RECENT PUBLICATIONS

CXCR2 Mediates Distinct Neutrophil Behavior In Brain Metastatic Breast Tumor

S. Safarulla, A. Madan, F. Xing, A. Chandrasekaran, 2022, "CXCR2 Mediates Distinct Neutrophil Behavior In Brain Metastatic Breast Tumor" Cancers (Special Issue on Neutrophils in Cancer: Role and Therapeutic Strategies, 14(3), 515

A Novel Tumor-Immune Microenvironment (TIME)-on-a-Chip mimics Three dimensional Neutrophil-tumor dynamics and Neutrophil extracellular Traps (NETs)-mediated Collective tumor invasion

V. Surendran, D. Rutledge, R. Colmon, A. Chandrasekaran, 2021, "A Novel Tumor-Immune Microenvironment (TIME)-on-a-Chip mimics Three dimensional Neutrophil-tumor dynamics and Neutrophil extracellular Traps (NETs)-mediated Collective tumor invasion" Biofabrication, 13(3), p.035029

Acoustofluidic Micromixing Enabled Hybrid Integrated Colorimetric Sensing, for Rapid Point-of-Care Measurement of Salivary Potassium

V. Surendran, T.J. Chiulli, S. Manoharan, S.B. Knisley, M. Packirisamy, A. Chandrasekaran, 2019, "Acoustofluidic Micromixing Enabled Hybrid Integrated Colorimetric Sensing, for Rapid Point-of-Care Measurement of Salivary Potassium" Biosensors, 9(2), 73

OTHER SELECTED PUBLICATIONS

“Magnetic microboats for floating, stiffness tunable, air–liquid interface epithelial cultures”

Chandrasekaran, A., Kouthouridis, S., Lee, W., Lin, N., Ma, Z., Turner, M.J., Hanrahan, J.W. and Moraes, C., 2019. Magnetic microboats for floating, stiffness tunable, air–liquid interface epithelial cultures. Lab on a Chip, 19(17), pp.2786-2798.

“Thermal scribing to prototype plastic based microfluidic device, applied to study the formation of neutrophil extracellular traps”

A. Chandrasekaran, N. Kalashnikov, R. Reyes, C. Wang, J. Spicer, C. Moraes, 2017, “Thermal scribing to prototype plastic based microfluidic device, applied to study the formation of neutrophil extracellular traps” Lab-on-a-chip, 17(11), pp.2003-2012

“Temporal gradients limit the accumulation of neutrophils towards sources of chemoattractant"

A. Chandrasekaran, F. Ellett, J. Jorgensen, D. Irimia, 2017, “Temporal gradients limit the accumulation of neutrophils towards sources of chemoattractant” Nature: Microsystems and Nanoengineering 3, p.16067.

“Have microfluidics delivered for drug discovery?”

A. Chandrasekaran, M. Abduljawad, C. Moraes, 2016, “Have microfluidics delivered for drug discovery?”, Expert opinion in drug discovery, 11(8), pp.745-748.

“Improved Efficiency of Microdiffuser Through Geometry Tuning for Valveless Micropumps”

A. Chandrasekaran and M. Packirisamy, 2015, “Improved Efficiency of Microdiffuser Through Geometry Tuning for Valveless Micropumps” ASME Journal of Fluids Engineering, 138(3), 031101:12 (Adjudged key scientific article contributing to scientific and engineering research excellence, by Advances in Engineering)

“A study of cavitating and non-cavitating performances of a valveless micropump through dynamic measurement of chamber pressure”

A. Chandrasekaran and M. Packirisamy, 2015, “A study of cavitating and non-cavitating performances of a valveless micropump through dynamic measurement of chamber pressure”, J Micromechanics and Microengineering, 25(3), 035006.

“Experimental Investigation of Cavitation behavior in Valveless Micropumps”

A. Chandrasekaran and M. Packirisamy, 2012, “Experimental Investigation of Cavitation behavior in Valveless Micropumps” J Micromechanics and Microengineering,22(12), 125019

“Geometrical tuning of microdiffuser/nozzle for valveless micropumps”

A. Chandrasekaran and M. Packirisamy, 2011, “Geometrical tuning of microdiffuser/nozzle for valveless micropumps” J Micromechanics Microengineering, 21(4), 045035

“Integrated Microfluidic Biophotonic Chip for laser induced fluorescence detection”

A. Chandrasekaran and M. Packirisamy, 2010, “Integrated Microfluidic Biophotonic Chip for laser induced fluorescence detection” Biomedical Microdevices 12(5), pp. 923-933

“Experimental Investigation of Evanescence based Infrared biodetection technique for Micro-Total Analysis Systems (mTAS)”

A. Chandrasekaran and M. Packirisamy, 2009, “Experimental Investigation of Evanescence based Infrared biodetection technique for Micro-Total Analysis Systems (mTAS)” J Biomedical Optics, 14 (5), pp. 054050-054050-11.

“Bioresistive identification of Heat Shock Proteins”

A. Chandrasekaran, S. Pakkirisami, A. Acharya, M. Packirisamy, and D. Maxwell, 2008, “Bioresistive identification of Heat Shock Proteins” Biomicrofluidics, 2(3), pp 034102:1-10

“Enhanced bio-molecular interactions through re-circulating microflows”

A. Chandrasekaran and M. Packirisamy, 2008, “Enhanced bio-molecular interactions through re-circulating microflows”, J Nanobiotechnology, 2(2) pp 39-46

“Enhanced fluorescence based bio-detection through selective integration of reflectors in microfluidic Lab-On-a-Chip"

A. Chandrasekaran and M. Packirisamy, 2008, “Enhanced fluorescence based bio-detection through selective integration of reflectors in microfluidic Lab-On-a-Chip"Sensor review, 28(1), pp 33-38. (Highly commended paper, Emerald Literati Network)

“Hybrid integrated Silicon microfluidic platform for fluorescence based biodetection”

A. Chandrasekaran, A. Acharya, J. L. You, K. Y. Soo and M. Packirisamy, 2007, “Hybrid integrated Silicon microfluidic platform for fluorescence based biodetection”Sensors, 7, pp 1901-1915

“Absorption characterization of enzymatic reaction using optical microfluidics based intermittent flow microreactor system”

A. Chandrasekaran and M. Packirisamy, 2006, “Absorption characterization of enzymatic reaction using optical microfluidics based intermittent flow microreactor system”, J Nanobiotechnology, 153, n 6, pp. 137-143.