[HTML][HTML] Electrostimulation via a 3D-printed, biomimetic, neurotrophic, electroconductive scaffold for the promotion of axonal regrowth after spinal cord injury
Spinal cord injury (SCI) is a devastating neurotrauma, affecting 250,000 to 500,000 people
annually, and typically results in paralysis. Electrostimulation can promote neuronal growth …
annually, and typically results in paralysis. Electrostimulation can promote neuronal growth …
Effect of sintering temperature and polyvinyl alcohol composition as binder on the formation of porous hydroxyapatite as bone graft using sponge replication method: A …
Hydroxyapatite (HA) is one of the inorganic components that has a role as a bone
regeneration material. The potential for utilizing waste is one of the opportunities in HA …
regeneration material. The potential for utilizing waste is one of the opportunities in HA …
Neurotrophic extracellular matrix proteins promote neuronal and iPSC astrocyte progenitor cell‐and nano‐scale process extension for neural repair applications
The extracellular matrix plays a critical role in modulating cell behaviour in the develo**
and adult central nervous system influencing neural cell morphology, function and growth …
and adult central nervous system influencing neural cell morphology, function and growth …
The Development of Principles for Patient and Public Involvement (PPI) in Preclinical Spinal Cord Research: A Modified Delphi Study
Introduction There is currently limited guidance for researchers on Patient and Public
Involvement (PPI) for preclinical spinal cord research, leading to uncertainty about design …
Involvement (PPI) for preclinical spinal cord research, leading to uncertainty about design …
Perspectives of researchers and clinicians on patient and public involvement (PPI) in preclinical spinal cord research: An interview study
Introduction Patient and public involvement (PPI) in research is an embedded practice in
clinical research, however, its role in preclinical or laboratory‐based research is less well …
clinical research, however, its role in preclinical or laboratory‐based research is less well …
3D-printed, biomimetic, conductive MXene-microfiber composite scaffolds enhance the axonal growth-promoting characteristics of electrical stimulation.
The application of externally applied electrical stimulation can regulate electrical signalling
in neural tissues and has the potential to promote repair of tissue following neurotrauma …
in neural tissues and has the potential to promote repair of tissue following neurotrauma …