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Olfactory Dysfunction and Disorders

Introduction. Importance of olfaction:Determines the flavor of foods and beveragesEarly warning system for detection of environmental hazards.Prevalence:2 million Americans At least 1% population under age of 65 and well over 50% over age 65. Anatomy and Physiology. 3 neural systemsCN I: ma

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Olfactory Dysfunction and Disorders

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    1. Olfactory Dysfunction and Disorders Jing Shen, M.D. Matthew Ryan, M.D.

    2. Introduction Importance of olfaction: Determines the flavor of foods and beverages Early warning system for detection of environmental hazards. Prevalence: 2 million Americans At least 1% population under age of 65 and well over 50% over age 65

    3. Anatomy and Physiology 3 neural systems CN I: main olfactory system Mediates odor sensation CN V: trigeminal somatosensory system Mediates somatosensory sensation CN 0: nervus terminalis Unknown exact function in humans

    4. Olfactory Epithelium Pseudostratified columnar epithelium Located in the upper recesses of the nasal chambers Cribriform plate, superior turbinate, superior septum, section of middle turbinate Harbors sensory receptors of CN I

    5. Cell Types in Olfactory Epithelium Bipolar sensory receptor neurons 6,000,000 cells in adults Olfactory receptors located on the ciliated dendritic ends Axons form 40 bundles as olfactory fila Microvillar cells Near the surface of epithelium Exact function unknown

    6. Cell Types Supporting cells Insulate receptor cells Regulate mucus composition Deactivate odorants Protect epithelium from foreign agents Globose basal cells Horizontal basal cells Cells lining Bowmans gland

    7. Olfactory Neuroepithelium

    8. Olfactory Sensory Receptor Neuron

    9. Receptors Located on cilia of receptor cells 1000 classes - 1% of all expressed genes Linked to guanine nucleotide binding protein->activate adenylate cyclase-> cAMP->depolarization One cell- one type of receptor

    10. Olfactory Bulb Located on top of cribriform plate at the base of frontal lobe Complex processing center Receives receptor cell axons Olfactory tract projects to olfactory cortex Frontal lobe, temporal lobe, thalamus, hypothalamus

    11. Classification of Olfactory Disorders Anosmia: absence of smell sensation Partial anosmia: ability to perceive some, but not all, odorants Hyposmia: decreased sensitivity to odorants Hyperosmia: abnormally acute smell function Dysosmia: distorted smell perception Phantosmia: olfactory hallucination Olfactory agnosia: inability to recognize an odor

    12. Classification Conductive loss Obstruction of nasal passages E.g., chronic nasal inflammation, polyposis Sensorineural loss Damage to neuroepithelium E.g., viral infection, airborne toxin Central olfactory neural loss CNS damage E.g., tumors, neurodegenerative disorders

    13. Evaluation and Diagnosis History: most important Olfactory ability prior to the loss Antecedent events (head trauma, URI) Severity Onset (gradual vs. acute) Pattern Other medical conditions Nasal sinus disease and allergy Previous surgery

    14. History (cont) Medications Smoking history Occupational history Any complaint of taste loss

    15. Evaulation and Diagnosis Physical exam: Nasal endoscopy Neurological exam Laboratory tests: Suggested by history and PE only Radiographic Imaging: CT: nasal and sinus disease MRI: intracranial causes

    16. Evaluation and Diagnosis University of Pennsylvania Smell Identification Test (UPSIT) 4 booklets of 10 microencapsulated odors Scratch and sniff format Four responses accompanying each odor Forced choice design Scores are compared to norms (sex- and age-related)

    17. UPSIT (cont) Scores classified into: Normal 36-40 Partial anosmia 20-35 Total anosmia 8-15 Probable malingering 0-5 Reliability is very high

    18. Post Upper Respiratory Infection Sensorineural loss The most frequent cause of smell loss in adults More common in middle or older age group Woman>man

    19. Post URI History: follows a viral-like URI, usually more severe than usual Loss is most commonly partial Occasionally with dysosmia or phantosmia PE: unremarkable

    20. Post URI Mechanism: unclear Direct insult to neuroepithelium Greatly reduced number of olfactory receptors Dendrites do not reach surface Lack sensory cilia Replacement of sensory epithelium with respiratory epithelium Ascends to the olfactory tracts or bulbs

    21. Post Viral Olfactory Disorder Olfactory cells decreased in number Two cilia on olfactory vesicle

    22. Post URI Worst case: severe destruction, no regeneration -> anosmia Mild case: patchy destruction -> hyposmia Complete regeneration -> normosmia Patchy regeneration or faulty regeneration -> dysosmia

    23. Post URI Treatment: no effective treatment Prognosis: Complete recovery in 3 weeks or permanent dysfunction Meaningful recovery is rare

    24. Head injury Incidence: 4-7% in early studies Reaching 50% in recent studies Generally associated with the severity of the injury Heywood (1990) matched GCS with olfactory test scores Lower GCS score, higher percentage of patients with olfactory impairment

    25. Head Injury Mechanism: Sinonasal tract alteration Direct injury to olfactory epithelium (mucosal edema, hematoma) Nasal skeleton fracture Post-traumatic rhinosinusitis Potentially treatable Shearing injury Tearing or shearing the axons With naso-orbito-ethmoid region fracture Translational shifts in the brain secondary to coup or contracoup forces

    26. Head Injury Mechanism (con): Brain contusion or hemorrhage Treatment: Irreversible most of time Prognosis worsen with time

    27. Post Traumatic Injury Olfactory cells decreased in number Olfactory receptor is aciliate

    28. Nasal and Sinus Disorders Traditionally viewed as conductive loss Airflow blockage caused by rhinosinusitis prevent odorant molecules from reaching epithelium Surgery or medical treatment alone not effective Defining factor may be the severity of the histopathological change

    29. Nasal and Sinus disorder Doty and Mishra (2001): Degree of olfactory loss is associated with the severity of nasal sinus disease Improve with systemic steroid and topical steroid No documented relationship between olfactory test scores and intranasal airway access factors Chronic inflammation may be toxic to olfactory mucosa Thin, atrophic epithelium Respiratory epithelium replaces sensory epithelium

    30. Nasal and Sinus Disorder Doty and Mishra (2001) Septoplaty and rhinoplasty do not have long-term deleterious effect Improvement of olfactory function postoperatively with sinus surgery (incomplete)

    31. Other Causes of Olfactory Disorders Toxin Tumor Congenital Endocrine Psychiatric Neurodegenerative disorder (Parkinson, Alzheimer disease)

    32. Treatment of Olfactory Disorder Conductive loss: relieve obstruction Allergy management Topical cromolyn Topical and systemic corticosteroids Surgical procedure Sensorineural loss: no effective treatment

    33. Bibilography McCaffrey, Thomas V.: Rhinologic diagnosis and treatment. New York, Thieme,1997, p5, 10, 16. Doty, Richard: Handbook of Olfaction and Gustation. New York, Marcel Dekker, Inc. 2003, pp 461-473. Doty R, Anupam M. Olfaction and its alteration by nasal obstruction, rhinitis, and rhinosinusitis. Laryngoscope 2001, 111:409-423 Bailey et.al., Head and neck surgery- otolaryngology. NewYork, Lippincort Williams and Wilkins. 2001, pp 247-259. Sobol S, Frenkiel S. Olfactory dysfunction. Canadian Journal of Diagnosis. 2002, august pp2-12.

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