Electroconductive PEDOT nanoparticle integrated scaffolds for spinal cord tissue repair. Biomaterials Research , 2022; 26 (1) DOI: 10.1186/s40824-022-00310-5 Cite This Page : ...

We have a full range of histology equipment, including tissue processors, semi-automated microtomes which can accommodate jumbo blocks, cryostats and an ... The SBTB consists of a local donor cohort ...

More information: Aleksandra Serafin et al, Electroconductive PEDOT nanoparticle integrated scaffolds for spinal cord tissue repair, Biomaterials Research (2022). DOI: 10.1186/s40824-022-00310-5.

image: Schematic illustration of engineered Spinal Cord tissues via covalent interactions between cell and biomaterials view more . Credit: IGDB. In a recent study published in Science Advances, a ...

Now, UC San Francisco researchers have discovered how a rarely studied cell type controls the formation of scar tissue in spinal cord injuries. Activating a molecular pathway within these cells, the ...

Each year, thousands of people suffer from spinal cord injuries, often leading to permanent paralysis and loss of function. While no complete cure exists yet for such injuries, advances in tissue ...

Past neuroscience studies found that when the central nervous system (CNS) is damaged, for instance following a stroke or spinal cord injuries, the lesions become surrounded by borders of newly ...

Significant progress has been made in the research of spinal cord tissue repair according to a recent study from the University of Limerick’s Bernal Institute, which was published in the ...

As a result, the study was able to provide convincing evidence that tissue bridges in the spinal cord are associated with short- and long-term clinical improvements, ...

As part of their recent study, Sofroniew and his colleagues set out to investigate how astrocytes in the brain and spinal cord of adult mice respond to tissue injuries.