PatcherBot: a high throughput robotic single-cell electrophysiology system

I. Kolb, C. Landry, M. Yip, C. Lewallen, W. Stoy, J. Lee, A. Felouzis, B. Yang, E.B. Boyden, R. Rozell, C.R. Forest, PatcherBot: a high throughput robotic single-cell electrophysiology system, Journal of Neural Engineering (accepted)

A robot for high yield electrophysiology and morphology of single neurons in vivo

L. Li, B. Ouellette, W. Stoy, E. Garren, T.L. Daigle, C.R. Forest, C. Koch, H. Zeng, A robot for high yield electrophysiology and morphology of single neurons in vivo, Nature Communications, 15604 (2017), doi:10.1038/ncomms15604

Optical method for automated measurement of glass micropipette tip geometry

M.A. Stockslager*, C.M. Capocasale* (*co-first authors), G.L. Holst, M.D. Simon, Y. Li, D.J. McGruder, E.B. Rousseau, W.A. Stoy, T. Sulchek, C.R. Forest, Optical method for automated measurement of glass micropipette tip geometry, Precision Engineering, Vol 46, p. 88-95, October 2016.

Integration of autopatching with automated pipette and cell detection in vitro

Q. Wu*, I. Kolb* (*co-first authors), B.M. Callahan, Z. Su, W. Stoy, S.B. Kodandaramaiah, R. Neve, H. Zeng, E.S. Boyden, C.R. Forest#, A.A. Chubykin# (#co-corresponding authors), Integration of autopatching with automated pipette and cell detection in vitro, J. Neurophysiology (in press). doi: 10.1152/jn.00386.2016

Cleaning patch-clamp pipettes for immediate reuse

I. Kolb, W.A. Stoy, E. Rousseau, O.A. Moody, A. Jenkins, C.R. Forest, Cleaning patch-clamp pipettes for immediate reuse, Scientific Reports 6: 35001, 2016. doi:10.1038/srep35001 (over 10 articles in popular press, example below in D.21, Altmetric score in 97th percentile of 133,000 articles of similar age in all journals)

Microchip amplifier for in vitro, in vivo, and automated whole-cell patch-clamp recording

R.R. Harrison, I. Kolb, S.B. Kodandaramaiah, A.A. Chubykin, A. Yang, M.F. Bear, E.S. Boyden, C.R. Forest, Microchip amplifier for in vitro, in vivo, and automated whole-cell patch-clamp recording, J. Neurophysiology

An Instrument For Controlled, Automated, Continuous Production of Micrometer Scale Fused Silica Pipettes

N. Pak, M. Dergance, M. Emerick, E. Gagnon, C.R. Forest, An Instrument For Controlled, Automated, Continuous Production of Micrometer Scale Fused Silica Pipettes, ASME Journal of Mechanical Design, Vol. 133(6), 061006, June 2011.