School of Medicine
Showing 21-40 of 120 Results
Assistant Professor of Neurosurgery and of Neurology
Current Research and Scholarly Interests Neural circuits of movement control in health and movement disorders
Robert Dodd, MD, PhD
Associate Professor of Neurosurgery, of Radiology and, by courtesy, of Otolaryngology-Head and Neck Surgery at the Stanford University Medical Center
Current Research and Scholarly Interests Dr. Dodd is involved in clinical trials using endovascular coils that have a fiber coating that help heal aneurysms of the neck and can prevent an aneurysm from reforming. He uses minimally invasive endoscopic techniques to treat brain tumors.
Dodd's research interests are in cerebral blood vessel reactivity and stroke.
James R. Doty, MD, FACS, FICS, FAANS
Clinical Professor, Neurosurgery
Current Research and Scholarly Interests My interest for many years has focused on neuro-oncology (brain tumors) and utilizing both surgery and stereotactically focused radiation to treat solid tumors of the nervous system primarily utilizing the CyberKnife.
In addition, I am an expert in complex and minimally invasive spine surgery.
More recently, my interests revolve around understanding the neural, social and mental bases of compassion and altruism using a multi-disciplinary approach.
Juan Carlos Fernandez-Miranda
Professor of Neurosurgery and, by courtesy, of Otolaryngology Head and Neck Surgery at the Stanford University Medical Center
Bio Dr. Juan Fernandez-Miranda is Professor of Neurosurgery and Surgical Director of the Stanford Brain Tumor, Skull Base, and Pituitary Centers. He is internationally renowned for his expertise in minimally invasive brain surgery, endoscopic skull base and pituitary surgery, open skull base surgery, and complex brain tumor surgery. He has performed over a thousand endoscopic endonasal operations for pituitary tumors and other skull base lesions. He is highly regarded for his innovative contributions to the development and refinement of endoscopic endonasal skull base surgery, for his ability to select the most effective and less invasive approach to each individual patient, and for his precise knowledge of the intricate anatomy of the white matter tracts required to maximize resection and minimize morbidity on high and low grade glioma patients.
Dr. Fernandez-Miranda completed neurosurgery residency at La Paz University Hospital in Madrid, Spain. Upon completion of his residency, he was awarded the Sanitas Prize to the best medical postgraduate trainee in the country. From 2005 to 2007, he underwent fellowship training in microsurgical neuroanatomy at the University of Florida under legendary neurosurgeon Albert L. Rhoton, Jr. From 2007 to 2010 he continued subspecialty clinical training in cerebrovascular surgery at the University of Virginia, and endoscopic endonasal and open skull base surgery at University of Pittsburgh Medical Center (UPMC). During his 10-year tenure at UPMC, he pioneered endoscopic endonasal approaches to highly complex pituitary and skull base tumors, developed a world-class complex brain surgery program, and led a premier training and research program on surgical neuroanatomy and skull base surgery.
In 2018, he was recruited to bring to Stanford his unique technical expertise and to collaborate with world-renowned Stanford colleagues across multiple disciplines to establish the preeminent center for comprehensive treatment of complex lesions in the brain, skull base, and pituitary regions. His top priority is to provide gentle, accurate, and safe surgery, in a team-based and compassionate approach to patient care.
Paul Graham Fisher, MD
Bing Director of the Program in Human Biology, Beirne Family Professor of Pediatric Neuro-Oncology, Professor of Pediatrics and, by courtesy, of Neurosurgery and of Health Research and Policy (Epidemiology) at SUMC
Current Research and Scholarly Interests Clinical neuro-oncology: My research explores the epidemiology, natural history, and disease patterns of brain tumors in childhood, as well as prospective clinical trials for treating these neoplasms. Research interests also include neurologic effects of cancer and its therapies, and childhood headaches.
Robert Fisher, MD, PhD
The Maslah Saul Professor in the Department of Neurology and Professor, by courtesy, of Neurosurgery at the Stanford University Medical Center
Current Research and Scholarly Interests Dr. Fisher is interested in clincal, laboratory and translational aspects of epilepsy research. Prior work has included: electrical deep brain stimulation for epilepsy, studied in laboratory models and clinical trials; drug delivery to a seizure focus; mechanisms of absence epilepsy studied with in vitro slices of brain thalamus; hyperthermic seizures; diagnosis and treatment of non-epileptic seizures, the post-ictal state; driving and epilepsy; new antiepileptic drugs; surgery for epilepsy.
Paul George, MD, PhD
Assistant Professor of Neurology and, by courtesy, of Neurosurgery at the Stanford University Medical Center
Current Research and Scholarly Interests CONDUCTIVE POLYMER SCAFFOLDS FOR STEM CELL-ENHANCED STROKE RECOVERY:
We focus on developing conductive polymers for stem cell applications. We have created a microfabricated, polymeric system that can continuously interact with its biological environment. This interactive polymer platform allows modifications of the recovery environment to determine essential repair mechanisms. Recent work studies the effect of electrical stimulation on neural stem cells seeded on the conductive scaffold and the pathways by which it enhances stroke recovery Further understanding the combined effect of electrical stimulation and stem cells in augmenting neural repair for clinical translational is a major focus of this research going forward.
BIOPOLYMER SYSTEMS FOR NEURAL RECOVERY AND STEM CELL MODULATION:
The George lab develops biomaterials to improve neural recovery in the peripheral and central nervous systems. By controlled release of drugs and molecules through biomaterials we can study the temporal effect of these neurotrophic factors on neural recovery and engineer drug delivery systems to enhance regenerative effects. By identifying the critical mechanisms for stroke and neural recovery, we are able to develop polymeric technologies for clinical translation in nerve regeneration and stroke recovery. Recent work utilizing these novel conductive polymers to differentiate stem cells for therapeutic and drug discovery applications.
APPLYING ENGINEERING TECHNIQUES TO DETERMINE BIOMARKERS FOR STROKE DIAGNOSTICS:
The ability to create diagnostic assays and techniques enables us to understand biological systems more completely and improve clinical management. Previous work utilized mass spectroscopy proteomics to find a simple serum biomarker for TIAs (a warning sign of stroke). Our study discovered a novel candidate marker, platelet basic protein. Current studies are underway to identify further candidate biomarkers using transcriptome analysis. More accurate diagnosis will allow for aggressive therapies to prevent subsequent strokes.
Clinical Professor, Neurosurgery
Current Research and Scholarly Interests Principal Investigator,
?Concussion Definition Consortium ? An Evidence Based Project?. Department of Defense. There are over 40 definitions of concussion but none are evidence based- i.e. come from well done studies. We will extract the most salient data from well run studies that are designed to give us a "snapshot" of what concussion is.
?Multi-Dimensional Model for Brain Trauma?. The goal is to develop a dynamic model for concussion, validate it on a retrospective dataset, and design a second study to validate it on a prospective dataset. Department of Defense.
?EYE-TRAC Advance?. Testing 10,000 subjects with normal and post concussive eye tracking. Military and civilian athletes are included. Department of Defense.
B-TEC (Brain Trauma Evidence-based Consortium). Combines Stanford B-TEC clinical trials coordinating center with the Brain Trauma Foundation's B-TEC evidence-based center to promote and coordinate an evidence-based approach to the spectrum of brain trauma from concussion to coma.
Iris C. Gibbs, MD, FACR, FASTRO
Professor of Radiation Oncology (Radiation Therapy) and, by courtesy, of Neurosurgery at the Stanford University Medical Center
Current Research and Scholarly Interests Dr. Gibbs is a board-certified radiation oncologist who specializes in the treatment of CNS tumors. Her research focuses on developing new radiation techniques to manage brain and spinal tumors in adults and children. Dr. Gibbs has gained worldwide acclaim for her expertise in Cyberknife robotic radiosurgery.
Clinical Assistant Professor, Neurology & Neurological Sciences
Bio Dr. Gold is a board-certified general neurologist who is fellowship-trained in the diagnosis and treatment of neurological disorders in hospitalized patients. He cares for a broad range of patients, including individuals with seizures, central nervous system infections, autoimmune diseases, headaches, neuromuscular conditions, and neurological complications of cancer. Dr. Gold has a particular clinical interest in the inpatient diagnosis of uncommon or rare neurological disorders. He directs quality improvement for the department of Neurology and is actively involved in projects to improve the experience of hospitalized patients with neurological conditions at Stanford. His primary research interest focuses on enhancing the communication skills of neurology residents and he serves as the Director of the Stanford Neurology Residency Communication Coaching Program. He is also the Fellowship Director of the Stanford Neurohospitalist Fellowship.
For more information on the Stanford Neurohospitalist Program & Fellowship, please visit: https://med.stanford.edu/neurology/divisions/neurohospitalist.html
Additional information on Stanford Neurology's efforts in Quality, Safety, & Value can be found here: http://med.stanford.edu/neurology/quality.html
Gerald Grant, MD, FACS
Endowed Professor in Pediatric Neurosurgery and Professor, by courtesy, of Neurology at the Stanford University Medical Center
Current Research and Scholarly Interests Dr. Grant directs a Blood-brain Barrier Translational Laboratory focusing on enhancing drug delivery to brain tumors in children.
Jin S. Hahn, MD
Professor of Neurology, of Pediatrics and, by courtesy, of Neurosurgery at the Stanford University Medical Center
Current Research and Scholarly Interests 1. Clinical informatics and electronic health records
2. Neonatal and fetal neurology
3. Prenatal diagnosis neurodevelopmental anomalies
4. Personalized Health and Wellness Records
Casey H. Halpern, MD
Assistant Professor of Neurosurgery and, by courtesy, of Neurology and of Psychiatry and Behavioral Sciences at the Stanford University Medical Center
Current Research and Scholarly Interests We are currently investigating the effects of deep brain stimulation in obesity using mouse models of human behavior. Many obese individuals exhibit behavioral disinhibition, a clinical feature of many neurologic and psychiatric conditions. We are dissecting the mesocorticolimbic circuit with novel techniques including optogenetics.
Assistant Professor (Research) of Neurosurgery and of Medicine (Biomedical Informatics)
Current Research and Scholarly Interests My current research focuses on understanding the genetic and environmental etiology of complex disease and developing and evaluating efficient screening strategies based on etiological understanding. The areas of my research interests include statistical genetics, molecular epidemiology, cancer screening, health policy modeling, and risk prediction modeling. I have developed various statistical methods to analyze high-dimensional data to identify genetic and environmental risk factors and their interactions for complex disease.
Steven Hancock, MD
Professor of Radiation Oncology (Radiation Therapy) and, by courtesy, of Neurosurgery at Stanford University Medical Center
Current Research and Scholarly Interests Outcomes of radiation treatment for prostate cancer. Clinical research interests in the late effects of radiation on normal tissues and chemical modification of radiation injury. Hodgkins's disease and late effects of radiation and combined modality therapy. Radiation sensitizers. Hypoxic cell cytotoxins. Esophageal cancers.
General adult and pediatric radiation therapy.