Jeffrey H. Oppenheimer, MD is an actively-practicing board-certified Neurosurgeon with 27 years of experience. He founded and presently practices at Neurosurgery Medical Associates in Coral Springs, Florida. Dr. Oppenheimer is also on the faculty at the University of Central Florida College of Medicine, and holds medical licenses in several states.
Dr. Oppenheimer received his medical degree from Georgetown University School of Medicine, where he also obtained an MS with distinction in Physiology and Biophysics. He earned a Bachelor of Arts in Neurobiology and Behavior cum laude, from Cornell University. Dr. Oppenheimer completed his residency training at the University of Southern California-Los Angeles County Hospital. He has published numerous journal articles and textbook chapters in the field of neurosurgery. Multilingual, he is fluent in English, German, and Spanish.
Litigation Support - Dr. Oppenheimer is a seasoned expert witness with significant testifying experience. He has provided expert consultation for both plaintiff and defense in a variety of cases, including personal injury, medical malpractice (standard of care and causation), and worker’s compensation (IMEs).
Dr. Oppenheimer has offered litigation support services for 18 years. A seasoned deponent with both trial and deposition experience, he has excellent communication skills and a caring personality. He has testified as an expert in court or before an arbiter 20 times. Dr. Oppenheimer's services include IMEs, medical record review, conferences, and court and pretrial testimony.
The trend of using smaller operative corridors is seen in various surgical specialties. Neurosurgery has also recently embraced minimal access spine technique, and it has rapidly evolved over the past 2 decades. There has been a progression from needle access, small incisions with adaptation of the microscope, and automated percutaneous procedures to endoscopically and laparoscopically assisted procedures. More recently, new muscle-sparing technology has come into use with tubular access. This has now been adapted to the percutaneous placement of spinal instrumentation, including intervertebral spacers, rods, pedicle screws, facet screws, nucleus replacement devices, and artificial discs. New technologies involving hybrid procedures for the treatment of complex spine trauma are now on the horizon. Surgical corridors have been developed utilizing the interspinous space for X-STOP placement to treat lumbar stenosis in a minimally invasive fashion. The direct lateral retroperitoneal corridor has allowed for minimally invasive access to the anterior spine.