Session 5: calorics

Question 1

what is the purpose of the caloric test?

Answer 1

• Assesses if the peripheral vestibular system is symmetrical on both sides.
• Evaluates balance, which relies on equal and opposite input from the semicircular canals.
• In a healthy system, one side sends excitatory signals while the other sends inhibitory signals.
• A weak or impaired side leads to signal mismatch, causing dizziness.
• Specifically tests the horizontal canal and provides both peripheral and some central vestibular information.

Question 2

how are caloric measures performed?

Answer 2

*Warm and cool stimuli are introduced into the ear canals, changing the temperature of the temporal bone and the endolymph in the lateral semicircular canal (SCC).

• Warm stimuli: Endolymph moves towards the ampulla → excitatory response.
• Cool stimuli: Endolymph moves away from the utricle, causing an inhibitory response.
• These temperature changes create endolymph motion, causing pressure differences across the cupula, which bends and stimulates the embedded hair cells. Neural signals are generated and sent to the brain, tricking it into perceiving motion. This results in visual nystagmus, recorded by video goggles.

Question 3

what are common patient pre test instructions?

Answer 3

-No consumption of food or drink (particularly caffeine) 3 hours before the appointment. - Dress comfortably and do not wear eye make up. - Bring someone along to the appointment with you (to drive u home)

Question 4

what happens when the patient arrives to the appointment?

Answer 4

1- a thorough otoscopic examination of the ear canals to: - determine the angle of the ear canal. -identify any middle ear pathology. -Check for any debris/ blockages that might keep the irrigation from reaching the full depth of the ear canal.

Question 5

What is the room set up for VNG? for calorics

Answer 5

-Examination table: Patient lies comfortably with their head at a 30° angle in the vertical plane.

• Monitor: Positioned for the examiner to easily view eye movements and tracings.
• Space: Ensure sufficient space around the table for examiner manoeuvrability.
• Goggles: Place snugly but comfortably on the patient with their assistance.
• Calibration: Perform a brief calibration of equipment to ensure validity and reliability.

Question 6

what are the patient instructions for caloric?

Answer 6

Introduction:

“I am going to put warm and cool air into each of your ears.”
Explain the Process:

“I will start by putting warm air into your right ear. The air will sound loud and feel warm/cool but should not be uncomfortable.”
“If you feel discomfort, let me know immediately.”
Duration:

“The air will be in your ear for approximately 60 seconds.”
“For water, the stimulus time will be 30 seconds.”
Post-Stimulus:

“After 60 seconds, I will stop and ask you some questions.”
Patient Instructions:

“I need you to do two things:
Keep your eyes open at all times, even if you feel like you’re spinning.
Focus on the questions I will ask during the test.”
Check Understanding:

“Do you have any questions before we begin?”

Question 7

Why do you think it is important to ask the patient questions immediately after the caloric irrigation?

Answer 7

Asking questions acts as a mental alerting task

Question 8

what to expect after caloric from a fully functional peripheral vestibular end organ?

Answer 8

• Response starts 15–30 seconds into irrigation and peaks at 60–90 seconds.
• Cool stimuli: Nystagmus beats away from the test ear.
• Warm stimuli: Nystagmus beats towards the test ear.
• Remember: COWS (Cold Opposite, Warm Same).

Question 9

What are the steps to perform a caloric test?

Answer 9

1- Perform a thorough otoscopy to ensure the ear canal is clear and assess orientation.

2- Select the caloric test mode on the equipment.

3- Choose the desired condition (e.g., warm first, as it provides the strongest response).

4- Insert the irrigator deeply into the ear canal and press start.

5- Ensure the patient’s eyes are clearly visible on the monitor, and adjust goggles so pupils are easily tracked by the camera.

*Note: If crosshairs are not visible during the recording, tracings cannot be generated.
Successful test = visible tracings.

Question 10

What happens during and after caloric testing?

Answer 10

1- Healthy Response: Nystagmus begins 15–30 seconds into irrigation.

2- Tracing and Analysis: Each nystagmus beat is marked and instantly analyzed.

3- Intensity Peak: Nystagmus intensity peaks between 60–90 seconds, with larger eye movements indicating stronger beats.

4- Fixation Light: At 90 seconds, a green fixation light appears inside the goggles for 10 seconds (marked by a green bar on tracings).
- During fixation, nystagmus should decrease.
- Instruct the patient to focus on the light.

5- Post-Fixation: After the light disappears, nystagmus should increase in frequency and intensity.

6- End of Recording: Stop the recording 10–15 seconds after the fixation period.

7- Repeat: Perform the same procedure for the other ear using the same temperature stimulus.

Question 11

how do we calculate whether there is weakness to asymmetry in someones VS from caloric testing?

Answer 11

• peak slow phase velocity responses (where the nystagmus is at its greatest) that we are most interested in identifying. The average max slow phase velocity is key for interpretation

Question 12

what is the formula used to calculate Unilateral Weakness (UW) which is aka Canal Paresis?

Answer 12

UW%= (RC+RW) - (LC+LW) / RC+ RW +LC + LW and then times it all by 100

Question 13

What is the purpose of the UW/ Canal Parasis formula?

Answer 13

-to allow the clinician to make a comparison between the total response of the left ear vs total response of RE

Question 14

what UW%/ Canal paresis is considered clinically significant and what is normal?

Answer 14

a difference of 20%+ suggests abnormal vestibular function f the weaker side

<20% = normal

Question 15

how do i know which side the canal paresis is on and what does that mean?

Answer 15

*If the result is negative (-):

Left Side > Right Side
This means the right vestibular system is weaker because the total response (RW + RC) from the right is less than the total response (LW + LC) from the left.
Right Canal Paresis is diagnosed.

*If the result is positive (+):

Right Side > Left Side
This means the left vestibular system is weaker because the total response (LW + LC) from the left is less than the total response (RW + RC) from the right.
Left Canal Paresis is diagnosed.

Question 16

where in the vestibular structure can a UW/ Canal Paresis stem from?

Answer 16

-lateral SCC
-afferent neural pathway
-the root entry zone of the 8th nerve into the brainstem
-

Question 17

what are some common conditions associated with unilateral weakness?

Answer 17

• Labyrinthitis
• Vestibular Neuritis
• Meniere’s disease
• Anterior vestibular artery infarction
• Wallenberg Syndrome
• Vestibular Migraines
• Vestibular Schwannoma
• Demyelization of the vestibular nerve

Question 18

INSERT QUESTON

Answer 18

sometimes the UW calculations show that unilateral weakness isn’t present but the butterfly graph shows very low peak slow phase velocity values. When this occurs, ignore caloric calculations and suspect bilateral weakness. Bilateral weakness is characterised by a loss or weakening of both left vestibular function.

Question 19

How is bilateral vestibular weakness identified?

Answer 19

For each ear, add the maximum SPV from the warm and cool tests:

Left ear: (Warm SPV) + (Cool SPV)
Right ear: (Warm SPV) + (Cool SPV)
If the total for each ear individually is less than 12°/sec, it indicates bilateral vestibular weakness.

Question 20

what kind of history would a patient with true bilateral weakness report?

Answer 20

History: chronic systemic disease, recent illness.
Symptoms: Chronic unsteadiness

Question 21

what are some conditions associated with Bilateral weakness?

Answer 21

-OTOTOXICITY (most common cause)
- cerebellar degeneration
- autoimmune disease
- head trauma
-bilateral Meniere’s
- systemic infection

Question 22

what kind of further testing can be done if bilateral weakness is suspected?

Answer 22

• ice water calorics
• video Head Impulse Testing
• Rotational Chair Testing

Question 23

when does directional Preponderance occur?

Answer 23

when the nystagmus in one direction is stronger than the nystagmus in the other direction.

e.g. left beating nystagmus being stronger than a nystagmus beating to the right results in a left directional preponderance

Question 24

what is the Directional Preponderance (DP) formula?

Answer 24

DP%= (RW+LC) - (LW+RC) / RC+RW+LC+LW and then times this all by 100

Question 25

how is the Directional Preponderance (DP) formula interpreted?

Answer 25

if the DP value is greater than 20% DP exists
AND

if the result is negative = left DP vice versa

Question 26

What causes DP?

Answer 26

*Most Common Cause: Spontaneous Nystagmus

• Spontaneous nystagmus is involuntary eye movement that occurs without stimulation (not normal).
• Example: If someone has a natural right-beating nystagmus, it adds to the rightward caloric response and weakens the leftward response, causing rightward DP.

*Less Common Cause: Central Pathology

• If DP occurs without spontaneous nystagmus, it may indicate a central issue, such as:
  =Vestibular nerve damage.
  =Vestibular nuclei dysfunction in the brainstem.
  =Problems in the central nervous system (CNS).

Question 27

How should DP be interpreted?

Answer 27

1- Rule out technical errors (e.g., calibration issues with equipment).

2- Check for spontaneous nystagmus (likely a peripheral vestibular issue).

3- If DP exists without spontaneous nystagmus, suspect a central vestibular problem.

Question 28

Is spontaneous nystagmus normal?

Answer 28

No, spontaneous nystagmus is not normal. It may indicate:

• Inner ear issues (e.g., vestibular neuritis or Ménière’s disease).
• Brainstem or CNS conditions (e.g., stroke, vestibular migraine).

Question 29

Why is the ability to fixate on an object important for the balance system?

Answer 29

Fixation allows us to track moving objects by keeping their image on the retina, which is essential for maintaining balance. Inability to fixate can cause a sense of imbalance.

Question 30

What is the fixation index?

Answer 30

The fixation index measures the ability to suppress nystagmus by focusing on an object during caloric testing.

Question 31

What is considered a normal visual fixation index?

Answer 31

A normal fixation index shows a reduction in nystagmus intensity by at least 50% during fixation.

Question 32

What does an abnormal fixation index indicate?

Answer 32

• The patient was unable or unwilling to suppress nystagmus by fixating on the given object.
• It suggests central pathology, as the fixation index examines the interaction between the vestibular and visual neural pathways.

Question 33

How is fixation measured during caloric testing?

Answer 33

• the patient is presented with an object (usually a small light in goggles) to focus on after the slow phase peak velocity (SPV) of nystagmus is recorded.
• The fixation measurement requires active participation, so the patient must be properly instructed.

Question 34

what are hyperactive caloric responses?

Answer 34

those in which the total of the warm and the cool responses in each individual ear is greater than 140 degrees/second.

• True hyperactivity is a central process and should be bilateral.

Question 35

What does unilateral hyperactivity indicate?

Answer 35

*Unilateral hyperactivity is not normal and is likely due to:

1) Physical abnormalities, such as:
- Perforated eardrums.
- Altered or open mastoids allowing greater heat transfer.

2) Technical errors, which are the most common cause.

Question 36

Why should all four caloric measurements be taken when considering hyperactivity?

Answer 36

To ensure accuracy and confirm that the hyperactivity is not due to technical error or a unilateral issue.

Question 37

Formulas and Normal limits for:
- Canal Paresis/ UW
- Directional Preponderance
- Visual Fixation Index

Answer 37

▪ Canal Paresis
▪ (RW+RC) – (LW+LC) / (RW+RC+LW+LC) x 100%
▪ Directional Preponderance
▪ (RW+LC) – (LW+RC) / (RW+RC+LW+LC) x 100%
▪ Visual Fixation Index
2 x Average SPV with fixation /
Average SPV before and after fixation*
x 100%

Normal Limits:
▪ Canal Paresis is abnormal when MORE THAN OR EQUAL TO
20%
▪ Directional preponderance is abnormal when MORE THAN OR
EQUAL 20%
▪ Visual Fixation index is abnormal when MORE THAN OR EQUAL
50%

Question 38

What temperatures are used to irrigate the ear with water and air?

Answer 38

*water:
- warm= 44 degrees
- cool= 24 degrees

*air:
- warm= 50 degrees
- cool= 24 degrees

Question 39

for how long are the ears irrigated with water and air?

Answer 39

• water= 30s
• air= 60s

Question 40

what considerations are there for performing calorics?

Answer 40

• back problems
• neck problems
• ear infections etc

Question 41

How can caloric testing results differentiate between peripheral and central vestibular lesions?

Answer 41

*Peripheral lesion: Nystagmus follows the COWS rule:
- Warm water → Nystagmus beats to the same side.
- Cold water → Nystagmus beats to the opposite side.

*Central lesion: Nystagmus does not follow the COWS rule, showing abnormal or inconsistent responses due to disrupted central vestibular processing.