Publication List
2023
16. A facile approach to create sensitive and selective Cu(II) sensors on carbon fiber microelectrodes. RSC Advances, 13, 33688.
15. Measuring tryptophan dynamics using fast scan cyclic voltammetry at carbon fiber microelectrodes with improved sensitivity and selectivity. RSC Advances, 13(37), 26203.
2022
14. Low-Frequency Oscillations of In Vivo Ambient Extracellular Brain Serotonin. Cells, 11(10), 1719.
2021
13. A Tale of Two Transmitters: Serotonin and Histamine as In Vivo Biomarkers of Chronic Stress in Mice. Journal of Neuroinflammation DOI: 10.21203/rs.3.rs-1062078/v1
2020
12. Electrokinetic Convection-Enhanced Delivery of Solutes to the Brain. ACS Chemical Neuroscience 11 (14), 2085-2093
2019
11. Frontiers in electrochemical sensors for neurotransmitter detection: towards measuring neurotransmitters as chemical diagnostics for brain disorders. Analytical Methods 11 (21), 2738-2755
2018
10. Analysis of electrochemically elusive trace metals with carbon fiber microelectrodes. Analytical chemistry 90 (20), 11917-11924
9. Methods of measuring enzyme activity ex vivo and in vivo. Annual Review of Analytical Chemistry 11, 509-533
8. QUANTITATIVE DETERMINATION OF ECTOPEPTIDASE ACTIVITY IN THE RAT HIPPOCAMPUS USING ELECTROOSMOTIC PUSH-PULL PERFUSION COUPLED TO CAPILLARY LIQUID CHROMATOGRAPHY: A COMPUTATIONAL AND EXPERIMENTAL APPROACH. University of Pittsburgh
2017
7. Higher aminopeptidase activity determined by electroosmotic push–pull perfusion contributes to selective vulnerability of the hippocampal CA1 region to oxygen glucose deprivation. ACS chemical neuroscience 9 (3), 535-544
6. Numerical Modeling of Electroosmotic Push–Pull Perfusion and Assessment of Its Application to Quantitative Determination of Enzymatic Activity in the Extracellular Space of Mammalian Tissue. Analytical chemistry 89 (11), 5864-5873
5. Some considerations on limitations and opportunities in making measurements in living tissue. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY 253
2016
4. Electroosmotic push-pull perfusion in brain tissue cultures: Experiments and modeling. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY 252
2014
3. Electroosmotic perfusion of tissue: sampling the extracellular space and quantitative assessment of membrane-bound enzyme activity in organotypic hippocampal slice cultures. Analytical and bioanalytical chemistry 406 (26), 6455-6468
2013
2. Assessment of tissue viability following electroosmotic push–pull perfusion from organotypic hippocampal slice cultures. ACS chemical neuroscience 4 (5), 849-857
1. Electroosmotic push–pull perfusion: description and application to qualitative analysis of the hydrolysis of exogenous galanin in organotypic hippocampal slice cultures. ACS chemical neuroscience 4 (5), 838-848