IONM in Spinal Surgery: Difference between revisions
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IONM of the cervical spine involves the monitoring of the spinal cord and spinal nerve root function. For these cases, MEPs along with SSEPs are essential for monitoring spinal cord function. If there is a change in either SSEPs or MEPs during the surgery, this may or may not be a cause for concern; however, if there is a simultaneous change in both the SSEPs and MEPs, the probability of spinal cord injury is higher. Spinal nerve roots are monitored by EMG primarily. During decompression of the spinal cord, it is not uncommon to see spontaneous neurotonic EMG activity from upper extremity musculature, including the deltoids, biceps, triceps, first dorsal interossei muscles. This EMG activity normally subsides after cessation of nerve root manipulation. | IONM of the cervical spine involves the monitoring of the spinal cord and spinal nerve root function. For these cases, MEPs along with SSEPs are essential for monitoring spinal cord function. If there is a change in either SSEPs or MEPs during the surgery, this may or may not be a cause for concern; however, if there is a simultaneous change in both the SSEPs and MEPs, the probability of spinal cord injury is higher. Spinal nerve roots are monitored by EMG primarily. During decompression of the spinal cord, it is not uncommon to see spontaneous neurotonic EMG activity from upper extremity musculature, including the deltoids, biceps, triceps, first dorsal interossei muscles. This EMG activity normally subsides after cessation of nerve root manipulation. | ||
==Thoracic fusion surgery== | ==Thoracic fusion and laminectomy surgery== | ||
Insertion of pedicle screw in the thoracic spine remains technically challenging due to the smaller size and more complex morphology of the thoracic pedicle bone compared to the lumbar pedicle bone. The Roy-Camille method is the most commonly used technique for inserting pedicle screws into the thoracic spine, but there remains a high incidence of pedicle bone breach. Screw placement with a partial laminectomy may reduce the incidence of pedicle bone breach [Spine 1998;23(9):1065-8]. | Insertion of pedicle screw in the thoracic spine remains technically challenging due to the smaller size and more complex morphology of the thoracic pedicle bone compared to the lumbar pedicle bone. The Roy-Camille method is the most commonly used technique for inserting pedicle screws into the thoracic spine, but there remains a high incidence of pedicle bone breach. Screw placement with a partial laminectomy may reduce the incidence of pedicle bone breach [Spine 1998;23(9):1065-8]. | ||
IONM of the thoracic procedures, such as fusions and laminectomies for placement of spinal cord stimulators, is similar to upper lumbar surgeries with regard to monitoring of spinal cord and nerve root function. For thoracic fusions, the pedicle screws are not usually tested with electrical stimulation because of the smaller size of the pedicle bone in the thoracic spine. The stimulus thresholds tend to be much lower compared to those in the lumbar spine, making it difficult to determine a criterion for a pedicle breach. | |||
==Scoliosis surgery== | ==Scoliosis surgery== |
Revision as of 14:51, 10 January 2020
Introduction
IONM is used in a variety of spinal surgeries to assess spinal cord, spinal nerve root, and brachial plexus function. IONM is used to monitor neurophysiological function of the ascending and descending spinal pathways, which could be affected by the surgical procedure.
Symptoms and Diagnostics
Relevant clinical symptoms
1. Myelopathies. Damage to the spinal cord caused by injury, disease, and disc deterioration can result in symptoms of myelopathy. Initial symptoms may including clumsiness, difficulty with fine motor skills, poor balance and coordination. As the symptoms progress they can become more severe, including pain, weakness, and numbness in the upper and lower extremities and bladder and bowel incontinence.
2. Radiculopathies. Compression or irritation of the exiting nerve roots along the spine can result in symptoms of radiculopathy. These symptoms vary depending on the individual and on the level of the spine where the compression occurred. Generalized symptoms include sharp pain in the shoulders or back that radiates into the extremities, often with weakness, numbness, and tingling. Cervical radiculopathy includes symptoms such pain in the neck, shoulders, upper back, often with arm weakness, numbness or pins and needles experienced on one side of the body. Thoracic radiculopathy is an uncommon condition but symptoms may include burning or shooting pain in the ribs, sides, or abdomen, as well as numbness and tingling. Lumbar radiculopathy, also known as sciatica, includes symptoms such as pain and numbness in the low back, hips, buttock, leg, or foot. These symptoms can be exacerbated by long periods of sitting or walking.
3. Foot drop. Foot drop is an abnormality in gait that makes it difficult to lift the foot. Injury to the deep peroneal nerve is the most common cause of foot drop. The peroneal nerve is a branch of the sciatic nerve that exits at nerve roots L4-S2 and innervates the anterior and lateral compartments of the leg, including the tibialis anterior and other muscles that allow us to raise our feet from the ankle (dorsiflexion). Foot drop can also tighten the muscles that allow us to point our feet downward (plantar flexion). The plantar flexor muscles, such as the gastrocnemius and soleus, are innervated by tibial nerve, another branch of the sciatic nerve.
4. Scoliosis. Scoliosis is an abnormal lateral curvature of the spine that includes the rotation of the vertebrae. The misalignment can be in the shape of a C or an S. Scoliosis is diagnosed when there is at least a 10 degree angle in the alignment of the vertebrae as viewed in the anterior-posterior plane. Scoliosis is broadly classified as congenital, neuromuscular, and idiopathic in origin. Physicians characterize the type of scoliosis using the Lenke classification system.
5. Kyphosis.Kyphosis is an abnormal outward curvature of the spine, giving a hunchback appearance. The normal curvature of the spine in the varies between 20-45 degrees when view from the side of the body. Kyphosis is diagnosed when the spinal curvature exceeds 50 degrees.
6. Lordosis. Lordosis is an abnormal inward curvature of the lower spine.
Diagnostic Tests
1. Muscle strength exams. Patients undergoing a corrective spinal surgery often exhibit weakness and a loss of muscle strength. Muscle testing can be used as a neurological and diagnostic tool to assess motor neuron function and a therapeutic tool to assess the patient outcome after the spinal surgery. The muscle testing scale ranges from 1-5, with 5 being a healthy patient who can maintain position against full applied resistance.
2. Nerve conduction studies. Nerve conduction studying are used to determine if nerve damage is present on motor and sensory neurons. A stimulating and recording electrode are placed over a nerve (e.g. the Ulner or Median nerve). The time it takes for the impulse to reach the recording electrode is termed the latency. Latencies are on the order of milliseconds. The conduction velocity is calculated by dividing the distance between the electrodes by the latency, which equals the conduction velocity.
3. Imaging studies. CT, MRI and x-ray scans enable a doctor to see the structures in the neck or back that are contributing to the clinical symptoms.
Lumbosacral fusion surgery
A fusion can be performed at any level of the lumbar spine and can include the sacrum level S1 (S1-S5 are five fused segments). Lumbosacral fusions are performed to relieve pressure on the nerve roots or to stabilize the spine, which can cause symptoms like pain, numbness and weakness in the legs. A lumbar fusion involves the connection (or fusion) of two or more vertebrae by inserting screws into the pedicle bones, bilaterally, and connecting them with rod instrumentation. Surgeons will use different sized screws depending on the spinal level on which they are working, the size and morphology of the patient's vertebral bones, etc. For posterior spinal surgeries, the fixation of screws into the spinal column always requires the use of rods to join them together. A single rod is used to connect all the screws on each side of the spinal column. Therefore, there are two sets of rods, one for each side of the spine.
Spinal problems that require a fusion include degenerative disc disease, disc herniation, spondylolisthesis, spondylosis, vertebral fractures, spinal tumors, and scoliosis.
IONM of lower lumbar and sacral regions (L3 and below) involves the monitoring of spinal nerve root function, primarily with EMG recordings. Ascending and descending spinal cord function is also monitored with SSEPs and MEPs, respectively. SSEPs are particularly important because the surgical approach for most lower lumbar surgeries is posterior, which has a greater potential to damage spinal nerve roots that enter the dorsal horn of the spinal column. For upper lumbar cases (L1-2), MEPs along with SSEPs are essential for monitoring spinal cord function.
Pedicle screw testing. After insertion of the pedicle screws, triggered EMG is used to assess whether a breach of the pedicle bone occurred. Pedicle screws are are tested by applying direct electrical stimulation (0-50 mA) to each screw. A screw that is surrounded by bone is well insulated; however, if there is a breach in the pedicle bone, the screw will not be well insulated. A screw that is not well-insulated by bone will pass current more easily to any nerve fibers or roots that are in close proximity, leading to a decrease in the electrical threshold that is needed to elicit a CMAP on a specific motor unit recorded in the muscle tissue. CMAPs that are triggered by thresholds less than 10 mA in intensity are a cause for concern and may indicate a breach, which may also cause irritation or damage to the nerve tissue.
Cervical disc surgery
In the modern era, lateral mass screws are used almost universally for posterior cervical level procedures. As indicated by their name, these screws are inserted into the lateral mass, the bony junction between the superior and inferior articular processes. Different techniques have been developed for the insertion and fixation of lateral mass screws (i.e., Roy-Camille, Magerl, and modified techniques), all of which use slightly different entry points and trajectories. In the Roy-Camille method, for example, the screws are directed at a 90 degree angle to the lateral mass and then angled laterally at a 10 degree angle, whereas the Magerl method starts at a 45 degree angle to the lateral mass and then angled laterally at a 25 degree angle. The goal is to avoid hitting the vertebral artery and the exiting nerve roots.
The decision to use rods or plates depends on the surgical approach: anterior vs. posterior. Plates are used for anterior approaches because the anterior surface of the vertebral body is exposed, which is more flat in morphology and can be fused to an adjacent vertebral body by a simple plate with screws. For posterior spinal procedures, rods are used. The rods come in different sizes and curvatures, which the surgeon chooses based on factors such as the length of the fusion and the region and curvature of the spine. A single rod is used to connect all the screws on each side of the spinal column. Therefore, there are two sets of rods, one for each side of the spine.
IONM of the cervical spine involves the monitoring of the spinal cord and spinal nerve root function. For these cases, MEPs along with SSEPs are essential for monitoring spinal cord function. If there is a change in either SSEPs or MEPs during the surgery, this may or may not be a cause for concern; however, if there is a simultaneous change in both the SSEPs and MEPs, the probability of spinal cord injury is higher. Spinal nerve roots are monitored by EMG primarily. During decompression of the spinal cord, it is not uncommon to see spontaneous neurotonic EMG activity from upper extremity musculature, including the deltoids, biceps, triceps, first dorsal interossei muscles. This EMG activity normally subsides after cessation of nerve root manipulation.
Thoracic fusion and laminectomy surgery
Insertion of pedicle screw in the thoracic spine remains technically challenging due to the smaller size and more complex morphology of the thoracic pedicle bone compared to the lumbar pedicle bone. The Roy-Camille method is the most commonly used technique for inserting pedicle screws into the thoracic spine, but there remains a high incidence of pedicle bone breach. Screw placement with a partial laminectomy may reduce the incidence of pedicle bone breach [Spine 1998;23(9):1065-8].
IONM of the thoracic procedures, such as fusions and laminectomies for placement of spinal cord stimulators, is similar to upper lumbar surgeries with regard to monitoring of spinal cord and nerve root function. For thoracic fusions, the pedicle screws are not usually tested with electrical stimulation because of the smaller size of the pedicle bone in the thoracic spine. The stimulus thresholds tend to be much lower compared to those in the lumbar spine, making it difficult to determine a criterion for a pedicle breach.
Scoliosis surgery
The instrumentation for surgical treatment of scoliosis is similar to that of other posterior fusion procedures but includes more anchors to connect the rod and the spine, which improves the correction of the spine. Modern techniques often utilize segmented pedicle screw constructs that allow the rods to be interconnected or hybrid constructs made of pedicle screws, hooks, and wires.
Spinal tumor surgery
Others
1. Interbody cages and bone grafts. For different reasons, spinal surgeries may require the removal of part of all of the intervertebral disc. If so, it is necessary to fill the empty disc space with either a bone graft (e.g., autograft, allograft) or an interbody cage to restore the height of the spine. These devices are cylindrical or square-shaped and often threaded for increased stability. The interbody cage or bone graft is inserted by distracting the space between the discs. Some interbody cages are expandable, which allows for a more optimal fit.
2. Ondontoid (dens) fracture There are three different types of odontoid fractures, which are classified by the anatomical location of the fracture (Anderson and D’Alonzo classification). Type II fractures are the most common Type I: avulsion fracture of the apex. Type II: fracture through the base of the dens, at the junction of the odontoid base and the body of C2. Type III: fracture extends into the body of the axis.
The C1 and C2 vertebrae are atypical because of their structure and lack of intervertebral discs. The C1 is known as the atlas, and the C2 is known as the axis. C2 has a peg-like process called the odontoid bone, which projects superiorly from the body. The odontoid process lies anterior to the spinal cord and acts as an axis or pivot for the C1 vertebrae, which allows the head to rotate. The craniovertebral joint between the atlas and the axis is called, the atlanto-axial joint. The craniovertebral joint differs from the others vertebral joints because it does not have an intervertebral disc. This allows for a greater range of motion than the other vertebrae.