Studying single cells opens opportunities for understanding many biological processes and, as a consequence,
plays an important role in the development of biomedicine. Scanning Ion Conductance Microscopy (SICM)
and nanopipette systems for the analysis of single cells represent a powerful tool for investigating the
morphological, mechanical, and biochemical features of living cells with nanometer spatial resolution under
near-natural conditions. Over the last decades, SICM has shown great success in studying and manipulating
single cells, and the non-contact nature of the system, combined with the unique features of nanopipettes
used as probes, has opened new possibilities for the application of such systems in biomedical applications.
This review reflects the latest trends and directions in the development of SICM and nanopipette systems for
the single-cell analysis.