Purinergic receptors in the brainstem mediate hypotension and bradycardia. Tseng CJ, Biaggioni I, Appalsamy M, Robertson D (1988) Hypertension 11: 191-7 Biochemical and behavioral recovery in a rodent model of Parkinson's disease following stereotactic implantation of dopamine-containing liposomes. During MJ, Freese A, Deutch AY, Kibat PG, Sabel BA, Langer R, Roth RH (1992) Exp Neurol 115: 193-9 Cortical surface registration for image-guided neurosurgery using laser-range scanning. Miga MI, Sinha TK, Cash DM, Galloway RL, Weil RJ (2003) IEEE Trans Med Imaging 22: 973-85 Development of myelination and cholinergic innervation in the central auditory system of a prosimian primate (Otolemur garnetti). Miller DJ, Lackey EP, Hackett TA, Kaas JH (2013) J Comp Neurol 521: 3804-16 Intranigral injections of SCH 23390 inhibit amphetamine-induced rotational behavior. Yurek DM, Hipkens SB (1993) Brain Res 623: 56-64 Modeling of retraction and resection for intraoperative updating of images. Miga MI, Roberts DW, Kennedy FE, Platenik LA, Hartov A, Lunn KE, Paulsen KD (2001) Neurosurgery 49: 75-84; discussion 84-5 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 Intraoperatively updated neuroimaging using brain modeling and sparse data. Roberts DW, Miga MI, Hartov A, Eisner S, Lemery JM, Kennedy FE, Paulsen KD (1999) Neurosurgery 45: 1199-206; discussion 1206-7 A computational model for tracking subsurface tissue deformation during stereotactic neurosurgery. Paulsen KD, Miga MI, Kennedy FE, Hoopes PJ, Hartov A, Roberts DW (1999) IEEE Trans Biomed Eng 46: 213-25 In vivo quantification of retraction deformation modeling for updated image-guidance during neurosurgery. Platenik LA, Miga MI, Roberts DW, Lunn KE, Kennedy FE, Hartov A, Paulsen KD (2002) IEEE Trans Biomed Eng 49: 823-35 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 Clinical validation study of percutaneous cochlear access using patient-customized microstereotactic frames. Labadie RF, Balachandran R, Mitchell JE, Noble JH, Majdani O, Haynes DS, Bennett ML, Dawant BM, Fitzpatrick JM (2010) Otol Neurotol 31: 94-9 Effect of geometrical distortion correction in MR on image registration accuracy. Maurer CR, Aboutanos GB, Dawant BM, Gadamsetty S, Margolin RA, Maciunas RJ, Fitzpatrick JM (1996) J Comput Assist Tomogr 20: 666-79 Venous Thromboembolism during Interventional MRI-Guided Stereotactic Surgery. Kundishora AJ, Englot DJ, Starr PA, Martin AJ, Larson PS (2018) Stereotact Funct Neurosurg 96: 40-45 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 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 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 Coregistered ultrasound as a neurosurgical guide. Pallatroni H, Hartov A, McInerney J, Platenik LA, Miga MI, Kennedy FE, Paulsen KD, Roberts DW (1999) Stereotact Funct Neurosurg 73: 143-7 Pain experience using conventional versus angled anterior posts during stereotactic head frame placement for radiosurgery. Wang DD, Lau D, Rolston JD, Englot DJ, Sneed PK, McDermott MW (2014) J Clin Neurosci 21: 1538-42
Hints: (1) double-click or double-tap to navigate to a node. (2) Grab a node and move it to arrange the graph.