Deep brain stimulation, Neuroscience, Anesthesia, Subthalamic nucleus and Neuropathic pain are his primary areas of study. The concepts of his Deep brain stimulation study are interwoven with issues in Thalamus, Stimulation, McGill Pain Questionnaire and Chronic pain. His Neuroscience research integrates issues from Gait, Pedunculopontine nucleus and Parkinson's disease.
His studies in Anesthesia integrate themes in fields like Surgery, Blood pressure and Central nervous system. His research integrates issues of Basal ganglia, Brain activity and meditation and Local field potential in his study of Subthalamic nucleus. Alexander L. Green focuses mostly in the field of Neuropathic pain, narrowing it down to matters related to Intractable pain and, in some cases, Peripheral neuropathy and Internal capsule.
Alexander L. Green mainly investigates Deep brain stimulation, Neuroscience, Stimulation, Anesthesia and Subthalamic nucleus. His Deep brain stimulation research is classified as research in Parkinson's disease. All of his Neuroscience and Local field potential, Basal ganglia, Sensory system, Periaqueductal gray and Anterior cingulate cortex investigations are sub-components of the entire Neuroscience study.
His research in Stimulation intersects with topics in Autonomic nervous system, Essential tremor, Dorsal root ganglion and Cardiology. His study looks at the intersection of Anesthesia and topics like Surgery with Dystonia. His study in Subthalamic nucleus is interdisciplinary in nature, drawing from both Motor cortex, Beta and Electroencephalography.
His primary scientific interests are in Deep brain stimulation, Neuroscience, Stimulation, Local field potential and Anesthesia. Alexander L. Green is interested in Subthalamic nucleus, which is a field of Deep brain stimulation. In his study, Motor system and Anticipation is strongly linked to Heart rate, which falls under the umbrella field of Neuroscience.
His Stimulation study combines topics in areas such as Breathing, Parkinson's disease, Dorsal root ganglion and Cardiology. His Local field potential research is multidisciplinary, relying on both Alpha, Arousal, Electrophysiology, Stimulus and Basal ganglia. The concepts of his Anesthesia study are interwoven with issues in Lesion, Tonic and Spinal cord stimulation.
His scientific interests lie mostly in Deep brain stimulation, Stimulation, Neuroscience, Local field potential and Anesthesia. His Deep brain stimulation study combines topics from a wide range of disciplines, such as Tegmentum, Chronic pain, Physical medicine and rehabilitation and Thalamus. The study incorporates disciplines such as Tractography, White matter, Pedunculopontine nucleus, Urinary system and Prospective cohort study in addition to Stimulation.
His Neuroscience research includes themes of Beta, Parkinson's disease and Heart rate. His studies examine the connections between Local field potential and genetics, as well as such issues in Anterior cingulate cortex, with regards to Electrophysiology, Brain activity and meditation, Brain stimulation, Stimulus and Motor control. His Anesthesia study incorporates themes from Dorsal root ganglion, Urodynamic testing and Spinal cord stimulation.
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Adaptive Deep Brain Stimulation in Advanced Parkinson Disease
Simon Little;Alex Pogosyan;Spencer Neal;Baltazar Zavala.
Annals of Neurology (2013)
Deep brain stimulation for pain relief: A meta-analysis
Richard G. Bittar;Ishani Kar-Purkayastha;Sarah L. Owen;Renee E. Bear.
Journal of Clinical Neuroscience (2005)
A specific and rapid neural signature for parental instinct
Morten L. Kringelbach;Annukka Lehtonen;Sarah E. Squire;Allison G Harvey.
PLOS ONE (2008)
Removing ECG noise from surface EMG signals using adaptive filtering
Guohua Lu;John-Stuart Brittain;Peter Holland;John Yianni.
Neuroscience Letters (2009)
Deep brain stimulation for the alleviation of post-stroke neuropathic pain
Sarah L.F. Owen;Alexander L. Green;John F. Stein;Tipu Z. Aziz.
Alpha oscillations in the pedunculopontine nucleus correlate with gait performance in parkinsonism
Wesley Thevathasan;Alek Pogosyan;Jonathan A. Hyam;Ned Jenkinson.
Long-term outcomes of deep brain stimulation for neuropathic pain.
Sandra G J Boccard;Erlick A C Pereira;Liz Moir;Tipu Z Aziz.
Deep brain stimulation: indications and evidence.
Erlick A C Pereira;Alexander L Green;Dipankar Nandi;Tipu Z Aziz.
Expert Review of Medical Devices (2007)
Stimulating at the right time: phase-specific deep brain stimulation
Hayriye Cagnan;Hayriye Cagnan;David Pedrosa;Simon Little;Alek Pogosyan.
A Role for the Subthalamic Nucleus in Response Inhibition during Conflict
John-Stuart Brittain;Kate E. Watkins;Raed A. Joundi;Nicola J. Ray.
The Journal of Neuroscience (2012)
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