D bioprinted nerve tissues offer new hope for ALS drug testing. Uppsala team creates motor neuron organoids from patient ...

With the aid of a 3D printer, researchers at Uppsala University have succeeded in creating a model that resembles human nerve tissue.

D printers can be used to make organoids from a patient's cells that resemble human nerve tissue to test new amyotrophic ...

New nanobody-based method, POD-nAb/FT-GO 3D-IHC, enables ultra-fast, high-resolution labeling of neurons and glia deep within 1-mm-thick brain tissue, revealing cellular structures in just three days.

With the aid of a 3D printer, researchers at Uppsala University have succeeded in creating a model that resembles human nerve tissue. The model, which can be cultured from the patient’s own cells, ...

With the aid of a 3D printer, researchers at Uppsala University have succeeded in creating a model that resembles human nerve tissue. The model, which can be cultured from the patient’s own ...

Motor neurons are nerve cells that control our muscles by sending signals from the brain and spinal cord out to the body. In diseases such as Amyotrophic Lateral Sclerosis (ALS), these cells are ...

Three-dimensional printing is transforming medical care, letting the health care field shift from mass-produced solutions to customized treatments tailored to each patient’s needs. For instance ...

This allowed the team to record patterns of neuron activity in visual areas of the brain, covering a volume roughly the size of a grain of sand. Despite its small size, the tissue contained ...

How 3D Bioprinting and Bioinks Work In 2004, the advent of 3D bioprinting opened a new era in tissue engineering, a field that had begun in the 1980s. In the early days, tissue engineers added ...