Joseph van Batenburg-Sherwood is a Lecturer in the Department of Bioengineering at Imperial College London. He has an MEng in Mechanical Engineering from King’s College London and a PhD in Biofluid Dynamics from University College London.
His research covers multiple aspects of biofluid dynamics, with a focus on experimental techniques to yield precise data on microscale biological flows. His particular interests include the effects of altered red blood cell properties in microvascular diseases, the role of aqueous humour flow in intraocular pressure regulation and ventilator design for resource-limited settings.
et al., 2022, Measurement of postmortem outflow facility using iPerfusion., Experimental Eye Research, Vol:220, ISSN:0014-4835, Pages:109103-109103
van Batenburg-Sherwood J, Balabani S, 2021, Continuum microhaemodynamics modelling using inverse rheology, Biomechanics and Modeling in Mechanobiology, ISSN:1617-7940
et al., 2021, Infusion mechanisms in brain white matter and its dependence of microstructure: an experimental study of hydraulic permeability, IEEE Transactions on Biomedical Engineering, Vol:68, ISSN:0018-9294, Pages:1229-1237
et al., 2021, The ocular pulse decreases aqueous humor outflow resistance by stimulating nitric oxide production., Am J Physiol Cell Physiol, Vol:320, Pages:C652-C665
Sherwood JM, Stamer WD, Overby DR, 2019, A model of the oscillatory mechanical forces in the conventional outflow pathway, Journal of the Royal Society Interface, Vol:16, ISSN:1742-5662
et al., 2016, Measurement of outflow facility using iPerfusion, PLOS One, Vol:11, ISSN:1932-6203, Pages:1-29
et al., 2014, Spatial Distributions of Red Blood Cells Significantly Alter Local Haemodynamics, PLOS One, Vol:9, ISSN:1932-6203
et al., 2014, Hematocrit, viscosity and velocity distributions of aggregating and non-aggregating blood in a bifurcating microchannel, Biomechanics and Modeling in Mechanobiology, Vol:13, ISSN:1617-7959, Pages:259-273
et al., 2012, The effect of red blood cell aggregation on velocity and cell-depleted layer characteristics of blood in a bifurcating microchannel, Biomicrofluidics, Vol:6, ISSN:1932-1058