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Am Fam Physician. 2013;88(12):852-859

Author disclosure: No relevant financial affiliations.

Smell and taste disorders can be challenging to diagnose because of the large number of potential etiologies. Patients are often unable to provide a clear history of symptoms, because they frequently cannot distinguish between difficulties with smell and taste. Standardized questionnaires may be helpful in diagnosis. Smell and taste dysfunction have been implicated in loss of appetite, unintended weight loss, malnutrition, and reduced quality of life. Taste dysfunction may be complete or partial, and affect one or more aspects of taste (sweetness, bitterness, sourness, saltiness, and umami [savory]). An estimated 95% of taste disorders are caused by impairment of smell rather than gustatory loss. The most common causes of olfactory dysfunction include allergic rhinitis, chronic rhinosinusitis (with or without sinonasal polyps), and upper respiratory infection. Other potential causes include head trauma, neurodegenerative diseases (including Parkinson disease and cognitive impairments), and medications. Examination of the nose, mouth, and oropharynx as well as neurologic examination (focusing on cranial nerves I, VII, IX, and X) is essential. Additional assessment such as cognitive testing, nasal endoscopy, computed tomography of the sinuses or nose, or brain magnetic resonance imaging may be indicated. Up to one-half of patients with olfactory dysfunction improve over time. Improvement in olfactory function is inversely correlated with severity and duration of loss, age, smoking, and male sex.

Smell and taste disorders have been implicated as causes of loss of appetite, unintended weight loss, malnutrition, and reduced quality of life.1 These disorders have many potential etiologies and a wide spectrum of clinical presentations. Taste is influenced by odor, flavor, texture, and temperature. Traditionally, taste has been categorized into sweetness, bitterness, sourness, saltiness, and umami (also described as savory). Taste disorders such as ageusia, hypogeusia, and dysgeusia may involve one or more of these five basic tastes (Table 1). It is estimated that 95% of perceived taste disorders are caused by olfactory loss rather than gustatory loss; therefore, a disorder of the olfactory system should be the initial diagnostic focus in most cases.24

Clinical recommendationEvidence ratingReferences
Olfactory loss is responsible for the majority of perceived taste disturbances (95% to 99%) and should be the initial diagnostic focus in most cases.C24
Given the large number of etiologies, physicians should initially evaluate for the most common causes of smell loss: chronic sinonasal disease, upper respiratory infections, head trauma, neurodegenerative diseases, and medications.C5, 6, 8, 9, 11, 12, 14, 15, 28, 29
Chronic sinonasal disease may be treated with nasal steroids, surgery, or both to improve ability to smell.B12, 14, 15
Loss of smell can improve with removal of an offending medication.C10, 12
DisorderDefinition
Taste
AgeusiaComplete taste loss
DysgeusiaDistorted taste perception (triggered by a taste stimulus)
HypogeusiaReduced ability to taste
PhantogeusiaGustatory hallucination (occurs without a stimulus)
Smell
AnosmiaComplete loss of ability to smell
HyposmiaReduced ability to smell
ParosmiaDistorted odor perception (triggered by a stimulus)
PhantosmiaOlfactory hallucination (occurs without a stimulus)

Anatomy and Physiology

Odorants entering the nose dissolve in nasal mucus that is produced, humidified, and warmed by the nasal turbinates and nasal mucosa. Once absorbed through the nasal mucosa, dissolved odorants stimulate olfactory receptors in the neuroepithelium located over the cribriform plate. Smell is transmitted via the olfactory bulb and nerve to various regions of the olfactory cerebral cortex. Precise smelling centers and related pathways continue to be elucidated. Smell disorders can occur at any stage in this process. Olfactory receptors in the nose regenerate throughout a person's life. Additional features of smell include temperature, irritation, and sharpness, which are mediated by ophthalmic and maxillary divisions of the trigeminal nerve.

In the mouth, taste odorants dissolve in saliva before encountering the taste buds on the tongue, soft palate, pharynx, larynx, epiglottis, and first one-third of the esophagus. Gustatory receptors sense the five basic tastes. Taste on the anterior two-thirds of the tongue is innervated by the chorda tympani of the facial nerve. The glossopharyngeal nerve mediates taste from the posterior one-third of the tongue. The greater superficial petrosal nerve serves the palate, and the vagus nerve innervates taste from the pharynx and larynx. The mediation of taste by multiple nerves may explain why gustatory loss is less common than olfactory loss. The trigeminal nerve mediates the temperature, stinging sensation, and degree of sharpness that refine the five basic tastes. Gustatory receptors also regenerate throughout a person's life, approximately every 10 days.

Advancing age contributes to olfactory and gustatory loss. Women generally have better smell and taste than men of the same age. Smoking appears to have a small detrimental impact on smell.2,58

Clinical Assessment

HISTORY

Patients are often unable to distinguish between disorders of smell and taste. Most patients who report taste loss are found to have a loss of smell instead.13 Patients are also rarely accurate in estimating the severity of their olfactory or gustatory loss.13,810 These factors can complicate obtaining a reliable history.

Standardized questionnaires can help assess patients with concerns about taste loss or distortion. A study of a four-item questionnaire (Table 2) reported effectiveness in detecting parosmia, with the first and fourth questions demonstrating the highest sensitivity and specificity.11 Another study of a questionnaire to identify issues in detecting salty, sweet, sour, or bitter taste (Table 3) found that patients who reported no difficulty detecting these tastes rarely had taste dysfunction on further testing (high negative predictive value).2 This questionnaire did not effectively identify patients who had taste disorders (low positive predictive value).2

How often are you bothered by any of the following?AlwaysOftenRarelyNever
1. Food tastes different than it should because of a problem with odors.1234
2. I always have a bad smell in my nose, even if no odor source is present.1234
3. Odors that are pleasant to others are unpleasant to me.1234
4. The biggest problem is not that I do not or only weakly perceive odors, but that they smell different than they should.1234
Total for each column*____________________
Grand total (sum of all four columns)_____
How easily can you detect the following tastes?
1. Saltiness in chips, pretzels, or salted nuts❏ Easily❏ Somewhat❏ Not at all
2. Sourness in vinegar, pickles, or lemons❏ Easily❏ Somewhat❏ Not at all
3. Sweetness in soda, cookies, or ice cream❏ Easily❏ Somewhat❏ Not at all
4. Bitterness in coffee, beer, or tonic water❏ Easily❏ Somewhat❏ Not at all

For olfactory disorders (and for most taste problems), the history should include severity and persistence of symptoms. Patients should be asked about medical history of allergic rhinitis or chronic rhinosinusitis (with or without nasal polyps), as well as symptoms of nasal congestion, obstruction, or rhinorrhea. This history correlates with ongoing symptomatic allergic rhinitis or chronic rhinosinusitis (with or without nasal polyps) as the cause of diminishing olfactory function; this may improve after treatment of these conditions.12 Any history of head or facial trauma may indicate cribriform plate damage. Difficulties with memory or neurologic abnormalities may indicate mild cognitive impairment, Alzheimer disease, Parkinson disease, or parkinsonism. A medication history can identify use of agents implicated in smell and taste disorders (Table 4).26,810,1226

CauseLeading etiologies*
Most common
Sinonasal conditionsUpper respiratory infection (especially viral), allergic rhinitis, chronic rhinosinusitis, nasal polyps
More common
Head traumaDamage to cribriform plate, shearing forces, and intracranial damage; facial trauma
Neurodegenerative disordersParkinson disease, parkinsonism, Alzheimer disease, mild cognitive impairment, multiple sclerosis
Less common
MedicationsChemotherapy, angiotensin-converting enzyme inhibitors, angiotensin receptor blockers, dihydropyridine calcium channel blockers, diuretics, intranasal zinc, antimicrobials (macrolides, terbinafine [Lamisil], fluoroquinolones, protease inhibitors, griseofulvin, penicillins, tetracyclines, nitroimidazoles [metronidazole (Flagyl)]), antiarrhythmics, antithyroid agents, antidepressants, anticonvulsants, lipid-lowering agents
Intoxicants or illicit substancesAlcohol, cocaine
ToxinsAmmonia, hairdressing chemicals, gasoline, formaldehyde, paint solvents, welding agents, benzene, sulfuric acids, cadmium, acrylates, iron, lead, chromium
Chronic medical conditionsRenal or hepatic failure, complicated type 2 diabetes mellitus, cancer, human immunodeficiency virus
Structural or mechanical conditionsIschemic stroke, subarachnoid or intracranial hemorrhage, brain or sinonasal tumor
Nutritional deficienciesMalnutrition, pernicious anemia or vitamin B12 deficiency, deficiencies in vitamins B6 or A, niacin, zinc, or copper
Postsurgical stateNasal surgery (septal or sinus), total laryngectomy, pharyngectomy, tonsillectomy
Post-radiationEspecially to head and neck
Congenital conditionsKallmann syndrome, anosmia
Psychiatric conditionsAnorexia nervosa (not bulimia), major depressive disorder, bipolar disorder, schizophrenia
Endocrine conditionsPregnancy, hypothyroidism, Addison disease, Cushing syndrome
Autoimmune/inflammatory conditionsSjögren syndrome, systemic lupus erythematosus, sarcoidosis, herpes encephalitis

PHYSICAL EXAMINATION

Given the high prevalence of sinonasal disease in olfactory disorders, anterior rhinoscopy should be done to evaluate for nasal polyposis, chronic sinusitis, allergic rhinitis, and other conditions. Significant rhinitis, nasal polyps, or findings indicative of inflammation or infection correlate fairly well with sinonasal pathology affecting smell. Conversely, isolated moderate turbinate hypertrophy and septal deviation are of limited predictive value in determining a cause of smell loss.12

Examination of the oral cavity and oropharynx for salivary deficiency and for evidence of infection, inflammation, or other pathology of the oral mucosa, tongue, teeth, gums, and palate is also important. Neurologic examination should include cranial nerve I (olfactory) by testing smell perception independently in each nostril. Because of their role in taste conduction, cranial nerves VII (facial), IX (glossopharyngeal), and X (vagus) should also be tested in gustatory disorders. Cognitive assessment (including memory testing) and motor examination (including observation for gait disorders, tremor, or bradykinesia) are important in identifying the common neurodegenerative disorders that can cause or contribute to olfactory loss. Any abnormal neurologic finding is significant.

DIAGNOSTIC TESTING

Nasal endoscopy and computed tomography (CT) of the sinuses and nose are highly diagnostic for sinonasal pathology. If the history suggests a sinonasal etiology but anterior rhinoscopy is inconclusive, office-performed nasal endoscopy has been demonstrated to visualize 91% of pathology (40% more than that visualized on anterior rhinoscopy). The remaining etiologies are usually evident on CT.12 If history or examination findings raise concern for intracranial lesions, magnetic resonance imaging of the brain can be useful for further evaluation, with particular scrutiny of the skull base.

Several abbreviated tests are available for taste and smell disorders, but all have limitations (Table 5).5,13 Comprehensive testing at specialized smell and taste centers is time-consuming and expensive.

Office testDescriptionTest statistics
Three-item microencapsulated odor identification test (Quick-Smell Identification Test, Q-SIT)*
  • Standardized odors with five multiple choice options, one is “none/other”

  • Less than 1 minute to administer

  • Tear-off card test (disposable)

  • Validated against University of Pennsylvania Smell Identification Test

  • Using cutoff score of 2 (one abnormal result out of three)

  • For anosmia: negative predictive value, 98%; positive predictive value, 43%

  • For any olfactory problem: negative predictive value, 42%; positive predictive value, 91%; sensitivity, 82%; specificity, 63%

  • Test-retest reliability: 0.87

Three-item odor identification test (Quick Sticks, q-Sticks)
  • Subset of Sniffin' Sticks, using “coffee,” “rose,” and “cloves” odors

  • Less than 1 minute to administer

  • Felt-tip pen (reusable)

  • Validated against Sniffin' Sticks using cutoff score of 0

  • For anosmia: sensitivity, 66%; specificity, 96%

  • For hyposmia: sensitivity, 42%; specificity, 48%

Specific Causes of Smell and Taste Conditions

SINONASAL CONDITIONS

Sinonasal conditions are responsible for 52% to 72% of olfactory disorders, depending on the population studied.3,11,13 Olfactory loss is correlated with increasing frequency of upper respiratory infections.6 The severity of sinonasal disease also correlates with the degree of olfactory loss, increasing throughout the continuum of allergic rhinitis, to chronic rhinosinusitis, to nasal polyps. Decreased olfactory bulb size is found in patients who have chronic rhinosinusitis with nasal polyps, a finding associated with olfactory loss. Smell improves and olfactory bulb size increases in the three months after endoscopic sinus surgery in patients who have nasal polyposis.14,15 Treatment of paranasal sinus disease or polyposis with nasal steroids for eight weeks has been associated with improved smell (subjectively and objectively on smell scores) and improvement in signs of sinonasal disease.27 Oral steroids have not conclusively been shown to help long-term olfactory loss in sinonasal disease, but they can temporarily reverse loss of smell in patients with nasal polyposis or chronic rhinosinusitis. Oral steroids may be helpful in diagnosis or for short-term symptom relief.12,28

HEAD TRAUMA

Head trauma is a well-recognized cause of olfactory loss. Trauma can cause loss of olfactory detection, such as damage to the olfactory nerve from cribriform plate fractures or closed head injury (from nerve disruption or shearing forces), or difficulties in olfactory discrimination caused by closed head injury and cortical trauma. Although some patients have detectable cerebral damage on magnetic resonance imaging or CT in the olfactory bulb, cribriform plate, or olfactory areas of cerebral cortex, damage in other patients may only be evident as abnormal perfusion on single-photon emission CT.29

Twelve weeks of olfactory training has been shown to increase olfactory sensitivity in one-third of patients who had olfactory loss secondary to posttraumatic, postinfectious, or idiopathic causes. This at-home technique involves twice-daily exposure to four odors (phenylethyl alcohol, eucalyptus, citronellal, and eugenol).30

NEURODEGENERATIVE DISEASES

Patients with mild cognitive impairment and Alzheimer disease may subjectively recognize smell and taste deficits as early symptoms. In these conditions, gustatory and olfactory testing indicates greater dysfunction than reported subjectively by patients. The loss of smell and taste in patients with mild cognitive impairment and Alzheimer disease differs from that of age-matched controls, but not between the two conditions. Gustatory loss is reported in all areas tested: sweet, sour, salty, and bitter.9 The loss of taste and smell with mild cognitive impairment and Alzheimer disease is believed to be cortically mediated. Disease severity in Parkinson and Alzheimer disease correlates with the severity of smell and taste loss.8,9

Olfactory and gustatory loss is present in most patients with early Parkinson disease. These symptoms have been suggested to be useful in early diagnosis.8 Patients with Parkinson disease find smell and taste loss most bothersome early in the disease process (one of the top five symptoms).16

Twelve weeks of home olfactory training increased function, especially olfactory discrimination, in one-fifth of patients with Parkinson disease. This occurred independent of duration of disease. The training consisted of smelling four odors (phenylethyl alcohol, eucalyptol, citronellal, and eugenol), each for 10 seconds, twice daily.31

MEDICATIONS

A large number of medications have been implicated in smell and taste loss. Medication effects may represent up to 12% of olfactory dysfunction, and an even larger proportion of gustatory dysfunction.12 There are few conclusive data confirming the role of medications in smell and taste disorders, because most evidence is based on case studies or series. If a patient notes the onset of smell or taste loss after initiating a new medication, it should be discontinued, because medication-induced loss can be reversible.10,12 One exception is chemotherapy, which can cause loss of taste and smell, as well as parosmia and phantosmia. These effects are usually transient and resolve within three months of treatment cessation. This adverse effect is most likely caused by toxicity to olfactory and gustatory receptor cells that have the ability to regenerate. Parosmia, with resulting food aversion, can be avoided by using a nose clip to decrease nasal airflow and odor detection. Some data indicate that increasing seasoning with additional spices may help.10

Tables 4 and 6 list etiologies of olfactory and gustatory dysfunction.26,810,1226

CategoryLeading etiologies
Poor oral hygiene, infection/inflammationOral candidiasis, periodontal disease, gingivitis, oral abscess, viral upper respiratory infection
Oral appliancesDentures, prosthetics (hypothesized to be related to oral inflammation if poor hygiene with appliances)
Postsurgical stateMiddle ear surgery affecting chorda tympani, oral or dental surgery (especially third molar extraction)
RadiationHead and neck irradiation with oral mucositis, xerostomia
Nutritional supplementsMalnutrition, zinc or copper deficiency, vitamin B12 or B3 (niacin) deficiency
MedicationsIntranasal zinc, chlorhexidine (Peridex), chemotherapy, angiotensin-converting enzyme inhibitors, angiotensin receptor blockers, dihydropyridine calcium channel blockers, diuretics, antimicrobials (macrolides, terbinafine [Lamisil], fluoroquinolones, protease inhibitors, griseofulvin, penicillins, tetracyclines, nitroimidazoles [metronidazole (Flagyl)]), antiarrhythmics, antithyroid agents, antidepressants, anticonvulsants, lipid-lowering agents
Head traumaHead or facial trauma
ToxinsPepper gas (oleoresin capsicum), weed killer with trifluralin, ammonia, benzene, sulfuric acids, cadmium, acrylates, iron, lead, chromium
Chronic medical conditionsRenal or hepatic failure, cancer, human immunodeficiency virus, complicated type 2 diabetes mellitus

Prognosis and Patient Education

Improvement in ability to smell occurs in one-third to one-half of patients over time, often over many months or years. Factors that make improvement less likely include more severe loss of smell, longer duration of symptoms, advanced age at onset (especially patients older than 75 years), and smoking. Women may have a better prognosis than men. Some small studies suggest that prognosis relates to etiology, but larger studies have shown that prognosis is related to the severity of the loss.32,33

Indications for Referral

Physicians should refer patients to a smell and taste disorder center or to an otolaryngologist if the patient's quality of life is significantly impaired by a persistent olfactory or gustatory disorder that has no easily treatable cause, such as sinonasal, oral, or dental disease or removal of an implicated medication or toxin (Figure 1).

Data Sources: A PubMed search was conducted combining the key terms smell, taste, gustatory, and olfactory with diagnosis, medications, and etiology. In addition, searches were conducted using the key terms smell and taste in the Agency for Healthcare Research and Quality evidence reports, Bandolier, the Canadian Task Force on Preventive Health Care, the Cochrane Database of Systematic Reviews, the Database of Abstracts of Reviews of Effects, Essential Evidence Plus, the Institute for Clinical Systems Improvement, the National Center for Complementary and Alternative Medicine, the National Guideline Clearinghouse database, and the U.S. Preventive Services Task Force. Search date: May 19, 2011, and November 22, 2013.

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