Vitrification and rapid rewarming of precision-cut liver slices for pharmacological and biomedical research.

Background And Aims: High-throughput in vitro pharmacological toxicity testing is essential for drug discovery. Precision-cut liver slices (PCLS) provide a robust system for screening that is more representative of the complex 3D structure of the whole liver than isolated hepatocytes. However, PCLS are not available as off-the-shelf products, significantly limiting their translational potential.

Physical vitrification and nanowarming at human organ scale to enable cryopreservation.

Organ banking by vitrification could revolutionize transplant medicine. However, vitrification and rewarming have never been demonstrated at the human organ scale. Using modeling and experimentation, we tested the ability to vitrify and rewarm 0.

Kidney tissue loading reduces the critical cooling and warming rates of VS55 and VMP cryoprotective solutions.

Critical cooling and warming rates (CCR and CWR) are two important calorimetric properties of cryoprotective agents (CPA) solutions, and achieving these rates is generally regarded as the critical criterion for successful vitrification and rewarming. In 1996, Peyridieu et al. discovered that the measured critical rates are reduced inside kidney tissue equilibrated with 30 % (w/w) 2,3-butanediol compared to its free CPA solution.

Engineering Magnetic Nanoclusters for Highly Efficient Heating in Radio-Frequency Nanowarming.

Effective thawing of cryopreserved samples requires rapid and uniform heating. This is achievable through nanowarming, an approach that heats magnetic nanoparticles by using alternating magnetic fields. Here we demonstrate the synthesis and surface modification of magnetic nanoclusters for efficient nanowarming.