Date Published:
2020 Jun 26
Abstract:
The tensile strength of the intervertebral disc (IVD) is mainly maintained by collagen cross-links. Loss of collagen cross-linking combined with other age-related degenerative processes contributes to tissue weakening, biomechanical failure, disc herniation and pain. Exogenous collagen cross-linking has been identified as an effective therapeutic approach for restoring IVD tensile strength. The current state-of-the-art method to assess the extent of collagen cross-linking in tissues requires destructive procedures and high-performance liquid chromatography (HPLC). In this study, we investigated the utility of infrared attenuated total reflection (IR-ATR) spectroscopy as a non-destructive analytical strategy to rapidly evaluate the extent of UV-light-activated riboflavin (B2)-induced collagen crosslinking (UVA-CXL) in bovine IVD samples. Thirty five fresh bovine-tail IVD samples were equally divided into five treatment groups: (i) untreated, (ii) cell culture medium DMEM only, (iii) B2 only, (iv) UV-light only, and (v) UV-light-B2. A total of 674 measurements have been acquired, and were analyzed via partial least squares discriminant analysis. This classification scheme unambiguously identified individual classes with a sensitivity >91% and specificity >92%. The obtained results demonstrate that IR-ATR spectroscopy reliably differentiates between different treatment categories, and promises an excellent tool for potential in vivo, non-destructive, and real-time assessment of exogenous IVD crosslinking. This article is protected by copyright. All rights reserved.
