Maricopa Community Colleges EEG205 20066-99999

Official Course Description: MCCCD Approval: 10-27-2009
EEG205 2010 Spring – 2011 Fall	L+L 3.0 Credit(s) 4.0 Period(s) 3.7 Load Occ
Applied Evoked Potentials
Theoretical and practical aspects of Evoked Potentials (EP), mainly Visual Evoked Response (VER), Brain Auditory Evoked Response (BAER), and Somatosensory Evoked Potential (SSEP) tests. EP instrumentation, recording techniques and data analysis of electrical activity of the nervous system elicited by using selected physical stimuli (evoked potentials) and concepts of signal averaging, (in accordance with the most recent American Clinical Neurophysiology Society (ACNS) guidelines on Evoked Potentials.) Prerequisites: Admission to the Electroneurodiagnostics Program.

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MCCCD Official Course Competencies:

EEG205 2010 Spring – 2011 Fall	Applied Evoked Potentials

1. Describe the origin of Evoked Potentials. (I)

2. Establish clinical applications of EP. (I)

3. Identify the EP System (equipment). (II)

4. Diagram the concept of signal averaging and Signal to Noise ratio. (II)

5. Identify and describe the EP Amplifier, including A/D Conversion, Common Mode Rejection (CMMR), Instrument Calibration, and electrode Impedance. (II)

6. Define EP concepts such as Sampling Rate, Analysis Time, Dwell Time. (II)

7. Describe Instrument maintenance / Patient Safety. (II)

8. Demonstrate accurate head measurement specific to each EP modality (i.e., Queen Square Placement for VER Accurate placement of electrodes over recording/ stimulation sites). (II)

9. Describe the anatomy and location of the EP waveforms generators in the central and peripheral nervous system (sensory pathway). (II)

10. Describe the various stimuli used in these EP tests: BAER, VER, and SSEP. (II)

11. Demonstrate adequate communication skills when preparing patient for test and acquiring relevant medical history according to the EP modality performed. (II, IV)

12. Describe Recording Parameters for each EP modality and variations. (III)

13. Plot Montage for each EP modality in accordance to EP Polarity convention. (III)

14. Obtain reproducible waveforms for each EP modality. (III)

15. Identify commonly encountered sources of artifacts and possible means of their rejection from data used for analysis (troubleshooting unclear responses). (III)

16. Demonstrate clean up of patient and equipment after test. (IV)

17. Identify and label obligate peaks for each EP modality by amplitude and latency-inter-side differences. (IV)

18. Demonstrate recording of all pertinent data including EP findings on technical worksheet, comparing with normative data. (IV)

19. Describe common surgical procedures that would warrant EP monitoring. (V)

20. Describe appropriate handling of surgery patient, and effective communication skills with surgery team. (V)

21. Identify anesthetic agents and effect on EP waveforms. (V)

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MCCCD Official Course Outline:

EEG205 2010 Spring – 2011 Fall	Applied Evoked Potentials

I. EP Origin, History, and Relationship of Specific EP Tests to Diseases

A. BAER

1. Hearing function in infants

2. Childhood autism

3. Multiple sclerosis

4. Acoustic neurinoma

5. Trigeminal neuralgia

B. SSEP

1. Multiple sclerosis

2. Peripheral neuropathies

3. Charcot-Marie Tooth

C. VER

1. Retinal degeneration

2. Retrobulbar neuritis

3. Multiple sclerosis

4. Malingering

5. Hysterical blindness

6. Cortical blindness

II. Fundamentals of EP Instrumentation and Essential concepts of EP data collection

A. Signal averaging

1. Single response size

2. Control of trigger timing

3. Selection of signal of interest

4. Repetition of trigger (stimulus)

B. Signal to noise (S/N) ratio

1. S/N ratio

2. Selected sources of noise

a. Preamplifiers

b. Atmospheric

c. Muscle

d. EEG

C. Common mode rejection

1. Recognition of wave frequencies

2. Selection with instrumentation

D. Artifact Reject

1. On/Off

2. Percent of rejection

E. Accurate identification of EP recording sites

1. Near Field Potentials

2. Far Field Potentials

3. Stationary response

4. Propagated response

F. Stimulus Site for EP testing

1. Modality and intensity

2. Characteristics of stimulus onset

3. Stimulus influence on size and morphology of EP

a. Intensity

b. Location

c. Quality

G. Specific stimulus type

1. BAER testing

a. Earphones

b. Clicks

2. VER testing

a. Light source

b. Screens and goggles

3. SSEP testing

a. Vibration

b. Light electrical shock

III. Recording Parameters for EP testing

A. Analysis Time

1. msecs per division

2. msecs Full Screen

B. Sensitivity

C. Frequency Bandwidth

1. High Frequency Filter

2. Low Frequency Filter

D. Montage selection for each EP modality according to Polarity Convention

1. Calibration

2. Bipolar

3. Referential

4. Common EP artifacts identification/ troubleshooting

a. Stimulus artifact

b. 60 Hz noise

c. Muscle potentials

d. Skin potentials

e. Non cerebral potentials

f. EEG

IV. BAER, VER, and SSEP testing demonstrations

A. Preparation of equipment

B. Explanation of procedure to patient

C. Patient History taking relevant to EP

1. Previous EP test findings

2. Previous NCV findings

3. Audiology test results

4. Visual symptoms

D. Preparation of patient

1. Head measurement / Queen Square Placement

2. Electrode Application

E. Conduct supervised testing

F. Waveform identification

1. morphology

2. latency

G. Label obligate peaks / measurements

H. Clean up patient, area and equipment after testing

I. Preparation and presentation of data on technical worksheet

1. Use of normative data

J. Clean up patient, area, and equipment after testing

V. Surgical Applications

A. Hostile Environment

B. Communication

C. Sterile Field

D. Common Anesthetic Agents

E. Surgical Procedures

F. Appropriate Monitoring

G. Documentation