To understand complex biological processes, scientists must gain insight into the function of
individual living cells. In contrast to the imaging of fixed cells, where a single snapshot of the …

Observation and analysis of cancer cell behaviour in 3D environment is essential for full
understanding of the mechanisms of cancer cell invasion. However, label-free imaging of …

We present geometric-phase microscopy allowing a multipurpose quantitative phase
imaging in which the ground-truth phase is restored by quantifying the phase retardance …

Cells attaching to the extracellular matrix spontaneously acquire front–rear polarity. This self-
organization process comprises spatial activation of polarity signaling networks and the …

Quantitative phase imaging (QPI) is a powerful tool for label‐free visualisation of living cells.
Here, we compare two QPI microscopes–the Telight Q‐Phase microscope and the Nanolive …

Colorectal cancer (CRC) is the second most metastatic disease with the majority of cases
detected in Western countries. Metastases are formed by circulating altered phenotype …

This last Editorial for 2022 begins with presentation of the “Most popular articles published in
HCB in 2020.” We then follow with highlights from two Original Articles investigating the …

Nádorové buňky vykazují výrazné změny v glykosylaci buněčného povrchu v důsledku
dysregulovaných glykosyltransferáz a glykosidáz. Zvýšení exprese sialylovaných glykanů je …

Quantitative phase imaging (QPI) during cell division is implemented by ourhomemade dual-
channel microscopic interferometry (DCMI) system. A pair of interferograms with a fixed …

In microscopic imaging, transport of intensity equation (TIE) is an effective phase retrieval
method. In order to effectively calculate the lost phase from the intensity information, a phase …