School of Optometry and Vision Sciences, Cardiff University, Maindy Road, Cardiff CF24 4LU, Wales, United Kingdom.
School of Dentistry, Cardiff University, Heath Park, Cardiff CF14 4XY, Wales, United Kingdom.
J Neurosci Methods. 2014 Mar 30;225:65-70. doi: 10.1016/j.jneumeth.2014.01.017. Epub 2014 Jan 28.
Sholl analysis remains one of the most commonly used methods to quantify neuronal dendritic complexity and is therefore a key analysis tool in neurobiology. While initially proposed when the quantification of neuronal structure was undertaken manually, the advent of software packages allowing automated analysis has resulted in the introduction of several semi and fully automated methods to quantify dendritic complexity. Unfortunately results from these methods have not in all cases been consistent. We therefore compared the results of five commonly used methods (Simple Neurite Tracer, manual, Fast Sholl, Bitmap, and Ghosh lab) using manual analysis as a ground truth.
Comparison of four semi-automated methods to the manual method using diolistically labelled mouse retinal ganglion cells.
We report consistency across a range of published techniques. While the majority perform well (Simple Neurite Tracer and Fast Sholl profiles have areas under the curve within 4.5% of the profile derived using the manual method), we highlight two areas in two of the methods (Bitmap and Ghosh lab methods) where errors may occur, namely undercounting (>20% relative to the manual profile) and a second peak.
Our results support published validation of the Fast Sholl method.
Our study highlights the importance of manual calibration of automated analysis software.
Sholl 分析仍然是量化神经元树突复杂性最常用的方法之一,因此是神经生物学中的关键分析工具。虽然最初是在手动进行神经元结构量化时提出的,但允许自动分析的软件包的出现导致了几种半自动和全自动方法的引入,以量化树突复杂性。不幸的是,这些方法的结果并非在所有情况下都一致。因此,我们使用手动分析作为基准,比较了五种常用方法(Simple Neurite Tracer、手动、Fast Sholl、Bitmap 和 Ghosh 实验室)的结果。
使用碘化标记的小鼠视网膜神经节细胞比较四种半自动方法与手动方法。
我们报告了一系列已发表技术的一致性。虽然大多数方法表现良好(Simple Neurite Tracer 和 Fast Sholl 图谱的曲线下面积与手动方法得出的图谱相差在 4.5%以内),但我们强调了两种方法(Bitmap 和 Ghosh 实验室方法)中的两个区域可能会出现错误,即计数不足(相对于手动图谱减少超过 20%)和第二个峰值。
我们的结果支持 Fast Sholl 方法的已发表验证。
我们的研究强调了手动校准自动分析软件的重要性。