Wold, E.S., Sleboda, D.A., Roberts, T.J. 2021. Passive skeletal muscle can function as an osmotic engine. Biology Letters 18: 20200738.
Hill, R.W., Sleboda, D.A., Millar, J.J. 2021. Youth in the study of comparative physiology: insights from demography in the wild. Journal of Comparative Physiology B 191: 1-16.
Willwacher, S., Sleboda, D.A., Mälich, D., Brüggemann, G.-P., Roberts, T.J., Bratke, G. 2020. The time course of calf muscle fluid volume during prolonged running. Physiological Reports 8 (9).
Sleboda, D.A., Roberts, T.J. 2020. Internal fluid pressure influences muscle contractile force. Proceedings of the National Academy of Sciences 117 (3): 1772-1778.
Sleboda, D.A., Stover, K.K., Roberts, T.J. 2020. Diversity of extracellular matrix morphology in vertebrate skeletal muscle. Journal of Morphology 281: 160-169.
Sleboda, D.A., Wold, E.S., Roberts, T.J. 2019. Passive muscle tension increases in proportion to intramuscular fluid volume. Journal of Experimental Biology 222, jeb209668.
Roberts, T.J., Eng, C.M., Sleboda, D.A., Holt, N. C., Brainerd, E.L., Stover, K.K., Marsh, R.L., Azizi, E. 2019. The multi-scale, three-dimensional nature of skeletal muscle contraction. Physiology 34: 402-408.
Ruttiman, R.J., Sleboda, D.A., Roberts, T.J. 2019. Release of fascial compartment boundaries reduces muscle force output. Journal of Applied Physiology 126: 593-598.
Sleboda, D.A., Roberts, T.J. 2017. Incompressible fluid plays a mechanical role in the development of passive muscle tension. Biology Letters 13 (1):20160630.