Advertisement for orthosearch.org.uk
Orthopaedic Proceedings Logo

Receive monthly Table of Contents alerts from Orthopaedic Proceedings

Comprehensive article alerts can be set up and managed through your account settings

View my account settings

Visit Orthopaedic Proceedings at:

Loading...

Loading...

Full Access

PAPER 108: EVALUATION OF QUANTITATIVE MAGNETIC RESONANCE IMAGING, BIOCHEMICAL AND MECHANICAL PROPERTIES OF TRYPSIN TREATED INTERVERTEBRAL DISCS UNDER PHYSIOLOGICAL COMPRESSIVE LOADING



Abstract

Purpose: Since the human intervertebral disc (IVD) is loaded in compression for approximately 16h per day, we investigated the effect of 16h compression loading on the magnetic resonance imaging (MRI) parameters, biochemical contents, and mechanical properties, of IVDs.

Method: Bovine caudal discs (2–3 years-old; non-degenerated) from 3-disc motion segments were injected in the NP with either 5 mg of trypsin in 40 μl Tris buffer or with Tris buffer only. The motion segments were placed in bags containing saline solution and antibiotics and were kept at 37°C throughout the experiment. The motion segments were subjected to either 16h of cyclic compression loading or were left unloaded for 16h. The motion segments were then paraffin embedded for MRI examinations, which were carried out in a 1.5T machine. The IVDs were dissected and the NP and AF were separated for biochemical and mechanical analyses. The NP and AF tissues were analyzed for contents of water, glycosaminoglycan (GAG), total collagen, and denatured collagen. Swelling pressure, compressive modulus HA, and hydraulic permeability were also measured.

Results: Loading had a significant effect on the MRI parameters (T1, T2, T1rho, MTR, ADC) of both the NP and AF tissues. Loading had a greater effect on the MR parameters and biochemical composition of the NP than trypsin. In contrast, trypsin had a larger effect on the mechanical properties. Localized trypsin injection predominantly affected the NP. T1rho was sensitive to loading and correlated with the water content of the NP and AF but not with their proteoglycan content.

Conclusion: Few studies have been directed towards developing an objective and accurate diagnostic tool in the detection and quantification of matrix and mechanical changes in early IVD degeneration. In this report, we demonstrated that MR parameters were influenced by compression loading. We also show showed specific correlations between T1rho and the structural and compositional changes in the disc. Further studies are required to determine the potential of the T1rho technique to be used as a non-invasive diagnostic tool of the biochemical and mechanical changes occurring in disc degeneration.

Correspondence should be addressed to Meghan Corbeil, Meetings Coordinator Email: meghan@canorth.org