Appropriate incorporation of susceptibility-weighted magnetic resonance imaging into routine imaging protocols for accurate diagnosis of traumatic brain injuries: a systematic review.

Q3 Medicine
Osama Jaafari, Suliman Salih, Ajnas Alkatheeri, Muhamed Alshehri, Majedh Al-Shammari, Mousa Maeni, Abdullah Alqahtani, Wijdan Alomaim, Mohamed Hasaneen
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Abstract

Traumatic brain injury (TBI) results from physical or traumatic injuries to the brain's surrounding bony structures and associated tissues, which can lead to various sequelae, including simple concussion, acute epidural hematoma, parenchymal contusions, subarachnoid hemorrhage, diffuse axonal injury, and chronic traumatic encephalopathy. Susceptibility-weighted imaging (SWI) has enhanced the accuracy of neuroimaging for these injuries. SWI is based on 3D gradient echo magnetic resonance imaging (MRI) with long echo times and flow compensation. Owing to its sensitivity to deoxyhemoglobin, hemosiderin, iron, and calcium, SWI is extremely informative and superior to conventional MRI for the diagnosis and follow-up of patients with acute, subacute, and prolonged hemorrhage. This systematic review aimed to evaluate and summarize the published articles that report SWI results for the evaluation of TBI and to determine correlations between clinical status and SWI results. Consequently, our analysis also aimed to identify the appropriate MRI sequences to use in the assessment of patients with TBI. We searched the Medline and Embase online electronic databases for relevant papers published from 2012 onwards. We found that SWI had higher sensitivity than gradient echo MRI in detecting and characterizing microbleeds in TBIs and was able to differentiate diamagnetic calcifications from paramagnetic microhemorrhages. However, it is important that future research not only continues to evaluate the utility of SWI in TBIs but also attempts to overcome the limitations of the studies described in this review, which should help validate the conclusions and recommendations from our analysis.

将易感加权磁共振成像适当纳入常规成像方案以准确诊断脑外伤:系统性综述。
创伤性脑损伤(TBI)是由于大脑周围的骨性结构和相关组织受到物理或创伤性损伤所致,可导致各种后遗症,包括单纯性脑震荡、急性硬膜外血肿、实质挫伤、蛛网膜下腔出血、弥漫性轴索损伤和慢性创伤性脑病。感度加权成像(SWI)提高了这些损伤的神经成像准确性。SWI 基于三维梯度回波磁共振成像(MRI),具有长回波时间和血流补偿功能。由于其对脱氧血红蛋白、血色素、铁和钙的敏感性,SWI 对急性、亚急性和长期出血患者的诊断和随访具有极高的信息量,且优于传统 MRI。本系统性综述旨在评估和总结已发表的报告 SWI 结果以评估创伤性脑损伤的文章,并确定临床状态与 SWI 结果之间的相关性。因此,我们的分析还旨在确定用于评估 TBI 患者的适当 MRI 序列。我们在 Medline 和 Embase 在线电子数据库中检索了 2012 年以来发表的相关论文。我们发现,在检测和描述创伤性脑损伤微出血方面,SWI 比梯度回波 MRI 具有更高的灵敏度,并且能够区分二磁性钙化和顺磁性微出血。不过,重要的是,未来的研究不仅要继续评估 SWI 在创伤性脑损伤中的实用性,还要尝试克服本综述所述研究的局限性,这应有助于验证我们分析得出的结论和建议。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Medicine and Life
Journal of Medicine and Life Medicine-Medicine (all)
CiteScore
1.90
自引率
0.00%
发文量
202
期刊介绍: The Journal of Medicine and Life publishes peer-reviewed articles from various fields of medicine and life sciences, including original research, systematic reviews, special reports, case presentations, major medical breakthroughs and letters to the editor. The Journal focuses on current matters that lie at the intersection of biomedical science and clinical practice and strives to present this information to inform health care delivery and improve patient outcomes. Papers addressing topics such as neuroprotection, neurorehabilitation, neuroplasticity, and neuroregeneration are particularly encouraged, as part of the Journal''s continuous interest in neuroscience research. The Editorial Board of the Journal of Medicine and Life is open to consider manuscripts from all levels of research and areas of biological sciences, including fundamental, experimental or clinical research and matters of public health. As part of our pledge to promote an educational and community-building environment, our issues feature sections designated to informing our readers regarding exciting international congresses, teaching courses and relevant institutional-level events.
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