Biomaterials with the ability to self-heal and recover their structural integrity offer many
advantages for applications in biomedicine. The past decade has witnessed the rapid …

Repairing central nervous system (CNS) is difficult due to the inability of neurons to recover
after damage. A clinically acceptable treatment to promote CNS functional recovery and …

This review focuses on smart nano-materials built of stimuli-responsive (SR) polymers and
will discuss their numerous applications in the biomedical field. The authors will first provide …

Glioblastoma (GBM) is the most prevalent and lethal adult primary central nervous system
cancer. An immunosuppresive and highly heterogeneous tumor microenvironment …

The central nervous system (CNS), consisting of the brain, spinal cord, and retina,
superintends to the acquisition, integration and processing of peripheral information to …

Stem cell transplantation via direct injection is a minimally invasive strategy being explored
for treatment of a variety of injuries and diseases. Injectable hydrogels with shear moduli< …

During the past decades, improving patient neurological recovery following spinal cord
injury (SCI) has remained a challenge. An effective treatment for SCI would not only reduce …

Spinal cord injury (SCI) presents a complex regenerative problem due to the multiple facets
of growth inhibition that occur following trauma to the cord parenchyma and stroma …

We developed a chondroitin sulfate–polyethylene glycol (CS–PEG) adhesive hydrogel with
numerous potential biomedical applications. The carboxyl groups on chondroitin sulfate …

Protein and peptide delivery by the use of stimuli triggered polymers remains to be the area
of interest among the scientist and innovators. In-situ forming gel for the parenteral route in …