Clinical Neurology

Neurological Advanced Studies

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After a neurological exam, physical exam, patient history, x-rays and any previous screening tests, a doctor may order one or more of the following diagnostic tests to determine the root of a possible/suspected neurological disorder or injury. These diagnostics generally involve neuroradiology, which uses small amounts of radioactive material to study organ function and structure and ordiagnostic imaging, which use magnets and electrical charges to study organ function.

Table of Contents

Neurological Studies

Neuroradiology

  • MRI
  • MRA
  • MRS
  • fMRI
  • CT scans
  • Myelograms
  • PET scans
  • Many others

Magnetic Resonance Imaging (MRI)

Shows organs or soft tissue well
  • No ionizing radiation
Variations on MRI
  • Magnetic resonance angiography (MRA)
  • Evaluate blood flow through arteries
  • Detect intracranial aneurysms and vascular malformations
Magnetic resonance spectroscopy (MRS)
  • Assess chemical abnormalities in HIV, stroke, head injury, coma, Alzheimer’s disease, tumors, and multiple sclerosis
Functional magnetic resonance imaging (fMRI)
  • Determine the specific location of the brain where activity occurs

Computed Tomography (CT or CAT Scan)

  • Uses a combination of X-rays and computer technology to produce horizontal, or axial, images
  • Shows bones especially well
  • Used when assessment of the brain needed quickly such as in suspected bleeds and fractures

Myelogram

Contrast dye combined with CT or Xray
Most useful in assessing spinal cord
  • Stenosis
  • Tumors
  • Nerve root injury

Positron Emission Tomography (PET Scan)

Radiotracer is used to evaluate the metabolism of tissue to detect biochemical changes earlier than other study types
Used to assess
  • Alzheimer’s disease
  • Parkinson’s disease
  • Huntington’s disease
  • Epilepsy
  • Cerebrovascular accident

Electrodiagnostic Studies

  • Electromyography (EMG)
  • Nerve Conduction Velocity (NCV) Studies
  • Evoked Potential Studies

Electromyography (EMG)

Detection of signals arising from the depolarization of skeletal muscle
May be measured via:
  • Skin surface electrodes
  • Not used for diagnostic purposes, more for rehab and biofeedback
Needles placed directly within the muscle
  • Common for clinical/diagnostic EMG

Diagnostic Needle EMG

Recorded depolarizations may be:
  • Spontaneous
  • Insertional activity
  • Result of voluntary muscle contraction
Muscles should be electrically silent at rest, except at the motor end-plate
  • Practitioner must avoid insertion in motor end-plate
At least 10 different points in the muscle are measured for proper interpretation

Procedure

Needle is inserted into the muscle
  • Insertional activity recorded
  • Electrical silence recorded
  • Voluntary muscle contraction recorded
  • Electrical silence recorded
  • Maximal contraction effort recorded

Samples Collected

Muscles
  • Innervated by the same nerve but different nerve roots
  • Innervated by the same nerve root but different nerves
  • Different locations along the course of the nerves
Helps to distinguish the level of the lesion

Motor Unit Potential (MUP)

Amplitude
  • Density of the muscle fibers attached to that one motor neuron
  • Proximity of the MUP
Recruitment pattern can also be assessed
  • Delayed recruitment can indicated loss of motor units within the muscle
  • Early recruitment is seen in myopathy, where the MUPs tend to be of low amplitude short duration

Polyphasic MUPS

  • Increased amplitude and duration can be the result of reinnervation after chronic denervation

Complete Potential Blocks

  • Demyelination of multiple segments in a row can result in a complete block of nerve conduction and therefore no resulting MUP reading, however generally changes in MUPs are only seen with damage to the axons, not the myelin
  • Damage to the central nervous system above the level of the motor neuron (such as by cervical spinal cord trauma or stroke) can result in complete paralysis little abnormality on needle EMG

Denervated Muscle Fibers

Detected as abnormal electrical signals
  • Increased insertional activity will be read in the first couple of weeks, as it becomes more mechanically irritable
As muscle fibers become more chemically sensitive they will begin to produce spontaneous depolarization activity
  • Fibrillation potentials

Fibrillation Potentials

  • DO NOT occur in normal muscle fibers
  • Fibrillations cannot be seen with the naked eye but are detectable on EMG
  • Often caused by nerve disease, but can be produced by severe muscle diseases if there is damage to the motor axons

Positive Sharp Waves

  • DO NOT occur in normally functioning fibers
  • Spontaneous depolarization due to increased resting membrane potential

Abnormal Findings

  • Findings of fibrillations and positive sharp waves are the most reliable indicator of damage to motor axons to the muscle after one week up to 12 months after the damage
  • Often termed “acute” in reports, despite possibly being visible months after onset
  • Will disappear if there is complete degeneration or denervation of nerve fibers

Nerve Conduction Velocity (NCV) Studies

Motor
  • Measures compound muscle action potentials (CMAP)
Sensory
  • Measures sensory nerve action potentials (SNAP)

Nerve Conduction Studies

  • Velocity (Speed)
  • Terminal latency
  • Amplitude
  • Tables of normal, adjusted for age, height and other factors are available for practitioners to make comparison

Terminal Latency

  • Time between stimulus and the appearance of a response
  • Distal entrapment neuropathies
  • Increased terminal latency along a specific nerve pathway

Velocity

Calculated based on latency and variables such as distance
Dependent on diameter of axon
Also dependent on thickness of myelin sheath
  • Focal neuropathies thin myelin sheaths, slowing conduction velocity
  • Conditions such as Charcot Marie Tooth Disease or Guillian Barre Syndrome damage myelin in large diameter, fast conducting fibers

Amplitude

  • Axonal health
  • Toxic neuropathies
  • CMAP and SNAP amplitude affected

Diabetic Neuropathy

Most common neuropathy
  • Distal, symmetric
  • Demyelination and axonal damage therefore speed and amplitude of conduction are both affected

Evoked Potential Studies

Somatosensory evoked potentials (SSEPs)
  • Used to test sensory nerves in the limbs
Visual evoked potentials (VEPs)
  • Used to test sensory nerves of the visual system
Brainstem auditory evoked potentials (AEPs)
  • Used to test sensory nerves of the auditory system
Potentials recorded via low-impedance surface electrodes
Recordings averaged after repeated exposure to sensory stimulus
  • Eliminates background “noise”
  • Refines results since potentials are small and difficult to detect apart from normal activity
  • According to Dr. Swenson, in the case of SSEPs, at least 256 stimuli are usually needed in order to obtain reliable, reproducible responses

Somatosensory Evoked Potentials (SSEPs)

Sensation from muscles
  • Touch and pressure receptors in the skin and deeper tissues
Little if any pain contribution
  • Limits ability to use testing for pain disorders
Velocity and/or amplitude changes can indicate pathology
  • Only large changes are significant since SSEPs are normally highly variable
Useful for intraoperative monitoring and to assess the prognosis of patients suffering severe anoxic brain injury
  • Not useful in assessing radiculopathy as individual nerve roots cannot be easily identified

Late Potentials

Occur more than 10-20 milliseconds after stimulation of motor nerves
Two types
  • H-Reflex
  • F-Response

H-Reflex

Named for Dr. Hoffman
  • First described this reflex in 1918
Electrodiagnostic manifestation of myotatic stretch reflex
  • Motor response recorded after electrical or physical stretch stimulation of the associated muscle
Only clinically useful in assessing S1 radiculopathy, as the reflex from the tibial nerve to triceps surae can be assessed for velocity and amplitude
  • More quantifiable that Achilles reflex testing
  • Fails to return with after damage and therefore not as clinically useful in recurrent radiculopathy cases

F-Response

So named because it was first recorded in the foot
Occurs 25 -55 milliseconds after initial stimulus
Due to antidromic depolarization of the motor nerve, resulting in a orthodromic electrical signal
  • Not a true reflex
  • Results in a small muscle contraction
  • Amplitude can be highly variable, so not as important as velocity
  • Reduced velocity indicates slowed conduction
Useful in assessing proximal nerve pathology
  • Radiculopathy
  • Guillian Barre Syndrome
  • Chronic Inflammatory Demyelinating Polyradiculopathy (CIDP)
Useful in assessing demyelinative peripheral neuropathies

Sources

  1. Alexander G. Reeves, A. & Swenson, R. Disorders of the Nervous System. Dartmouth, 2004.
  2. Day, Jo Ann. “Neuroradiology | Johns Hopkins Radiology.” Johns Hopkins Medicine Health Library, 13 Oct. 2016, www.hopkinsmedicine.org/radiology/specialties/ne uroradiology/index.html.
  3. Swenson, Rand. Electrodiagnosis.

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