Methods for isolating extracellular action potentials and removing stimulus artifacts from microelectrode recordings of neurons requiring minimal operator intervention

Recent successes in treating neurological disorders with electrical stimulation of the brain have spurred interest in studying the neuronal mechanisms by which such therapies work. However, microelectrode recordings can be confounded by stimulation artifact. Also, large microelectrode arrays now allow recording amounts of data that would otherwise overwhelm current analytic methods that depend heavily on human intervention and interpretation. A set of algorithms is described for automatically removing stimulus artifacts that minimize signal loss with minimum human involvement. Other algorithms automatically differentiate between the extracellular action potentials of individual neurons.

[1]  E. Montgomery,et al.  Chronic thalamic stimulation for the tremor of multiple sclerosis , 1999, Neurology.

[2]  Laurent Vercueil,et al.  Results of deep brain stimulation for dystonia: A critical reappraisal , 2002, Movement disorders : official journal of the Movement Disorder Society.

[3]  M. Quirk,et al.  Interaction between spike waveform classification and temporal sequence detection , 1999, Journal of Neuroscience Methods.

[4]  A. Lang,et al.  High‐frequency unilateral thalamic stimulation in the treatment of essential and parkinsonian tremor , 1997, Annals of neurology.

[5]  P. Krack,et al.  Deep-brain stimulation of the subthalamic nucleus or the pars interna of the globus pallidus in Parkinson's disease. , 2001, The New England journal of medicine.

[6]  E. Montgomery,et al.  The striatum and motor cortex in motor initiation and execution , 1991, Brain Research.

[7]  Takao Hashimoto,et al.  A template subtraction method for stimulus artifact removal in high-frequency deep brain stimulation , 2002, Journal of Neuroscience Methods.

[8]  Erwin B. Montgomery,et al.  Head restraint device for chronic recording of neural activity in the awake monkey , 1988, Journal of Neuroscience Methods.

[9]  Steve M. Potter,et al.  Real-time multi-channel stimulus artifact suppression by local curve fitting , 2002, Journal of Neuroscience Methods.

[10]  R. Segev,et al.  A method for spike sorting and detection based on wavelet packets and Shannon's mutual information , 2002, Journal of Neuroscience Methods.