Background:“Artificial intelligence” and “big data” increasingly take the step from just being
interesting concepts to being relevant or even part of our lives. This general statement holds …

Red blood cells (RBCs) are the most abundant cell type in the human body and critical
suppliers of oxygen. The cells are characterized by a simple structure with no internal …

Successful human red blood cell cryopreservation techniques have been gradually
developed in recent decades, with great potential for use in clinical medicine and basic …

Optical tweezers are ideal tools for cell manipulation in vivo due to their non-contact trapping
ability. In the current studies, the optical trapping of cells can only be achieved in light …

Objective: Deformability is an essential feature of red blood cells (RBCs), enabling them to
undergo significant shape change in response to external forces. Impaired erythrocyte …

Red blood cells (RBC), the primary component of whole blood, play an essential role in
maintaining blood fluidity and mass transport throughout the human body. RBC …

Although metastasis is the leading cause of cancer deaths, it is quite rare at the cellular
level. Only a rare subset of cancer cells (~ 1 in 1.5 billion) can complete the entire metastatic …

Blood flow in the microcirculatory system is crucially affected by intrinsic red blood cell
(RBC) properties, such as their deformability. In the smallest vessels of this network, RBCs …

The ability to change shape is essential for the proper functioning of red blood cells (RBCs)
within the microvasculature. The shape of RBCs significantly influences blood flow and has …

Microfluidics represents a very promising technological solution for conducting massive
biological experiments. However, the difficulty of managing the amount of information …