Treating brain diseases presents significant challenges due to neuronal degeneration,
inflammation, and the intricate nature of the brain. Stimuli-responsive hydrogels, designed to …

Nanomedicine is a newer, promising approach to promote neuroprotection,
neuroregeneration, and modulation of the blood–brain barrier. This review includes the …

Tissue engineering scaffolds provide biological and physiochemical cures to guide tissue
recovery, and electrical signals through the electroactive materials possess tremendous …

Traumatic brain injuries (TBIs) are still a challenge for the field of modern medicine. Many
treatment options such as autologous grafts and stem cells show limited promise for the …

Traumatic brain injury (TBI) is a leading cause of brain impairment, resulting in acute neural
impairment and chronic long-term disability worldwide. Until now, no therapeutics …

Neuronal loss is the ultimate pathophysiologic event in central nervous system (CNS)
diseases and replacing these neurons is one of the most significant challenges in …

Stimulating brain tissue regeneration is a major challenge after central nervous system
(CNS) injury, such as those observed from trauma or cerebrovascular accidents. Full …

In this work, the glycine-based acryloyl monomer is polymerized to obtain a neurogenic
polymeric hydrogel for regenerative applications. The synthesized poly (N-acryloylglycine …

The incidence of neurodegenerative diseases is increasing due to changing age
demographics and the incidence of sports-related traumatic brain injury is tending to …

Neural tissue engineering presents a compelling technological breakthrough in restoring
brain function, holding immense promise. However, the quest to develop implantable …