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Ear canal

The ear canal, also known as the external auditory canal or meatus, is a tubular passage in the outer ear that connects the auricle (pinna) to the tympanic membrane (eardrum), measuring approximately 25 mm in length and 7.5 mm in diameter in adults.^[1] It consists of an outer cartilaginous portion, about one-third of its length, supported by elastic cartilage continuous with the auricle, and an inner bony portion, comprising the remaining two-thirds, formed by the temporal bone.^[2] The canal follows a slightly curved (sigmoid) path, directed slightly upward, backward, and medially, and is lined with thin, stratified squamous epithelium that migrates outward to facilitate self-cleaning.^[1] This structure plays a crucial role in audition by funneling and amplifying sound waves from the external environment toward the tympanic membrane, enhancing sound localization and frequency detection, particularly for frequencies between 2-5 kHz due to the resonance of its dimensions.^[3] Additionally, the ear canal protects the middle and inner ear from foreign particles, water, and microorganisms through the production of cerumen (earwax) by specialized apocrine glands in the cartilaginous region, which has antimicrobial and lubricating properties.^[2] The canal develops embryologically from the first pharyngeal cleft, canalizing by around 16 weeks of gestation, and its unique mammalian configuration—deeper and more protected than in other vertebrates—supports both acoustic efficiency and mechanical defense.^[1] Clinically, the ear canal is susceptible to conditions such as otitis externa (swimmer's ear), cerumen impaction, and congenital atresias, which can impair hearing or cause pain; proper examination requires straightening the canal by pulling the auricle upward and backward in adults.^[2] Its anatomy also influences surgical approaches, such as in tympanoplasty, where preserving the canal's integrity is essential for postoperative auditory function.^[4]

Anatomy

Gross anatomy

The ear canal, also known as the external auditory meatus, is a tubular passageway in the external ear that extends from the concha of the auricle to the tympanic membrane, measuring approximately 25 mm in length and 7.5 mm in diameter in adults.^[1] It serves as the primary conduit for sound waves to reach the tympanic membrane.^[5] Structurally, the ear canal is divided into an outer cartilaginous portion, comprising about one-third of its length and formed by elastic cartilage that provides flexibility and continuity with the auricle, and an inner bony portion, making up the remaining two-thirds and sculpted from the temporal bone for rigid support.^[5] The canal follows a slight S-shaped curvature, narrowing at the isthmus—the junction between the cartilaginous and bony sections—and is oriented inward, slightly upward, and backward from its external opening near the mastoid process.^[6] Its lining is a thin layer of stratified squamous epithelium continuous with that of the tympanic membrane, featuring hair follicles for trapping debris, as well as sebaceous and ceruminous glands concentrated in the cartilaginous part that contribute to cerumen production.^[5] Anatomical variations exist, including sex differences where the canal tends to be longer in males than in females.^[7] Age-related changes are also notable, with the canal being shorter, narrower, and straighter in infants compared to adults.^[8] In terms of spatial relations, the ear canal lies lateral to the tympanic membrane and medial to the auricle, with its anterior wall in close proximity to the temporomandibular joint via the foramen of Huschke and its external opening adjacent to the parotid gland.^[5]

Microscopic anatomy

The epidermis of the external auditory canal consists of stratified squamous epithelium, which is keratinized throughout most of its length to provide a protective barrier against mechanical and microbial insults.^[9] Near the tympanic membrane, this epithelium transitions to a thinner, less keratinized form, ensuring continuity with the external layer of the tympanic membrane while minimizing interference with sound transmission.^[10] A distinctive feature is the migratory pattern of the epithelium, where surface cells move laterally from the tympanic membrane toward the canal's external opening at a rate of approximately 0.05 mm per day, facilitating the self-cleaning process by transporting debris outward.^[11] Beneath the epidermis lies the dermis, a layer of dense irregular connective tissue rich in collagen and elastic fibers, which houses blood vessels, sensory nerves, and adnexal structures such as hair follicles and glands.^[12] Hair follicles are prominent in the outer cartilaginous portion, featuring thicker, coarser hairs that aid in filtering particles, but they diminish and are absent in the inner bony segment.^[9] The subcutaneous layer, comprising loose connective tissue and adipose elements, is well-developed in the cartilaginous outer third, providing cushioning and support for glandular elements, whereas it is absent in the bony inner two-thirds, where the skin adheres directly to the periosteum.^[1] The ear canal contains specialized exocrine glands embedded in the dermis, primarily apocrine ceruminous glands—modified sweat glands that secrete cerumen—and associated sebaceous glands that contribute lipids to the mixture.^[9] Ceruminous glands are coiled tubular structures with a secretory epithelium of cuboidal to columnar cells, and their density is highest in the outer third of the canal, decreasing toward the medial bony portion.^[12] Sensory innervation of the ear canal arises from branches of the auriculotemporal nerve (from the mandibular division of the trigeminal nerve, CN V3) for the anterior and superior regions, the auricular branch of the vagus nerve (CN X) for the inferior and posterior aspects, and contributions from the facial nerve (CN VII) via its nervus intermedius.^[2] Vascular supply derives from branches of the external carotid artery, including the superficial temporal artery anteriorly and the posterior auricular artery posteriorly, forming a rich submucosal plexus that nourishes the tissues.^[2] Lymphatic drainage primarily follows the vascular pathways, directing to preauricular and parotid lymph nodes anteriorly and superiorly, and to retroauricular (mastoid) and superficial cervical nodes posteriorly and inferiorly.^[13]

Development and physiology

Embryonic and postnatal development

The external auditory canal (EAC) originates during embryonic development from the first branchial groove, an ectodermal invagination that forms the primary canal pit by approximately week 4 of gestation, with contributions medially from the tubotympanic recess derived from the first pharyngeal pouch.^[1] By week 6, a solid epithelial core known as the meatal plug forms and extends inward, creating a temporary occlusion that undergoes canalization through apoptosis and vacuolization, establishing a patent lumen by around 18 weeks; failure of this recanalization process results in congenital atresia.^[1]^[14] The cartilaginous portion of the EAC develops from mesenchyme of the second pharyngeal arch, while the bony segment ossifies from tissues associated with the first pharyngeal arch, with ossification typically occurring around the time of birth and continuing postnatally.^[1] Postnatally, the EAC undergoes significant growth, reaching near-adult length and diameter by ages 5 to 7 years, accompanied by increased curvature; during puberty, further maturation includes enhanced hair growth within the canal for added protection.^[1] In the elderly, age-related atrophy leads to narrowing and reduced elasticity of the canal walls, potentially contributing to cerumen impaction and infections.^[1]^[15] Congenital anomalies such as stenosis (partial narrowing) and atresia (complete absence) of the EAC arise primarily from disruptions in the canalization of the meatal plug or abnormal pharyngeal arch development, with an incidence of approximately 1 in 10,000 to 20,000 live births; these conditions are often unilateral and associated with microtia (underdeveloped pinna) or syndromes like Goldenhar syndrome (oculo-auriculo-vertebral spectrum).^[16]^[1]^[16] Evolutionarily, the mammalian EAC represents an adaptation derived from the inward migration of the reptilian tympanic membrane, elongating the canal to enhance sound localization and protection in terrestrial environments.^[1]

Functions in hearing and protection

The ear canal plays a crucial role in auditory signal processing by amplifying sounds through acoustic resonance. Its conical shape and average length of approximately 25 mm in adults create a quarter-wavelength resonator that peaks in the 2-5 kHz frequency range, which corresponds to key speech consonants, providing a gain of 10-15 dB to enhance audibility.^[17] This amplification is essential for clear perception of human voice frequencies, improving signal-to-noise ratios in everyday listening environments.^[18] In sound localization, the open configuration of the ear canal enables the detection of interaural time differences (ITDs), where sounds arriving from one side reach the contralateral ear slightly later due to the head's width, aiding in pinpointing azimuth. Additionally, the ear canal contributes to the head-related transfer function (HRTF), which filters high-frequency cues through interactions with the pinna and canal entrance, providing monaural spectral information for elevation and front-back discrimination.^[19]^[20] The ear canal serves as a protective barrier, with its stratified squamous epithelium and cerumen forming a waterproof seal that traps water, dust, and debris, preventing their ingress to the vulnerable middle ear structures. Cerumen's antimicrobial properties, including lysozyme and lactoferrin, further inhibit microbial growth by maintaining an acidic pH and directly bactericidal effects against common pathogens like Staphylococcus aureus and Pseudomonas aeruginosa.^[21] This dual mechanical and chemical defense reduces infection risk in the external auditory canal.^[22] Self-cleaning mechanisms in the ear canal involve epithelial migration, where surface cells move outward in a conveyor-belt fashion at a rate of 0.05-0.1 mm per day, transporting desquamated skin, cerumen, and entrapped particles toward the auricle for natural expulsion. This process ensures hygiene without manual intervention, originating from the tympanic membrane and radiating laterally.^[23] The ear canal also contributes to temperature regulation, maintaining a stable microenvironment near body temperature (approximately 37°C) that supports optimal sound conduction and protects against thermal stress, with indirect ties to upper airway conditioning via nasopharyngeal connections. Sensory innervation, primarily from the auriculotemporal branch of the trigeminal nerve (V3) and the auricular branch of the vagus nerve (CN X), provides sensation to the canal and contributes to protective reflexes, such as tensor tympani contraction during jaw movements like chewing.^[6] This feedback integrates somatosensory inputs for coordinated responses.^[24]

Cerumen and maintenance

Composition and production of cerumen

Cerumen, commonly known as earwax, exists in two primary types: wet and dry. The wet type is sticky and ranges in color from honey-yellow to brown, while the dry type is brittle and grayish-white. The wet type predominates in populations of European and African descent, whereas the dry type is prevalent in East Asian populations, affecting 80-95% of individuals. This dimorphism is determined by a single nucleotide polymorphism (SNP) rs17822931 (c.538G>A) in the ABCC11 gene on chromosome 16; the G allele (GG or GA genotypes) produces wet cerumen, while the homozygous A allele (AA genotype) results in dry cerumen.^[25] The biochemical composition of cerumen primarily consists of desquamated keratinocytes and glandular secretions, with approximately 60% keratin derived from shed skin cells. The remaining components include lipids (approximately 50% of dry weight), such as saturated and unsaturated long-chain fatty acids, cholesterol (around 7%), and squalene (around 6%), wax esters, and triacylglycerols. Additional elements encompass water, peptides, lysosomes containing enzymes like lysozyme, and immunoglobulins such as secretory IgA.^[26]^[27] Cerumen is produced by the ceruminous glands, which are modified apocrine sweat glands, and sebaceous glands located in the outer third of the external auditory canal. These glands secrete a mixture of lipids and proteins that combine with exfoliated epithelial cells and hair to form cerumen, maintaining an acidic pH ranging from 5.2 to 7.0, which contributes to its protective qualities. Production occurs continuously throughout life, with variations influenced by genetics and environmental factors.^[28]^[29] Genetic and ethnic variations in cerumen type extend beyond appearance to physiological effects; the dry type (AA genotype) is associated with reduced axillary body odor due to impaired transport of odor precursors by the non-functional ABCC11 protein in apocrine glands. This variant has undergone positive natural selection in East Asian populations, potentially linked to adaptation to colder climates, as evidenced by its correlation with higher latitudes.^[30]^[31] In terms of biological significance, cerumen supports ear canal health through antimicrobial, lubricating, and antifungal properties. It contains lysozyme and secretory IgA, which exhibit bactericidal activity against common pathogens like Staphylococcus aureus and Pseudomonas aeruginosa by disrupting microbial cell walls and neutralizing toxins. Additionally, cerumen demonstrates antifungal effects, inhibiting growth of Candida albicans and Aspergillus species through its acidic environment and lipid components that limit fungal adhesion and proliferation. These attributes, combined with its emollient nature, prevent dryness, facilitate epithelial migration, and form a waterproof barrier against external irritants.^[32]^[33]

Self-cleaning mechanisms

The ear canal maintains hygiene through a dynamic epithelial migration process, where stratified squamous epithelial cells originating from the umbo of the tympanic membrane move outward in a continuous sheet, resembling conjunctival epithelial flow. This migration occurs at an average rate of approximately 0.1 mm per day (100 μm/day) across the tympanic membrane and into the external auditory canal, carrying desquamated keratinocytes, cerumen, and debris laterally toward the ear opening.^[34] The process completes a full cycle across the tympanic membrane in roughly 2–3 weeks, with the canal portion extending the overall turnover time to several months depending on canal length.^[35] Synergizing with this migration, jaw movements during chewing and talking induce a peristaltic-like action in the canal's soft tissues, propelling cerumen and accumulated material outward more efficiently.^[36] This mechanical assistance ensures that even in the absence of manual intervention, debris is gradually expelled from the canal. Cerumen plays a central role in this mechanism by forming a sticky matrix that traps environmental dust, bacteria, and dead skin cells shed from the canal walls, with the desquamation rate of keratinocytes closely matching the pace of epithelial migration to prevent buildup.^[37] As the cerumen-laden sheet advances, it maintains canal patency without requiring external cleaning. The cerumen's slightly acidic pH, typically ranging from 5.2 to 7.0, further enhances self-cleaning by creating an antimicrobial environment that inhibits pathogen growth, such as Pseudomonas aeruginosa, complementing the physical expulsion.^[29] Disruptions to these mechanisms can impair hygiene; for instance, individuals with dry cerumen (genetically determined by the ABCC11 allele) experience flaking that may scatter debris if migration slows, while wet cerumen, being more adhesive, increases the risk of impaction under similar conditions.^[38] This self-cleaning system is conserved across mammals, with epithelial migration present in species like dogs and rodents, though humans exhibit enhanced efficiency potentially linked to upright posture facilitating gravity-assisted expulsion.^[39]

Disorders and conditions

Infections and inflammatory conditions

Infections and inflammatory conditions of the ear canal encompass a range of microbial and non-infectious disorders that lead to inflammation, often exacerbated by the canal's narrow, moist structure which traps moisture and debris.^[40] These conditions primarily affect the skin lining the external auditory canal, resulting in symptoms such as pain, itching, and discharge.^[41] Otitis externa, also known as swimmer's ear, is the most common acute infection, typically caused by bacterial pathogens including Pseudomonas aeruginosa and Staphylococcus aureus.^[40] It presents with intense ear pain, tenderness, erythema, edema, and purulent discharge, often worsened by jaw movement or pressure on the tragus.^[42] Risk factors include prolonged exposure to water, such as from swimming or humid environments, as well as local trauma from cotton swabs or aggressive cleaning.^[41] Chronic otitis externa differs from the acute form and may manifest as persistent inflammation due to underlying dermatological issues like eczematous, seborrheic, or psoriatic conditions affecting the canal skin.^[40] Fungal infections, termed otomycosis, are more prevalent in chronic cases, with Aspergillus species accounting for 60–90% of such etiologies, leading to symptoms like itching, scaling, and a sensation of fullness in the ear.^[41] Allergic reactions in the ear canal often arise as contact dermatitis, triggered by allergens such as nickel in earrings or components in hair products that come into direct contact with the skin.^[43] This condition contributes significantly to inflammatory cases, with allergic contact dermatitis identified in 40–58% of patients presenting with otitis externa in clinical studies.^[44] Viral infections can also involve the ear canal, notably herpes zoster oticus, which constitutes Ramsay Hunt syndrome upon reactivation of the varicella-zoster virus in the geniculate ganglion, causing vesicular eruptions in the canal alongside facial nerve palsy in many cases.^[45] Autoimmune disorders like relapsing polychondritis target the cartilaginous framework of the ear canal, resulting in recurrent episodes of painful, erythematous swelling that spares the ear lobe.^[46] Epidemiologically, ear canal infections occur more frequently in humid climates, where moisture promotes bacterial and fungal growth, and are elevated among individuals with diabetes due to impaired local immunity.^[47] In immunocompromised patients, particularly elderly diabetics, acute infections can progress to malignant otitis externa, a necrotizing complication involving skull base invasion by pathogens like Pseudomonas aeruginosa.^[48]

Obstructions, trauma, and other pathologies

Cerumen impaction occurs when earwax accumulates and hardens, obstructing the ear canal. Common causes include the use of cotton swabs, which push wax deeper into the canal, and the presence of hearing aids, which can trap wax and impair natural migration.^[36] Symptoms typically include conductive hearing loss, tinnitus, ear fullness, itching, and pain, though severe complications like vertigo or infection can arise if untreated.^[36] The prevalence of cerumen impaction is approximately 5% in healthy adults and up to 10% in children, with higher rates—exceeding 30%—among older adults in institutional settings.^[49] Foreign bodies in the ear canal are a frequent issue, particularly in children, where small objects like beads, pebbles, or insects commonly lodge due to exploratory play or accidental entry.^[50] Insects may cause additional distress through movement, potentially leading to secondary irritation.^[51] Removal attempts carry risks, including canal lacerations, bleeding, tympanic membrane perforation, and increased patient anxiety, especially if multiple efforts are needed or if the object is deeply embedded.^[52] Trauma to the ear canal can result from mechanical injuries such as lacerations caused by cotton swabs, which may abrade the sensitive skin or perforate the tympanic membrane.^[53] Blast injuries from explosions or sudden pressure changes, like slaps to the ear, often lead to tympanic membrane perforation and canal hemorrhage due to rapid pressure differentials.^[54] Thermal burns, typically from hot liquids or objects contacting the canal, can cause epithelial damage and scarring.^[55] Iatrogenic trauma may occur during otoscopy or instrumentation, resulting in abrasions or bleeding if excessive force is applied.^[56] Neoplasms of the ear canal include benign and malignant types, with exostoses and osteomas being the most common benign lesions. Exostoses often develop from repeated cold water exposure, such as in surfers, leading to multiple bony growths that narrow the canal and cause conductive hearing loss or recurrent infections.^[57] Osteomas are solitary, slow-growing bony tumors, typically asymptomatic unless they obstruct the canal.^[57] Malignant neoplasms, such as squamous cell carcinoma, are rare, accounting for less than 0.2% of head and neck cancers, and are often linked to chronic inflammation or sun exposure, presenting with pain, discharge, or facial nerve involvement.^[58] Cholesteatoma involving the ear canal can be congenital, arising from embryonic epithelial rests, or acquired, resulting from retraction pockets or chronic eustachian tube dysfunction that allows keratin debris to accumulate and erode canal structures.^[59] These lesions may extend into the canal, causing bony erosion, hearing loss, and potential complications like facial nerve paralysis if untreated.^[60] Vascular anomalies in the ear canal, such as hemangiomas, are rare benign tumors composed of proliferating blood vessels, most commonly affecting infants and potentially causing conductive hearing loss, bleeding, or recurrent infections due to their location.^[61] These lesions are typically capillary or cavernous in type and may involute spontaneously, though intervention is required if they obstruct the canal or cause cosmetic concerns.^[62]

Clinical management

Diagnostic approaches

Diagnosis of ear canal conditions begins with a detailed patient history to identify symptoms and risk factors. Common presenting symptoms include ear pain (otalgia), hearing loss, discharge, itching, or fullness in the ear, which may indicate inflammation, infection, or obstruction.^[63] Risk factors such as frequent swimming, diabetes, or prior ear trauma are also elicited, as they predispose to conditions like otitis externa or exostoses.^[64] This initial assessment guides subsequent physical examination and targeted testing.^[65] Otoscopy remains the cornerstone of ear canal evaluation, involving direct visualization of the external auditory canal and tympanic membrane using an otoscope with a speculum. It allows detection of abnormalities such as erythema, edema, debris, cerumen impaction, or foreign bodies, which suggest infection or inflammation.^[66] Pneumatic otoscopy enhances this by assessing tympanic membrane mobility through gentle air insufflation; reduced mobility may indicate underlying middle ear involvement secondary to canal pathology.^[67] Findings like canal narrowing or lesions prompt further investigation. For more precise assessment, microscopic otoscopy employs an operating microscope to provide magnified views (up to 40x) of the ear canal, facilitating detailed evaluation of cerumen, subtle lesions, or granulation tissue. This technique is particularly useful in outpatient settings for safe removal of impacted material or biopsy sampling under direct vision.^[68] Imaging modalities are employed when otoscopy reveals complex pathology. Computed tomography (CT) is preferred for bony abnormalities, such as exostoses or cholesteatoma erosion, offering high-resolution depiction of canal anatomy and extent of involvement.^[69] Magnetic resonance imaging (MRI) excels in evaluating soft tissue tumors or infections extending beyond the canal, providing contrast-enhanced details of inflammation or neoplasms.^[70] Audiometry quantifies hearing impairment associated with ear canal disorders, particularly conductive hearing loss from obstructions or stenosis. Pure-tone audiometry measures thresholds across frequencies, identifying air-bone gaps that localize the deficit to the external or middle ear.^[71] This test complements otoscopic findings by assessing functional impact.^[72] Microbiological cultures from canal swabs are essential for confirming infectious etiologies, especially in refractory otitis externa, where pathogens like Pseudomonas aeruginosa are isolated to guide antibiotic selection.^[73] Biopsy with histopathology is indicated for suspicious lesions or neoplasms, providing definitive diagnosis of malignancies like squamous cell carcinoma through tissue sampling.^[74] Endoscopy, using fiberoptic or rigid scopes, enables visualization of the deep ear canal in cases of stenosis or incomplete views on standard otoscopy. It offers a wide field and illuminated assessment, aiding in the detection of hidden pathologies without general anesthesia.^[75] This approach is valuable for both diagnostic and minor therapeutic interventions.^[76]

Treatment and preventive measures

Treatment of ear canal disorders typically follows diagnostic confirmation to target specific pathologies such as infections, obstructions, or trauma.^[77] For cerumen impaction causing symptoms or obstructing examination, removal methods include irrigation with warm water, suction, or curettage, performed by trained clinicians to avoid complications.^[78] Irrigation involves directing a stream of body-temperature water into the ear canal to flush out wax, while suction uses a low-pressure device to aspirate cerumen, and curettage employs a curette for manual scraping.^[79] These procedures are contraindicated in cases of perforated eardrum to prevent further damage or infection.^[80] The American Academy of Otolaryngology—Head and Neck Surgery (AAO-HNS) recommends against routine cerumen removal in asymptomatic patients whose ears can be adequately examined, emphasizing intervention only when beneficial.^[78] Pharmacological treatments address infections effectively in most cases. For otitis externa, topical antibiotics combined with corticosteroids, such as ciprofloxacin otic drops, are standard to combat bacterial pathogens like Pseudomonas aeruginosa and reduce inflammation, typically administered for 7-10 days.^[81] In otomycosis, topical antifungals like clotrimazole or miconazole are preferred, applied directly to the canal to eradicate fungi such as Aspergillus species, often for 1-3 weeks.^[82] Surgical interventions are reserved for structural issues or neoplasms. Meatoplasty widens a stenotic ear canal by excising conchal cartilage and enlarging the meatus, improving drainage and hearing.^[83] Excision of tumors or osteomas involves transcanal removal to alleviate obstruction, with excellent prognosis if asymptomatic cases are monitored.^[84] Canalplasty reconstructs the canal post-trauma through drilling and grafting to restore patency and function.^[85] Advanced techniques include CO2 laser ablation for exostoses, offering precise removal with minimal thermal damage to surrounding tissue.^[57] For severe malignant otitis externa, hyperbaric oxygen therapy serves as an adjunct to antibiotics, enhancing tissue oxygenation to combat necrosis in refractory cases.^[86] Preventive measures focus on reducing risk factors for common issues. Individuals should avoid inserting Q-tips or similar objects into the ear canal, as this can push cerumen deeper, cause trauma, or introduce bacteria leading to impaction or infection.^[87] Swimmers are advised to use earplugs to block water entry and prevent otitis externa, known as swimmer's ear.^[42] After bathing or swimming, ears should be dried thoroughly by tilting the head and gently toweling the outer ear to minimize moisture retention.^[88]

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More than 90% of cases of otitis externa are due to bacteria, most commonly Pseudomonas aeruginosa and Staphylococcus aureus. Polymicrobial infection is common.
[41]
Swimmer's ear - Symptoms & causes - Mayo Clinic
Apr 15, 2025 · Risk factors · Water in the ear canal. This can be from heavy sweating, ongoing humid weather or water left in the ear after swimming. · Contact ...
[42]
Allergic Contact Dermatitis - StatPearls - NCBI Bookshelf - NIH
Patients should be told to avoid wearing nickel-containing jewelry, use latex-free gloves, avoid hair dyes and fragrances which trigger dermatitis. Patients ...Missing: ear canal
[43]
Skin Prick Test Reactivity in Patients with Chronic Eczematous ... - NIH
Allergic contact dermatitis has been diagnosed in 40-58% and 23.5% of patients suffering from otitis externa in two studies (1, 2). Hilen et al. (3) showed ...
[44]
Ramsay Hunt Syndrome - StatPearls - NCBI Bookshelf - NIH
Ramsay Hunt syndrome, also known as herpes zoster oticus, is a late complication of varicella-zoster virus infection that results in inflammation of the ...Continuing Education Activity · Introduction · Pathophysiology · History and Physical
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Relapsing Polychondritis - StatPearls - NCBI Bookshelf
Relapsing polychondritis (RP) is a rare autoimmune condition which presents as recurrent episodes of cartilaginous inflammation of the auricular, nasal and ...Continuing Education Activity · Introduction · History and Physical · Evaluation
[46]
Otitis Externa, Otitis Media, and Mastoiditis - PMC - PubMed Central
Chronic otitis externa is caused by irritation from drainage through a perforated tympanic membrane. The underlying cause is chronic suppurative otitis media. ...
[47]
Necrotizing (Malignant) Otitis Externa - StatPearls - NCBI Bookshelf
Oct 29, 2023 · Necrotizing (malignant) otitis externa (NOE) is a severe infection that affects the external auditory canal, skull base, and temporal bone.Missing: climates | Show results with:climates
[48]
Earwax Impaction: Symptoms, Predisposing Factors and Perception ...
The prevalence of cerumen impaction varies greatly,[16] approximately 10% of the children, 5% of normal healthy adults, up to 57% of older patients in nursing ...
[49]
Ear Foreign Body Removal - StatPearls - NCBI Bookshelf
Jan 22, 2025 · This activity outlines the anatomy of the external auditory canal, discusses clinical presentations, and describes the management of ear foreign bodies.Missing: histology | Show results with:histology
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Foreign Bodies in the Ear, Nose, and Airway
Insects may also fly into the ear canal, causing potential harm. It has also been noted that children with chronic outer ear infections tend to place things in ...Foreign bodies in the ear · Treatment
[51]
Removal of ear canal foreign bodies in children: What can go wrong ...
Multiple attempts at ECFB removal are associated with increased risk of pain, bleeding, patient anxiety, loss of cooperation, and serious otologic complications ...
[52]
Why Using Cotton Swabs to Clean Ears Can Result in Ear Injuries
Apr 6, 2018 · Rose, using swabs inside the ear may lead to: Inflammation of the ear canal; Decreased hearing (temporary or long-term, depending on the injury) ...Missing: blasts thermal iatrogenic
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Ear Trauma in Orlu, Nigeria: A Five-Year Review - PMC - NIH
Ear trauma is common and mostly affects the tympanic membrane. Sudden increase in canal pressure from blows/slaps was the major mechanism of injury.Missing: burns | Show results with:burns
[54]
[PDF] Middle ear damages - B-ENT
The eardrum and middle ear are often exposed to blunt and penetrating trauma, blasts, thermal or caustic injuries. These injuries may result in tympanic ...
[55]
Ear Foreign Body Removal in Emergency Medicine
Jul 5, 2023 · Pain or bleeding may occur with objects that abrade the ear canal or rupture the tympanic membrane or from the patient's attempts to remove the ...
[56]
External Ear Benign Tumors - Medscape Reference
Jun 13, 2023 · Osteomas are slow growing. These are the most common bony neoplasms of the temporal bone (exostoses are not true neoplasms). The incidence of ...
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Squamous Cell Carcinoma of the External Auditory Canal and ... - NIH
Squamous cell carcinoma of the external ear canal and middle ear are rare malignancies, often presenting in the setting of long standing chronic otitis ...Missing: osteomas | Show results with:osteomas
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Middle Ear Cholesteatoma - StatPearls - NCBI Bookshelf
Aug 9, 2024 · Middle ear cholesteatomas can be classified into 3 major types—congenital, primary-acquired, and secondary-acquired.
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Cholesteatoma: Symptoms, Causes & Treatment - Cleveland Clinic
Cholesteatoma is an abnormal growth in your middle ear behind your eardrum. It can be congenital (present from birth), but typically happens because you have ...
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A Rare Vascular Tumour of the External Auditory Canal - PMC - NIH
Haemangiomas are rare benign vascular tumours. They are relatively common in head and neck and can be classified as either capillary haemangioma, cavernous ...
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Ear Hemangiomas | Children's Hospital of Philadelphia
Hemangiomas are the most common benign tumor of infancy. Hemangiomas can occur anywhere on the body, including on and around the external ear.
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Diagnosis of Ear Pain | AAFP
Mar 1, 2008 · Other symptoms can include hearing loss, tinnitus, vertigo, taste disturbance, and decreased tearing.
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Position Statement: Red Flags-Warning of Ear Disease
Apr 21, 2021 · History of pain, active drainage, or bleeding from an ear. Sudden onset or rapidly progressive hearing loss. Acute, chronic, or recurrent ...<|separator|>
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Ear Examination - StatPearls - NCBI Bookshelf
Oct 31, 2022 · In general, abnormalities of the external and middle ears produce conductive hearing loss, and inner ear abnormalities produce sensorineural ...
[65]
Otoscopy - StatPearls - NCBI Bookshelf - NIH
Jan 20, 2025 · Otoscopy is an essential clinical tool used to evaluate and diagnose conditions and diseases of the external and middle ear.Definition/Introduction · Issues of Concern · Clinical Significance
[66]
[PDF] Primary Care Otolaryngology
Pneumatic otoscopy should be performed to observe the mobility of the tympanic membrane with gentle insufflation of air. Mobility may be lim- ited by scarring, ...
[67]
Otology/Neurotology - 2018 - Otolaryngology–Head and Neck Surgery
Sep 25, 2018 · Methods: The methods used were direct assessment by microscopic otoscopy, microbiological culture, biopsy, histological examination ...
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External auditory canal exostoses | Radiology Reference Article
Oct 5, 2024 · External auditory canal exostoses, also known as surfer's ear, are benign bony overgrowths of the bony external auditory canal brought about by exposure to ...
[69]
Otolaryngologic Disorders - PMC - PubMed Central - NIH
A temporal bone computed tomographic (CT) scan and/or magnetic resonance imaging (MRI) is performed to assess the cochlea and auditory nerves. Children who ...
[70]
Audiometry Screening and Interpretation - AAFP
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Audiogram Interpretation - StatPearls - NCBI Bookshelf - NIH
The audiogram quantifies and visually displays a patient's degree and type of hearing loss (sensorineural, conductive, or mixed).
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Diagnosis and treatment of necrotising otitis externa and diabetic ...
Aug 28, 2018 · A superficial swab of the external ear canal is currently the accepted approach for isolating the offending pathogen in necrotising otitis ...Missing: neoplasms | Show results with:neoplasms<|separator|>
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Squamous cell carcinoma of the external auditory canal
Mar 1, 2023 · In addition to the biopsy-proven squamous cell carcinoma, left ear swab culture yielded Pseudomonas aeruginosa. This case showed the ...
[74]
Does ear endoscopy provide advantages in the outpatient ...
Endoscopy allows the examiner to transfer the source of light into the cavity, despite the small size of the ear canal. When combined with the wide field of ...
[75]
Fiberoptic Video‐Otoscope | Semantic Scholar
INTRODUCTION Video-otoscopy allows enhanced visualization of the external ear canal, the tympanic membrane, and some aspects of the middle ear to a bedside ...<|separator|>
[76]
AAO-HNSF Updated Clinical Practice Guideline: Acute Otitis Externa
Feb 3, 2014 · Treatment for AOE includes analgesics and eardrops, which include antiseptics, antibiotics, and corticosteroids, alone or in combination.
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Clinical Practice Guideline: Earwax (Cerumen Impaction) (Update)
The primary purpose of this guideline is to help clinicians identify patients with cerumen impaction who may benefit from intervention, and to promote evidence ...
[78]
Otitis Externa: A Practical Guide to Treatment and Prevention - AAFP
Mar 1, 2001 · Additionally, the canal is defended by a unique epithelial migration that occurs from the tympanic membrane outward, carrying any debris with it ...
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Clinical Practice Guideline (Update): Earwax (Cerumen Impaction)
The guideline is intended for all clinicians who are likely to diagnose and manage patients with cerumen impaction, and it applies to any setting in which ...
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Acute otitis externa in adults: Treatment - UpToDate
Mar 12, 2025 · Topical otic preparations: General principles · - Antibiotics · - Glucocorticoids · - Antiseptics and acidifying solutions · PAIN MANAGEMENT ...
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Review of Recurrent Otomycosis and Clotrimazole in Its Treatment
Oct 9, 2022 · Topical therapy includes the use of antifungals, of which the most commonly used drugs include clotrimazole or miconazole, often given along ...
[82]
Meatoplasty in Canal wall down Surgery: Our Experience and ... - NIH
Meatoplasty techniques include a combination of transposed skin flaps, removal of the conchal cartilage, removal of the cartilage from the tragus or floor of ...
[83]
External Auditory Osteoma - PMC - NIH
Osteomas of the EAC are considered benign tumors as they are non-invasive; however, they can cause significant symptoms due to mass effect and auditory canal ...
[84]
Canalplasty Periprocedural Care: Pre-Procedure Planning ...
Oct 21, 2022 · Packing will be removed from the canal in approximately 2–3 weeks ... ear canal due to interruption of the natural epithelial migration of EAC ...
[85]
Hyperbaric oxygen therapy in malignant otitis externa: A systematic ...
May 4, 2020 · HBOT may be an effective treatment option for refractory or advanced MOE but its efficacy remains unproven due to lack of strong scientific evidence.
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Are Q Tips Bad for Your Ears - Michigan Medicine
Jan 10, 2017 · Don't stick anything in your ear smaller than your elbow. Dig around with a cotton swab, and you'll put yourself at risk for earwax impaction.
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Swimmer's Ear | Johns Hopkins Medicine
Keep your ears as dry as possible. · Use earplugs when swimming or showering. This prevents constant moisture inside the ear. · Don't scratch or clean your ear ...
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Probiotics for preventing acute otitis media in children - PMC
However, probiotics may not benefit children prone to acute middle ear infection. Taking probiotics did not impact on the number of days of school that children ...