Leutz-Schmidt P, Eichinger M, Sommerburg O, Stahl M, Triphan S M F, Gehlen S, Kauczor H-U, Puderbach M U, Mall M A, Wielpütz M O
Klinik für Diagnostische und Interventionelle Radiologie, Sektion Pulmonale Radiologie, Universitätsklinikum Heidelberg, Im Neuenheimer Feld 110, 69120, Heidelberg, Deutschland.
Translational Lung Research Center Heidelberg (TLRC), German Lung Research Center (DZL), Im Neuenheimer Feld 110, 69120, Heidelberg, Deutschland.
Radiologe. 2020 Sep;60(9):813-822. doi: 10.1007/s00117-020-00723-0.
Disease severity and mortality in patients with cystic fibrosis (CF) is mainly determined by (progressive) pulmonary lung disease. Early diagnosis and therapy are important and of prognostic value to conserve lung function.
Primary imaging techniques for lung imaging are x‑ray and computed tomography (CT) to monitor disease severity and regional distribution.
Radiation-free imaging techniques such as magnetic resonance imaging (MRI) have gained interest over the last decade in order to prevent radiation damage.
The main findings of CF lung disease are airway wall thickening, bronchiectasis, and mucus plugging, which are found in up to 60% of preschool age children. Pleural abnormalities and consolidations are often associated with pulmonary exacerbation. Young CF patients often show a mosaic pattern as functional changes and also perfusion defects can be seen from birth in 50% of CF patients by contrast-enhanced perfusion imaging, and in up to 90% of adult patients, with varying degrees of severity. Dilated bronchial arteries indicate an increased risk for hemoptysis.
Proton MRI is the sole imaging technique that can show structural and functional lung changes in one examination. Structured assessment using a scoring system helps to systematically grade the extent and severity of all CF-associated changes.
Lung MRI for cystic fibrosis has been recently established as a clinical standard examination and is routinely performed at experienced centers. More recently, it has also been used as an endpoint within the framework of clinical studies.
囊性纤维化(CF)患者的疾病严重程度和死亡率主要由(进行性)肺部疾病决定。早期诊断和治疗对于保护肺功能具有重要意义和预后价值。
用于肺部成像的主要影像学技术是X线和计算机断层扫描(CT),以监测疾病严重程度和区域分布。
在过去十年中,诸如磁共振成像(MRI)等无辐射成像技术受到关注,以防止辐射损伤。
CF肺部疾病的主要表现为气道壁增厚、支气管扩张和黏液堵塞,在高达60%的学龄前儿童中可见。胸膜异常和实变常与肺部加重相关。年轻CF患者常表现为马赛克样的功能改变,通过对比增强灌注成像,50%的CF患者在出生时即可见灌注缺损,在高达90%的成年患者中可见,且程度各异。扩张的支气管动脉提示咯血风险增加。
质子MRI是唯一一种在一次检查中就能显示肺部结构和功能变化的成像技术。使用评分系统进行结构化评估有助于系统地分级所有与CF相关变化的范围和严重程度。
囊性纤维化的肺部MRI最近已成为一项临床标准检查,并在经验丰富的中心常规开展。最近,它也被用作临床研究框架内的一个终点指标。
