Optogenetic stimulation of cortico-subthalamic projections is sufficient to ameliorate bradykinesia in 6-ohda lesioned mice. Sanders TH, Jaeger D (2016) Neurobiol Dis 95: 225-37 Deep brain stimulation in early stage Parkinson's disease: operative experience from a prospective randomised clinical trial. Kahn E, D'Haese PF, Dawant B, Allen L, Kao C, Charles PD, Konrad P (2012) J Neurol Neurosurg Psychiatry 83: 164-70 CranialVault and its CRAVE tools: a clinical computer assistance system for deep brain stimulation (DBS) therapy. D'Haese PF, Pallavaram S, Li R, Remple MS, Kao C, Neimat JS, Konrad PE, Dawant BM (2012) Med Image Anal 16: 744-53 Computer-aided placement of deep brain stimulators: from planning to intraoperative guidance. D'Haese PF, Cetinkaya E, Konrad PE, Kao C, Dawant BM (2005) IEEE Trans Med Imaging 24: 1469-78 Focused stimulation of dorsal subthalamic nucleus improves reactive inhibitory control of action impulses. van Wouwe NC, Pallavaram S, Phibbs FT, Martinez-Ramirez D, Neimat JS, Dawant BM, D'Haese PF, Kanoff KE, van den Wildenberg WPM, Okun MS, Wylie SA (2017) Neuropsychologia 99: 37-47 An unexpectedly high rate of revisions and removals in deep brain stimulation surgery: Analysis of multiple databases. Rolston JD, Englot DJ, Starr PA, Larson PS (2016) Parkinsonism Relat Disord 33: 72-77 Use of efficacy probability maps for the post-operative programming of deep brain stimulation in essential tremor. Phibbs FT, Pallavaram S, Tolleson C, D'Haese PF, Dawant BM (2014) Parkinsonism Relat Disord 20: 1341-4 Postmortem analysis following 71 months of deep brain stimulation of the subthalamic nucleus for Parkinson disease. Sun DA, Yu H, Spooner J, Tatsas AD, Davis T, Abel TW, Kao C, Konrad PE (2008) J Neurosurg 109: 325-9 Neuromodulation of sensory networks in monkey brain by focused ultrasound with MRI guidance and detection. Yang PF, Phipps MA, Newton AT, Chaplin V, Gore JC, Caskey CF, Chen LM (2018) Sci Rep 8: 7993 Thalamotomy-Like Effects From Partial Removal of a Ventral Intermediate Nucleus Deep Brain Stimulator Lead in a Patient With Essential Tremor: Case Report. Rolston JD, Ramos AD, Heath S, Englot DJ, Lim DA (2015) Neurosurgery 77: E831-6; discussion E836-7 Fully automated targeting using nonrigid image registration matches accuracy and exceeds precision of best manual approaches to subthalamic deep brain stimulation targeting in Parkinson disease. Pallavaram S, DʼHaese PF, Lake W, Konrad PE, Dawant BM, Neimat JS (2015) Neurosurgery 76: 756-65 Comparison of seizure control outcomes and the safety of vagus nerve, thalamic deep brain, and responsive neurostimulation: evidence from randomized controlled trials. Rolston JD, Englot DJ, Wang DD, Shih T, Chang EF (2012) Neurosurg Focus 32: E14 Deep brain stimulation for the treatment of disorders of consciousness and cognition in traumatic brain injury patients: a review. Kundu B, Brock AA, Englot DJ, Butson CR, Rolston JD (2018) Neurosurg Focus 45: E14 Effect of MR distortion on targeting for deep-brain stimulation. Balachandran R, Welch EB, Dawant BM, Fitzpatrick JM (2010) IEEE Trans Biomed Eng 57: 1729-35 Multisurgeon, multisite validation of a trajectory planning algorithm for deep brain stimulation procedures. Liu Y, Konrad PE, Neimat JS, Tatter SB, Yu H, Datteri RD, Landman BA, Noble JH, Pallavaram S, Dawant BM, D'Haese PF (2014) IEEE Trans Biomed Eng 61: 2479-87 Accounting for Deformation in Deep Brain Stimulation Surgery With Models: Comparison to Interventional Magnetic Resonance Imaging. Luo M, Larson PS, Martin AJ, Miga MI (2020) IEEE Trans Biomed Eng 67: 2934-2944 Accuracy evaluation of microTargeting Platforms for deep-brain stimulation using virtual targets. Balachandran R, Mitchell JE, Dawant BM, Fitzpatrick JM (2009) IEEE Trans Biomed Eng 56: 37-44 Deep brain stimulation in pediatric dystonia: a systematic review. Hale AT, Monsour MA, Rolston JD, Naftel RP, Englot DJ (2020) Neurosurg Rev 43: 873-880 Minimally invasive surgical approaches for temporal lobe epilepsy. Chang EF, Englot DJ, Vadera S (2015) Epilepsy Behav 47: 24-33 Deep Brain Stimulation Versus Peripheral Denervation for Cervical Dystonia: A Systematic Review and Meta-Analysis. Ravindran K, Ganesh Kumar N, Englot DJ, Wilson TJ, Zuckerman SL (2019) World Neurosurg 122: e940-e946 The optimal pallidal target in deep brain stimulation for dystonia: a study using a functional atlas based on nonlinear image registration. Tolleson C, Pallavaram S, Li C, Fang J, Phibbs F, Konrad P, Hedera P, D'Haese PF, Dawant BM, Davis TL (2015) Stereotact Funct Neurosurg 93: 17-24 Effect of data normalization on the creation of neuro-probabilistic atlases. D'Haese PF, Pallavaram S, Kao C, Neimat JS, Konrad PE, Dawant BM (2013) Stereotact Funct Neurosurg 91: 148-52 Intersurgeon variability in the selection of anterior and posterior commissures and its potential effects on target localization. Pallavaram S, Yu H, Spooner J, D'Haese PF, Bodenheimer B, Konrad PE, Dawant BM (2008) Stereotact Funct Neurosurg 86: 113-9 Validation of a fully automatic method for the routine selection of the anterior and posterior commissures in magnetic resonance images. Pallavaram S, Dawant BM, Koyama T, Yu H, Neimat J, Konrad PE, D'Haese PF (2009) Stereotact Funct Neurosurg 87: 148-54 Variations in Thalamic Anatomy Affect Targeting in Deep Brain Stimulation for Epilepsy. Wu C, D'Haese PF, Pallavaram S, Dawant BM, Konrad P, Sharan AD (2016) Stereotact Funct Neurosurg 94: 387-396 Abnormal T2-weighted MRI signal surrounding leads in a subset of deep brain stimulation patients. Englot DJ, Glastonbury CM, Larson PS (2011) Stereotact Funct Neurosurg 89: 311-7 Clinical accuracy of a customized stereotactic platform for deep brain stimulation after accounting for brain shift. D'Haese PF, Pallavaram S, Konrad PE, Neimat J, Fitzpatrick JM, Dawant BM (2010) Stereotact Funct Neurosurg 88: 81-7 Effect of brain shift on the creation of functional atlases for deep brain stimulation surgery. Pallavaram S, Dawant BM, Remple MS, Neimat JS, Kao C, Konrad PE, D'Haese PF (2010) Int J Comput Assist Radiol Surg 5: 221-8 Neurologist consistency in interpreting information provided by an interactive visualization software for deep brain stimulation postoperative programming assistance. Pallavaram S, Phibbs FT, Tolleson C, Davis TL, Fang J, Hedera P, Li R, Koyama T, Dawant BM, D'Haese PF (2014) Neuromodulation 17: 11-5; discussion 15 Lead cap localization using ultrasound in deep brain stimulation surgery: technical note. Englot DJ, Chang EF, Larson PS (2011) Minim Invasive Neurosurg 54: 48-9
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