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引用次数: 7
摘要
我们描述了一种传感器设计,能够记录单个心肌细胞产生的力,具有足够的时间分辨率,以检测对快速长度变化的力响应。我们的力传感器是由薄钢板制成的,作为悬臂梁,其弯曲是通过激光束的反射来监测的。激光束的偏转由差分光电二极管探测器测量。一根50微米厚的小钨丝针连接在钢箔的自由端,使我们能够将单个心脏细胞粘在力传感器上。换能器的顺应性约为0.02 m/N,谐振频率在2和3 kHz之间。在16 kHz的检测器带宽下,分辨率约为18 nN rms,因此我们能够分辨单个心肌细胞产生的最大等距力(约12微米)的0.2%。我们已经证明,该传感器非常适合分析单个心室肌细胞的力学特性,例如,记录快速释放-再拉伸动作后的等距力和力再开发的速率常数。
A force transducer for measuring mechanical properties of single cardiac myocytes.
We have described a transducer design capable of recording forces generated by single cardiac myocytes with sufficient temporal resolution to detect force responses to rapid length changes. Our force sensors were made from thin steel foils that act as cantilevers whose bending is monitored by reflection off a laser beam. Deflection of the laser beam is measured by a differential photodiode detector. A small, 50-micron-thick tungsten needle attached to the free end of the steel foil allowed us to glue single cardiac cells to the force transducer. The transducers have compliances of approximately 0.02 m/N and resonance frequencies between 2 and 3 kHz. The resolution is approximately 18 nN rms at a detector bandwidth of 16 kHz, so we were able to resolve 0.2% of the maximum isometric force ( approximately 12 microN) developed by a single cardiac myocyte. We have demonstrated that the transducer is well suited to analysis of mechanical properties of single ventricular myocytes, for example, the recording of isometric forces and rate constants of force redevelopment after rapid release-restretch maneuvers.
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