The severe pulmonary interstitial changes, and the size of foci were over 50 % of the area of lungs were important risk factor of leading to death of SARS patients.
有重度弥漫性肺间质改变,肺浸润阴影大于全肺面积50%是引起SARS患者病死的重要危险因素。
The distribution of pulmonary consolidation is specific. It extends along the bronchovascular bundle or located in the subpleural area.
磨玻璃样变分布特征不具有特异性,而肺实变多表现为沿支气管血管束周围或胸膜下的分布特征。
The pulmonary consolidation was distributed along the bronchovascular bundle or subpleural area.
肺实变常在胸膜下或沿支气管血管束走行分布。
Conclusions Hypoxia can induce increase in pulmonary tissue area density and decrease in aerial exchange area in alveoli.
结论缺氧可引起大鼠肺组织面积密度增加,肺泡有效气体交换面积减少。
Quantitative analysis of pulmonary mean linear intercept (MLI), mean alveolar Numbers (MAN), pulmonary alveolar area (PAA) and the relative area of elastic fibers were measured.
定量分析肺平均内衬间隔(MLI)、平均肺泡数(MAN)、肺泡腔面积与总面积比(PAA)、肺内弹力纤维的相对面积。
To assess the diagnostic value of CTPA in the diagnosis of rabbit's peripheral PE, small branches of pulmonary arteries, and its ability of displaying for the hypo-perfusion parenchyma area.
阐述家兔急性周围型PE的CT表现及肺实质改变征象的病理学基础,评估CTPA对肺动脉较小分支PE的诊断价值及其显示肺栓塞低灌注区的能力。
Hypoxic pulmonary hypertension (HPH) is a key link of the adaptation physiology in high altitude area and the pathogenesis of all types of high altitude diseases.
低氧性肺动脉高压(HPH)是高原适应生理的重要环节,也是各型高原病的发病机理。
Hypoxic pulmonary hypertension (HPH) is a key link of the adaptation physiology in high altitude area and the pathogenesis of all types of high altitude diseases.
低氧性肺动脉高压(HPH)是高原适应生理的重要环节,也是各型高原病的发病机理。
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