1) Transcranial magnetic stimulation(TMS)
经颅磁刺激(TMS)
2) transcranial magnetic stimulation
经颅磁刺激
1.
Research and Progress of Transcranial Magnetic Stimulation(TMS);
经颅磁刺激技术的研究和进展
2.
Clinical study of treating Parkinson disease by repetitive transcranial magnetic stimulation;
重复经颅磁刺激治疗帕金森病的临床研究
3.
The effects of electroacupuncture combined with transcranial magnetic stimulation on bFGF 、Ang-2 and Tie-2 expression in rats with cerebral ischemia;
电针结合经颅磁刺激对脑缺血大鼠碱性成纤维细胞生长因子和血管生成素及其受体表达的影响
3) Transcranial magnetic stimulation (TMS)
经颅磁刺激
1.
Transcranial magnetic stimulation (TMS), a non-invasive and painless tool, is apotential therapeutic and diagnostic tool in psychiatry.
经颅磁刺激(Transcranial magnetic stimulation, TMS)作为一种无创、无痛的刺激方式,在诊断和治疗方面有广阔的应用前景。
2.
Transcranial magnetic stimulation (TMS) technology is a newly noninvasive method for the stimulation of cortex.
经颅磁刺激(Transcranial Magnetic Stimulation,TMS)技术是一种用于大脑皮层刺激的非侵入的新方法,它具有安全、有效、无痛、无损伤、易于重复及操作简单等优点,已被应用于精神疾病的治疗及脑功能研究中。
4) TMS
经颅磁刺激
1.
The Design of a Transcranial Magnetic Stimulation(TMS) Systemand its Implementation;
经颅磁刺激系统的设计及其实现
2.
The effect of TMS on motor function in patients with acute brain infarction;
经颅磁刺激在急性脑梗死运动功能康复中的作用
3.
Transcranial magnetic stimulation(TMS) is a new method of non-invasive stimulation of centre nerve system, it is a kind of stimulating technique for some excitable tissues in which a coil with a flow of time-varying current, the current generates a high-pulsed magnetic field, then the electric field is induced within the tissue, so the cells of brain can be stimulated.
经颅磁刺激(TMS)是一种用于刺激中枢神经系统的非侵入式方法,它通过在线圈中通入脉冲电流,以产生强脉冲磁场,在目标区感生出感应电场,刺激大脑细胞。
5) transcranial magnetic stimulation
低频经颅磁刺激
1.
Low-frequency transcranial magnetic stimulation inhibits apoptosis of temporal lobe and hippocampal neurons in temporal lobe epilepsy rats;
低频经颅磁刺激对颞叶癫痫大鼠颞叶和海马细胞凋亡的影响
6) transcranial magnetoelectric stimulation
经颅磁电刺激
1.
Histological study on the promoting effects of transcranial magnetoelectric stimulation to peripheral nerve regeneration after injuries;
经颅磁电刺激促进周围神经再生的组织学研究
2.
An electrophysiological study on the promoting effects of transcranial magnetoelectric stimulation to peripheral nerve regeneration after injuries;
经颅磁电刺激促进周围神经再生的电生理学研究
补充资料:磁铅石型旋磁铁氧体
分子式:
CAS号:
性质:晶体结构和天然磁铅石Pb(Fe7.5Mn3.5A10.5Ti0.5)19类似的铁氧体称为磁铅石型铁氧体。其结构对称性较尖晶石型的为低。其中晶体具有各向异性大、矫顽力高的六角晶系铁氧体,称为磁铅石型微波铁氧体。主要有M型(BaFe12O19)和W型(BaM2+2Fel6O27),M为锰、钴、镍、锌、镁等二价金属离子。通过离子代换部分Ba2+,可获得BaO-MO-Fe2O3三元系的磁铅石型复合铁氧体,并可使各向异性场在一定范围内变化。制造方法可用一般磁性瓷生产工艺,热压烧结或气氛烧结制成。用于微波频段,可制成隔离器、相移器、调制器、环行器等线性器件和倍频器、限幅器、振荡器、混频器、参量放大器等非线性器件。是发展现代微波技术的重要材料。
CAS号:
性质:晶体结构和天然磁铅石Pb(Fe7.5Mn3.5A10.5Ti0.5)19类似的铁氧体称为磁铅石型铁氧体。其结构对称性较尖晶石型的为低。其中晶体具有各向异性大、矫顽力高的六角晶系铁氧体,称为磁铅石型微波铁氧体。主要有M型(BaFe12O19)和W型(BaM2+2Fel6O27),M为锰、钴、镍、锌、镁等二价金属离子。通过离子代换部分Ba2+,可获得BaO-MO-Fe2O3三元系的磁铅石型复合铁氧体,并可使各向异性场在一定范围内变化。制造方法可用一般磁性瓷生产工艺,热压烧结或气氛烧结制成。用于微波频段,可制成隔离器、相移器、调制器、环行器等线性器件和倍频器、限幅器、振荡器、混频器、参量放大器等非线性器件。是发展现代微波技术的重要材料。
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