The in vitro investigation of many optically opaque biological microstructures requires 3D
analysis at high resolution over a large field of view. We demonstrate a new nondestructive …

Purpose: The intracranial three-dimensional (3D) visualization of the whole volume of the
eyeball at micrometric resolution has not been achieved yet either in clinical nor in …

Studies of brain cytoarchitecture in mammals are routinely performed by serial sectioning of
the specimen and staining of the sections. The procedure is labor-intensive and the 3D …

High-contrast, high-resolution imaging of biomedical specimens is indispensable for
studying organ function and pathologies. Conventional histology, the gold standard for soft …

X-ray microtomography is a nondestructive, three-dimensional inspection technique applied
across a vast range of fields and disciplines, ranging from research to industrial …

Thanks to its non-invasive nature, X-ray phase contrast tomography is a very versatile
imaging tool for biomedical studies. In contrast, histology is a well-established method …

We present a compressive lens-free technique that performs tomographic imaging across a
cubic millimeter-scale volume from highly sparse data. Compared with existing lens-free 3D …

The high-throughput 3D visualisation of biological specimens is essential for studying
diseases and developmental disorders. It requires imaging methods that deliver high …

Quantitative phase imaging has many applications for label-free studies of the nanoscale
structure and dynamics of cells and tissues. It has been demonstrated that optical coherence …

Histology of biological specimens is largely limited to investigating two-dimensional
structure because of the sectioning required to produce optically thin samples for …