There are a considerable number of publications and patents on the application of vitrification for tissue and whole organ preservation including kidney [32], liver slices [29] and blood vessels [55]. learn more Most tissues studied were either vascular or were organ slices, in both cases the CPA equilibration time throughout the tissue could be effectively reduced by the perfusion of the CPA solution or adjusting the tissue slice thickness [56]. The

earliest accounts of vitrification of articular cartilage are from Jomha et al. [45] and [46]. These two studies demonstrated 42% and 33% cell recovery respectively after vitrification using high concentrations of Me2SO. Song et al. achieved ∼80% chondrocyte viability (Alamar Blue and calcein-AM fluorescent functional assays) in vitrified rabbit full thickness femoral head cartilage. Using cryosubstitution, it was shown that vitrification, or in other words ice-free cryopreservation, was truly achieved [96]. In another study, scanning electron microscopy of the cartilage samples immersed and fast-cooled in ⩾6 M DMSO solution showed a

decrease in the size and total volume of GSK2118436 supplier the enlarged pores due to ice formation [48]. Further evidence of the protection of extracellular matrix from ice formation damage was provided by multiphoton fluorescent imaging of cartilage grafts and Raman spectroscopy of heart valve leaflets, concluding that the tissue extracellular matrix received more extensive damage when frozen with a conventional slow-freezing than when vitrified [18] and [105]. Since the concentrations required for vitrification are generally high, a number of studies have investigated CPA toxicity at high concentrations in cartilage and other tissues providing some valuable information although the data is far from complete. It is clear that CPA toxicity is species and tissue specific; therefore, these results cannot be generalized [5], [23], Temsirolimus mouse [85], [88], [104] and [111]. There are few studies investigating the mechanisms

of toxicity and the effects of high concentrations of CPAs [7], [13], [26], [28], [32] and [113]. More recently, a few studies have investigated CPA toxicity specific to articular cartilage with some general trends in CPA toxicity to chondrocytes and CPA interactions developing [6], [26] and [53]. The specifics of cellular toxicity are not clearly defined at this point and methods of mitigating toxicity of specific CPAs are not available; however the general consensus in the field of cryobiology is to expose cells to the CPA at the lowest concentration and temperature for the shortest exposure time possible so the formation of ice is avoided. This method is called liquidus tracking or stepwise loading and cooling.