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Caloric reflex test

In this article, we will delve into the exciting world of Caloric reflex test, exploring its various facets and delving into its importance in today's society. From its origins to its impact today, Caloric reflex test has played a crucial role in history, culture and human development. Throughout these pages, we will closely examine the different aspects that make Caloric reflex test such a relevant and fascinating topic, addressing its implications and possible futures. Get ready to embark on a journey of discovery and knowledge about Caloric reflex test, which will surely leave you with a new perspective and a greater understanding of its importance in our lives.

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"Nystagmus test" redirects here. For the field sobriety test, see Horizontal gaze nystagmus test.
Caloric reflex test, vestibulo-ocular reflex
Caloric test. Cold water introduced into right external meatus showing effects opposite to that produced by introduction of hot water. (Lawrence et al. 1960)
ICD-9-CM95.44
MedlinePlus003429

In medicine, the caloric reflex test (sometimes termed "vestibular caloric stimulation") is a test of the vestibulo-ocular reflex that involves irrigating cold or warm water or air into the external auditory canal. This method was developed by Robert Bárány, who won a Nobel Prize in 1914 for this discovery.

Utility

The test is commonly used by physicians, audiologists and other trained professionals to validate a diagnosis of asymmetric function in the peripheral vestibular system. Calorics are usually a subtest of the electronystagmography (ENG) battery of tests. It is one of several tests which can be used to test for brain stem death.

One novel use of this test has been to provide temporary pain relief from phantom limb pains in amputees[1] and paraplegics.[2] It can also induce a temporary remission of anosognosia, the visual and personal aspects of hemispatial neglect, hemianesthesia, and other consequences of right hemispheric damage.[3]

Technique and results

Ice cold or warm water or air is introduced into the external auditory canal, usually using a syringe. The temperature difference between the body and the injected water creates a convective current in the endolymph of the nearby lateral semicircular canal. Hot and cold water produce currents in opposite directions and therefore a horizontal nystagmus in opposite directions.[4] In patients with an intact brainstem:

  • If the water is warm (44 °C or above) endolymph in the ipsilateral horizontal canal rises, causing an increased rate of firing in the vestibular afferent nerve. This situation mimics a head turn to the ipsilateral side. Both eyes will turn toward the contralateral ear, with horizontal nystagmus (quick horizontal eye movements) to the ipsilateral ear.
  • If the water is cold, relative to body temperature (30 °C or below), the endolymph falls within the semicircular canal, decreasing the rate of vestibular afferent firing. This situation mimics a head turn to the contralateral side. The eyes then turn toward the ipsilateral ear, with horizontal nystagmus to the contralateral ear.[5][6]

Absent reactive eye movement suggests vestibular weakness of the horizontal semicircular canal of the side being stimulated.

In comatose patients with cerebral damage, the fast phase of nystagmus will be absent as this is controlled by the cerebrum. As a result, using cold water irrigation will result in deviation of the eyes toward the ear being irrigated. If both phases are absent, this suggests the patient's brainstem reflexes are also damaged and carries a very poor prognosis.[7]

While large interindividual differences exist, females exhibit a slightly higher average caloric excitability than males.[8]

See also

References

  1. ^ André JM, Martinet N, Paysant J, Beis JM, Le Chapelain L (2001). "Temporary phantom limbs evoked by vestibular caloric stimulation in amputees". Neuropsychiatry Neuropsychol Behav Neurol. 14 (3): 190–96. PMID 11513103.
  2. ^ Le Chapelain L, Beis JM, Paysant J, André JM (February 2001). "Vestibular caloric stimulation evokes phantom limb illusions in patients with paraplegia". Spinal Cord. 39 (2): 85–87. doi:10.1038/sj.sc.3101093. PMID 11402363.
  3. ^ Robertson IH, Marshall JC (1993). Unilateral neglect: clinical and experimental studies. Psychology Press. pp. 111–113. ISBN 978-0-86377-208-5. Retrieved 2010-06-04.
  4. ^ Purves D, et al. (2004). Neuroscience. Sinauer.
  5. ^ Nystagmus, Acquired at eMedicine
  6. ^ Narenthiran G. Neurosurgery Quiz. Annals of Neurosurgery. Accessed on: August 17, 2006.
  7. ^ Mueller-Jensen A, Neunzig HP, Emskötter T (April 1987). "Outcome prediction in comatose patients: significance of reflex eye movement analysis". J. Neurol. Neurosurg. Psychiatry. 50 (4): 389–92. doi:10.1136/jnnp.50.4.389. PMC 1031870. PMID 3585347.
  8. ^ J. Gerb, Sandra Becker‐Bense, Doreen Huppert, Konstanze Dunker, Valerie Schöb, Denis Grabova, Karoline Steinmetz, Ralf Strobl, Andreas Zwergal: Sex differences in caloric nystagmus intensity: Should reference values be updated?. In: PubMed. 2025 doi:10.1111/nyas.15310.
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