STUDY DESIGN: Biochemical studies aimed at optimization of protein crosslinking formulations for the treatment of degenerative disc disease and subsequent biomechanical testing of tissues treated with these formulations. OBJECTIVE: To optimize protein crosslinking formulations for treatment of degenerating spinal discs. SUMMARY OF BACKGROUND DATA: Nonsurgical exogenous crosslinking therapy is a potential new, noninvasive technology for the treatment of degenerative disc disease. The technology is based on the injection of protein crosslinking reagents into the pathologic disc to restore its mechanical properties and also to potentially increase the permeability of the tissue and so facilitate the exchange of waste products and nutrients. METHODS: Diffusion of genipin (GP) was monitored following injection into spinal discs and the effects of surfactants on diffusion studied. Formulations for GP and methylglyoxal (MG) were biochemically optimized and used to treat bovine spinal discs. Their effects on bovine anulus tissue were evaluated using a circumferential tensile test, while the GP formulation was also tested with respect to its ability to reduce disc bulge under load. RESULTS: GP exhibited a distinct time-dependent diffusion and sodium-dodecyl-sulfate, but not Tween-20, enhanced diffusion by 30%. Two crosslinkers, GP and MG, were inhibited by amines but enhanced by phosphate ions. Both formulations could enhance a number of physical parameters of bovine anulus tissue, while the GP formulation could reduce disc bulge following injections into spinal discs. CONCLUSION: Formulations lacking amines and containing phosphate ions appear to be promising candidates for clinical use of the crosslinkers GP and MG.
STUDY DESIGN: Biochemical studies aimed at optimization of protein crosslinking formulations for the treatment of degenerative disc disease and subsequent biomechanical testing of tissues treated with these formulations. OBJECTIVE: To optimize protein crosslinking formulations for treatment of degenerating spinal discs. SUMMARY OF BACKGROUND DATA: Nonsurgical exogenous crosslinking therapy is a potential new, noninvasive technology for the treatment of degenerative disc disease. The technology is based on the injection of protein crosslinking reagents into the pathologic disc to restore its mechanical properties and also to potentially increase the permeability of the tissue and so facilitate the exchange of waste products and nutrients. METHODS: Diffusion of genipin (GP) was monitored following injection into spinal discs and the effects of surfactants on diffusion studied. Formulations for GP and methylglyoxal (MG) were biochemically optimized and used to treat bovine spinal discs. Their effects on bovine anulus tissue were evaluated using a circumferential tensile test, while the GP formulation was also tested with respect to its ability to reduce disc bulge under load. RESULTS:GP exhibited a distinct time-dependent diffusion and sodium-dodecyl-sulfate, but not Tween-20, enhanced diffusion by 30%. Two crosslinkers, GP and MG, were inhibited by amines but enhanced by phosphate ions. Both formulations could enhance a number of physical parameters of bovine anulus tissue, while the GP formulation could reduce disc bulge following injections into spinal discs. CONCLUSION: Formulations lacking amines and containing phosphate ions appear to be promising candidates for clinical use of the crosslinkers GP and MG.
Authors: Nicole Verzijl; Jeroen DeGroot; Zaken Chaya Ben; Orit Brau-Benjamin; Alice Maroudas; Ruud A Bank; Joe Mizrahi; Casper G Schalkwijk; Suzanne R Thorpe; John W Baynes; Johannes W J Bijlsma; Floris P J G Lafeber; Johan M TeKoppele Journal: Arthritis Rheum Date: 2002-01
Authors: Anne-Gita Scheibler; Tobias Götschi; Jonas Widmer; Claude Holenstein; Thomas Steffen; Roland S Camenzind; Jess G Snedeker; Mazda Farshad Journal: PLoS One Date: 2018-12-06 Impact factor: 3.240