Bray Mark-Anthony, Geisse Nicholas A, Parker Kevin Kit
Disease Biophysics Group, Division of Engineering and Applied Sciences, Harvard University, Cambridge, Massachusetts 02138, USA.
Biophys J. 2007 Jun 15;92(12):4433-43. doi: 10.1529/biophysj.106.089359. Epub 2007 Mar 16.
Examining calcium spark morphology and its relationship to the structure of the cardiac myocyte offers a direct means of understanding excitation-contraction coupling mechanisms. Traditional confocal line scanning achieves excellent temporal spark resolution but at the cost of spatial information in the perpendicular dimension. To address this, we developed a methodology to identify and analyze sparks obtained via two-dimensional confocal or charge-coupled device microscopy. The technique consists of nonlinearly subtracting the background fluorescence, thresholding the data on the basis of noise level, and then localizing the spark peaks via a generalized extrema test, while taking care to detect and separate adjacent peaks. In this article, we describe the algorithm, compare its performance to a previously validated spark detection algorithm, and demonstrate it by applying it to both a synthetic replica and an experimental preparation of a two-dimensional isotropic myocyte monolayer exhibiting sparks during a calcium transient. We find that our multidimensional algorithm provides better sensitivity than the conventional method under conditions of temporally heterogeneous background fluorescence, and the inclusion of peak segmentation reduces false negative rates when spark density is high. Our algorithm is robust and can be effectively used with different imaging modalities and allows spark identification and quantification in subcellular, cellular, and tissue preparations.
研究钙火花形态及其与心肌细胞结构的关系,为理解兴奋 - 收缩偶联机制提供了一种直接方法。传统的共聚焦线扫描在时间上能实现出色的火花分辨率,但代价是垂直维度的空间信息丢失。为解决这一问题,我们开发了一种方法,用于识别和分析通过二维共聚焦或电荷耦合器件显微镜获得的火花。该技术包括非线性减去背景荧光,根据噪声水平对数据进行阈值处理,然后通过广义极值测试定位火花峰值,同时注意检测和分离相邻峰值。在本文中,我们描述了该算法,将其性能与先前验证的火花检测算法进行比较,并通过将其应用于二维各向同性心肌细胞单层的合成复制品和实验制剂来进行演示,该单层在钙瞬变期间表现出火花。我们发现,在时间上异质背景荧光的条件下,我们的多维算法比传统方法具有更好的灵敏度,并且在火花密度高时,包含峰值分割可降低假阴性率。我们的算法具有鲁棒性,可有效地用于不同的成像模式,并允许在亚细胞、细胞和组织制剂中进行火花识别和定量。