Publications

Peer Reviewed Publications

  1. Transcutaneous auricular vagus nerve stimulation reduces pain and fatigue in patients with systemic lupus erythematosus: a randomised, double-blind, sham-controlled pilot trial, Aranow C., Atish-Fregoso Y, Lesser M, Mackay M, Anderson E, Chavan S, Zanos T, Datta-Chaudhuri T, Bouton C, Tracey K J, Diamond B, Annals of the Rheumatic Diseases, 2020

  2. Ultrasound powered piezoelectric neurostimulation devices: a commentary , Sun T, Wright J, Datta-Chaudhuri T, Bioelectronic Medicine, 2020

  3. Specific vagus nerve stimulation parameters alter serum cytokine levels in the absence of inflammation, Tsaava T, Datta-Chaudhuri T, Addorisio M E, Masi E B, Silverman H A, Newman J E, Imperato G H, Bouton C, Tracey K J, Chavan S S, Chang E H, Bioelectronic Medicine, 2020

  4. Quantitative estimation of nerve fiber engagement by vagus nerve stimulation using physiological markers , Chang YC, Cracchiolo M, Ahmed U, Mughrabi I, Gabalski A, Daytz A, Rieth L, Becker L, Datta-Chaudhuri T, Al-Abed Y, Zanos T, Zanos S, Brain Stimulation, 2020

  5. Anodal block permits directional vagus nerve stimulation , Ahmed U, Chang YC, Cracchiolo M, Lopez M, Tomaio J,Datta-Chaudhuri T, Zanos T, Rieth L, Al-Abed Y, Zanos S, Scientific Reports, 2020

  6. Auricular neural stimulation as a new noninvasive treatment for opioid detoxification, Qureshi IS, Datta-Chaudhuri T, Tracey KJ, Pavlov VA, Chen ACH, Bioelectronic Medicine. 2020, 6:7

  7. A low-power implantable neurostimulator for small rodents with functional validation, Wright J, Wong J, Chang Y, Ahmed U, Zanos S, Datta-Chaudhuri T, 2019 IEEE Biomedical Circuits and Systems Conference (BioCAS), Nara, Japan, 2019, pp. 1-4

  8. Extraction of Evoked Compound Nerve Action Potentials from Vagus Nerve Recordings, Chang Y, Ahmed U, Tomaio JN, Rieth L, Datta-Chaudhuri T, Zanos S, 2019 41st Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC), Berlin, Germany, 2019, pp. 6278-6281.

  9. Characterization of an active micro-electrode array with spike detection and asynchronous readout ,Senevirathna B, Castro A, Datta-Chaudhuri T, Smela E, Abshire P. In 2017 IEEE 60th International Midwest Symposium on Circuits and Systems (MWSCAS) 2017 Aug 6 (pp. 627-630). IEEE.

  10. System-on-chip considerations for heterogeneous integration of CMOS and fluidic bio-interfaces , Datta-Chaudhuri T, Smela E, Abshire PA. IEEE transactions on biomedical circuits and systems. 2016 Dec;10(6):1129-42.

  11. Low temperature co-fired ceramic packaging of CMOS capacitive sensor chip towards cell viability monitoring ,Halonen N, Kilpijärvi J, Sobocinski M, Datta-Chaudhuri T, Hassinen A, Prakash SB, Möller P, Abshire P, Kellokumpu S, Spetz AL. Beilstein journal of nanotechnology. 2016 Nov 29;7(1):1871-7.

  12. Olfaction on a chip , Datta-Chaudhuri T, Araneda RC, Abshire P, Smela E. Olfaction on a chip. Sensors and Actuators B: Chemical. 2016 Nov 1;235:74-8.

  13. A scalable 20× 20 fully asynchronous SPAD-based imaging sensor with AER readout, Berkovich A, Datta-Chaudhuri T, Abshire P. A scalable 20× 20 fully asynchronous SPAD-based imaging sensor with AER readout. In2015 IEEE International Symposium on Circuits and Systems (ISCAS) 2015 May 24 (pp. 1110-1113). IEEE.

  14. Low temperature co-fired ceramic package for lab-on-CMOS applied in cell viability monitoring, ,Halonen N, Kilpijärvi J, Sobocinski M, Datta-Chaudhuri T, Hassinen A, Prakash SB, Möller P, Abshire P, Smela E, Kellokumpu S, Spetz AL. Procedia engineering. 2015 Jan 1;120:1079-82.

  15. An active micro-electrode array with spike detection and asynchronous readout, Datta-Chaudhuri T, Senevirathna B, Castro A, Smela E, Abshire P. An active micro-electrode array with spike detection and asynchronous readout. In2014 IEEE Biomedical Circuits and Systems Conference (BioCAS) Proceedings 2014 Oct 22 (pp. 588-591). IEEE.

  16. System-on-chip considerations for CMOS fluidic and biointerface applications, Datta-Chaudhuri T, Abshire P, Smela E. In 2014 IEEE International Symposium on Circuits and Systems (ISCAS) 2014 Jun 1 (pp. 2009-2012). IEEE.

  17. High resolution capacitance sensor array for real-time monitoring of cell viability, Naviasky E, Datta-Chaudhuri T, Abshire P. In2014 IEEE International Symposium on Circuits and Systems (ISCAS) 2014 Jun 1 (pp. 634-637). IEEE.

  18. Packaging commercial CMOS chips for lab on a chip integration, Datta-Chaudhuri T, Abshire P, Smela E. Lab on a Chip. 2014;14(10):1753-66.

  19. Floating-gate capacitance sensor array for cell viability monitoring, Datta T, Naviasky E, Abshire P. In 2013 IEEE Biomedical Circuits and Systems Conference (BioCAS) 2013 Oct 31 (pp. 65-68). IEEE.

  20. Confession session: Learning from others mistakes, Abshire P, Bermak A, Berner R, Cauwenberghs G, Chen S, Christen JB, Constandinou T, Culurciello E, Dandin M, Datta T, Delbruck T. In 2011 IEEE International Symposium of Circuits and Systems (ISCAS) 2011 May 15 (pp. 1149-1162). IEEE.

  21. Towards a legged chip, Datta T, Abshire P, Turner JA. In 2011 IEEE International Symposium of Circuits and Systems (ISCAS) 2011 May 15 (pp. 2501-2504). IEEE.

  22. Mismatch compensation of a subthreshold CMOS current normalizer, Sander D, Datta T, Abshire P. In Proceedings of 2010 IEEE International Symposium on Circuits and Systems 2010 May 30 (pp. 3409-3412). IEEE.

  23. Mismatch compensation of CMOS current mirrors using floating-gate transistors, Datta T, Abshire P. In 2009 IEEE International Symposium on Circuits and Systems 2009 May 24 (pp. 1823-1826). IEEE.

Conference Abstracts

  1. Engaging the Cholinergic Anti-Inflammatory Pathway By Stimulating the Vagus Nerve Reduces Pain and Fatigue in Patients with SLE. Aranow C, Lesser M, Mackay M, Anderson E, Zanos TP, Datta-Chaudhuri T, Bouton C, Tracey KJ, Diamond B. In ARTHRITIS & RHEUMATOLOGY 2018 Sep 1 (Vol. 70). 111 RIVER ST, HOBOKEN 07030-5774, NJ USA: WILEY.

  2. SPECIFIC CYTOKINE RESPONSES INDUCED BY SELECTIVE VAGUS NERVE STIMULATION, Tsaava T, Datta-Chaudhuri T, Addorisio ME, Newman JE, Bouton C, Tracey KJ, Chavan SS. In SHOCK 2018 Jun 1 (Vol. 49, No. 6, pp. 126-127).

  3. Selective electrical stimulation of vagus nerve induces specific cytokine response., Datta-Chaudhuri T, Tsaava T, Addorissio M, Bouton C, Tracey KJ, Chavan SS. The Journal of Immunology May 1, 2018, 200 (1 Supplement) 43.11;

  4. Cell clinic; cmos chip measuring capacitance as indication of cell adhesion applied in evaluating the cytotoxicity of nanomaterials, Halonen N, Datta-Chaudhuri T, Hassinen A, Prakash SB, Möller P, Abshire P, Smela E, Kellokumpu S, Lloyd Spetz A. Cell clinic; cmos chip measuring capacitance as indication of cell adhesion applied in evaluating the cytotoxicity of nanomaterials. In Eurosensors 2014, Brescia, Italy, September 7-10 2014.

  5. CMOS-Based capacitance measurements applied in evaluating cell viability and cytotoxicity of nanomaterials, Halonen N, Datta-Chaudhuri T, Hassinen A, Prakash SB, Möller P, Abshire P, Smela E, Kellokumpu S, Lloyd Spetz A. CMOS-Based capacitance measurements applied in evaluating cell viability and cytotoxicity of nanomaterials. In E-MRS 2014, Lille, France May 26-3 2014.

Patents

  1. Implantable neuromodulation system for closed-loop stimulation and recording simultaneously at multiple brain sets, Pannu SS, Shah KG, Chen S, Crosetti M, Datta-chaudhuri TB, Felix SH, Ivanovskaya AN, Jones J, Lee KY, Patra S, Tolosa V, inventors. United States patent application US 15/764,553. 2019 Feb 21.