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Morphological profiling by high-throughput single-cell biophysical fractometry

Ziqi Zhang, Kelvin C. M. Lee, Dickson M. D. Siu, Michelle C. K. Lo, Queenie T. K. Lai, Edmund Y. Lam, Kevin K. Tsia

2023Communications Biology23 citationsDOIOpen Access PDF

Abstract

Complex and irregular cell architecture is known to statistically exhibit fractal geometry, i.e., a pattern resembles a smaller part of itself. Although fractal variations in cells are proven to be closely associated with the disease-related phenotypes that are otherwise obscured in the standard cell-based assays, fractal analysis with single-cell precision remains largely unexplored. To close this gap, here we develop an image-based approach that quantifies a multitude of single-cell biophysical fractal-related properties at subcellular resolution. Taking together with its high-throughput single-cell imaging performance (~10,000 cells/sec), this technique, termed single-cell biophysical fractometry, offers sufficient statistical power for delineating the cellular heterogeneity, in the context of lung-cancer cell subtype classification, drug response assays and cell-cycle progression tracking. Further correlative fractal analysis shows that single-cell biophysical fractometry can enrich the standard morphological profiling depth and spearhead systematic fractal analysis of how cell morphology encodes cellular health and pathological conditions.

Topics & Concepts

FractalProfiling (computer programming)Single-cell analysisCellFractal analysisBiologyCell typeContext (archaeology)Computational biologyBiological systemFractal dimensionComputer scienceMathematicsGeneticsOperating systemMathematical analysisPaleontologyCell Image Analysis TechniquesSingle-cell and spatial transcriptomicsMicrofluidic and Bio-sensing Technologies
Morphological profiling by high-throughput single-cell biophysical fractometry | Litcius