1) whole body scintigraphy
全身显像法
2) Whole body bone scan
全身骨显像
1.
An observation of palliative therapy and whole body bone scan with ~(153)Sm-EDTMP for patients with painful bone multiple metastases;
~(153)Sm-EDTMP治疗多发性骨转移及进行全身骨显像的观察
2.
Comparison of ~(18)F-FDG PET/CT and ~(99m)Tc-MDP whole body bone scan in detection of bone metastases;
~(18)F-FDG PET/CT显像与~(99m)Tc-MDP全身骨显像诊断骨转移的价值
3.
Objective To investigate the variance of Whole body bone scan and bone mineral density (BMD) in carcinoma patients with bone metastasis and non bone me tastasis.
目的研究恶性肿瘤患者骨转移和非骨转移的全身骨显像与骨密度检查的变化。
3) bone scan
全身骨显像
1.
Objective To explore the value of combined examination of serum tumor markers CYFRA21-1 and bone scan in the diagnosis of bone metastasis in lung cancer.
结论:全身骨显像与CYFRA21-1联合检测有助于提高骨转移的检出率。
2.
All patients had bone scans performed using99mTc-methylene diphosphonate.
为明确诊断,行99mTc-亚甲基二磷酸盐(99mTc-MDP)全身骨显像。
3.
Features of the joints involved in 12 cases of rheumatoid arthritis patients on bone scan (ECT) were analyzed.
比较分析了12例类风湿性关节炎临床上累及的关节及全身骨显像中有核素浓聚的关节的分布,结果显示两者有密切的相关关系(P<0。
4) ~(131)I whole body scan
131I全身显像
1.
Objective To compare the clinical usefulness of serum thyroglobulin(HTg) determination with that of ~(131)I whole body scan for follow-up of differentiated thyroid cancer.
目的:对比研究血清HTg的变化与131I全身显像在分化型甲状腺癌131I治疗随访的临床价值。
5) Whole-body bone scanning
全身骨显像
1.
Conclusion Whole-body bone scanning has high sensitivity in early detection of bone metastases.
目的探讨全身骨显像在肺癌骨转移诊断中的应用及影像特点。
2.
Objective To analyze the radiogenic distribution in the sacrum in whole-body bone scanning.
目的通过分析全身骨显像时骶椎的放射性分布情况,探讨骶椎放射性分布浓聚及稀疏时的临床诊断。
6) bone scintigraphic imaging
核素全身骨显像
1.
Objective To evaluate the value of prostate specific antigen(PSA),complexed prostate specific antigen(cPSA) and bone scintigraphic imaging in diagnosis of early skeletal metastasis of prostate cancer.
目的:分析前列腺特异性抗原(PSA)、复合前列腺特异性抗原(cPSA)联检和核素全身骨显像对前列腺癌早期骨转移的诊断价值。
补充资料:超声显像法
超声显像法
ultrasonic iconography
即“体层显示”。是将A型显示L波幅变为辉度调制的方式,反射信号用光点显示,由点、线到面,形成人体内部某一体层的声像图,即常用的B型显示。20世纪70年代以来,采用灰阶显示,电子和机械快速扫描式实时成像,扫描转换装置进行信息处理,利用动态或多段聚集技术,提高了显示质量,又加上一些图像储存、拼幅、游标附加功能,使B超广泛运用于临床。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条