Water content in an engineered dermal replacement during permeation of Me2SO solutions using rapid MR imaging.

The successful cryopreservation of cell and tissues typically requires the use of specialized solutions containing cryoprotective agents. At room temperature, the introduction of a cryopreservation solution can result in cell damage/death resulting from osmotic stresses and/or biochemical toxicity of the solution. For tissues, the permeation and equilibration of a cryoprotective solution throughout the tissue is important in enhancing the uniformity and consistency of the postthaw viability of the tissue. Magnetic resonance (MR) is a common nondestructive technique that can be used to quantitate the temporal and spatial composition of water and cryoprotective agents in a three-dimensional system. We have applied a recently developed rapid NMR imaging technique to quantify the transport of water in an artificial dermal replacement upon permeation of dimethyl sulfoxide (Me2SO) solutions. Results indicate that the rate of water transport is slower in the presence of Me2SO molecules. Furthermore, the transport is concentration-dependent, suggesting that Me2SO tends to retain bound water molecules in the tissue. Moreover, water transport decreases with decreasing temperature, and the presence of cells tends to increase water transport.

Rapid MR imaging of cryoprotectant permeation in an engineered dermal replacement.

Magnetic resonance (MR) imaging is a powerful technique for monitoring the permeation of cryoprotective agents (CPAs) inside tissues. However, the techniques published until now suffer from inherently long imaging times, limiting the application of these techniques to slow diffusion processes and large CPA concentrations. In this study, we present a rapid MR imaging technique based on a CHESS-FLASH scheme combined with Keyhole image acquisition. This technique can image the fast permeation of Me(2)SO solutions into freeze-dried artificial dermal replacements for concentrations down to 10% v/v. Special attention is given to evaluating the technique for quantitative analysis.