Inhalation Lung Scanning Evaluation – Radioaerosol Versus Radioxenon Techniques

Elaine M. Shibel M.D. , Glen A. Landis M.D. , Kenneth M. Moser M.D., F.C.C.P.
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引用次数: 18

Abstract

The routine study of regional ventilation of the lungs has been hampered by the lack of safe, simple and accurate methods. Radioisotope techniques have made possible the development of such methods. Two varieties of radioactive scanning have been used: radiolabelled particulate material, and radioactive inert gases. We have performed scans using both inhaled technetium-99m albuminate particles and xenon 133 gas. Normal subjects and patients with pulmonary disease were studied. Particle inhalation in normal controls revealed adequate peripheral filling, although upper airway and gastrointestinal deposition occurred. In patients with pulmonary disease, however, underventilated zones of lung appeared totally unventilated with particle scans, while those with 133Xe gas reflected ventilation disturbances more accurately. Further, a dynamic visualization of ventilation could be obtained using 133Xe, while scans with 99mTc albuminate indicated the cumulative result of several minutes of positive pressure breathing. It is concluded that both methods can offer important information, but each has its own limitations and advantages which should be recognized. Valuable insights into respiratory physiology and pathogenesis of pulmonary diseases can be obtained from these new techniques.

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吸入肺部扫描评价-放射性气溶胶与放射性氙技术
由于缺乏安全、简便、准确的方法,对肺局部通气的常规研究一直受到阻碍。放射性同位素技术使这种方法的发展成为可能。使用了两种放射性扫描:放射性标记的颗粒材料和放射性惰性气体。我们使用吸入的锝-99m白蛋白颗粒和氙133气体进行了扫描。研究对象为正常受试者和肺部疾病患者。正常对照组的颗粒吸入显示周围充盈充足,尽管上呼吸道和胃肠道发生沉积。在肺部疾病患者中,颗粒扫描显示肺部不通气区完全不通气,而含有133Xe气体的患者更准确地反映了通气干扰。此外,使用133Xe可以获得通气的动态可视化,而使用99mTc白蛋白酸盐扫描可以显示几分钟正压呼吸的累积结果。结论是,两种方法都可以提供重要的信息,但都有自己的局限性和优点,应该认识到。这些新技术可以为呼吸生理学和肺部疾病的发病机制提供有价值的见解。
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