New approaches for high speed, high resolution in vitro cardiac imaging

G. Bub
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Abstract

Cameras used in functional cardial imaging studies are limited to low spatial resolutions in order to reach the frame rates required for mapping fast activation patterns in the intact heart. As a result, single pixels integrate signal from a large tissue volume, which leads to order of maginitude underestimates of action potential upstroke velocities. Temporal pixel multiplexing (TPM) is a new imaging modality that enables high resolution sensors to be used for high speed imaging tasks. A TPM imaging system was used to map voltage transients in a di-4-ANEPPS loaded Langendorff perfused guinea pig heart preparation at kilohertz rates. The TPM system measured action potential upstroke velocities that are far faster than those mapped with conventional sensors; captured values closely match theoretical limits determined from photon scattering simulations of voltage sensitive dye loaded heart preparations. TPM holds promise for overcoming limitations associated with conventional imaging modalities.
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高速、高分辨率体外心脏成像的新方法
用于功能性心脏成像研究的相机被限制在低空间分辨率,以达到在完整心脏中绘制快速激活模式所需的帧速率。结果,单个像素整合了来自大组织体积的信号,这导致动作电位上冲程速度的数量级低估。时间像素多路复用(TPM)是一种新的成像方式,使高分辨率传感器能够用于高速成像任务。采用TPM成像系统,以千赫兹速率绘制了负载Langendorff灌注豚鼠心脏制剂的电压瞬态图。TPM系统测得的动作电位上冲程速度远快于传统传感器测得的速度;捕获值与电压敏感染料负载心脏制剂的光子散射模拟确定的理论极限密切匹配。TPM有望克服与传统成像模式相关的限制。
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