Spine Surgeons Farmville VA
Medical School: Univ Of Miami Sch Of Med, Miami Fl 33101
Graduation Year: 1964
Medical School: Montpellier
Graduation Year: 1983
Northern Virginia Orthopaedic Group
Medical School: Med Univ Of Sc Coll Of Med
Year of Graduation: 1988
Accepting New Patients: Yes
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Orthopedic Surgery, Sports Medicine
Sports Medicine & Orthopaedic Center
Medical School: New York Med Coll, Valhalla Ny 10595
Graduation Year: 1976
Medical School: Dalhousie Univ, Fac Of Med, Halifax, Ns, Canada
Graduation Year: 1980
Monitoring Spinal Function During Spine Surgery
Any spine surgery is a very delicate operation. Care must be taken to prevent damage to the spinal cord, spinal nerves, and blood vessels supplying these neural components. Damage to the blood vessels and loss of blood supply to the spinal cord can have serious consequences.
Surgeons have an important tool available during spinal surgery to monitor patients called intraoperative neuromonitoring or IOM. IOM methods include the wake-up test, somatosensory-evoked potentials (SSEP), transcranial motor-evoked potentials (tcMEP), spinal cord MEPs, spontaneous electromyography (sEMG), and triggered electromyography (tEMG).
Each one of these tests has its own purposes and functions. But the basic idea behind this type of monitoring is to make sure moment-by-moment during the procedure that no injury has occurred. This is called real-time monitoring. Warning is given so that any damage can be prevented or reversed.
The tests must be accurate enough to avoid any false positives or false negatives. A false positive means the test says there's a problem when there really isn't one. A false negative is a test that doesn't indicate a problem when there is one.
In this study, neurosurgeons from the University of Pennsylvania and University of Virginia reviewed studies published on intraoperative neuromonitoring (IOM). They wanted to know how sensitive are each of the tests. Surgeons need to know what test values require immediate action.
Having these tests makes it possible to perform more complex spinal surgeries. That's important for patients with severe scoliosis undergoing spinal correction to get the best possible result. The same is true for cancer patients with spinal tumors that have to be removed. It allows the surgeon to be more aggressive when it's needed and with less risk of complications.
For each of the IOM tests, the authors provide a description of the test, when it would be used, and what the research reports about reliability, validity, and effectiveness of each test. Surgeons are given ways to avoid problems and obstacles with each test. A summary of all the technical information is provided with key points from the article offered in the conclusion.
Here's a sample of the type of information surgeons can obtain from this review. The wake-up test (gradually reducing the amount of anesthesia until the patient wakes up enough to move their arms and legs) has many more drawbacks than benefits compared to the other tests. It's easy to do but only offers a one-time look at what's going on when really ongoing monitoring is much better. It should only be used along with a more consistent test.
Somatosensory-evoked potentials (SSEPs) became popular in the late 1980s and early 1990s. They were thought to be reliable but it turned out there was a high rate of false negatives. SSEPs don't monitor all aspects of spinal cord, spinal nerve, and vascular (blood supply) function. They are not reliable to test mot...