When used appropriately, a confocal fluorescence microscope is an excellent tool for
making quantitative measurements in cells and tissues. The confocal microscope's ability to …

Biological specimens are intrinsically three dimensional; however, because of the obscuring
effects of light scatter, imaging deep into a tissue volume is problematic. Although efforts to …

The ultimate goal of biological super-resolution fluorescence microscopy is to provide three-
dimensional resolution at the size scale of a fluorescent marker. Here we show that by …

The generation of organoids and tissues with programmable cellular complexity,
architecture and function would benefit from the simultaneous differentiation of human …

Single-molecule super-resolution fluorescence microscopy and single-particle tracking are
two imaging modalities that illuminate the properties of cells and materials on spatial scales …

Tissue, cell, and nucleus morphology change during tumor progression. In 2D confluent cell
cultures, different tissue states, such as fluid (unjammed) and solid (jammed), are correlated …

Animal cell shape is largely determined by the cortex, a thin actin network underlying the
plasma membrane in which myosin-driven stresses generate contractile tension. Tension …

Single-molecule super-resolution microscopy has developed from a specialized technique
into one of the most versatile and powerful imaging methods of the nanoscale over the past …

A mini-review with 79 references. In this review, the most recent trends in 3D-printed
microfluidic devices are discussed. In addition, a focus is given to the fabrication aspects of …

Ever since the inception of light microscopy, the laws of physics have seemingly thwarted
every attempt to visualize the processes of life at its most fundamental, sub-cellular, level …