Holding extensive expertise in the medical field, Dr. Gerald Schell is currently playing a leading international role in the experimental development of single-level and two-level artificial discs for cervical disk problems. In addition to it, he is involved with numerous other collaborative scientific endeavors to help advance neurosurgical care.
Always inclined towards minimally invasive spine surgery, Dr. Schell believes that these techniques allow the spine surgeons to achieve the same goals of open surgery while minimizing the collateral damage associated with the open approaches. As a renowned surgeon, he received his Doctor of Medicine degree from Michigan State University’s College of Human Medicine before completing a neurosurgical rotation at Syracuse University.
Dr. Schell graduated from Michigan State University medical school in 1980. Regarding his certifications and licensures, he is certified in Neurological Surgery from the American Board of Neurological Surgery. He received his Doctor of Medicine degree from Michigan State University’s College of Human Medicine before completing a neurosurgical rotation at Syracuse University.
Providing the best neurological care, Gerald has built his practice and reputation around the philosophy of providing the least invasive care to minimize recovery times and optimize clinical outcomes. He is one of the most experienced surgeons in the world performing minimally invasive spine procedures.
About Dr. Gerald Schell
At Schell Spinal, Dr. Gerald Schell makes use of the leading edge technologies to access and repair spinal structures while minimizing damage to the surrounding tissues. He also helps develop surgical techniques that are being used around the world. He works for 80-100 hours a week and serves on the hospital’s Board of Directors. Dr. Schell aims at providing stability in the lives of their parents by solving their spinal issues. He offers the most suitable treatments for spinal disorders, ranging from spinal fusion and anterior cervical discectomy fusion to spinal cord simulations.
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