Live imaging is a powerful tool, enabling scientists to observe living organisms in real time.
In particular, when combined with fluorescence microscopy, live imaging allows the …

Future precision medicine will be undoubtedly sustained by the detection of validated
biomarkers that enable a precise classification of patients based on their predicted disease …

Advances in microscopy hold great promise for allowing quantitative and precise
measurement of morphological and molecular phenomena at the single-cell level in …

This work demonstrates and guides how to use a range of state-of-the-art artificial neural-
networks to analyse bacterial microscopy images using the recently developed …

Abstract Extracellular Vesicles (EVs), particularly exosomes, recently exploded into
nanomedicine as an emerging drug delivery approach due to their superior biocompatibility …

Live-cell super-resolution microscopy enables the imaging of biological structure dynamics
below the diffraction limit. Here we present enhanced super-resolution radial fluctuations …

Light microscopy enables researchers to observe cellular mechanisms with high spatial and
temporal resolution. However, the increasing complexity of current imaging technologies …

Artificial intelligence (AI) algorithms hold the potential to revolutionize radiology. However, a
significant portion of the published literature lacks transparency and reproducibility, which …

Despite the enormous potential of nanomedicines to shape the future of medicine, their
clinical translation remains suboptimal. Translational challenges are present in every step of …

Ductal carcinoma in situ (DCIS) is a pre-invasive stage of breast cancer. During invasion, the
encapsulating DCIS basement membrane (BM) is compromised, and tumor cells invade the …