Masters in Biomedical Engineering, The City College of New York (2012-Present);
Undergraduate student in Biomedical Engineering,The City College of New York (2007-2011)
- Designed and led a phase I clinical study to test the saftey and efficacy of novel neural stimulation technology (HD-tDCS). HD-tDCS (High-Density transcranial direct current stimulation) is a technique used to increase saptial focality of tDCS by passing current across the scalp using <12 mm diameter electrodes. However, an increase in focality results in an inevitable increase in current density distribution. This in turn, can lead to discomfort at the site of stimulation. The goal of this study was to optimize “high-density” electrode-gel parameters for electrode durability, skin safety, and subjective pain. Anode and cathode electrode potential, temperature, pH, and subjective sensation over time were assessed during application of 2 mA direct current, for up to 22 minutes on agar gel or subject forearms.
- Desinged and led a clinical study to explore different chemical and electrical pretreatment methods to further reduce discomfort at the site of stimulation
- Use Finite Element Modelling to design an optimal sponge pad design to be used during the application of tDCS.
- Preet Minhas, Abhishek Datta, Marom Bikson. Cutaneous Perception of tDCS: Role of Electrode Shape and Sponge Salinity. 2010. In press
- Preet Minhas, Varun Bansal, Jinal Patel, Johnson Ho, Julian Diaz, Abhishek Datta, Marom Bikson. Electrodes for high-definition transcutaneous DC stimulation for applications in drug delivery and electrotherapy, including tDCS. Journal of Neuroscience Methods. 2010; 190(2):188-97