Menu

Latest news & events

Uyên Châu Nguyên wins UM Dissertation Prize 2025

Uyên Châu Nguyên wins UM Dissertation Prize 2025

29 January 2026

During the Dies Natalis of Maastricht University, Uyên Châu Nguyên received the UM Dissertation Prize 2025.

Read more
Global research network launched to study menopause and heart health

Global research network launched to study menopause and heart health

20 January 2026

Ten international health research funders, including the Dutch Heart Foundation, are investing $10 million in a new global research network to improve early prevention of cardiovascular disease in women. The initiative focuses on understanding how menopause affects heart health and how early intervention can reduce risk.

Read more
More newsMore events
Carim Maastricht
Carim Maastricht

Bart Spronck

Assistant Professor

Dr Bart Spronck is Assistant Professor in the field of arterial biomechanics at CARIM. As a multidisciplinary researcher, Bart aims to combine and integrate clinical and engineering research. Bart is committed to disentangling the problem of arterial stiffening, by studying it structurally and functionally, pre-clinically as well as clinically. The combination of state-of-the-art measurement techniques with constitutive computer modelling enables him to mechanically understand the changes occurring in the ageing arterial wall.

Bart studied Medical Engineering at Eindhoven University of Technology, where he obtained his MSc degree in 2011. He spent the last year of his MSc programme at Dept. of Biomedical Engineering at CARIM, where, after a one-year Kootstra Talent Fellowship, he started his PhD on arterial stiffening in 2012. After obtaining his PhD (2016) and a short, second Kootstra Talent Fellowship thereafter, he joined the lab of Prof Alberto Avolio at Macquarie University, Sydney, Australia as a postdoc on a six-month Endeavour Fellowship. On this fellowship, he studied the heart rate and blood pressure dependence of arterial stiffness. In 2017, Bart moved to the United States to join the lab of Prof Jay Humphrey at Yale University, for which he obtained funding through NWO Rubicon and Marie Curie Individual – Global Fellowships. At Yale, he worked on the biomechanical characterisation of aortic remodelling in hypertension, ageing, and Marfan syndrome. As of 2021, Bart is back at CARIM as an Assistant Professor, where he is studying arterial stiffening in hypertension, diabetes, and other disease models. As of 2022, Bart is also an Honorary Senior Research Fellow at Macquarie University, Sydney Australia.

During his career, Bart has developed a novel, state-of-the-art experimental testing set-up (DynamX, http://www.dynamx.info) for in vitro testing of arteries under tightly-controlled pulsatile conditions. By combining the data from this set-up with constitutive modelling of the artery wall, Bart has established the importance of pulsatile loading on arterial mechanics, and is able to unravel the individual arterial layers’ and components’ contributions to overall arterial mechanics. Bart collaborates with many researchers within CARIM as well as beyond, to use DynamX to characterise arterial mechanics in a variety of diseases.

Bart is Chair of the European Society of Hypertension (ESH) Working Group on Large Arteries, Executive Committee member of the ARTERY Society, Editorial Board Member of Artery Research, and member of two Working Groups of EU COST action 18216 VascAgeNet.

Bartspronck

Department of Biomedical Engineering
Universiteitssingel 50, 6229 ER Maastricht
PO Box 616, 6200 MD Maastricht
Room number: H3.356
T: +31 43 388 1657

  • 2025
    • Parikh, S., Reesink, K. D., Spronck, B., Delhaas, T., & Giudici, A. (2025). Impact of Dynamic Axial Stretching on the Arterial Pulse Wave Velocity: Physical Foundation and Clinical Implications. Annals of Biomedical Engineering. https://doi.org/10.1007/s10439-025-03940-7
    • van der Laan, K. W. F., Neutel, C. H. G., Pencheva, M. G., Wesley, C. D., Krüger, D. N., Schalwijk, C. G., De Meyer, G. R. Y., Martinet, W., Reesink, K. D., Delhaas, T., Giudici, A., Guns, P.-J., & Spronck, B. (2025). Vascular aging impairs active modulation of murine aortic stiffness by smooth muscle cells. American Journal of Physiology-Cell Physiology, 329(5), C1398-C1410. https://doi.org/10.1152/ajpcell.00387.2025
    • Bruno, R. M., Badhwar, S., Abid, L., Agharazii, M., Anastasio, F., Bellien, J., Burghuber, O., Faconti, L., Filipovsky, J., Ghiadoni, L., Giannattasio, C., Hametner, B., Hughes, A. D., Jeroncic, A., Ikonomidis, I., Lonnebakken, M. T., Maloberti, A., Mayer, C. C., Muiesan, M. L., ... CARTESIAN Investigators (2025). Accelerated vascular ageing after COVID-19 infection: the CARTESIAN study. European Heart Journal, 46(39), 3905-3918. Article ehaf7019. https://doi.org/10.1093/eurheartj/ehaf430
    • Giudici, A., Robberechts, T., Kadziela, J., Stoenoiu, M. S., Delmotte, P., Donkers, K. M., van Leeuwen, J. E., Toubiana, L., Januszewicz, A., Januszewicz, M., Persu, A., & Spronck, B. (2025). Non-invasive evaluation of the hemodynamic significance of renal artery stenosis in fibromuscular dysplasia through quantitative image analysis. Kardiologia Polska. Advance online publication. https://doi.org/10.33963/v.phj.108870
    • van der Bruggen, M. M., van Greevenbroek, M. M. J., Spronck, B., Stehouwer, C. D. A., Delhaas, T., Reesink, K. D., & Schalkwijk, C. G. (2025). Plasma reactive dicarbonyls are not independently associated with arterial stiffness: The Maastricht Study. American Journal of Hypertension, 38(10), 777-787. https://doi.org/10.1093/ajh/hpaf068
    • Van den Eynde, M. D. G., van der Bruggen, M. M., Houben, A. J. H. M., Reesink, K. D., Spronck, B., Delhaas, T., Scheijen, J. J. L. J. M., Miyata, T., & Schalkwijk, C. G. (2025). Pyridoxamine does not reduce arterial stiffness in an 8-week randomized double-blind placebo-controlled intervention trial with abdominally obese individuals. Diabetes Obesity & Metabolism, 27(9), 5332-5336. https://doi.org/10.1111/dom.16524
    • Ganizada, B. H., Reesink, K. D., Parikh, S., Saraber, P. J. M. H., Cleutjens, J. P., Isabella, A., Krebbekx, M. Q. E., Jaminon, A. M., Maassen, C. F. M., Ramaekers, M. J. F. G., Spronck, B., van der Laan, K., Koenen, R. R., Lorusso, R., Maessen, J. G., Bidar, E., & Schurgers, L. J. (2025). Loss of wall stress homeostasis in ascending thoracic aortic aneurysm: histomorphometric insights into patient variants. The Journal of Physiology, 603(14), 3899-3922. https://doi.org/10.1113/JP288734
    • Pencheva, M. G., Berends, E., van der Laan, K. W. F., Giudici, A., Niessen, P., Scheijen, J. L. J. M., Vangrieken, P., Leenders, P., Delhaas, T., Caiment, F., Kutmon, M., Trujillo, F. M., Wouters, K., Foulquier, S., Spronck, B., Reesink, K. D., & Schalkwijk, C. G. (2025). Glyoxalase-1 overexpression attenuates arterial wall stiffening in diabetic mice. Cardiovascular Diabetology, 24(1), Article 283. https://doi.org/10.1186/s12933-025-02823-4
    • Tavolinejad, H., Boczar, K. E., Spronck, B., Maynard, H., Bertoni, A. G., Shah, S. J., & Chirinos, J. A. (2025). Determinants of Cardio-Ankle Vascular Index and Heart-Thigh β Index in the MESA: The MESA. Hypertension, 82(6), 1081-1094. https://doi.org/10.1161/HYPERTENSIONAHA.124.23970
    • Giudici, A., Grillo, A., Scalise, F., Reesink, K. D., Delhaas, T., Salvi, P., Spronck, B., & Parati, G. (2025). Beat-to-beat variability of aortic pulse wave velocity: Implications for aortic stiffness measurements. Journal of Hypertension, 43(4), 589-597. Article 3935. https://doi.org/10.1097/HJH.0000000000003935
Overview