Milliner Brendan H A, Tsung James W
Department of Emergency Medicine, Icahn School of Medicine at Mount Sinai, New York, New York, USA.
Department of Pediatrics, Icahn School of Medicine at Mount Sinai, New York, New York, USA.
J Ultrasound Med. 2017 Nov;36(11):2325-2328. doi: 10.1002/jum.14272. Epub 2017 Jun 6.
Lung ultrasound (US) has been shown to be accurate in diagnosing pneumonia in children. Evidence to inform an optimal scanning protocol is limited. Our objective is to describe an optimized lung US scanning protocol for pediatric pneumonia based on the anatomic location and transducer orientation.
We performed a secondary analysis of data and images from 2 prospective lung US studies for the emergency department diagnosis of pneumonia in children (0-21 years). The anatomic location of each lung consolidation was mapped to 1 or more of 6 anatomic zones on the chest, noting the transducer orientation (sagittal or transverse) in which it was identified.
Seventy-eight patients were included; 51% were female, and the median age was 3 years (interquartile range, 1-7 years). Overall, 46.5% (95% CI confidence interval [CI], 37.9%-55.1%) of lung zones with a visible consolidation were posterior; 31.0% (95% CI, 23.0%-39.0%) were anterior; and 22.5% (95% CI, 15.3%-29.1%) were axillary. A total of 54.3% (95% CI, 45.7%-62.9%) of affected lung zones were in the lower lung compared to the upper lung (8.5%; 95% CI, 3.7%-13.3%) and middle lung (37.2%; 95% CI, 28.9%-45.5%). Most lung consolidations were seen in both transducer orientations: 96.2% (95% CI, 92.0%-100%) of patients had a visible consolidation on the transverse view, whereas 85.9% (95% CI, 78.2%-93.6% had a consolidation on the sagittal view.
Efficient lung US scanning may start with the posterior, anterior, and then lateral chest zones if no pneumonia is identified. A transverse transducer orientation detects more pneumonia than a sagittal orientation. Omission of either orientation or any lung zone may miss pneumonia.
肺部超声(US)已被证明在诊断儿童肺炎方面具有准确性。用于指导最佳扫描方案的证据有限。我们的目的是基于解剖位置和探头方向描述一种针对小儿肺炎的优化肺部超声扫描方案。
我们对两项前瞻性肺部超声研究的数据和图像进行了二次分析,这些研究用于急诊科对儿童(0 - 21岁)肺炎的诊断。将每个肺实变的解剖位置映射到胸部的6个解剖区域中的1个或多个区域,并记录识别该实变时的探头方向(矢状面或横断面)。
纳入了78例患者;51%为女性,中位年龄为3岁(四分位间距,1 - 7岁)。总体而言,可见实变的肺区域中,46.5%(95%置信区间[CI],37.9% - 55.1%)位于后部;31.0%(95% CI,23.0% - 39.0%)位于前部;22.5%(95% CI,15.3% - 29.1%)位于腋窝。与上肺(8.5%;95% CI,3.7% - 13.3%)和中肺(37.2%;95% CI,28.9% - 45.5%)相比,54.3%(95% CI,45.7% - 62.9%)的受影响肺区域位于下肺。大多数肺实变在两种探头方向上都可见:96.2%(95% CI,92.0% - 100%)的患者在横断面上可见实变,而85.9%(95% CI,78.2% - 93.6%)在矢状面上可见实变。
如果未发现肺炎,有效的肺部超声扫描可先从胸部的后部、前部,然后是外侧区域开始。横断面探头方向比矢状面方向能检测到更多的肺炎。遗漏任何一个方向或任何肺区域都可能漏诊肺炎。
