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By Tejal Desai, Mauro Ferrari, Sangeeta N. Bhatia
ISBN-10: 0387255656
ISBN-13: 9780387255651
It will be the 1st comprehensive treatment of the rising zone of healing micro- and nanotechnology. topics coated contain: cell-based therapeutics, regenerative drugs - merging cells with micro- and nanosystems, and integrating MEMS with cells and tissues; Drug supply - intravascular nanoparticles for drug concentrating on and nonvascular supply (implantable, oral, inhalable); molecular floor engineering for the organic interface, biomolecule patterning and telephone patterning
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Use of tubes in peripheral nerve repair. Neurosurg. Clin. N. , 12(2):341– 352, 2001. [19] S. David and S. Lacroix. Molecular Approaches to Spinal Cord Repair. Annu. Rev. , 2003. [20] R. C. G. Den Bakker, V. Maquet, S. M. Honig, R. P. W. A. Joosten. Alignment of glial cells stimulates directional neurite growth of CNS neurons in vitro. Neuroscience, 125(3):591–604, 2004. I. J. Winton, and L. McKerracher. Rho activation patterns after spinal cord injury and the role of activated Rho in apoptosis in the central nervous system.
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Hwang, H. C. Wan, S. L. Q. W. Leong, and S. Wang. Peripheral nerve regeneration with sustained release of poly(phosphoester) microencapsulated nerve growth factor within nerve guide conduits. Biomaterials, 24(13):2405–2412, 2003. M. Xu, A. Chen, V. Guenard, N. B. Bunge. Bridging Schwann cell transplants promote axonal regeneration from both the rostral and caudal stumps of transected adult rat spinal cord. J. , 26(1):1–16, 1997. M. X. Zhang, H. Li, P. B. Bunge. Regrowth of axons into the distal spinal cord through a Schwann-cell-seeded mini-channel implanted into hemisected adult rat spinal cord.
BioMEMS and Biomedical Nanotechnology (Biomems and Biological Nanotechnology) by Tejal Desai, Mauro Ferrari, Sangeeta N. Bhatia
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