使用超导量子干涉装置阵列通过磁性纳米颗粒检测T细胞以确定移植排斥反应。
Use of a SQUID array to detect T-cells with magnetic nanoparticles in determining transplant rejection.
作者信息
Flynn Edward R, Bryant H C, Bergemann Christian, Larson Richard S, Lovato Debbie, Sergatskov Dmitri A
机构信息
Senior Scientific, 11109 Country Club NE, Albuquerque, NM 87111, USA.
出版信息
J Magn Magn Mater. 2007 Apr;311(1):429-435. doi: 10.1016/j.jmmm.2006.10.1148.
Abstract
Acute rejection in organ transplant is signaled by the proliferation of T-cells that target and kill the donor cells requiring painful biopsies to detect rejection onset. An alternative non-invasive technique is proposed using a multi-channel superconducting quantum interference device (SQUID) magnetometer to detect T-cell lymphocytes in the transplanted organ labeled with magnetic nanoparticles conjugated to antibodies specifically attached to lymphocytic ligand receptors. After a magnetic field pulse, the T-cells produce a decaying magnetic signal with a characteristic time of the order of a second. The extreme sensitivity of this technique, 10(5) cells, can provide early warning of impending transplant rejection and monitor immune-suppressive chemotherapy.
摘要
器官移植中的急性排斥反应通过T细胞的增殖发出信号,这些T细胞靶向并杀死供体细胞,需要进行痛苦的活检才能检测到排斥反应的开始。有人提出了一种替代的非侵入性技术,使用多通道超导量子干涉装置(SQUID)磁力计来检测移植器官中的T细胞淋巴细胞,这些淋巴细胞用与特异性附着于淋巴细胞配体受体的抗体结合的磁性纳米颗粒标记。在磁场脉冲后,T细胞产生一个具有约一秒特征时间的衰减磁信号。这种技术的极高灵敏度可达10^5个细胞,能够为即将发生的移植排斥反应提供早期预警,并监测免疫抑制化疗。
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