Positive rate of chronic fibro-cavitary pulmonary tuberculosis was the highest.
慢性纤维空洞性肺结核患者阳性率最高。
The mixed pattern included cyst, nodule, cavitary lesion with adjacent consolidation or ground-glass opacity.
混合型为囊肿、结节、空洞病灶旁实变或磨砂玻璃影。
Objective To assess the significance of interventional therapy on cavitary pulmonary initial treatment tuberculosis of lungs.
目的探讨初治空洞型肺结核介入治疗的有效性和安全性。
Objective to assess the clinicopathological characteristics and histogenesis of round cell malignant tumor in the nasal cavitary.
目的研究鼻腔圆形细胞恶性肿瘤的临床病理组织学特征。
Nodules or consolidation with evidence of cavitary lesion had a higher sensitivity than the halo sign or air crescent sign in both groups.
结节或实变影内空洞形成较晕轮征、新月征更常见。
Even though true cavitary sarcoidosis is rare, pseudocavities representing bullae or bronchiectasis are common in patients with extensive fibrosis.
虽然结节病很少见真性空洞,但是可有肺大泡的假空洞及广泛纤维化形成的支气管扩张。
Objective to study ct features of cavitary pulmonary metastases from adenocarcinomas and to improve the knowledge of this kind of pulmonary metastases.
目的分析腺癌空洞型肺转移瘤的CT表现特点,提高对腺癌空洞型肺转移瘤的认识。
Objective to investigate the effects and feasibility of mini-thoracotomy focus cleaning in the management of cavitary pulmonary tuberculosis or pulmonary tuberculoma.
目的探讨病灶清除术治疗空洞型肺结核和肺结核球的效果和可行性。
The presence of multiple peripheral nodules, some of which are cavitary, as well as consolidation and pleural effusions, is very consistent with septic embolic disease.
多发外周结节,部分伴有空洞、肺实变、胸腔积液,这些都符合脓毒性栓塞性病变。
Objective:to explore the clinical effects of perfusing chemotherapy by percutaneous lung puncture in the treatment of multi-drug resistent cavitary pulmonary tuberculosis(MDR-TB).
目的:研究经皮肺穿刺给药治疗耐多药空洞型肺结核的临床疗效。
A fungus ball composed of blue-staining hyphal elements of Aspergillus is seen here in a bronchus. Fungus balls may also form when fungi colonize cavitary lesions of tuberculosis.
支气管处可见由蓝色的菌丝构成的真菌球。当真菌在因结核损害形成的腔洞内植入时,就可能形成真菌球。
The results show that the extractive enhancement mechanism in USFE is primarily mechanical fluctuant effect and thermal effect of ultrasonic in microenvironment rather than that of cavitary effect.
结果表明:超声强化超临界流体萃取的机理不是源于超声空化,而是超声在微环境内产生的机械波动效应和热效应。
The results show that the extractive enhancement mechanism in USFE is primarily mechanical fluctuant effect and thermal effect of ultrasonic in microenvironment rather than that of cavitary effect.
结果表明:超声强化超临界流体萃取的机理不是源于超声空化,而是超声在微环境内产生的机械波动效应和热效应。
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