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| The application value of susceptibility weighted imaging combined with diffusion weighted imaging in the diagnosis of neonatal intracranial hemorrhage |
| NI Chen-mei, LIU Hong-yan, ZHANG Bing, WANG Guo-hua, WANG Chun-guo |
| Department of Radiology, Qingdao Municipal Hospital Affiliated to Qingdao University, Qingdao Shandong 266011, China |
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Abstract Objective: To study the value of susceptibility weighted imaging(SWI) in combination with the diffusion weighted imaging(DWI) in the diagnosis of neonatal intracranial hemorrhage. Methods: A study was conducted including 58 neonates who were suspected neonatal intracranial hemorrhage. All MR examinations were performed at 1.5 Tesla unit including conventional MR(T1WI, T2WI, T2 Flair), SWI and DWI. The imaging features of various sequences were compared, and the results were statistically analyzed. Results: Among 58 neonates with intracranial hemorrhage, 38 cases were confirmed by SWI, only 27 cases were found by conventional MR sequences. Altogether 147 hemorrhagic lesions were detected by SWI, while only 56, 45 and 24 lesions were found by T1WI, T2WI and T2 Flair. Conclusion: SWI sequence has more sensitivity than conventional sequences in detecting the intracranial hemorrhage of neonate. While DWI has more predominant advantage in punctate white matter lesions(PWML). Conventional MRI combined with SWI and DWI functional imaging scanning technology is more helpful to improve the diagnostic accuracy of the neonatal cerebral hemorrhage or cerebral hemorrhage with PWML, and it is helpful to guide the treatment and evaluate the prognosis.
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Received: 20 January 2016
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NI Chen-mei,LIU Hong-yan,ZHANG Bing, et al. The application value of susceptibility weighted imaging combined with diffusion weighted imaging in the diagnosis of neonatal intracranial hemorrhage[J]. JOURNAL OF CHINA MEDICAL IMAGING, 2016, 27(10): 694-697.
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| http://www.jccmi.com.cn/EN/ OR http://www.jccmi.com.cn/EN/Y2016/V27/I10/694 |
[1]Niwa T, Aida N, Shishikura A, et al. Susceptibility weighted imaging findings of cortical laminarnecrosis in pediatric patients[J]. AJNR, 2008, 29(9): 1795-1798.
[2]Cheng AL, Batool S, McCreary CR, et al. Susceptibility-weighted imaging is more reliable than T2*-weighted gradient-recalled echo MRI for detecting microbleeds[J]. Stroke, 2013, 44(10): 2782-2786.
[3]郭建东,苏锦权,张水兴,等. 3.0T核磁共振磁敏感加权成像在新生儿缺氧缺血性脑病诊断的价值[J]. 临床儿科杂志,2013,31(7):645-649.
[4]刘希娟,周晓薇,王华. 磁敏感加权成像诊断新生儿颅内出血临床价值研究[J]. 中国实用儿科杂志,2013,28(12):932-934.
[5]朱珍,邵肖梅,帕米尔,等. 磁敏感加权成像与常规磁共振序列诊断新生儿颅内出血的比较研究[J]. 中国循证儿科杂志,2015,10(2):95-100.
[6]詹传银,段青,邱士军,等. 3.0T磁敏感加权成像诊断新生儿室管膜下-脑室内出血、大脑内及小脑内出血[J]. 临床放射学杂志,2011,30(11):1671-1676.
[7]Volpe JJ. Neurology of the newborn[M]. 3rd ed. Philadelphia: WB Saunders, 1995: 77.
[8]Steggerda SJ, Ft LLDB. Cerebellar injury in preterm infants: incidence and findings on US and MR images[J]. Radiology, 2009, 252(1): 190-199.
[9]Castro Conde JR, Martinez ED, Rodriguez RC, et al. CNS siderosis and Dandy-Walker variant after neonatal alloimmune thrombocytopenia[J]. Pediatr Neurol, 2005, 32(5): 346-349.
[10]Messerschmidt A, Brugger PC, Boltshauser E, et al. Disruption of cerebellar development: potential complication of extreme prematurity[J]. Am J Neuroradiol, 2005, 26(7): 1659-1667.
[11]朱文珍,漆剑频,夏黎明,等. 新生儿缺氧缺血性脑病MRI表现及其与预后的关系[J]. 临床放射学杂志,2006,25(7):666-670.
[12]祁英,王晓明. 磁敏感成像在探测早产儿局灶性脑白质损伤中的研究[J]. 临床放射学杂志,2010,29(7):939-941.
[13]Lee BC, Vo KD, Kido DK, et al. MR high-resolution blood oxygenation level-dependent venography of occult(low-flow) vascular lesions[J]. Am J Neuroradiol, 1999, 20(7): 1239-1242.
[14]Sandra D, Terrie I, Bradley Y, et al. The pattern of cerebral injury in a primate model of preterm birth and neonatal intensive care[J]. J Neuropathol Exp Neurol, 2004, 63(12): 1297-1309.
[15]Counsell SJ, Rutherford MA, Cowan FM, et al. Magnetic resonanceimaging of preterm brain injury[J]. Arch Dis Child Fetal Neonatal Ed, 2003, 88(4): 269-274.
[16]祁英,王晓明. 磁敏感加权成像探测新生儿局灶性脑白质损伤[J]. 中国医学影像技术,2011,26(1):193-194. |
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