Polymeric hydrogels are fascinating platforms as 3D scaffolds for tissue repair and delivery
systems of therapeutic molecules and cells. Among others, methacrylated gelatin (GelMA) …

Peripheral nerve repair and regeneration remains among the greatest challenges in tissue
engineering and regenerative medicine. Even though peripheral nerve injuries (PNIs) are …

Electrical stimulation (ES) with conductive polymers can dramatically enhance neurite
outgrowth and promote neural regeneration. However, besides ES, the practical …

Peripheral nerve injuries are serious conditions, and surgical treatment has critical
limitations. Therefore, nerve guidance conduits (NGCs) are proposed as an alternative. In …

Nerve guidance conduits (NGCs) have attracted much attention due to their great necessity
and applicability in clinical use for the peripheral nerve repair. Great efforts in recent years …

Methods in nerve tissue engineering for peripheral nerve regeneration have recently
focused on the application of rapid three-dimensional (3D) printing with resorbable and …

Bioelectricity plays a crucial role in organisms, being closely connected to neural activity and
physiological processes. Disruptions in the nervous system can lead to chaotic ionic …

In recent decades, artificial nerve scaffolds have become a promising substitute for
peripheral nerve repair. Considerable efforts have been devoted to improving the …

The long‐segment peripheral nerve injury (PNI) represents a global medical challenge,
leading to incomplete nerve tissue recovery and unsatisfactory functional reconstruction …

Repairing peripheral nerve injury, especially long-range defects of thick nerves, is a great
challenge in the clinic due to their limited regeneration capability. Most FDA-approved nerve …