Rhinology. 2015 Dec;53(4):365-70. doi: 10.4193/Rhino15.010.
Brain areas processing olfactory information exhibit functionally relevant morphological dynamics. This suggests the exploitation of anatomical information in the diagnosis of an olfactory dysfunction. Following previous identifications of olfactory eloquent areas such as the olfactory bulbs and tracts, we focused at a brain-morphology based algorithm for establishing the diagnosis of olfactory loss following brain injury.
Forty-one patients with a history of head trauma dated back 40 ± 39 months, and additional 23 patients without head trauma, were assessed for damages in 11 olfaction-relevant brain areas using magnetic resonance imaging (MRI). Olfactory function was derived from the use of a standardized, reliable and validated olfactory test. An olfactory diagnostic algorithm was derived following classification and regression tree analysis of the brain lesion pattern.
Subjects were assigned to olfactory diagnoses of anosmia, hyposmia or normosmia. These diagnoses were predictable at an accuracy of 62.3 % from the degree of damage in the olfactory bulb and in the left temporal lobe pole. The main diagnosis algorithm addressed the presence of anosmia, which could be predicted from the degree of damage in these brain areas at an accuracy of 81.3 %.
We independently reproduced previously identified brain regions in which morphological damage is associated with olfactory loss. Based on this reproduction, an algorithm was developed for the diagnosis of anosmia from central-nervous damage. Thus, we introduce a morphological component to the olfactory diagnosis that specifically addresses clinical cases of olfactory loss following head trauma.
处理嗅觉信息的大脑区域表现出功能相关的形态动力学。这表明可以利用解剖学信息来诊断嗅觉功能障碍。在先前确定了嗅觉相关区域(如嗅球和嗅束)之后,我们专注于基于大脑形态的算法,以建立脑损伤后嗅觉丧失的诊断。
对 41 名头部外伤史(40 ± 39 个月)的患者和 23 名无头部外伤史的患者进行了 11 个与嗅觉相关的大脑区域的磁共振成像(MRI)评估。嗅觉功能是通过使用标准化、可靠和验证过的嗅觉测试得出的。采用分类回归树分析大脑损伤模式,得出嗅觉诊断算法。
受试者被分配到嗅觉丧失、嗅觉减退或嗅觉正常的诊断中。这些诊断可以根据嗅球和左侧颞叶极的损伤程度,以 62.3%的准确率进行预测。主要的诊断算法针对的是无嗅觉,可以根据这些大脑区域的损伤程度,以 81.3%的准确率进行预测。
我们独立再现了先前确定的与嗅觉丧失相关的大脑区域。基于这种再现,我们开发了一种从中枢神经系统损伤中诊断无嗅觉的算法。因此,我们为嗅觉诊断引入了形态学成分,专门针对头部外伤后嗅觉丧失的临床病例。
