BIOTRANSPORT AND BIOPRESERVATION LABORATORY


Publications

  1. Wang S*, Mueller D, Chen P, Pan G, Wilson M, Sun S, Chen Z, Lee T, Damon B, Hepfer RG, Hill C, Kern MJ, Pullen WM, Wu Y, Brockbank KGM, Yao H*. Viable Vitreous Grafts of Whole Porcine Menisci for Transplant in the Knee and Temporomandibular Joints. Adv Healthc Mater. 2024 Mar 24:e2303706. doi: 10.1002/adhm.202303706. Epub ahead of print. PMID: 38523366. (*corresponding author)
  2. Orozco Cabral, J.A.; Lee, P.-C.; Wang, S.; Wang, Y.; Zhang, Y.; Comizzoli, P.; Elliott, G.D. The Effect of Choline Salt Addition to Trehalose Solution for Long-Term Storage of Dried and Viable Nuclei from Fully Grown Oocytes. Bioengineering 2023, 10, 1000. https://doi.org/10.3390/bioengineering10091000
  3. Chen P., Wang, S., Chen, Z., Ren, P., Hepfer, R.G., Greene, E.D., Campbell, L.H., Helke, K.L., Nie, X., Jensen, J.H., Hill, C., Wu, Y., Brockbank, K.G.M., Yao, H. “Nanowarming and Ice-free Cryopreservation of Large Sized, Intact Articular Cartilage,” Commun Biol 6, 220 (2023). https://doi.org/10.1038/s42003-023-04577-9.
  4. Wang, S., Lee, P.C., Elsayed, A., Zhang, F., Zhang, Y., Comizzoli, P., and Elliott, G.D., “Preserving the Female Genome in Trehalose Glass at Supra-Zero Temperatures: The Relationship Between Moisture Content and DNA Damage in Feline Germinal Vesicles,” Cellular and Molecular Bioengineering, 14, 101-112 (2020).
  5. Dréau, D., Wang, S., Clemens, M., and Elliott, G.D., “Structure and Function of Porcine Arteries Are Preserved for up to 6 Days Using the HypoRP Cold-storage Solution,” Transplantation, 104, e125-e134 (2020).
  6. Wang, S., and Elliott, G.D., “Preservation Strategies that Support the Scale-up and Automation of Tissue Biomanufacturing,” Current Stem Cell Reports, 4, 138–148 (2018).
  7. Elliott, G.D., Wang, S., and Fuller, B.J., “Cryoprotectants: A review of the actions and applications of cryoprotective solutes that modulate cell recovery from ultra-low temperatures,” Cryobiology, 76, 74-91 (2017).
  8. Wang, S., and Elliott, G.D., “Synergistic Development of Biochips and Cell Preservation Methodologies: a Tale of Converging Technologies,” Current Stem Cell Reports, 3, 45–53 (2017)
  9. Wang, S., Oldenhof, H., Goecke, T., Ramm, R., Harder, M., Haverich, A., Hilfiker, A., and Wolkers, W.F., “Sucrose Diffusion in Decellularized Heart Valves for Freeze-Drying,” Tissue Engineering Part C Methods, 21, 922-931 (2015).
  10. Oldenhof, H., Gojowsky, M., Wang, S., Henke, S., Yu, C., Rohn, K., Wolkers, W.F., and Sieme, H., “Osmotic stress and membrane phase changes during freezing of stallion sperm: mode of action of cryoprotective agents,” Biology of Reproduction, 88, 68 (2013).
  11. Wang, S., Oldenhof, H., Dai, X., Haverich, A., Hilfiker, A., Harder, M., and Wolkers, W.F., “Protein stability in stored decellularized heart valve scaffolds and diffusion kinetics of protective molecules,” Biochimica et Biophysica Acta, 1844, 430-438 (2014).
  12. Wang, S., Oldenhof, H., Hilfiker, A., Harder, M., and Wolkers, W.F., “Protein secondary structure and solvent accessibility of proteins in decellularized heart valve scaffolds,” Biomedical Spectroscopy and Imaging, 1, 79-87 (2012)
  13. Wang, S., Goecke, T., Meixner, C., Haverich, A., Hilfiker, A., and Wolkers, W.F., “Freeze-dried heart valve scaffolds,” Tissue Engineering Part C Methods, 18, 517-525 (2012).