Injection of Microporous Annealing Particle (MAP) Hydrogels in the Stroke Cavity Reduces Gliosis and Inflammation and Promotes NPC Migration to the Lesion
Publication
, Journal Article
Nih, LR; Sideris, E; Carmichael, ST; Segura, T
Published in: Advanced Materials
2017
Duke Scholars
Published In
Advanced Materials
Publication Date
2017
Volume
29
Related Subject Headings
- Stroke
- Neural Stem Cells
- Nanoscience & Nanotechnology
- Inflammation
- Hydrogels
- Humans
- Gliosis
- 51 Physical sciences
- 40 Engineering
- 34 Chemical sciences
Citation
APA
Chicago
ICMJE
MLA
NLM
Nih, L. R., Sideris, E., Carmichael, S. T., & Segura, T. (2017). Injection of Microporous Annealing Particle (MAP) Hydrogels in the Stroke Cavity Reduces Gliosis and Inflammation and Promotes NPC Migration to the Lesion. Advanced Materials, 29.
Nih, Lina R., Elias Sideris, S Thomas Carmichael, and Tatiana Segura. “Injection of Microporous Annealing Particle (MAP) Hydrogels in the Stroke Cavity Reduces Gliosis and Inflammation and Promotes NPC Migration to the Lesion.” Advanced Materials 29 (2017).
Nih LR, Sideris E, Carmichael ST, Segura T. Injection of Microporous Annealing Particle (MAP) Hydrogels in the Stroke Cavity Reduces Gliosis and Inflammation and Promotes NPC Migration to the Lesion. Advanced Materials. 2017;29.
Nih, Lina R., et al. “Injection of Microporous Annealing Particle (MAP) Hydrogels in the Stroke Cavity Reduces Gliosis and Inflammation and Promotes NPC Migration to the Lesion.” Advanced Materials, vol. 29, 2017.
Nih LR, Sideris E, Carmichael ST, Segura T. Injection of Microporous Annealing Particle (MAP) Hydrogels in the Stroke Cavity Reduces Gliosis and Inflammation and Promotes NPC Migration to the Lesion. Advanced Materials. 2017;29.
Published In
Advanced Materials
Publication Date
2017
Volume
29
Related Subject Headings
- Stroke
- Neural Stem Cells
- Nanoscience & Nanotechnology
- Inflammation
- Hydrogels
- Humans
- Gliosis
- 51 Physical sciences
- 40 Engineering
- 34 Chemical sciences