Sim Sook Young, Kim Hyun Gi, Yoon Soo Han, Choi Jong Wook, Cho Sung Min, Choi Mi Sun
Department of Neurosurgery, Inje University Seoul Paik Hospital, Seoul, Korea.
Department of Radiology, Ajou University School of Medicine, Suwon, Korea.
World Neurosurg. 2017 Dec;108:399-406. doi: 10.1016/j.wneu.2017.08.107. Epub 2017 Aug 24.
Diastatic skull fractures (DSFs) in children are difficult to detect in skull radiographs before they develop into growing skull fractures; therefore, little information is available on this topic. However, recent advances in 3-dimensional (3D) computed tomography (CT) imaging technology have enabled more accurate diagnoses of almost all forms of skull fracture. The present study was undertaken to document the clinical characteristics of DSFs in children and to determine whether 3D CT enhances diagnostic accuracy.
Two hundred and ninety-two children younger than 12 years with skull fractures underwent simple skull radiography, 2-dimensional (2D) CT, and 3DCT. Results were compared with respect to fracture type, location, associated lesions, and accuracy of diagnosis.
DSFs were diagnosed in 44 (15.7%) of children with skull fractures. Twenty-two patients had DSFs only, and the other 22 had DSFs combined with compound or mixed skull fractures. The most common fracture locations were the occipitomastoid (25%) and lambdoid (15.9%). Accompanying lesions consisted of subgaleal hemorrhages (42/44), epidural hemorrhages (32/44), pneumocephalus (17/44), and subdural hemorrhages (3/44). A total of 17 surgical procedures were performed on 15 of the 44 patients. Fourteen and 19 patients were confirmed to have DSFs by skull radiography and 2D CT, respectively, but 3D CT detected DSFs in 43 of the 44 children (P < 0.001).
3D CT was found to be markedly superior to skull radiography or 2D CT for detecting DSFs. This finding indicates that 3D CT should be used routinely rather than 2D CT for the assessment of pediatric head trauma.
儿童颅骨分离性骨折(DSF)在发展为生长性颅骨骨折之前,很难在颅骨X线片上被检测到;因此,关于这个主题的信息很少。然而,三维(3D)计算机断层扫描(CT)成像技术的最新进展使得几乎所有形式的颅骨骨折都能得到更准确的诊断。本研究旨在记录儿童DSF的临床特征,并确定3D CT是否能提高诊断准确性。
对292例12岁以下颅骨骨折患儿进行了简单颅骨X线摄影、二维(2D)CT和3D CT检查。比较了骨折类型、位置、相关病变及诊断准确性的结果。
44例(15.7%)颅骨骨折患儿被诊断为DSF。22例患儿仅患有DSF,另外22例患儿患有DSF合并复合性或混合性颅骨骨折。最常见的骨折部位是枕乳突(25%)和人字缝(15.9%)。伴随病变包括帽状腱膜下出血(42/44)、硬膜外出血(32/44)、气颅(17/44)和硬膜下出血(3/44)。44例患者中有15例共进行了17次外科手术。分别有14例和19例患者通过颅骨X线摄影和2D CT确诊为DSF,但44例患儿中有43例通过3D CT检测出DSF(P < 0.001)。
发现3D CT在检测DSF方面明显优于颅骨X线摄影或2D CT。这一发现表明,在评估小儿头部外伤时,应常规使用3D CT而非2D CT。
