Rowland, ConorHarland, Julian H.Smith, Julian H.Moslehi, SabaDalrymple-Alford, JohnTaylor, Richard P.2023-10-242023-10-242022-06-23Rowland C, Harland B, Smith JH, Moslehi S, Dalrymple-Alford J and Taylor RP (2022) Investigating Fractal Analysis as a Diagnostic Tool That Probes the Connectivity of Hippocampal Neurons. Front. Physiol. 13:932598. doi: 10.3389/fphys.2022.932598https://doi.org/10.3389/fphys.2022.932598https://hdl.handle.net/1794/2900912 pagesMany of nature’s fractal objects benefit from the favorable functionality that results from their pattern repetition at multiple scales. Our recent research focused on the importance of fractal scaling in establishing connectivity between neurons. Fractal dimension DA of the neuron arbors was shown to relate to the optimization of competing functional constraints—the ability of dendrites to connect to other neurons versus the costs associated with building the dendrites. Here, we consider whether pathological states of neurons might affect this fractal optimization and if changes in DA might therefore be used as a diagnostic tool in parallel with traditional measures like Sholl analyses. We use confocal microscopy to obtain images of CA1 pyramidal neurons in the coronal plane of the dorsal rat hippocampus and construct 3-dimensional models of the dendritic arbors using Neurolucida software. We examine six rodent groups which vary in brain condition (whether they had lesions in the anterior thalamic nuclei, ATN) and experience (their housing environment and experience in a spatial task). Previously, we showed ATN lesions reduced spine density in hippocampal CA1 neurons, whereas enriched housing increased spine density in both ATN lesion and sham rats. Here, we investigate whether ATN lesions and experience also effect the complexity and connectivity of CA1 dendritic arbors. We show that sham rats exposed to enriched housing and spatial memory training exhibited higher complexity (as measured by DA) and connectivity compared to other groups. When we categorize the rodent groups into those with or without lesions, we find that both categories achieve an optimal balance of connectivity with respect to material cost. However, the DA value used to achieve this optimization does not change between these two categories, suggesting any morphological differences induced by the lesions are too small to influence the optimization process. Accordingly, we highlight considerations associated with applying our technique to publicly accessible repositories of neuron images with a broader range of pathological conditions.enCreative Commons BY-NC-ND 4.0-USNeuronsConnectivityFractal analysisFractal dimension (D)Modified Sholl AnalysisNeuromorphologyHippocampal CA1Anterior thalmic nucleiInvestigating Fractal Analysis as a Diagnostic Tool That Probes the Connectivity of Hippocampal NeuronsArticle