Phosphate glass fibres promote neurite outgrowth and early regeneration in a peripheral nerve injury model

Journal of Tissue Engineering and Regenerative Medicine

Volumn 9, Issue 3, 2015, Pages 236-246

  Kim, Young Phil ^a,b   Lee, Gil Su ^a,b   Kim, Jong Wan ^a,b   Kim, Min Soo ^a,b   Ahn, Hong Sun ^a,b   Lim, Jae Young ^c   Kim, Hae Won ^a,b,d   Son, Young Jin ^e   Knowles, Jonathan C ^a,f   Hyun, Jung Keun ^a,b,g  

^a Dankook University   (South Korea)

^b BK21 Plus NBM Global Research Center for Regenerative Medicine   (South Korea)

^c Seoul National University College of Medicine   (South Korea)

^d Dankook University   (South Korea)

^e TEMPLE UNIVERSITY SCHOOL OF MEDICINE   (United States)

^f UNIVERSITY COLLEGE LONDON   (United Kingdom)

^g Dankook University College of Medicine   (South Korea)

Author keywords

Axonal outgrowth; Electrophysiology; Muscle denervation; Peripheral nerve injury; Phosphate glass fibre; Sciatic functional index; Sciatic nerve; Von Frey hair test

Indexed keywords

ELECTROPHYSIOLOGY; GLASS FIBERS; INDIUM COMPOUNDS; NEURONS;

AXONAL OUTGROWTH; DENERVATION; MUSCLE DENERVATION; NERVE INJURIES; PERIPHERAL NERVE INJURY; PERIPHERAL NERVES; PHOSPHATE GLASS FIBERS; SCIATIC FUNCTIONAL INDEX; SCIATIC NERVES; VON FREY HAIR TEST;

MUSCLE;

GLASS FIBER; PHOSPHATE GLASS FIBER; UNCLASSIFIED DRUG; GLASS;

ADULT; ANIMAL EXPERIMENT; ANIMAL MODEL; ANIMAL TISSUE; ARTICLE; CONFOCAL MICROSCOPY; CONTROLLED STUDY; FEMALE; IMMUNOHISTOCHEMISTRY; IN VITRO STUDY; IN VIVO STUDY; MOTOR NERVE CONDUCTION; MOTOR PERFORMANCE; MUSCLE ACTION POTENTIAL; MUSCLE ATROPHY; MUSCLE CONTRACTION; NERVE FIBER; NERVE FIBER GROWTH; NERVE REGENERATION; NONHUMAN; PERIPHERAL NERVE INJURY; PLANTARIS MUSCLE; PRIORITY JOURNAL; QUANTITATIVE ANALYSIS; RAT; SCIATIC NERVE; SENSORY NERVE CELL; SPINAL GANGLION; TISSUE SCAFFOLD; ANIMAL; CONVALESCENCE; DISEASE MODEL; METABOLISM; NEURITE; PATHOLOGY; PATHOPHYSIOLOGY; PERIPHERAL NERVE INJURIES; SPRAGUE DAWLEY RAT; TIME;

ANIMALS; DISEASE MODELS, ANIMAL; FEMALE; GLASS; NEURITES; PERIPHERAL NERVE INJURIES; RATS; RATS, SPRAGUE-DAWLEY; RECOVERY OF FUNCTION; TIME FACTORS;

EID: 84925674775     PISSN: 19326254     EISSN: 19327005     Source Type: Journal    
DOI: 10.1002/term.1626     Document Type: Article

References (41)

1. Agnew WF, McCreery DB, Yuen TG et al. 1999; Evolution and resolution of stimulation-induced axonal injury in peripheral nerve. Muscle Nerve 22: 1393-1402
2. Ahmed I, Collins CA, Lewis MP et al. 2004a; Processing, characterisation and biocompatibility of iron-phosphate glass fibres for tissue engineering. Biomaterials 25: 3223-3232
3. Ahmed I, Lewis M, Olsen I et al. 2004b; Phosphate glasses for tissue engineering: Part 1. Processing and characterisation of a ternary-based P2O5-CaO-Na2O glass system. Biomaterials 25: 491-499
4. Ahmed I, Lewis M, Olsen I et al. 2004c; Phosphate glasses for tissue engineering: Part 2. Processing and characterisation of a ternary-based P2O5-CaO-Na2O glass fibre system. Biomaterials 25: 501-507
5. Alluin O, Wittmann C, Marqueste T et al. 2009; Functional recovery after peripheral nerve injury and implantation of a collagen guide. Biomaterials 30: 363-373
6. Amado S, Simoes MJ, Armada da Silva PA et al. 2008; Use of hybrid chitosan membranes and N1E-115 cells for promoting nerve regeneration in an axonotmesis rat model. Biomaterials 29: 4409-4419
7. Bain JR, Mackinnon SE, Hunter DA. 1989; Functional evaluation of complete sciatic, peroneal, and posterior tibial nerve lesions in the rat. Plast Reconstr Surg 83: 129-138
8. Bitar M, Salih V, Mudera V et al. 2004; Soluble phosphate glasses: in vitro studies using human cells of hard and soft tissue origin. Biomaterials 25: 2283-2292
9. Bozkurt A, Deumens R, Scheffel J et al. 2008; CatWalk gait analysis in assessment of functional recovery after sciatic nerve injury. J Neurosci Methods 173: 91-98
10. Bozkurt A, Lassner F, O'Dey D et al. 2012; The role of microstructured and interconnected pore channels in a collagen-based nerve guide on axonal regeneration in peripheral nerves. Biomaterials 33: 1363-1375
11. Brown RA, M. Wiseman, C. Chuo et al. 2005; Ultrarapid engineering of biomimetic materials and tissues: fabrication of nano- and microstructures by plastic compression. Adv Funct Mater 15: 1762-1770
12. Cao J, Sun C, Zhao H et al. 2011; The use of laminin modified linear ordered collagen scaffolds loaded with laminin-binding ciliary neurotrophic factor for sciatic nerve regeneration in rats. Biomaterials 32: 3939-3948.
13. Chew SY, Mi R, Hoke A et al. 2007; Aligned protein-polymer composite fibres enhance nerve regeneration: a potential tissue-engineering platform. Adv Funct Mater 17: 1288-1296.
14. Ghasemi-Mobarakeh L, Prabhakaran MP, Morshed M et al. 2008; Electrospun poly(epsilon-caprolactone)/gelatin nanofibrous scaffolds for nerve tissue engineering. Biomaterials 29: 4532-4539.
15. Gu X, Ding F, Yang Y et al. 2011; Construction of tissue engineered nerve grafts and their application in peripheral nerve regeneration. Prog Neurobiol 93: 204-230.
16. Jiang X, Lim SH, Mao HQ et al. 2010; Current applications and future perspectives of artificial nerve conduits. Exp Neurol 223: 86-101.
17. Joo NY, Knowles JC, Lee GS et al. 2012; Effects of phosphate glass fibre-collagen scaffolds on functional recovery of completely transected rat spinal cords. Acta Biomater 8: 1802-1812.
18. Lee SK, Wolfe SW. 2000; Peripheral nerve injury and repair. J Am Acad Orthop Surg 8: 243-252.
19. Matsumoto K, Ohnishi K, Kiyotani T et al. 2000; Peripheral nerve regeneration across an 80-mm gap bridged by a polyglycolic acid (PGA)-collagen tube filled with laminin-coated collagen fibres: a histological and electrophysiological evaluation of regenerated nerves. Brain Res 868: 315-328.
20. Meijering E, Jacob M, Sarria JC et al. 2004; Design and validation of a tool for neurite tracing and analysis in fluorescence microscopy images. Cytometry A 58: 167-176.
21. Monte-Raso VV, Barbieri CH, Mazzer N et al. 2008; Is the Sciatic Functional Index always reliable and reproducible? J Neurosci Methods 170: 255-261.
22. Mukhatyar VJ, Salmeron-Sanchez M, Rudra S et al. 2011; Role of fibronectin in topographical guidance of neurite extension on electrospun fibres. Biomaterials 32: 3958-3968.
23. Oh SH, Kim JH, Song KS et al. 2008; Peripheral nerve regeneration within an asymmetrically porous PLGA/Pluronic F127 nerve guide conduit. Biomaterials 29: 1601-1609.
24. Panseri S, Cunha C, Lowery J et al. 2008; Electrospun micro- and nanofibre tubes for functional nervous regeneration in sciatic nerve transections. BMC Biotechnol 8: 39.
25. Sabatier MJ, To BN, Rose S et al. 2012; Chondroitinase ABC reduces time to muscle reinnervation and improves functional recovery after sciatic nerve transection in rats. J Neurophysiol 107: 747-757.
26. Schmitte R, Tipold A, Stein VM et al. 2010; Genetically modified canine Schwann cells--In vitro and in vivo evaluation of their suitability for peripheral nerve tissue engineering. J Neurosci Methods 186: 202-208.
27. Shah R, Sinanan AC, Knowles JC et al. 2005; Craniofacial muscle engineering using a 3-dimensional phosphate glass fibre construct. Biomaterials 26: 1497-1505.
28. Sierpinski P, Garrett J, Ma J et al. 2008; The use of keratin biomaterials derived from human hair for the promotion of rapid regeneration of peripheral nerves. Biomaterials 29: 118-128.
29. Smith KJ, Hall SM, Schauf CL. 1985; Vesicular demyelination induced by raised intracellular calcium. J Neurol Sci 71: 19-37.
30. Tandrup T 1995; Are the neurons in the dorsal root ganglion pseudounipolar? A comparison of the number of neurons and number of myelinated and unmyelinated fibres in the dorsal root. J Comp Neurol 357: 341-347.
31. Tsuyoshi H, Zenzai K, Okado H et al. 2006; Sprouting of sensory neurons in dorsal root ganglia after transection of peripheral nerves. Arch Histol Cytol 69: 173-179.
32. Unal B, Tan H, Orbak Z et al. 2005; Morphological alterations produced by zinc deficiency in rat sciatic nerve: a histological, electron microscopic, and stereological study. Brain Res 1048: 228-234.
33. Uo M, Mizuno M, Kuboki Y et al. 1998; Properties and cytotoxicity of water soluble Na2O-CaO-P2O5 glasses. Biomaterials 19: 2277-2284.
34. Urso-Baiarda F, Grobbelaar AO. 2006; Practical nerve morphometry. J Neurosci Methods 156: 333-341.
35. Vivo M, Puigdemasa A, Casals L et al. 2008; Immediate electrical stimulation enhances regeneration and reinnervation and modulates spinal plastic changes after sciatic nerve injury and repair. Exp Neurol 211: 180-193.
36. Wang HB, Mullins ME, Cregg JM et al. 2010; Varying the diameter of aligned electrospun fibres alters neurite outgrowth and Schwann cell migration. Acta Biomater 6: 2970-2978.
37. Wang W, Itoh S, Matsuda A, et al. 2008; Enhanced nerve regeneration through a bilayered chitosan tube: the effect of introduction of glycine spacer into the CYIGSR sequence. J Biomed Mater Res A 85: 919-928.
38. Wen X, Tresco PA. 2006; Effect of filament diameter and extracellular matrix molecule precoating on neurite outgrowth and Schwann cell behavior on multifilament entubulation bridging device in vitro. J Biomed Mater Res A 76: 626-637.
39. Yan JG, Matloub HS, Yan Y et al. 2010; The correlation between calcium absorption and electrophysiological recovery in crushed rat peripheral nerves. Microsurgery 30: 138-145.
40. Yoshii S, Oka M. 2001; Collagen filaments as a scaffold for nerve regeneration. J Biomed Mater Res 56: 400-405.
41. Zhang N, Zhang C, Wen X. 2005; Fabrication of semipermeable hollow fibre membranes with highly aligned texture for nerve guidance. J Biomed Mater Res A 75: 941-949.