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Steven D. Chang, MD

Academic Appointments

  • Robert C. and Jeannette Powell Neurosciences Professor

Contact Information

  • Clinical Offices
    Neurosurgery Department 300 Pasteur Dr R225 MC 5327 Stanford, CA 94305
    Tel Work (650) 723-5573 Fax (650) 725-5032
    Neuro-Oncology Clinic 875 Blake Wilbur Dr Clinic D Stanford, CA 94305
    Tel Work (650) 725-8630 Fax (650) 725-5032
  • Academic Offices
    Personal Information
    Email
    Alternate Contact
    Aysha Ali Administrative Assistant Tel Work 650-736-1134
    Not for medical emergencies or patient use

Professional Overview

Clinical Focus

  • Neuro Oncology
  • Brain / Central Nervous System Tumors
  • Brain / Central Nervous System Tumors - Neuro Oncology
  • Brain / Central Nervous System Tumors - Neurosurgery
  • Neurological Surgery
  • Neurosurgery
View All 84clinical focus of Steven Chang

Administrative Appointments

  • Robert C. and Jeannette Powell Professor in the Neurosciences, Stanford (2008 - present)
  • Director, Stanford Neurogenetics Program (2010 - present)
  • Director, Stanford Neuromolecular Innovation Program (2009 - present)
  • Co-Director, Stanford Cyberknife Program, Stanford (2003 - present)
  • Neuroscience Service Line Committee, Stanford (2003 - present)
  • Editorial Board, Journal of Radiosurgery and SBRT (2010 - present)
View All 10administrative appointments of Steven Chang

Honors and Awards

  • Robert C. and Jeannette Powell Professor in the Neurosciences, Stanford University (2008-)

Professional Education

Fellowship: Stanford University School of Medicine CA (2000)
Residency: Stanford University School of Medicine CA (1999)
Medical Education: Stanford University School of Medicine CA (1993)
Internship: Stanford University School of Medicine CA (1994)
Board Certification: Neurological Surgery, American Board of Neurological Surgery (2003)
AB: Stanford University, Quantitative Economics (1989)
View All 8

Community and International Work

Courses

2013-14

Scientific Focus

Current Research and Scholarly Interests

The Stanford Neurogenetic Innovation Program (SNIP) brings together clinical experts with the goal of developing new technologies to improve the diagnosis and treatment of patients affected by neurological conditions. Dr. Steven D. Chang, M.D., Professor of Neurosurgery, is leading SNIPÂ’s research efforts, which can be divided into three broad categories: (1) Neural Stem Cells, (2) New Blood Vessel Growth and Response to Radiosurgery, and (3) Nanotechnology and Microfluidic Biochips

1. Neural Stem Cells
SNIP researchers recently found that the ability of stem cells in the brain to regenerate themselves and produce new nerves is a process guided by signals from neighboring cells, in particular the cells that make up our blood vessels. SNIP researchers have succeeded in isolating stem cells from brain tumor tissue. It is possible that errors in the programming of these tumor stem cells may result in abnormal growth of tissue and the development of brain tumors. Similar to neural stem cells, these tumor stem cells are located around the blood vessels that feed the tumor. SNIP researchers are currently studying the stem cells present in brain tumors and vascular malformations to determine what changes occurred in these cells to cause them to produce or promote disease. With this knowledge, it may soon be possible to discover new therapies for affected patients, prevent recurrent tumor growth, identify genetic risk factors, and develop preventative therapies to protect against development of disease.

2. New Blood Vessel Growth and Response to Radiosurgery
Understanding the process by which new blood vessels grow in the brain is important for research on (1) stroke recovery, 2) Blood vascular malformations that are characterized by overgrowth or dysfunction of vascular elements, e.g. arteriovenous malformations, and (3) brain tumors, which grow on the basis of new blood vessel formation to feed the tumor. SNIP researchers have recently found that circulating cells, previously thought only to have functions in our immune system, are recruited to areas of new blood vessel growth in the brain. SNIP researchers hope to develop new therapies that travel through the bloodstream to affect this process in order to directly treat vascular malformations and brain tumors. SNIP researchers are examining genetic variation in key genes responsible for vascular health and response to radiation injury to explain patient variations in response to radiosurgery.

SNIP researchers are also leading efforts in biomarker discovery, a process that focuses on the isolation of circulating factors in the bloodstream of patients that may relate to specific characteristics of their tumor or vascular malformation. These biomarkers are being obtained on all patients undergoing neurosurgery for removal of their tumor or vascular malformation. Differences in biomarkers are being related to characteristics of the specimen obtained from surgery to determine whether these noninvasive measurements can reveal information specific to radiation susceptibility. Dr. Chang hopes to one day offer his patients a simple blood test that he can use to determine whether a particular patient will benefit from neurosurgery versus radiosurgery, i.e. the goal of practicing personalized medicine.

3. Nanotechnology and Microfluidic Biochips
Microfluidic systems can perform conventional chemical and molecular processes on a biochip, allowing for sample metering, mixing, reactions and detection—processes that usually require a laboratory full of equipment to be integrated and miniaturized onto chips no larger than the size of a standard glass slide. SNIP researchers are now focusing on prototyping new biochips to directly isolate specific cell populations and biomarkers using nanotechnology in order to develop tools that can enable SNIP clinicians to improve the diagnostics and treatment options available to patients affected by neurological conditions.

Publications

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