Nanotherapeutic and stem cell therapeutic strategies in neurodegenerative diseases: A promising therapeutic approach
M Wei, Z Yang, S Li, W Le - International journal of nanomedicine, 2023 - Taylor & Francis
Neurodegeneration is characterized by progressive, disabling, and incurable neurological
disorders with the massive loss of specific neurons. As one of the most promising potential …
disorders with the massive loss of specific neurons. As one of the most promising potential …
Progress in the application of graphene and its derivatives to osteogenesis
J Guo, G Cao, S Wei, Y Han, P Xu - Heliyon, 2023 - cell.com
As bone and joint injuries from various causes become increasingly prominent, how to
effectively reconstruct and repair bone defects presents a difficult problem for clinicians and …
effectively reconstruct and repair bone defects presents a difficult problem for clinicians and …
Electro-conductive chitosan/graphene bio-nanocomposite scaffold for tissue engineering of the central nervous system
Degenerative central nervous system (CNS) disorders and traumatic brain injuries are
common nowadays. These may induce the loss of neuronal cells and delicate connections …
common nowadays. These may induce the loss of neuronal cells and delicate connections …
Stem cell therapy: old challenges and new solutions
Stem cell therapy (SCT), born as therapeutic revolution to replace pharmacological
treatments, remains a hope and not yet an effective solution. Accordingly, stem cells cannot …
treatments, remains a hope and not yet an effective solution. Accordingly, stem cells cannot …
Electroconductive and porous graphene-xanthan gum gel scaffold for spinal cord regeneration
F Xue, T Liu, X Liu, K Chen, L Duan, G Gao - European Polymer Journal, 2022 - Elsevier
Scaffolds mimicking the conductive and soft properties of the spinal cord and the porous
structure of the extracellular matrix are beneficial for spinal cord repair. However, it remains …
structure of the extracellular matrix are beneficial for spinal cord repair. However, it remains …
Impact of graphene derivatives as artificial extracellular matrices on mesenchymal stem cells
Thanks to stem cells' capability to differentiate into multiple cell types, damaged human
tissues and organs can be rapidly well-repaired. Therefore, their applicability in the …
tissues and organs can be rapidly well-repaired. Therefore, their applicability in the …
Oriented neural spheroid formation and differentiation of neural stem cells guided by anisotropic inverse opals
L Xia, Y Shang, X Chen, H Li, X Xu, W Liu… - … in Bioengineering and …, 2020 - frontiersin.org
Isotropic inverse opal structures have been extensively studied for the ability to manipulate
cell behaviors such as attachment, migration, and spheroid formation. However, their use in …
cell behaviors such as attachment, migration, and spheroid formation. However, their use in …
Graphene nanofiber composites for enhanced neuronal differentiation of human mesenchymal stem cells
Aim: To differentiate mesenchymal stem cells into functional dopaminergic neurons using an
electrospun polycaprolactone (PCL) and graphene (G) nanocomposite. Methods: A one …
electrospun polycaprolactone (PCL) and graphene (G) nanocomposite. Methods: A one …
Graphene‐Based Nanotechnology in Neurodegenerative Disorders
C Tapeinos - Advanced NanoBiomed Research, 2021 - Wiley Online Library
Graphene‐based materials (GBMs) demonstrate unique electrochemical, mechanical,
thermal, and optical properties rendering them attractive candidates for numerous …
thermal, and optical properties rendering them attractive candidates for numerous …
Influence of Graphene-Based Nanocomposites in Neurogenesis and Neuritogenesis: A Brief Summary
A Raghavan, S Ghosh - ACS Applied Bio Materials, 2024 - ACS Publications
Graphene is a prospective candidate for various biomedical applications, including drug
transporters, bioimaging agents, and scaffolds for tissue engineering, thanks to its superior …
transporters, bioimaging agents, and scaffolds for tissue engineering, thanks to its superior …