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Degeneration of intervertebral discs is the most common cause of back pain. The first phase of this degenerative process involves the nucleus pulposus. A rapid recovery of this structure can prevent further degradation of the annulus fibrosus. Guar Gum is an hydrophilic polysaccharide extracted from the seed endosperm of a plant. Through a cross linking procedure a Guar hydrogel was synthesized. The Guar hydrogel could be injected by a syringe and it is a good candidate as a nucleus pulposus substitute. For the preparation of the artificial fibrosus annulus, commercially available polymer materials are tuned to achieve suitable mechanical properties. To achieve this peculiar behaviour, the main strategy investigated is the dispersion of hollow polymer micro spheres in a thermoplastic polymer matrix. Processing conditions and particle content are finely tuned to get the target mechanical behaviour.

D., M., Leone, G., Barbucci, R., R., F., A., F., F., S., et al. (2008). An Artificial Disc: Chemical and Biomechanical Analysis. MACROMOLECULAR SYMPOSIA, 266(1), 74-80 [10.1002/masy.200850614].

An Artificial Disc: Chemical and Biomechanical Analysis

LEONE, GEMMA;BARBUCCI, ROLANDO;
2008-01-01

Abstract

Degeneration of intervertebral discs is the most common cause of back pain. The first phase of this degenerative process involves the nucleus pulposus. A rapid recovery of this structure can prevent further degradation of the annulus fibrosus. Guar Gum is an hydrophilic polysaccharide extracted from the seed endosperm of a plant. Through a cross linking procedure a Guar hydrogel was synthesized. The Guar hydrogel could be injected by a syringe and it is a good candidate as a nucleus pulposus substitute. For the preparation of the artificial fibrosus annulus, commercially available polymer materials are tuned to achieve suitable mechanical properties. To achieve this peculiar behaviour, the main strategy investigated is the dispersion of hollow polymer micro spheres in a thermoplastic polymer matrix. Processing conditions and particle content are finely tuned to get the target mechanical behaviour.
2008
MACROMOLECULAR SYMPOSIA
D., M., Leone, G., Barbucci, R., R., F., A., F., F., S., et al. (2008). An Artificial Disc: Chemical and Biomechanical Analysis. MACROMOLECULAR SYMPOSIA, 266(1), 74-80 [10.1002/masy.200850614].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11365/33799
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