PUBLICATIONS
(*Mentored
Students)
1. N
Jackson*, S Anand*, M Okandan and J
Muthuswamy, "Non-hermetic
Encapsulation Materials for MEMS
Based Moveable Microelectrodes for
Long-Term Implantation in the
Brain," IEEE/ASME J
Microelectromech Syst,
(in press), 2009.
2. P Stice* and
J Muthuswamy,
“Assessment of gliosis around
moveable implants in the brain,”
J Neural Eng (in
press), 2009.
(available for free until July 25,
2009 in the
Institute
of Physics (IOP) stacks).
3. A Sridharan*,
J Muthuswamy and V Pizziconi, “Optoelectronic energy
transfer at novel biohybrid
interfaces using light harvesting
complexes from Chloroflexus
aurantiacus,” (in press)
Langmuir,
2009.
4. N Jackson* and
J Muthuswamy, “Flexible Chip Scale Package and Interconnect for Implantable MEMS
Movable Microelectrodes for the
Brain,”
IEEE/ASME J Microelectromech Syst,
18(2):396-404,
2009.
5. T Wang* and
J Muthuswamy, “Immunosensor for inhibitor neurotransmitter GABA using quartz crystal microbalance,”
Anal Chem, 80 (22), pp 8576–8582,
2008.
6. A Sridharan*,
J Muthuswamy, J LaBelle and V Pizziconi, “Immobilization of Functional Light Antenna Structures Derived From The Filamentous Green Bacterium Chloroflexus aurantiacus,”
Langmuir,
24(15): 8078-8089, 2008.
7. N Jackson* and
J Muthuswamy, “Artificial dural sealant that allows multiple penetrations of long-term implantable brain probes,”
J Neurosci Meth, 171(1):147-152,
2008.
8. T Jain* and
J Muthuswamy, “Microelectrode array (MEA) platform for targeted neuronal transfection and recording,” IEEE Trans
Biomed Eng Lett, 55(2), 827-832,
2008.
(Featured in February 2008 issue of
IEEE Spectrum, monthly magazine of
IEEE with a circulation of 390,000
worldwide)
9. T Jain* and
J Muthuswamy, “Bio-chip for spatially controlled transfection of nucleic acid payloads into cells in a culture,”
Lab on a Chip, 7:1004-1011,
2007.
(Featured in D. Gibney, Chemical Biology, 2:B57-B64, 2007 and D. Gibney, Chemistry World, 4(8):30-30, 2007, Royal Society of Chemistry publications).
10. R Saha* and
J Muthuswamy, “Structure-property relationships in the optimization of polysilicon thin films for electrical recording/stimulation of single neurons,”
Biomedical Microdevices, 9(3):345-360,
2007.
11. P Stice*, A Gilletti*, A Panitch and
J Muthuswamy, “Thin microelectrodes reduce GFAP expression in the implant site in rodent somatosensory cortex,”
J Neural Eng, 4:42-53,
2007.
12. T Jain* and
J Muthuswamy, “Microsystem for transfection of exogenous molecules with spatio-temporal control into adherent cells,”
Biosensors and Bioelectronics, 22:863-870,
2007.
13. T Wang*, G Ehteshami, S Massia, and
J Muthuswamy, “Immobilization and characterization of -aminobutyric acid (GABA) on gold surface,"
J Biomed Mater Res, 79A(1):201-209, 2006.
14. A Gilletti and
J Muthuswamy, “Brain micromotion around implants in the rodent somatosensory cortex,”
J Neural Eng, 3(3), 189-195,
2006.
15.
J Muthuswamy, M. Okandan, and N. Jackson*, “Surface Micro-Machined Polysilicon Probes for Neurophysiology,”
J. Neurosci. Meth., 142(1):45-54,
2005.
16.
J Muthuswamy, M Okandan, T Jain*, and A Gilletti, "Electrostatic microactuators for precise positioning of Neural microelectrodes,"
IEEE Trans Biomed Eng, 52:1748-1755,
2005.
17. M Khraiche*, A Zhou* and
J Muthuswamy, “Acoustic sensor for monitoring adhesion of Neuro-2A cells in real-time,"
J Neurosci. Meth., 144(1):1-10,
2005.
18.
J Muthuswamy, M Okandan, A Gilletti*, M Baker, and T Jain*, "An array of microactuated microelectrodes for monitoring single neuronal activity in rodents,"
IEEE Trans Biomed Eng, 52:1470-1477,
2005.
19. A Zhou* and
J Muthuswamy, “Acoustic biosensor for monitoring antibody immobilization and neurotransmitter GABA in real-time” Sensors & Actuators
B:Chemical., 101:1-2:8-19,
2004.
20.
J Muthuswamy, T Kimura, MC Ding, R Geocadin, NV Thakor, and DF Hanley, “Thalamic vulnerability in the somatosensory pathway after prolonged global hypoxic-ischemic injury,”
Neuroscience, 115(3):917-929,
2002.
21. P George,
J Muthuswamy, J Currie, NV Thakor and M Paranjape, “Fabrication of Screen-Printed Carbon Electrode Arrays for Sensing Neuronal Messengers, “Biomedical Microdevices, 3:307-313,
2001.
22. RG Geocadin,
J Muthuswamy, D Sherman, NV Thakor and DF Hanley, “Early electrophysiological and histological changes after global cerebral ischemia in rats,”Movement Disorders, 15 Suppl. 1:14-21,
2000.
23.
J Muthuswamy, P Tran, R Rangarajan, FA Lenz, DF Hanley and NV Thakor, “Somatosensory stimulus entrains spindle oscillations in the thalamic VPL nuclei barbiturate anesthetized rats,”
Neurosci. Lett., 262(3):191-194,
1999.
24.
J Muthuswamy and NV Thakor, “Spectral analysis methods for neurological signals,”
J Neurosci. Meth., 83(1):1-14,
1998.
25.
J Muthuswamy, D Sherman and NV Thakor, “Higher order spectral analysis of EEG burst patterns during asphyxic injury,”
IEEE Trans. Biomed. Eng, 46(1): 92-99,
1999.
26.
J Muthuswamy and RJ Roy, “The use of fuzzy integrals and bispectral parameters of Electroencephalograms to predict movement under isoflurane anesthesia,”
IEEE Trans. Biomed. Eng., 46(3):291-299,
1999.
27.
J Muthuswamy, RJ Roy and A Sharma, “A study of electroencephalographic descriptors and end-tidal concentration in estimating depth of anesthesia,”
J Clin. Monit., 12(5):353,
1996.
BOOK CHAPTERS
J Muthuswamy, “Biomedical Signal processing: An overview,” in Standard Handbook of Biomedical Engineering and Design, Ed. by Myer Kutz, chapter 18, pp. 18.1-18.30, McGraw-Hill Publishers, New York, NY, 2003.
