:血量影响 BC 敏感性,较低的血量会导致更少的病原体和更多的污染物。有针对性的干预可以显著增加血量,以提高诊断性能。已知:•血量是血培养阳性的主要决定因素,而儿科血培养量通常较低,导致病原体漏检和污染增加。新内容:•充足(按年龄)填充的血培养物中病原体的检出率是不足血培养物的三倍。•这项干预研究表明,共同设计的多模式干预措施,包括关注准确的体积测量,可以显著增加血量,并提高血培养诊断性能。
