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Otitis externa

Otitis externa, commonly known as swimmer's ear, is an inflammatory condition affecting the external auditory canal, the passageway from the to the , and can be infectious or non-infectious in origin. It most frequently results from bacterial , with and as the primary pathogens, often triggered by moisture trapped in the that disrupts the skin's protective acidic environment and cerumen barrier. The condition affects individuals of all ages but peaks in incidence among children aged 7 to 14 years, with a lifetime of approximately 10% and higher rates during summer months or in humid, tropical climates. Risk factors include frequent exposure from or bathing, especially in contaminated , as well as to the from cotton swabs or other objects, underlying skin disorders like eczema or , and use of devices such as hearing aids. Fungal or viral causes are less common, and chronic forms may arise from persistent irritation or untreated acute episodes lasting over three months. Symptoms typically begin with itching and progress to significant , exacerbated by jaw movement or touching the , along with redness, swelling, a sensation of fullness, , and possible discharge (otorrhea) that may be clear, purulent, or foul-smelling. In severe cases, fever, , or of the pinna may occur, and up to 25% of patients experience disruption in daily activities due to pain. Diagnosis is primarily clinical, relying on patient history and otoscopic examination revealing an erythematous, edematous canal with debris, while culture of discharge is reserved for refractory or complicated cases to identify pathogens. Treatment focuses on pain relief with analgesics like acetaminophen or ibuprofen, thorough cleaning of the canal (aural toilet), and topical antimicrobial drops such as those containing quinolones (e.g., ofloxacin or ciprofloxacin) often combined with corticosteroids to reduce inflammation; systemic antibiotics are indicated only for severe infections or immunocompromised patients. With appropriate intervention, 65-90% of cases resolve within 7-10 days, though ototoxic drops should be avoided if tympanic membrane perforation is suspected. Complications, though uncommon, can include chronic otitis externa, temporary from canal obstruction, or rare but serious extensions such as perichondritis, , or malignant otitis externa—a necrotizing that predominantly affects elderly diabetics and may spread to the base, requiring prolonged intravenous antibiotics and possible surgical . Preventive measures, such as drying the ears after water exposure and avoiding canal manipulation, are emphasized to reduce recurrence.

Signs and symptoms

Acute presentation

Acute otitis externa typically presents with a rapid onset of symptoms, most prominently severe known as otalgia, which is often the most distressing feature and can be exacerbated by manipulation of the external ear or jaw movements such as . This pain arises from irritating the richly innervated of the and may progress over 1-2 days from mild to intense, sometimes disproportionate to visible findings on examination. Accompanying the pain, patients frequently report itching in the as an early symptom, along with a sensation of fullness or pressure that contributes to discomfort. On , the external auditory and auricle exhibit characteristic signs of , including , , and exquisite tenderness, particularly when the tragus is pressed or the pinna is tugged. The swelling can range from mild, with minimal , to severe, leading to near-complete , and is often accompanied by otorrhea—a discharge that may appear clear and serous initially but progresses to purulent or foul-smelling in more advanced cases. Functional impairments are common, with conductive hearing loss resulting from canal obstruction by edema or debris, sometimes accompanied by tinnitus. In moderate to severe presentations, regional symptoms such as preauricular or cervical lymphadenopathy may develop, indicating localized spread of inflammation. Prolonged acute episodes may transition into chronic features, though most cases resolve with prompt treatment.

Chronic features

Chronic otitis externa refers to prolonged or recurrent inflammation of the external auditory canal lasting more than three months or recurring multiple times per year, distinct from acute cases by its enduring nature and skin changes. It is often associated with underlying dermatologic conditions such as eczema, , or . While it may develop from an initial acute presentation with pain that subsides over time, the condition is marked by ongoing discomfort rather than sudden onset symptoms. A primary feature is persistent itching (pruritus) in the , which prompts frequent scratching and exacerbates irritation, creating a cycle of . This chronic pruritus can lead to visible alterations, including and flaking of the canal , as well as lichenification—a thickening and hardening of the due to repeated trauma. and may accompany these changes, contributing to a rough, adherent accumulation within the canal. Recurrent episodes are common, frequently triggered by seasonal factors such as increased during summer months or in tropical climates, which promote moisture retention and microbial in the . Over time, can cause narrowing () of the external auditory , resulting in mild to moderate conductive hearing impairment due to obstruction by edematous or debris. Additionally, the disrupted skin barrier in chronic cases heightens the risk of secondary bacterial or fungal superinfections, particularly in immunocompromised individuals, where pathogens like or species may colonize and perpetuate the cycle. These superinfections can intensify local symptoms without necessarily resolving the underlying chronicity.

Pathophysiology

Anatomy and normal function

The external ear comprises the auricle (pinna), the external auditory canal (EAC), and the of the tympanic . The auricle, formed of covered by skin, collects and funnels sound waves toward the EAC. The EAC is a sigmoid-shaped tube approximately 2.5 cm in length that extends from the of the auricle to the tympanic , with its outer third consisting of and the inner two-thirds formed by . The of the tympanic , a thin, semitransparent , serves as the medial boundary of the EAC and vibrates in response to sound waves to transmit them to the . The lining the EAC is a thin layer of keratinized that contains hair follicles, sebaceous glands, and modified glands known as ceruminous glands. These glands secrete cerumen, a waxy substance also called , which lubricates the canal's , traps debris and dust, and provides antimicrobial protection against and fungi. The external ear maintains a self-cleaning through the outward migration of epithelial cells and debris from the surface of the tympanic membrane along the EAC, forming a conveyor-belt-like process that expels cerumen and prevents accumulation. This migration is enhanced by jaw movements during chewing and speaking, which propel the material laterally toward the auricle. The normal environment of the EAC features an acidic pH ranging from 4.2 to 5.6 and balanced moisture levels, which collectively inhibit pathogen proliferation and support the integrity of the epithelial lining.

Inflammatory mechanisms

Otitis externa begins with a breakdown of the skin barrier in the external auditory canal, often due to maceration from retained moisture or mechanical trauma such as from cotton swabs or aggressive cleaning, which compromises the epithelial integrity and facilitates microbial entry. This disruption alters the canal's acidic pH, promoting an environment conducive to opportunistic pathogens. The subsequent involves the release of pro-inflammatory cytokines, which induce , increased , and in the canal tissues. This cascade also triggers leukocyte infiltration, including neutrophils and macrophages, leading to further tissue swelling and exudative that narrows the canal and exacerbates . Cerumen plays a critical protective role through its lipid content and enzyme, which maintain an barrier; its disruption or removal diminishes these defenses, heightening susceptibility to by reducing the canal's self-cleaning and bacteriostatic properties. Loss of cerumen's acidic mantle further impairs innate immunity, allowing unchecked proliferation of colonizing organisms. In severe cases, the inflammatory process can progress beyond the canal to involve periauricular soft tissues, resulting in characterized by spreading , tenderness, and potential formation if untreated. Chronic inflammation from recurrent episodes leads to of the submucosal layers and epithelial , causing canal , persistent , and long-term auditory complications.

Causes and risk factors

Infectious agents

Otitis externa is predominantly caused by bacterial pathogens, with being the most frequently isolated organism in acute cases, responsible for approximately 20-60% of infections. This gram-negative bacterium thrives in the moist environment of the external auditory canal, often leading to suppurative . Staphylococcus aureus, a gram-positive , ranks as the second most common bacterial agent, implicated in up to 30% of culture-positive cases, and includes methicillin-resistant strains (MRSA) in about 28% of S. aureus isolates from affected ears. Fungal infections, known as , account for roughly 10% of otitis externa cases and typically arise in humid climates or following prolonged use that disrupts the canal's microbial balance. species, particularly A. niger and A. flavus, predominate in 75-90% of fungal etiologies, characterized by their ability to form adherent hyphal mats in the . species, such as C. albicans, are identified in 15-26% of otomycotic cases, often presenting with white, cheesy debris rather than the black-speckled appearance of . Viral causes of otitis externa are uncommon, with herpes zoster virus (varicella-zoster virus reactivation) being a notable example in , where vesicular lesions in the external auditory canal accompany involvement. In chronic otitis externa, infections frequently exhibit a polymicrobial nature, involving mixtures of and fungi in about one-third of cases, complicating due to formation and persistent inflammation. Resistance patterns among pathogens are evolving, with increasing fluoroquinolone resistance observed in P. aeruginosa isolates, reported in up to 25% of recent clinical samples, necessitating culture-guided therapy in refractory cases.

Noninfectious triggers

Noninfectious triggers of otitis externa encompass a range of mechanical, chemical, and environmental factors that disrupt the protective barriers of the external auditory canal, leading to without a primary infectious . These triggers often create conditions favorable for secondary bacterial overgrowth by altering the canal's natural defenses, such as its acidic and cerumen layer. Common among them is excessive water exposure, particularly in the context of "swimmer's ear," where retained moisture macerates the skin, raises the local from its normal acidic range of 4 to 5, and impairs the self-cleaning mechanism of the . increases the risk of acute otitis externa approximately fivefold compared to non-swimmers, with higher incidence in warm, humid environments that prolong moisture retention. Mechanical trauma represents another key noninfectious trigger, often resulting from attempts to clean or manipulate the . The use of cotton swabs, hairpins, or fingernails can abrade the delicate epithelial lining, removing protective cerumen and creating entry points for irritants or opportunistic pathogens. Similarly, prolonged contact with earbuds, hearing aids, or earplugs may cause chronic irritation and microtrauma to , exacerbating vulnerability in susceptible individuals. Chemical and allergic factors, such as , further predispose the to . Exposure to allergens like in earrings, certain hair products, or components of hearing aids can provoke localized reactions, leading to and fissuring of the canal skin. Allergic responses to topical agents, including ear drops, may also contribute to chronic or recurrent episodes in atopic individuals. Underlying dermatologic conditions amplify this risk; for instance, eczema () compromises the skin barrier through chronic itching and scaling, while introduces plaques that hinder normal epithelial migration and cerumen production. Systemic factors, including , heighten overall susceptibility to noninfectious triggers by impairing the skin's innate defenses. Conditions such as diabetes mellitus disrupt local immune responses and glycemic control in the microenvironment, increasing the likelihood of severe from minor insults like moisture or trauma. Other contributors include anatomical variations like narrow ear canals or excessive cerumen impaction, which trap irritants, as well as iatrogenic factors such as radiotherapy or that dry and friable the canal . In immunocompromised states, such as infection, even subtle noninfectious stressors can precipitate exaggerated inflammatory responses.

Microbiome dysbiosis

The normal of the external auditory canal consists of a diverse community of commensal that maintain ecological balance through competitive interactions and formation. Dominant species include Staphylococcus auricularis, (now classified as ), Alloiococcus otitis, and Turicella otitidis, with nearly all healthy ears containing Staphylococcus, Alloiococcus, and . These microbes contribute to by outcompeting potential pathogens; for instance, high abundance of Staphylococcus correlates with reduced levels of Alloiococcus, suggesting antagonistic dynamics that prevent overgrowth. Protective formed by these commensals further stabilize the environment, shielding the canal from invaders while preserving an acidic conducive to health. Dysbiosis in otitis externa arises when this balance is disrupted, leading to reduced microbial diversity and opportunistic pathogen dominance, such as . Common triggers include excessive moisture from or humidity, which macerates the skin and elevates from the normal acidic range of 4 to 5 to alkaline levels, impairing cerumen's properties and favoring bacterial proliferation. Prior antibiotic use can exacerbate this by selectively eliminating commensals, allowing resistant opportunists like to flourish; increases otitis externa risk fivefold compared to non-swimmers due to such moisture-related shifts. Metagenomic analyses confirm these changes, revealing significantly lower (e.g., of 1.21 in affected ears versus 3.49 in healthy ones) and enrichment of taxa like Staphylococcus warneri and in diseased states. Biofilm formation plays a critical role in by enabling pathogen persistence and resistance in otitis externa. , a frequent opportunist, produces biofilms incorporating like Psl, host , and extracellular DNA, which shield from immune responses and antimicrobials; strains with elevated cyclic di-GMP levels form denser biofilms, increasing up to fourfold and prolonging infection. These structures contribute to failure by reducing penetration and fostering . Recent metagenomic studies, including those from 2024, highlight how such biofilms correlate with diminished beneficial phyla (e.g., Bdellovibrionota) and genus-level shifts toward and in affected ears. Persistent is particularly evident in chronic and recurrent otitis externa, where ongoing microbial imbalance sustains and epithelial damage. In chronic cases, reduced diversity and altered functional predictions (e.g., lower abundance of protective taxa like ) impair the canal's self-cleaning mechanisms, promoting recurrent episodes; exposure and initial further entrench this state by favoring biofilm-embedded pathogens. Emerging 2024–2025 metagenomic research underscores these links, showing that dysbiotic profiles predict poor and highlighting potential for microbiome-targeted interventions like to restore diversity, though clinical trials remain preliminary.

Diagnosis

Clinical assessment

The clinical assessment of otitis externa begins with a detailed history taking to identify key features suggestive of the condition. Patients typically report a onset of symptoms, often within 48 hours, including severe otalgia that is exacerbated by manipulation of the tragus or pinna, pruritus, and due to canal obstruction. Inquiry should focus on potential triggers such as excessive water exposure from or , which increases risk fivefold, and recent trauma to the from (Q-tip) use, earplugs, or hearing aids that disrupt the protective cerumen layer. Modifying factors like , immunocompromise, or prior ear surgery should also be elicited to guide further evaluation. Physical examination is essential and centers on otoscopy to visualize the external auditory , revealing characteristic signs of inflammation such as , , and accumulation of debris (often yellow, white, or gray ). The tympanic membrane may appear erythematous or obscured by swelling, but its should be confirmed. Tenderness elicited by the tug test—gently pulling the pinna or pressing the tragus—strongly supports the diagnosis, as pain is often disproportionate to visible findings due to periosteal . Examination of the auricle, surrounding skin, and is performed to rule out extension of . Pain assessment is a critical component, with severity quantified using validated tools such as the Visual Analog Scale (VAS), where patients rate discomfort from 0 (no pain) to 10 (worst imaginable); scores often exceed 7 in moderate to severe cases, necessitating prompt analgesia. In refractory or recurrent cases, particularly in immunocompromised patients, a swab culture of canal exudate is indicated to identify specific pathogens and guide targeted therapy, though it is not routine for initial uncomplicated presentations. Recent advancements as of 2025 include telemedicine otoscopy applications, such as smartphone-attached digital otoscopes (e.g., Ear Penguin prototype), which enable remote of the with 75% diagnostic accuracy for conditions like otitis externa, potentially replacing 59% of in-person visits and improving access in underserved areas. These findings inform subsequent classification systems based on severity and .

Classification systems

Otitis externa is classified into several categories based on duration, extent of involvement, , and severity to guide clinical and . These systems differentiate between acute and forms, as well as localized versus diffuse presentations, often incorporating infectious, inflammatory, or invasive characteristics. Severity is typically graded as mild (minimal , , and with no significant ), moderate (moderate , partial canal , and some otorrhea), or severe (intense , complete canal obstruction by or debris, and marked tenderness), which influences the choice of interventions such as the need for aural wicks or . Acute diffuse otitis externa represents the most common form, characterized by bacterial infection involving the entire external auditory canal and lasting less than 3 months. It typically features widespread , , and otorrhea, primarily caused by pathogens such as or . Acute localized otitis externa, also known as furunculosis, involves an abscess formation from a in a within the cartilaginous portion of the . This type is confined to a discrete area, presenting with focal swelling and tenderness, and does not affect the full canal length. Chronic otitis externa is defined by persistent inflammation exceeding 3 months, often linked to underlying eczematous conditions or fungal overgrowth. It may lead to canal stenosis and is frequently associated with dermatologic disorders like or seborrheic dermatitis, resulting in recurrent itching and scaling. Necrotizing otitis externa, or malignant otitis externa, is a severe invasive variant occurring predominantly in immunocompromised individuals, such as those with , and involves skull base . It extends beyond the canal to surrounding soft tissues and bone, commonly driven by . Eczematous otitis externa encompasses allergic or seborrheic variants, often manifesting as a subtype of chronic disease with moist, erythematous skin changes due to or endogenous eczema. These forms emphasize non-infectious triggers and require differentiation from infectious etiologies.

Differential diagnosis

Otitis externa must be differentiated from other conditions presenting with , discharge, or hearing impairment, as misdiagnosis can lead to inappropriate management. Key alternatives include pathologies, structural abnormalities, musculoskeletal issues, viral infections, and from adjacent structures. Distinguishing features often rely on history, otoscopic , and absence of external inflammation. Otitis media involves inflammation of the , typically presenting with a bulging tympanic membrane, , and systemic symptoms such as fever, unlike the localized external canal and seen in otitis externa. Otorrhea in results from tympanic membrane perforation, but without the tenderness on tragal manipulation characteristic of external involvement. Cholesteatoma appears as a pearly white mass, often in a retraction pocket of the tympanic membrane, causing and chronic foul-smelling discharge due to keratin debris accumulation, but it is generally painless and lacks the acute inflammation of the external canal. This condition erodes surrounding bone over time, distinguishing it from the superficial infection of otitis externa. Temporomandibular joint (TMJ) disorder manifests as ear pain exacerbated by chewing, yawning, or movement, originating from musculoskeletal dysfunction without otorrhea, canal swelling, or auditory canal findings on . Patients may report associated clicking or locking, contrasting with the ear-specific tenderness in otitis externa. , caused by varicella-zoster virus reactivation, features vesicular rash in the or pinna, ipsilateral palsy, and severe otalgia, differing from bacterial otitis externa by the presence of neurological deficits and dermatological lesions rather than purulent discharge alone. , if present, is sensorineural. Referred pain to the ear can arise from dental abscesses, presenting with , facial swelling, and intraoral findings like gingival , or from throat infections such as , with and but no otorrhea or external ear . These extraotic sources lack direct ear , emphasizing the need for comprehensive head and neck .

Treatment

Ear canal cleaning

cleaning, also known as aural , serves as an essential initial intervention in the management of otitis externa by removing obstructing , cerumen, or foreign that hinder the penetration of topical therapies. This procedure is particularly indicated when canal occlusion impairs , as confirmed during clinical assessment, and is recommended to optimize in moderate to severe cases. By clearing the canal, it reduces the bacterial load and eliminates toxin-containing , such as from species, thereby supporting resolution of . The primary techniques for ear canal cleaning involve suction aspiration or use of an aural under microscopic to ensure precision and minimize discomfort, performed by trained clinicians such as otorhinolaryngologists. Gentle irrigation with body-temperature normal saline or may also be employed for lavage, though it requires confirmation of tympanic membrane integrity via otoscopy to avoid complications. Dry mopping with a cotton-tipped applicator can be used for superficial debris removal under direct . is contraindicated in cases of perforated tympanic membrane, as it risks introducing into the . Professional is strongly advised over self-cleaning methods, with patients cautioned against home or use due to the high risk of exacerbating tenderness and causing microtrauma to the delicate canal . For complex obstructions or severe , referral to an otolaryngologist is necessary to safely access and clear the canal. Following cleaning, the ear should be thoroughly dried—using low-heat air if needed—to prevent moisture retention, after which topical agents can be applied directly for better adherence. Potential risks of ear canal cleaning include iatrogenic to the canal , such as abrasions or further , particularly if excessive force is applied during or if visualization is inadequate. These complications underscore the importance of procedural caution and expertise, with follow-up assessment recommended within 48 to 72 hours to evaluate progress.

Pharmacologic therapies

Pharmacologic therapies for otitis externa primarily involve topical agents to target infection, inflammation, and pH imbalance in the ear canal, with systemic options reserved for complicated cases. For uncomplicated bacterial otitis externa, topical antibiotic-steroid combinations are the first-line treatment, as they address both microbial proliferation and associated swelling. Examples include ciprofloxacin-dexamethasone otic suspension, administered as four drops twice daily for seven days, which demonstrates superior clinical cure rates (90%) compared to ofloxacin alone (78%) in pediatric and adult patients. Similarly, polymyxin B-neomycin-hydrocortisone drops, given three to four times daily, effectively treat susceptible isolates like Pseudomonas aeruginosa and Staphylococcus aureus. In cases of otomycosis, a fungal variant often involving or species, topical antifungals are indicated following ear canal cleaning to remove debris. Clotrimazole 1% solution, applied as three to four drops twice daily for one to two weeks, achieves resolution rates of 90% to 100%, outperforming acidifying agents alone in fungal clearance. Other azole antifungals, such as miconazole or drops, serve as alternatives when clotrimazole is unavailable, with treatment duration extended to three weeks if invasive features are present. For severe cases involving , regional , or systemic spread—particularly in immunocompromised patients—oral antibiotics like (500 mg twice daily for seven to ten days) are recommended to ensure adequate tissue penetration. This fluoroquinolone targets P. aeruginosa, the most common pathogen, and is preferred over beta-lactams due to its broad-spectrum activity and lower risk when combined with topical therapy. Recent 2025 guidelines emphasize topical-only regimens for uncomplicated otitis externa to minimize , reserving systemic agents for confirmed extension beyond the . Acidifying agents, such as 2% acetic acid drops (three to five drops three times daily for seven days), complement antibiotics by restoring the 's acidic (around 4-5), inhibiting bacterial and fungal growth without promoting resistance. Pain management is integral, with nonsteroidal anti-inflammatory drugs (NSAIDs) like ibuprofen (400-600 mg every six to eight hours as needed) preferred for their effects, or acetaminophen (500-1000 mg every four to six hours) for milder symptoms or contraindications to NSAIDs. These analgesics reduce otalgia and swelling, often providing relief within 24-48 hours when initiated alongside antimicrobials. In or eczematous variants, where noninfectious predominates, topical steroids alone—such as 0.1% betamethasone cream applied sparingly after wick placement—control itching and without unnecessary antibiotics. This approach, continued for two to four weeks with monitoring, prevents flares in recurrent cases linked to or .

Advanced interventions

In cases of or complicated otitis externa where initial pharmacologic therapies fail to resolve symptoms, advanced non-pharmacologic interventions may be employed to address severe , localized collections, chronic formation, or necrotizing progression. These procedures aim to restore ear canal patency, remove infectious material, and enhance tissue oxygenation, often requiring specialist involvement to minimize risks such as further or iatrogenic . Wick placement is indicated for significant canal edema that impedes the delivery of topical medications. A compressed hydrocellulose or ribbon gauze wick is inserted into the external auditory canal under direct visualization, allowing for sustained absorption of antimicrobial and anti-inflammatory drops. This intervention typically alleviates swelling within 48 to 72 hours, after which the wick may spontaneously extrude or require removal, facilitating continued therapy. For localized furuncles or abscesses complicating otitis externa, provides rapid relief from pressure and pain while enabling direct sampling for if needed. This involves a small incision into the fluctuant under , followed by gentle expression of purulent material and , often performed by an otolaryngologist to avoid damage to surrounding structures. It is particularly effective in furunculosis caused by , reducing the risk of progression to diffuse infection. Surgical is reserved for chronic or fungal otitis externa, especially when or perpetuates inflammation. In chronic cases, meticulous removal of hyperkeratotic debris, polyps, or using microsuction or under microscopic guidance disrupts bacterial adherence and promotes re-epithelialization. For fungal infections, such as those involving species, extensive is essential to excise necrotic tissue, complemented by agents to achieve resolution in refractory presentations. Hyperbaric oxygen therapy serves as an adjunct for necrotizing variants of otitis externa, particularly in immunocompromised patients with persistent hypoxia and tissue necrosis. Administered as daily sessions of 100% oxygen at 2.0 to 2.5 atmospheres absolute for 90 minutes, it enhances polymorphonuclear leukocyte function and antibiotic efficacy by improving oxygenation in ischemic areas, with 2025 protocols recommending its use in advanced cases unresponsive to standard debridement and antimicrobials. Clinical reviews indicate improved outcomes, including reduced hospital stays and lower mortality rates in select cohorts. Referral to an otolaryngologist ( specialist) is warranted for persistent symptoms exceeding one week despite appropriate initial management, or in cases with suspected complications such as , cranial nerve involvement, or failure to respond within 48 to 72 hours. Early ENT consultation ensures timely procedural intervention and imaging if needed, preventing progression to chronicity or .

Prevention

Personal hygiene

Maintaining proper personal hygiene is essential for preventing otitis externa, particularly by minimizing moisture retention and irritation in the external . After or , individuals should gently dry their ears by tilting the head to one side to allow water to drain naturally, followed by patting the with a clean . For more thorough drying, a hairdryer set on the lowest heat and speed can be held at a distance of about 12 inches from the to evaporate residual moisture without causing burns. These steps reduce the humid environment that promotes bacterial or fungal growth. Avoiding irritants is equally critical to preserve the integrity of the ear canal's barrier. Cotton swabs should never be inserted into the , as they can push debris deeper, cause microtrauma, and remove protective cerumen, thereby increasing risk. Similarly, harsh soaps, shampoos, or unclean earbuds should be avoided, as they can disrupt the ear canal's acidic and introduce contaminants; instead, use mild, fragrance-free products for cleaning and regularly disinfect earbuds with wipes. For individuals with eczematous conditions, applying a gentle, to the can help maintain hydration and prevent cracking that predisposes to . Hearing aid users face heightened risk due to potential moisture trapping and bacterial buildup, so regular maintenance is key. Devices should be removed nightly for cleaning with a soft brush and mild soap or manufacturer-recommended disinfectant, ensuring they are fully dry before reinsertion; periodic professional fitting checks can also address any improper seal that exacerbates humidity. Education plays a vital role in prevention, as recognizing early symptoms like mild itching in the ear canal allows for prompt intervention to halt progression. Individuals should monitor for such signs, especially after water exposure, and consult a healthcare provider if itching persists.

Environmental measures

Environmental measures play a crucial role in preventing otitis externa by minimizing water exposure and bacterial proliferation in the through modifications to activities, workplaces, and broader settings. For individuals engaging in , a primary , using protective barriers such as earplugs or swim caps effectively reduces water ingress into the . Custom-fitted swim molds provide additional security for frequent swimmers, while showering before and after helps remove surface contaminants and excess moisture, thereby lowering infection risk. These precautions are particularly recommended during periods of high to maintain a dry environment. In occupational contexts involving prolonged water or humidity exposure, such as or work in moist environments, protective gear is essential to mitigate risks. and military divers, who face extended submersion, benefit from using vented earplugs that allow pressure equalization while preventing water entry, along with thorough after diving to reduce canal maceration and . Similarly, in high-humidity work environments, general measures to minimize exposure, such as regular , help avoid chronic buildup that predisposes the to infection. Climate factors significantly influence otitis externa incidence, with hot and humid conditions elevating risk by promoting a moist auditory environment conducive to proliferation. Regions with high ambient , such as subtropical areas, report higher rates due to increased wetness from sweat and atmospheric moisture. Using or dehumidifiers in indoor spaces can counteract this by reducing overall levels and maintaining drier conditions around the ears. Public health initiatives, including adherence to pool chlorination standards, further aid prevention by curbing bacterial loads in recreational waters. Maintaining free chlorine levels between 1 and 3 parts per million (ppm) in pools effectively inactivates pathogens like , a common culprit in otitis externa, thus protecting swimmers collectively. Inadequate chlorination in public facilities has been linked to outbreaks, underscoring the importance of . For at-risk individuals, such as recurrent sufferers, prophylactic eardrops consisting of a 1:1 mixture of white vinegar (acetic acid) and can be instilled after water exposure to dry the canal and restore acidity, inhibiting microbial growth. This simple intervention, applied as 2-3 drops per , is supported for use post-swimming or showering in susceptible populations but should be avoided if the eardrum is perforated.

Prognosis and complications

General recovery

In uncomplicated cases of otitis externa, symptoms typically resolve within 7 to 10 days with appropriate topical treatment, achieving clinical improvement in 65% to 90% of patients. The risk of recurrence following an acute episode is not precisely quantified in the literature, but it is elevated among individuals who engage in predisposing activities such as frequent , which increases the odds of developing the condition by up to fivefold compared to non-swimmers. Patients should be monitored with follow-up if there is no in or other symptoms within 48 to 72 hours of initiating , to assess for potential or alternative diagnoses. Favorable outcomes are associated with prompt initiation of therapy and consistent adherence to prescribed topical drops, which help prevent progression to chronic inflammation. Long-term sequelae, such as scarring or of the , are uncommon in uncomplicated cases but may arise rarely if the condition becomes due to repeated untreated episodes.

Necrotizing otitis externa

Necrotizing otitis externa, also known as malignant otitis externa, is a severe, invasive that originates in the external auditory canal and progresses to skull base , involving the and surrounding structures. It primarily affects elderly individuals with diabetes mellitus or those who are immunocompromised, such as patients with , malignancy, or undergoing chemotherapy. Characteristic symptoms include severe, deep-seated otalgia that intensifies at night and with head movement, persistent otorrhea, and the presence of at the bony-cartilaginous junction of the , which is considered . Cranial nerve palsies are a hallmark of advanced disease, most commonly involving the (cranial nerve VII) in about 21% of cases, leading to facial weakness, but also affecting lower cranial nerves such as the vagus (X), resulting in hoarseness or . Diagnosis relies on imaging to confirm bone involvement and disease extent; computed tomography (CT) or magnetic resonance imaging (MRI) detects bone erosion and soft tissue inflammation, while gallium-67 scintigraphy assesses inflammatory activity and monitors treatment response. As of 2025, management emphasizes multidisciplinary protocols involving otolaryngologists, infectious disease specialists, and endocrinologists, with initial intravenous antipseudomonal antibiotics such as ceftazidime as the cornerstone of therapy, targeting Pseudomonas aeruginosa, the most common pathogen. Hyperbaric oxygen therapy (HBOT) is increasingly incorporated as an adjunct for refractory cases, showing cure rates up to 95% in small series when combined with antibiotics. Treatment durations have shortened to 6-8 weeks in responsive patients, guided by biomarkers like erythrocyte sedimentation rate and C-reactive protein, alongside serial imaging to avoid overtreatment. Despite advances, mortality remains significant at approximately 18% (range 10-20%) even with treatment, particularly in patients with comorbidities like or . Major complications include , , and irreversible cranial neuropathies, underscoring the need for early intervention.

Epidemiology

Incidence and prevalence

Otitis externa is a common condition worldwide, with an estimated lifetime of 10%. The annual incidence is approximately 1% of the population in temperate climates. This equates to about 8 to 10 cases per 1,000 individuals annually in regions like the , where data from 2003–2007 indicate 8.1 outpatient visits per 1,000 population, totaling around 2.4 million health-care visits each year. Incidence rates are notably higher in tropical and humid environments compared to temperate zones, attributed to elevated and levels that promote bacterial growth. In the , for instance, rates reach 9.1 per 1,000 , reflecting greater in coastal and humid areas. Among specific populations, such as frequent swimmers, the incidence increases up to fivefold, with estimates reaching 3% to 5% in cases linked to repeated exposure. Cases peak during summer months, accounting for up to 44% of annual occurrences between and , coinciding with increased and humidity. The condition imposes a significant economic burden, primarily through outpatient care and prescriptions. In the United States, direct health-care costs for otitis externa exceed $500 million annually, driven by nearly 2.4 million ambulatory visits and substantial clinician time—approximately 600,000 hours per year. Oral s are prescribed in 20% to 40% of cases, contributing to unnecessary use despite topical therapies being the standard. While pediatric cases represent a notable proportion—particularly among children aged 5 to 14, with rates up to 18.6 per 1,000—the majority of visits (53%) occur in adults aged 20 and older.

Demographic patterns

Otitis externa displays notable variations across demographic subgroups, influenced by behavioral, environmental, and health-related factors. Incidence is highest among children aged 7 to 14 years, primarily due to increased and water exposure, which macerates the and promotes . A secondary peak occurs in adults over 50 years, often linked to underlying conditions such as that impair immune responses and healing in the external auditory canal. Sex distribution shows no overall predominance, with visits slightly higher among females (54%) than males (46%), though some studies note a minor male bias related to greater engagement in outdoor and aquatic activities like . Individuals with comorbidities face elevated risks; diabetes mellitus substantially increases susceptibility, particularly for severe or necrotizing forms, with adjusted odds ratios exceeding 10 in affected populations. Similarly, immunosuppression from or heightens vulnerability by compromising local defenses against pathogens like . Socioeconomic factors contribute to disparities, with higher reported cases among low-income groups where limited access to proper and ear care exacerbates risk through retained moisture and from unclean tools. Ethnic differences are not strongly pronounced, but elevated rates appear in subgroups with frequent exposure, such as surfers and athletes, regardless of , due to repetitive canal wetting in humid or coastal environments.

History

Early descriptions

The recognition of otitis externa as a distinct clinical entity emerged in the , building on earlier observations of inflammation. The condition was first described in 1844 by Heinrich Mayer, who reported a case of from a draining containing what he identified as fungal parasites, leading to the initial view of otitis externa as primarily a mycotic . Joseph Toynbee advanced the understanding through his seminal 1860 publication The Diseases of the Ear, where he documented pathological changes in the external auditory canal based on extensive examinations of over 1,000 temporal bones. Toynbee's findings highlighted and suppuration in the externus, often linked to environmental factors like moisture, and he noted higher occurrences among individuals with frequent water exposure, such as swimmers—laying the groundwork for the later term "swimmer's ear." By the 1870s, Adam Politzer further formalized the diagnosis by classifying otitis externa within the spectrum of otological in his clinical textbook, emphasizing its inflammatory nature confined to the external and distinguishing it from diseases. Early reports from autopsies, including those by Toynbee and contemporaries, consistently revealed erythematous swelling, , and epithelial disruption in the , underscoring the role of local irritation and . The bacterial gained traction in the late amid microbiological advances, though fungal causes predominated in descriptions until the ; reports from the 1880s began implicating bacteria like species in suppurative cases.

Modern developments

In the and , the advent of topical preparations revolutionized the treatment of otitis externa, shifting from symptomatic measures to targeted antimicrobial therapy. Neomycin, isolated in 1949, was formulated into otic drops by the early , offering efficacy against gram-positive and commonly implicated in infections. During this period, emerged as a key , with clinical observations underscoring its prevalence in acute and chronic cases, prompting the inclusion of antipseudomonal agents in standard regimens. By the 1980s, advancements focused on severe variants, with necrotizing otitis externa formally classified as "malignant" due to its aggressive spread to the skull base and high mortality rates, primarily driven by in immunocompromised patients. The role of imaging was established, incorporating computed tomography for bony erosion assessment and nuclear scintigraphy (e.g., gallium-67) for detecting involvement and monitoring treatment response, improving diagnostic accuracy and reducing complications. From the 2000s onward, topical fluoroquinolones such as ofloxacin and ciprofloxacin gained preference for their broad-spectrum coverage, reduced ototoxicity compared to aminoglycosides, and suitability for use with tympanic membrane perforations, leading to higher cure rates in uncomplicated cases. Microbiome research has emerged, employing 16S rRNA sequencing to characterize ear canal dysbiosis, identifying shifts in bacterial communities (e.g., overgrowth of Pseudomonas and Staphylococcus) that contribute to chronicity and recurrence. The American Academy of Otolaryngology-Head and Neck Surgery (AAO-HNS) guidelines, updated in 2014, emphasize de-escalation strategies, recommending initial topical antimicrobials with corticosteroids while reserving systemic antibiotics for non-responders to minimize resistance risks. In recent years, surveillance of has intensified, revealing rising fluoroquinolone resistance in isolates from otitis externa, particularly in regions with high topical antibiotic use, necessitating culture-guided therapy. Preliminary research, drawing from insights, explores strains like to restore eubiosis and prevent recurrent infections, though clinical trials remain limited and primarily focused on related otologic conditions.

Other animals

Common presentations

Otitis externa is most commonly observed in among non-human animals, where it manifests as a frequent inflammatory condition of the external . Typical presentations include head shaking, an offensive odor from the ears, redness and swelling of , excessive or rubbing, increased aural that may be black, yellowish, or waxy, and scaly or crusty debris within the canal; the affected ear is often painful or itchy upon manipulation. Breeds with floppy or pendulous ears, such as cocker spaniels, English springer spaniels, and , are particularly prone due to poor ventilation and moisture retention in the , which promotes bacterial or overgrowth. In , otitis externa is less prevalent than in and often presents unilaterally with fungal involvement, particularly species as a secondary . Clinical signs typically include moderate pruritus leading to head shaking or pawing at the ears, a malodorous ceruminous or flaky discharge, generalized of the canal, and occasional pain or excessive grooming around the affected ear; concurrent skin conditions like chin acne or alopecia may occur in chronic cases. Unlike bacterial dominance in , yeast overgrowth in frequently stems from underlying or immune factors. Among other species, otitis externa in is commonly triggered by bites, such as from flies or midges, leading to allergic reactions like sweet itch. Presentations involve intense itching causing head shaking or rubbing against objects, redness and swelling of the pinna and canal, serous or purulent , scaly skin, and drooping of the affected ; affected horses may show behavioral changes like restlessness due to discomfort. In exotic pets like , the condition often arises from parasitic infestations such as Psoroptes cuniculi mites and features head tilting or shaking, vigorous ear scratching, pinnal changes including redness, warmth, swelling, crusty , or bleeding, and thick creamy from the canal. Across species, core symptoms of otitis externa encompass and of the , variable discharge (from dry scales to exudative ), and or that prompts avoidance behaviors; these often develop secondary to primary factors like allergies, ectoparasites, or conformational issues that impair ear . In animals, the condition tends to become more chronic than in humans owing to instinctive grooming behaviors—such as vigorous scratching or head shaking—that traumatize the canal and hinder resolution, compounded by anatomical features like the L-shaped . Veterinary management may involve species-specific adaptations, such as gentle cleaning to avoid exacerbating in rabbits.

Veterinary management

Diagnosis of otitis externa in veterinary patients, particularly and , begins with a comprehensive history and to identify predisposing factors such as allergies or conformational issues. Otoscopy, often performed under for thorough visualization, allows assessment of canal , discharge type, and tympanic membrane integrity, which is crucial to avoid ototoxic complications. Cytology of ear canal swabs, stained and examined microscopically, quantifies pathogens like yeast (typically >5-10 organisms per high-power field indicating overgrowth) or bacterial morphotypes (cocci or rods), guiding targeted therapy. and sensitivity testing is recommended for recurrent or resistant cases to identify specific antimicrobial susceptibilities. Treatment prioritizes topical therapies for their superior penetration into inflamed canals compared to systemic options. Initial ear cleaning with ceruminolytic agents, such as those containing , , , or , removes debris, , and to enhance subsequent medication efficacy. Topical antimicrobials, including fluoroquinolones or gentamicin for and azoles for , are applied directly, but ototoxicity risks necessitate confirming an intact tympanic , especially in where aminoglycosides like gentamicin are contraindicated if ruptured. Anti-inflammatory corticosteroids are often combined in formulations to reduce swelling and pruritus. For deep or suppurative infections extending to the , systemic antibiotics (e.g., cephalexin or ) are indicated based on cytology or culture results, typically for 3-6 weeks alongside topical care. As of 2025, emerging microbiome-targeted interventions offer promise for managing chronic canine otitis externa, where contributes to recurrence. Otic microbiome transplantation, involving the introduction of healthy donor via topical application, has shown efficacy in case reports by restoring ecological balance and reducing dominance. Probiotic-based ear cleaners, utilizing strains like to inhibit opportunistic pathogens such as or , are gaining traction in ongoing trials for long-term control in allergy-prone dogs. Prevention focuses on addressing primary causes and maintaining to mitigate recurrence rates, which can exceed 50% without intervention. Routine ear cleaning with pH-balanced, non-irritating solutions every 1-2 weeks is advised for breeds with pendulous ears or of infections, preventing debris accumulation. management, through hypoallergenic diets, environmental allergen avoidance, or , is critical as underlies up to 50% of cases in predisposed dogs. Prognosis for otitis externa is favorable, with resolution in 80-90% of acute cases when underlying factors like allergies or conformation are managed early. or untreated infections may lead to complications such as aural hematomas, resulting from trauma-induced blood accumulation in the pinna due to head shaking, requiring surgical drainage in severe instances.

References

  1. [1]
    Otitis Externa - StatPearls - NCBI Bookshelf - NIH
    Jul 31, 2023 · Otitis externa (OE) is an inflammation, that can be either infectious or non-infectious, of the external auditory canal.Continuing Education Activity · Etiology · Treatment / Management · Complications
  2. [2]
    Swimmer's ear : MedlinePlus Medical Encyclopedia
    ### Summary of Swimmer's Ear (Otitis Externa)
  3. [3]
    Swimmer's ear - Symptoms & causes - Mayo Clinic
    Apr 15, 2025 · Swimmer's ear is an infection that's usually caused by bacteria. It's less common for a fungus or virus to cause swimmer's ear.Overview · Symptoms · When to see a doctor · Causes
  4. [4]
    Otitis Externa Clinical Presentation - Medscape Reference
    Mar 5, 2024 · Otalgia, ranging from mild to severe, typically progressing over 1-2 days · Hearing loss · Ear fullness or pressure · Tinnitus · Fever (occasionally).
  5. [5]
    AAO-HNSF Updated Clinical Practice Guideline: Acute Otitis Externa
    Feb 3, 2014 · Common symptoms of AOE are inflammation, itching, a feeling of fullness with or without hearing loss, and pain when tugging on the earlobe ...
  6. [6]
    External Otitis (Acute) - Ear, Nose, and Throat Disorders
    Symptoms include pain, discharge, and hearing loss if the ear canal has swollen shut; manipulation of the auricle causes pain. Diagnosis is based on history and ...Missing: presentation | Show results with:presentation
  7. [7]
    Dermatitis of the Ear Canal (Chronic Otitis Externa) - Merck Manuals
    Dermatitis of the ear canal is characterized by pruritis, scaling, flaking, and erythema of the skin of the external auditory meatus and ear canal.Missing: features | Show results with:features
  8. [8]
    External Ear Inflammatory Diseases - Medscape Reference
    Jun 3, 2024 · Chronic scratching often results in thickening (lichenification) of the skin and hyperpigmentation. Atopic dermatitis can increase the risk ...
  9. [9]
    Otitis Externa: A Practical Guide to Treatment and Prevention - AAFP
    Mar 1, 2001 · The two most characteristic presenting symptoms of otitis externa are otalgia (ear discomfort) and otorrhea (discharge in or coming from the ...
  10. [10]
    Anatomy, Head and Neck, Ear - StatPearls - NCBI Bookshelf
    It is comprised of the auricle (pinna) and external auditory canal, including the lateral surface of the tympanic membrane. Together with the tympanic membrane ...Introduction · Structure and Function · Embryology · Nerves
  11. [11]
    External Auditory Canal: Computed Tomography Analysis and ... - NIH
    Anatomically, the EAC is approximately 2.5 cm in length. Its outer third is cartilaginous and directed upward and backward, while its medial two thirds are ...
  12. [12]
    Histology, Ear - StatPearls - NCBI Bookshelf - NIH
    The external ear includes the auricle (pinna) and the external ear canal; both have a lining keratinized stratified squamous epithelium.[1] The outer ear ...
  13. [13]
    Insights into cerumen and application in diagnostics - PubMed Central
    Among its main functions is to moisten, clean, lubricate, and protect the skin of the human ear canal, in addition to acting as an antibacterial maintaining the ...
  14. [14]
    https://app1.unmc.edu/medicine/heywood/otology/unit1-normal-anatomy.cfm/
  15. [15]
    Ear care: Knowledge, behavior, and attitudes among healthcare ...
    Jun 28, 2024 · The "conveyor belt" process of epithelial migration in a healthy external canal is self-cleaning, with the help of jaw movement [3]. This ...
  16. [16]
    To Determine the PH of External Auditory Canal in Otitis Externa - NIH
    Mar 2, 2023 · The normal PH of the external auditory canal skin is acidic ranges from 4.2 to 5.6 [1]. During otitis externa, the PH of the canal changed from ...
  17. [17]
    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. ...Otitis Externa · Otitis Media · Mastoiditis
  18. [18]
    Antibacterial and antifungal properties of human cerumen - PubMed
    Conclusions: Cerumen was demonstrated to have potential antimicrobial effects on strains of Staphylococcus aureus, Pseudomonas aeruginosa and Candida albicans.Missing: protective | Show results with:protective
  19. [19]
    Microbiome of Acute Otitis Externa - MDPI
    Most (98%) cases of acute otitis externa in North America are bacterial [2]. The most common pathogens are Pseudomonas aeruginosa (20–60% prevalence) and ...
  20. [20]
    Acute Otitis Externa: An Update - AAFP
    Dec 1, 2012 · In North America, 98 percent of cases of acute otitis externa are caused by bacteria. ... The two most common isolates are Pseudomonas aeruginosa ...Abstract · Etiology · Diagnosis · Treatment
  21. [21]
    Methicillin‐resistant Staphylococcus aureus in acute otitis externa
    Dec 1, 2018 · Fifty-three (30.6%) of cultures grew S. aureus (SA). Of SA infections, 15 (28.3%) were identified as MRSA. MRSA patients were typically older ...
  22. [22]
    Otitis Externa: Review and Clinical Update - AAFP
    Nov 1, 2006 · Acute disease commonly results from bacterial (90 percent of cases) or fungal (10 percent of cases) overgrowth in an ear canal subjected to ...
  23. [23]
    Otomycosis: a systematic review and meta-analysis of prevalence ...
    Apr 17, 2025 · Aspergillus (75.8%, 95% CI: 70.3–80.6%) and Candida (15.3%, 95% CI: 8.7– 25.6%) were the most common etiologies. The most frequent Aspergillus ...
  24. [24]
    DELETE - Herpes Zoster Oticus: Overview, Pathophysiology ...
    Jul 9, 2025 · Reactivation of latent VZV can result in localized vesicular rash, known as herpes zoster or shingles. Reactivation of VZV along the ...Overview · Clinical Manifestations · Treatment Of Herpes Zoster...
  25. [25]
    Genomic and phenotypic characterisation of Pseudomonas ...
    Resistance to fluoroquinolones was detected in 25% of isolates, and multidrug resistance detected in 1.6%, though this did not always correlate with the ...
  26. [26]
    Estimated Burden of Acute Otitis Externa --- United States, 2003--2007
    May 20, 2011 · AOE was diagnosed in an estimated 2,067,335 ambulatory-care clinic visits and 377,440 ED visits (Table) during 2007, for a total of 2,444,775 ( ...
  27. [27]
    Microbiome of the Healthy External Auditory Canal
    The most common bacteria in the microbiome of the healthy EAC were Staphylococcus auricularis, Propionibacterium acnes, Alloiococcus otitis, and Turicella ...
  28. [28]
    Microbiome of Acute Otitis Externa - PMC - NIH
    Nov 29, 2022 · We characterized the microbiome of the normal ear canal and ear canal with otitis externa.
  29. [29]
    Changes functional prediction of ear canal flora in chronic bacterial ...
    Oct 23, 2024 · Dysbiosis of the ear canal flora may be an important cause of chronic bacterial otitis externa. Keywords: chronic otitis externa, microbiome, ...
  30. [30]
    Direct Evaluation of Pseudomonas aeruginosa Biofilm Mediators in ...
    Biofilms contribute to Pseudomonas aeruginosa persistence in a variety of diseases, including cystic fibrosis, burn wounds, and chronic suppurative otitis ...
  31. [31]
    Digital otoscopy in remote consultations - PMC - PubMed Central - NIH
    Aug 24, 2024 · Digital otoscopy (DO) videos for remote consultations were studied in a simulated setting. DO improved diagnostics and treatment planning and could be used to ...
  32. [32]
    https://www.uptodate.com/contents/acute-otitis-externa-in-adults-pathogenesis-clinical-features-and-diagnosis
  33. [33]
    Middle Ear Cholesteatoma - StatPearls - NCBI Bookshelf
    Aug 9, 2024 · Cholesteatomas are benign but expansive aggregations of keratinized squamous debris within the middle ear, which can damage surrounding structures.Introduction · Etiology · Treatment / Management · Differential Diagnosis
  34. [34]
    Otalgia - StatPearls - NCBI Bookshelf
    Feb 29, 2024 · Referred otalgia may result from extraotic conditions such as dental infections, temporomandibular joint disorders, pharyngitis, or cervical ...
  35. [35]
    [PDF] Clinical Practice Guideline: Acute Otitis Externa
    Lastly, the optimal methods for cleaning the ear canal (aural toilet) and drug delivery are defined. The primary outcome considered in this guideline is clini-.
  36. [36]
    Otitis Externa: Investigation and Evidence-Based Treatment - NIH
    The treatment of acute otitis media consists of analgesia, cleansing of the external auditory canal, and the application of antiseptic and antimicrobial agents.Otitis Externa · Figure 1 · Cme Credit For This Unit Can...
  37. [37]
    Ear Irrigation - StatPearls - NCBI Bookshelf - NIH
    Sep 26, 2022 · The modified sweat produced by the ceruminous glands has bacteriocidal and fungicidal properties, functioning to lubricate and clean the EAC.Missing: antimicrobial | Show results with:antimicrobial
  38. [38]
    Topical Ciprofloxacin/Dexamethasone Otic Suspension Is Superior ...
    Ciprofloxacin/dexamethasone is superior to ofloxacin for clinical cure (90% vs 78%) and microbiologic success (92% vs 81.8%) at the test-of-cure visit.Patients And Medication · Results · Conclusions<|separator|>
  39. [39]
    What is the best treatment for fungal external otitis (otitis externa)?
    Azole antifungals (clotrimazole, ketoconazole, fluconazole, and miconazole) cured 90% to 100% of otomycosis. Cresylate otic and acetic acid had resolution rates ...
  40. [40]
    Otomycosis - - Life Worldwide
    Treatment should continue for 1-3 weeks. Oral antifungal therapy is only required if patients fail topical therapy or have invasive external otitis.
  41. [41]
    Evaluation of the Efficacy and Tolerability of Oral Ciprofloxacin used ...
    Ciprofloxacin, is a drug of choice for treating severe otitis externa. Due to its better absorption, wide distribution, and broad spectrum of activity against ...
  42. [42]
    Otitis Externa Medication: Antibiotics, Otic ... - Medscape Reference
    Mar 5, 2024 · The corticosteroid ingredient decreases inflammation and can help to ease the pain. These eardrops treat bacterial infection and reduce canal ...
  43. [43]
    [PDF] Queensland Community Pharmacy Acute Otitis Externa
    Jul 1, 2025 · Otitis Externa; 2024 [cited 2025 April 2]. At ... Therapeutic Guidelines: Pain and analgesia (Pharmacological management of acute pain).
  44. [44]
    Otitis Externa Treatment & Management - Medscape Reference
    Mar 5, 2024 · Antibiotic eardrops, with or without a corticosteroid (given to decrease inflammation), are the mainstay of therapy. Topical acidifying and ...
  45. [45]
    Acute Otitis Externa: Rapid Evidence Review - AAFP
    This article provides a brief update and summary of the best available patient-oriented evidence for treating acute otitis externa.Abstract · Diagnosis · Treatment · Prevention of Acute Otitis...Missing: fluoroquinolone | Show results with:fluoroquinolone
  46. [46]
    Topical treatment of eczematous external otitis involving the ear canal
    Jan 7, 2022 · Topical treatment of eczematous external otitis ... Treatment is based on the use of topical steroids, moisturisers and occasionally antibiotics.
  47. [47]
    External Otitis (Acute) - Ear, Nose, and Throat Disorders
    A furuncle, if obviously pointing, should be incised and drained. However, if the patient is seen at an early stage, incision is of little value. Topical ...
  48. [48]
    Treatment of otitis externa in children - PubMed
    Surgery is mainly used to allow cleansing and aeration and/or removal of the scarred tissue. Patients with acute localised otitis externa (furunculosis) are ...Missing: incision furuncles<|separator|>
  49. [49]
    Antifungal Therapy of Aspergillus Invasive Otitis Externa
    The treatment of Aspergillus sp. IOE classically includes extensive surgical debridement and intensive long-term antifungal therapy including amphotericin B and ...
  50. [50]
    Is biofilm the cause of chronic otitis externa? - PubMed
    CEP is a simple and effective method for the treatment of chronic external otitis. The removal of the bacterial biofilm has a high correlation with a ...Missing: surgical | Show results with:surgical
  51. [51]
    Advancements in the Treatment of Necrotizing Otitis Externa ... - NIH
    Sep 10, 2025 · Hyperbaric oxygen therapy can improve oxygenation in hypoxic tissues, enhancing immune mechanisms dependent on oxygen. It also has ...
  52. [52]
    Advancements in the Treatment of Necrotizing Otitis Externa with ...
    Results: The results indicate that HBOT shows promise in the treatment of NOE, with several studies reporting complete resolution of infection ...
  53. [53]
    Necrotizing (Malignant) External Otitis - AAFP
    Jul 15, 2003 · Hyperbaric oxygen, an adjunct to antibiotic therapy, is believed to increase the ability of polymorphonuclear cells to fend off pathogenic ...Abstract · Pathogenesis and Clinical... · Diagnosis · Prevention
  54. [54]
    Otitis Externa - Prescribing, Policies and Pathways
    Suspicion of necrotising otitis externa- emergency referral for admission: Otalgia and headache more severe than clinical signs would suggest; Refractory ...Missing: criteria | Show results with:criteria<|control11|><|separator|>
  55. [55]
    Swimmer's Ear (Otitis Externa): Symptoms & Care - Cleveland Clinic
    Swimmer's ear is a bacterial or fungal infection that starts in your ear canal. Swimmer's ear symptoms include redness, swelling and itchiness in the outer ear.
  56. [56]
    Preventing Swimmer's Ear | Healthy Swimming - CDC
    May 28, 2025 · Prevention steps and strategies. Keep ears as dry as possible. Use a bathing cap, ear plugs, or custom-fitted swim molds when swimming.Missing: personal | Show results with:personal
  57. [57]
    Outer ear infection (otitis externa) - NHS inform
    May 2, 2024 · Otitis externa is an infection that causes inflammation (redness and swelling) of the ear canal, which is the tube between the outer ear and the eardrum.Missing: lichenification | Show results with:lichenification
  58. [58]
    Otitis externa - PMC - NIH
    Otitis externa may be associated with eczema of the ear canal, and is more common in swimmers, in humid environments, in people with narrow ear canals, in ...
  59. [59]
    How Cleaning Hearing Aids Prevents Infection - Aiken ENT & Allergy
    Dec 27, 2023 · Wash and dry your hands before removing them, and disinfect the surfaces with a non-alcohol-based cleaner. Keep them dry: Regularly remove them ...
  60. [60]
    Otitis externa - DermNet
    Mild symptoms include pruritus and aural fullness (a feeling of fullness in the ear). Severe symptoms include intense pain, lymphadenopathy (swollen lymph nodes) ...Otitis Externa · What Are The Clinical... · Specific Measures
  61. [61]
    Otitis externa in military divers: more frequent and less harmful than ...
    This study suggests that OE is more frequent among military divers than earlier reported, most likely caused by prolonged water exposure.Missing: humid | Show results with:humid
  62. [62]
    Swimmer's Ear (Otitis Externa) - Divers Alert Network
    Warm and humid environments and excessive cleaning of the ear canal can predispose a person to otitis externa.Symptoms · Management & First Aid · PreventionMissing: measures | Show results with:measures
  63. [63]
    The association between acute otitis externa-related emergency ...
    Low environmental humidity might translate to lower humidity in the ear canal, reducing maceration of the ear canal skin, and thereby the growth of ...
  64. [64]
    Microbes in Pool Filter Backwash as Evidence of the Need for ... - CDC
    May 17, 2013 · Pools: proper chlorine level (1–3 mg/L or parts per million) and pH (7.2–7.8) maximize pathogen inactivation. Most superstores, hardware stores, ...
  65. [65]
    [PDF] New Free Chlorine Standards for Indoor Pools and water Parks
    Other illnesses commonly occurring in poorly maintained swimming pools include otitis externa, commonly called swimmers ear, skin rashes and respiratory ...
  66. [66]
    Swimmer's Ear (Otitis Externa) - Harvard Health
    Jun 23, 2025 · Do not use cotton swabs to clean your ears because they can cause trauma to ear canals, making them more susceptible to infection. In ...Swimmer's Ear (otitis... · Preventing Swimmer's Ear · Treating Swimmer's Ear<|separator|>
  67. [67]
    Home Remedies: Suffering from swimmer's ear
    May 19, 2017 · A mixture of 1 part white vinegar to 1 part rubbing alcohol may help promote drying and prevent the growth of bacteria and fungi that can cause ...Missing: personal | Show results with:personal
  68. [68]
    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.
  69. [69]
    Mortality of malignant otitis externa: A prevalence meta-analysis
    Jun 9, 2025 · This review highlights a significant global mortality rate of 18% in patients with MOE, with comorbidities like diabetes and hypertension ...Missing: necrotizing | Show results with:necrotizing<|control11|><|separator|>
  70. [70]
    Otitis externa - PMC - PubMed Central - NIH
    Incidence/ Prevalence ... Otitis externa is common worldwide. The exact incidence is unknown, but 10% of people are thought to have been affected at some time.
  71. [71]
    Otitis Externa: Practice Essentials, Background, Anatomy
    Mar 5, 2024 · Otitis externa (OE) is an inflammation or infection of the external auditory canal (EAC), the auricle, or both.Missing: lichenification | Show results with:lichenification
  72. [72]
    [PDF] May 23–29, 2011 Estimated Burden of Acute Otitis Externa - CDC
    May 20, 2011 · Factors contributing to these reductions include declines in the prevalence of cardiovascular risk factors such as uncontrolled hypertension ...
  73. [73]
    Methicillin-resistant Staphylococcus aureus in acute otitis externa
    Of patients with MSSA, 36% were male (Table 2), whereas there was a slight male predominance (54%) among MRSA AOE cases. Table 2. Demographics presentation ...
  74. [74]
    Malignant Otitis Externa is Associated with Diabetes - PubMed
    The adjusted odds ratio of prior diabetes for cases versus controls was 10.07 (95% CI, 8.15~12.44) after adjusting for patient demographics and medical co- ...Missing: relative | Show results with:relative
  75. [75]
    I. Mycologic Flora of the Ear - JAMA Network
    OTOMYCOSIS was first recognized in 1844 by Mayer, who, according to Wolf,1 reported the presence of a "mycotic parasite in the pus of a draining ear.
  76. [76]
    [PDF] The Diseases of the Ear - Semantic Scholar
    The work of Mr. Toynbee comprises, within a comparatively small compass, the most valuable practical treatise on the diseases of the ear.
  77. [77]
    Adam Politzer (1835-1920): The Founder of Clinical Otology | Cureus
    Aug 30, 2024 · Adam Politzer was a Hungarian surgeon and medical scientist, credited with describing the cochlear nucleus and otitis media, ...
  78. [78]
    Microbiological Profile and Antibiotic Sensitivity of 100 Cases ... - NIH
    Since its description by Mayer in 1844 till World War II, otitis externa was considered to be of fungal origin. Due to high percentage of cases during World ...
  79. [79]
    Ototopical Antibiotics - Medscape Reference
    Dec 10, 2021 · The first case of cutaneous sensitization to neomycin was reported to have occurred in the external auditory canal as a consequence of treatment ...
  80. [80]
    Necrotising Otitis Externa: A Review of Imaging Modalities - PMC
    Dec 25, 2021 · This review aims to highlight the strengths and weaknesses of various imaging techniques used in the diagnosis and management of NOE over the years.
  81. [81]
    Topical Fluoroquinolones for Eye and Ear - AAFP
    Oct 15, 2000 · Ofloxacin otic solution is approved for the treatment of otitis externa and otitis media with perforated or ventilated tympanic membrane.Missing: preference | Show results with:preference
  82. [82]
    The incidence and epidemiology of necrotising otitis externa in ... - NIH
    Aug 1, 2025 · The national incidence of necrotising otitis externa has demonstrated a sustained increase 2002-2024. The 30 per cent incidence drop during the ...
  83. [83]
    Translating Recent Microbiome Insights in Otitis Media into Probiotic ...
    Jul 3, 2019 · There is thus a clear need for more dedicated metagenomic studies that will give a better global overview of the total URT microbial community ( ...Otitis Media · Infection Mechanisms Of The... · Probiotic Mechanisms...<|separator|>
  84. [84]
    Ear Infections and Otitis Externa in Dogs - MSD Veterinary Manual
    Signs include headshaking, odor, redness of the skin, swelling, scratching, increased discharge, and scaly skin. The ear canal may be painful or itchy depending ...
  85. [85]
    Ear Infections in Dogs (Otitis Externa) | VCA Animal Hospitals
    The ears often become red and inflamed and develop an offensive odor. A black or yellowish discharge commonly occurs. In chronic cases, the ears may appear ...Don't These Signs Usually... · Since The Signs Are Similar... · What Is The Goal Of Ear...
  86. [86]
    Now listen ear: New RVC research reveals the dog breeds most ...
    Sep 7, 2021 · Poodle and spaniel types of dogs overall were at greater risk of ear infection. Dogs with long and hanging ear flaps had a much higher risk of ...
  87. [87]
    Frequency and predisposing factors for canine otitis externa in the UK
    Sep 7, 2021 · The most common breed types among the otitis externa cases were Labrador Retriever (154, 9.44%), Cocker Spaniel (81, 4.97%), Staffordshire Bull ...
  88. [88]
    Malassezia Otitis in Dogs and Cats - Veterinary Partner - VIN
    Aug 4, 2020 · Malassezia spp. are a common secondary cause of otitis or inflammation of the ear canal. It is a yeast that normally lives in the ears of cats ...
  89. [89]
    Chronic Otitis in Cats: Clinical management of primary, predisposing ...
    Apr 26, 2021 · Owners often report head shaking, scratching or pawing at the ears, pain, excessive ceruminous debris and/or a foul odor. Less commonly, ...
  90. [90]
    Otitis Externa Associated with Malassezia sympodialis in Two Cats
    The animal had pruritus and an excessive aural discharge. On otoscopic examination, a generalized erythema was seen, and the external meatus was full of flaky ...
  91. [91]
    Otitis Externa in Horses - Horse Owners - Merck Veterinary Manual
    Signs of inflammation include redness of the skin, swelling, itchiness, head shaking, increased discharge, and scaly skin. The ear canal may be painful or itchy ...
  92. [92]
    Ear: otitis externa / media in Horses (Equis) - Vetlexicon
    Primary causes of otitis include atopic dermatitis Skin: atopy, black fly bites, insect hypersensitivity, eg Culicoides Insect hypersensitivity, and ticks. Less ...
  93. [93]
    Otitis Externa in Eight Horses - Clinical Signs, Treatment ... - PubMed
    Jun 20, 2019 · Results: Common clinical signs seen in affected horses were pruritus, ear discharge and ear droop of affected ears. The most common cytological ...
  94. [94]
    Inflammation of the Ear Canal in Rabbits - PetMD
    Jun 22, 2010 · Symptoms and Types · Pain · Redness and swelling of the external ear canal · Thick, white and often creamy exudate (fluid) at the ear canal ...
  95. [95]
    Diagnosis of Otitis in Rabbits - Laboklin
    Sep 30, 2025 · Otitis externa: head shaking, ear scratching, changes in the pinna (e.g. redness, warmth, discharge, swelling, bleeding), possibly aural ...
  96. [96]
    Otitis Externa in Animals - Ear Disorders - Merck Veterinary Manual
    Clinical signs can include head shaking, pruritus, pain, malodor, erythema, erosions, ulcerations, and edema. Diagnosis is based on history, otoscopic ...
  97. [97]
    Ear Infections (Otitis) in Dogs - Veterinary Partner - VIN
    Jan 1, 2001 · Dogs seem to get ear infections with a surprising frequency, and some dogs have to deal with ear infections nearly constantly.
  98. [98]
    Otitis Externa: Inflammation of the Ear Canal
    Dec 22, 2017 · Hair plucking is standard grooming practice for dogs with excessive hairs in the canal, but it can damage the epithelial lining. Hair plucking ...
  99. [99]
    Treatment of Ear Disease in Rabbits - Millpledge Veterinary
    Otitis externa is commonly caused by Psoroptes cuniculi and affected rabbits will be intensely pruritic with a characteristic crusty exudate in the ear canal, ...
  100. [100]
    Diagnosis of Otitis Externa and Media - WSAVA 2017 Congress - VIN
    Diagnostic steps include: Signalment and history; Clinical examination; Otoscopy or video otoscopy; Cytology; Culture and antimicrobial susceptibility testing ...
  101. [101]
    Ear Infections in Dogs - Veterinary Partner - VIN
    Dec 5, 2024 · To diagnose what type of ear infection is present, your veterinarian will perform ear cytology by collecting a sample from the ear, staining it, ...
  102. [102]
    Managing recurrent otitis externa in dogs: what have we learned ...
    Apr 7, 2023 · The bacterial microbiota of canine ear canals shows high diversity with several abundant phyla, including Proteobacteria, Actinobacteria, ...All Recurrent Ear Infections... · Biofilms · Reversing Chronic...
  103. [103]
    Medical Treatment of Otitis Externa - VIN
    The author prefers a product containing salicylic acid, lactic acid, and propylene glycol (Epi-otic®, Allerderm/Virbac). Cleansing/drying solutions are usually ...
  104. [104]
    Diagnosis and treatment of otitis media in dogs and cats - PubMed
    It is prudent to take necessary precautions to avoid the use of potentially ototoxic ear cleaners or topical medications in suspected otitis media cases.
  105. [105]
    Approach to Treatment of Otitis - WSAVA 2017 Congress - VIN
    Topical therapy is preferred wherever possible. Systemic antimicrobial therapy may be less effective in erythroceruminous otitis externa as bacteria are present ...
  106. [106]
    [PDF] Otic Microbiome Transplantation in a Dog with Recurrent Otitis Externa
    This case report for the first time, showed the efficacy of changing microechology of otic microechology by omT. This treatment modality would be developed by ...<|control11|><|separator|>
  107. [107]
    RESEARCH ON THE EAR MICROBIOME IN THE DOG - YUN
    This PhD research will provide further insights into reducing the occurrence of OE in dogs with CAD by using a topical ear product based on known probiotic ...
  108. [108]
    https://veterinarypartner.vin.com/doc/?id=10464209&pid=19239
  109. [109]
    Otitis Media (Middle Ear Inflammation/Infection) in Dogs and Cats
    Sep 12, 2021 · Diagnosis includes physical examination, ear examination with an otoscope, bacterial/fungal culture, radiography, and possibly advanced imaging.
  110. [110]
    Clinical features, treatment, and outcome of aural hematomas in ...
    Mar 15, 2021 · In dogs with aural hematomas, there is often concurrent otitis externa, which is a pruritic, inflammatory condition affecting the external ear ...Missing: complications | Show results with:complications