Articles dans des revues avec comité de lecture (26)
  1. 1. Martin-Valiente, E., Du, Y., Goemans, C., America, M., Zindy, E., Adam, M., Scheid, B., Vikkula, M., Lubicz, B., Vanhollebeke, B., & Baeyens, N. (2025). Reversal of cerebrovascular anomalies in a zebrafish model of vein of Galen aneurysm. Nature Cardiovascular Research. doi:10.1038/s44161-025-00659-5
  2. 2. Perez Chavez, I., Baeyens, N., Ezeriņa, D., Gurzov, E. N., & Messens, J. (2025). Protocol for real-time glycolytic monitoring in mammalian cells using confocal microscopy and HYlight, a biosensor for fructose 1,6-bisphosphate. STAR Protocols, 6(2), 103792. doi:10.1016/j.xpro.2025.103792
  3. 3. Nguyen, T. T. A., Dutour, R., Conrard, L., Vermeersch, M., Mirgaux, M., Perez-Morga, D., Baeyens, N., Bruylants, G., & Demeestere, I. (2025). Effect of Surface Modification of Gold Nanoparticles Loaded with Small Nucleic Acid Sequences on Cytotoxicity and Uptake: A Comparative Study In Vitro. ACS Applied Bio Materials, 8(4), 3040-3051. doi:10.1021/acsabm.4c01861
  4. 4. Pérez-Chávez, I., Koberstein, J. J., Pueyo, J. M., Gilglioni, E. H., Vertommen, D., Baeyens, N., Ezeriņa, D., Gurzov, E. N., & Messens, J. (2024). Tracking fructose 1,6-bisphosphate dynamics in liver cancer cells using a fluorescent biosensor. iScience, 27(12), 111336. doi:10.1016/j.isci.2024.111336
  5. 5. Baeyens, N., Coon, B. B., & Mack, J. J. (2024). Editorial: Mechanotransduction in vascular development and disease. Frontiers in physiology, 15, 1525184. doi:10.3389/fphys.2024.1525184
  6. 6. Vandenbempt, V., Eski, S. E., Brahma, M. K., Li, A., Negueruela Escudero, J., Bruggeman, Y., Demine, S., Xiao, P., Cardozo, A. K., Baeyens, N., Martelotto, L., Singh, S. P., Mariño, E., Gysemans, C., & Gurzov, E. N. (2023). HAMSAB diet ameliorates dysfunctional signaling in pancreatic islets in autoimmune diabetes. iScience, 27(1), 108694. doi:10.1016/j.isci.2023.108694
  7. 7. Tiezzi, M., Deng, H., & Baeyens, N. (2022). Endothelial mechanosensing: A forgotten target to treat vascular remodeling in hypertension? Biochemical pharmacology, 206, 115290. doi:10.1016/j.bcp.2022.115290
  8. 8. Ben Dhaou, C., Mandi, K., Frye, M., Acheampong, A., Radi, A., De Becker, B., Antoine, M., Baeyens, N., Wittamer, V., & Parmentier, M. (2021). Chemerin regulates normal angiogenesis and hypoxia-driven neovascularization. Angiogenesis. doi:10.1007/s10456-021-09818-1
  9. 9. Deng, H., Min, E., Baeyens, N., Coon, B. B., Hu, R., Zhuang, Z. W., Chen, M., Huang, B., Afolabi, T., Zarkada, G., Acheampong, A., McEntee, K., Eichmann, A., Liu, F. L., Su, B., Simons, M., & Schwartz, M. A. (2021). Activation of Smad2/3 signaling by low fluid shear stress mediates artery inward remodeling. Proceedings of the National Academy of Sciences of the United States of America, 118(37). doi:10.1073/pnas.2105339118
  10. 10. Moro, A., Driscoll, T. T., Boraas, L. C., Armero, W., Kasper, D., Baeyens, N., Jouy, C., Mallikarjun, V., Swift, J., Ahn, S. J., Lee, D., Zhang, J., Gu, M., Gerstein, M., Schwartz, M. A., & Nicoli, S. (2019). MicroRNA-dependent regulation of biomechanical genes establishes tissue stiffness homeostasis. Nature cell biology, 21(3), 348-358. doi:10.1038/s41556-019-0272-y
  11. 11. Baeyens, N. (2018). Fluid shear stress sensing in vascular homeostasis and remodeling: towards the development of innovative pharmacological approaches to treat vascular dysfunction. Biochemical pharmacology. doi:10.1016/j.bcp.2018.10.023
  12. 12. Wang, Y., Baeyens, N., Corti, F., Tanaka, K., Fang, J. S., Zhang, J., Kim-Jo, Y.-J., Coon, B. B., Hirschi, K. K., Schwartz, M. A., & Simons, M. (2016). Syndecan 4 controls lymphatic vasculature remodeling during mouse embryonic development. Development, 143(23), 4441-4451. doi:10.1242/dev.140129
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