In biomedical research, so-called organs-on-a-chip, also referred to as microphysiological systems, are becoming increasingly ...

Engineers from Texas A University (TAMU) have developed a groundbreaking tiny chip that mimics real human blood vessels, ...

Miniature organs on a chip could allow us to do scientific studies with great precision, without having to resort to animal testing. The main problem, however, is that artificial tissue needs blood ...

Researchers have established a method to create a network of perfusable blood vessels in organs-on-chips, enabling better ...

Femtosecond source produces precise, stable channels for blood supply in tissue models. The breakthrough, described in ...

Blood vessels are like big-city highways; full of curves, branches, merges, and congestion. Yet for years, lab models ...

Organ-on-a-chip technology, which uses human cells on microfluidic chips to mimic the structure and function of organs in a ...

The truth is clear: Animal models aren’t just helpful; they’re irreplaceable. They remain central to understanding the ...

Organoid and organ-on-a-chip technologies represent a transformative leap in the field of biomedical science. Historically, traditional in vitro methods ...

Organ-on-a-chip The advance of technology has allowed organ-on-a-chip technology, which uses microfluidics to mimic the physiology and functionality of human organs on a chip.

The biotech’s main offerings are its human organ-on-chip models and micro-physiological systems. Organ-on-chips have become an established method of studying disease pathogenesis, whilst tumour ...