Graf Hansjörg, Lauer Ulrike A, Schick Fritz
Section on Experimental Radiology, Department of Diagnostic Radiology, University Hospital Tübingen, Tübingen, Germany.
J Magn Reson Imaging. 2006 Apr;23(4):585-90. doi: 10.1002/jmri.20539.
To examine eddy-current-provoked torque on conductive parts due to current induction from movement through the fringe field of the MR scanner and from gradient switching.
For both cases, torque was calculated for frames of copper, aluminum, and titanium, inclined to 45 degrees to B0 (maximum torque case). Conditions were analyzed in which torque from gravity (legal limit, ASTM F2213-02) was exceeded. Experiments were carried out on a 1.5 T and a 3 T scanner for copper and titanium frames and plates (approximately 50 x 50 mm2). Movement-induced torque was measured at patient table velocity (20 cm/second). Alternating torque from gradient switching was investigated by holding the specimens in different locations in the scanner while executing sequences that exploited the gradient capabilities (40 mT/m).
The calculations predicted that movement-induced torque could exceed torque from gravity (depending on the part size, electric resistance, and velocity). Two experiments on moving conductive frames in the fringe fields of the scanners confirmed the calculations. For maximum torque case parameters, gradient-switching-induced torque was calculated to be nearly 100 times greater than the movement-induced torque. Well-conducting metal parts located off center vibrated significantly due to impulse-like fast alternating torque characteristics.
Torque on metal parts from movement in the fringe field is weak under standard conditions, but for larger parts the acceptable limit can be reached with a high static field and increased velocity. Vibrations due to gradient switching were confirmed and may explain the sensations occasionally reported by patients with implants.
研究因在磁共振成像(MR)扫描仪边缘场中移动以及梯度切换产生的电流感应,在导电部件上引起的涡电流诱发扭矩。
对于这两种情况,计算了倾斜45度至B0(最大扭矩情况)的铜、铝和钛框架的扭矩。分析了重力产生的扭矩超过(法定限值,ASTM F2213 - 02)的条件。在1.5T和3T扫描仪上对铜和钛框架及板材(约50×50平方毫米)进行了实验。在患者检查床速度(20厘米/秒)下测量运动诱发的扭矩。通过在扫描仪的不同位置固定标本,同时执行利用梯度能力(40毫特斯拉/米)的序列,研究梯度切换产生的交变扭矩。
计算预测运动诱发的扭矩可能超过重力产生的扭矩(取决于部件尺寸、电阻和速度)。在扫描仪边缘场中对移动的导电框架进行的两项实验证实了计算结果。对于最大扭矩情况参数,计算得出梯度切换诱发的扭矩比运动诱发的扭矩大近100倍。由于类似脉冲的快速交变扭矩特性,位于偏离中心位置的良导电金属部件会显著振动。
在标准条件下,边缘场中运动在金属部件上产生的扭矩较弱,但对于较大部件,在高静磁场和速度增加的情况下可能会达到可接受的限值。证实了由梯度切换引起的振动,这可能解释了植入物患者偶尔报告的感觉。
