Dmitry A. Markov
Dmitry A. Markov
Dept. of Biomedical Engineering, Vanderbilt University
Verified email at
Cited by
Cited by
Recreating blood-brain barrier physiology and structure on chip: A novel neurovascular microfluidic bioreactor
JA Brown, V Pensabene, DA Markov, V Allwardt, MD Neely, M Shi, ...
Biomicrofluidics 9 (5), 2015
Free-solution, label-free molecular interactions studied by back-scattering interferometry
DJ Bornhop, JC Latham, A Kussrow, DA Markov, RD Jones, HS Sørensen
science 317 (5845), 1732-1736, 2007
Engineering Challenges for Instrumenting and Controlling Integrated Organ-on-Chip Systems.
J Wikswo, FE Block III, DE Cliffel, CR Goodwin, CC Marasco, DA Markov, ...
IEEE transactions on bio-medical engineering, 2013
Metabolic consequences of inflammatory disruption of the blood-brain barrier in an organ-on-chip model of the human neurovascular unit
JA Brown, SG Codreanu, M Shi, SD Sherrod, DA Markov, MD Neely, ...
Journal of neuroinflammation 13, 1-17, 2016
Variation in diffusion of gases through PDMS due to plasma surface treatment and storage conditions
DA Markov, EM Lillie, SP Garbett, LJ McCawley
Biomedical Microdevices 16 (1), 91-96, 2014
Towards personalized computational oncology: from spatial models of tumour spheroids, to organoids, to tissues
A Karolak, DA Markov, LJ McCawley, KA Rejniak
Journal of The Royal Society Interface 15 (138), 20170703, 2018
Chip-scale universal detection based on backscatter interferometry
K Swinney, D Markov, DJ Bornhop
Analytical Chemistry 72 (13), 2690-2695, 2000
Label-free molecular interaction determinations with nanoscale interferometry
DA Markov, K Swinney, DJ Bornhop
Journal of the American Chemical Society 126 (50), 16659-16664, 2004
Interferometric detection system and method
DJ Bornhop, K Swinney, D Markov
US Patent 6,381,025, 2002
Neurovascular unit on a chip: implications for translational applications
DJ Alcendor, FE Block III, DE Cliffel, JS Daniels, KLJ Ellacott, ...
Stem cell research & therapy 4, 1-5, 2013
SiO2-coated porous anodic alumina membranes for high flow rate electroosmotic pumping
SK Vajandar, D Xu, DA Markov, JP Wikswo, W Hofmeister, D Li
Nanotechnology 18 (27), 275705, 2007
Breaking the 10-7 barrier for RI measurements in nanoliter volumes
D Markov, D Begari, DJ Bornhop
Analytical chemistry 74 (20), 5438-5441, 2002
Mirrored pyramidal wells for simultaneous multiple vantage point microscopy
KT Seale, RS Reiserer, DA Markov, IA Ges, C Wright, C Janetopoulos, ...
Journal of microscopy 232 (1), 1-6, 2008
Chemical-PDMS binding kinetics and implications for bioavailability in microfluidic devices
AW Auner, KM Tasneem, DA Markov, LJ McCawley, MS Hutson
Lab on a Chip 19 (5), 864-874, 2019
Integrated human organ-on-chip microphysiological systems
JP Wikswo, PC Samson, FE Block III, RS Reiserer, KK Parker, JA McLean, ...
US Patent 9,725,687, 2017
Graphene Transistor as a Probe for Streaming Potential
AKM Newaz, DA Markov, D Prasai, KI Bolotin
Nano Letters 12 (6), 2931–2935, 2012
Universal detector for biological and chemical separations or assays using plastic microfluidic devices
DJ Bornhop, K Swinney, D Markov
US Patent 6,809,828, 2004
Ultrasmall volume refractive index detection using microinterferometry
K Swinney, D Markov, DJ Bornhop
Review of Scientific instruments 71 (7), 2684-2692, 2000
Thick-tissue bioreactor as a platform for long-term organotypic culture and drug delivery
DA Markov, JQ Lu, P Samson, J Wikswo, LJ McCawley
Lab on a Chip, 2012
Integrated organ-on-chip systems and applications of the same
JP Wikswo, DE Cliffel, DA Markov, JA McLean, LJ McCawley, PC Samson, ...
US Patent 10,078,075, 2018
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