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Mastoiditis

Mastoiditis is a serious bacterial infection of the mastoid air cells within the mastoid process of the temporal bone, located behind the ear, most commonly arising as a complication of untreated or inadequately treated acute otitis media (middle ear infection).^[1] This condition involves inflammation and potential pus accumulation in the air-filled spaces of the mastoid bone, which are connected to the middle ear, and it primarily affects children under the age of 2, though it can occur in adults as well.^[2] If left untreated, mastoiditis can lead to severe complications such as abscess formation, meningitis, or hearing loss.^[3] The infection typically spreads from the middle ear when bacteria, such as Streptococcus pneumoniae, Haemophilus influenzae, or Staphylococcus aureus, breach the thin bony partition separating the two areas, often in cases where otitis media persists despite antibiotic therapy.^[1] Risk factors include young age, frequent ear infections, anatomic abnormalities like eustachian tube dysfunction, and immunocompromised states.^[4] Symptoms usually develop rapidly and include persistent ear pain, fever, redness and swelling over the mastoid area (postauricular erythema and edema), protrusion of the auricle, and sometimes purulent discharge from the ear; headache, irritability, and neck stiffness may also occur in advanced cases.^[3] Diagnosis is primarily clinical, supported by physical examination revealing mastoid tenderness and otoscopy showing a bulging tympanic membrane or perforation, with imaging such as computed tomography (CT) scans used to assess bone involvement and rule out complications.^[5] Treatment involves prompt intravenous broad-spectrum antibiotics, often starting empirically and adjusted based on culture results from ear fluid; in non-responsive or complicated cases, surgical procedures like tympanostomy tube placement (myringotomy) or mastoidectomy may be necessary to drain pus and remove infected tissue.^[6] With early intervention, the prognosis is excellent, but delays can result in chronic mastoiditis or intracranial spread.^[7] Prevention focuses on timely management of acute otitis media and vaccination against common pathogens like pneumococcus and Haemophilus influenzae type b.^[2]

Background

Definition

Mastoiditis is defined as the inflammation or infection of the mastoid air cells within the temporal bone, most commonly arising as a complication of acute otitis media (AOM).^[1] These air cells, located behind the ear, become involved when untreated or inadequately treated middle ear infections spread through the aditus ad antrum, leading to bacterial invasion and potential abscess formation.^[3] While it can occur in adults, mastoiditis predominantly affects children under the age of 2 years due to their anatomical predisposition to Eustachian tube dysfunction and recurrent AOM.^[8] Mastoiditis is classified into three forms based on duration and clinical course: acute, subacute, and chronic. Acute mastoiditis, the most common and severe variant, features rapid onset (typically with symptoms lasting less than 1 month) and often presents with coalescent bone destruction if untreated.^[1]^[9] Subacute mastoiditis typically results from persistent or recurrent AOM with inadequate therapy, leading to indolent inflammation without aggressive coalescence.^[1] Chronic mastoiditis involves symptoms lasting longer than 1 month, characterized by ongoing low-grade infection and structural changes in the mastoid, frequently linked to underlying cholesteatoma or chronic suppurative otitis media.^[9] Historically, mastoiditis was a leading cause of mortality in children during the pre-antibiotic era of the early 1900s, complicating up to 20% of AOM cases and carrying mortality rates as high as 75% due to intracranial extensions like meningitis.^[1]^[10] The introduction of antibiotics in the mid-20th century dramatically reduced its incidence, transforming it from a frequent and life-threatening condition to a rare complication today, with current rates of 1.2 to 4.2 cases per 100,000 children annually in developed countries.^[9]

Anatomy

The mastoid process constitutes the pneumatized posterior portion of the temporal bone, forming a bony prominence behind the external auditory canal. It consists of a system of interconnected, epithelium-lined air cells that create a honeycomb-like structure, aiding in pressure equalization and mucociliary clearance for the middle ear. These air cells communicate directly with the middle ear cavity through the aditus ad antrum, a short bony canal that connects the posterior epitympanum to the mastoid antrum.^[1] Key anatomical features of the mastoid process include the mastoid antrum, its largest central air cell, which serves as a primary chamber for air exchange and is located superiorly within the process. The surrounding air cell system varies in extent and configuration, typically extending medially, anteriorly, and inferiorly, with partitions of thin bony septa. The mastoid is anatomically adjacent to several critical structures: the sigmoid sinus lies immediately posterior, separated by a thin bony plate (sigmoid sinus plate); the facial nerve traverses the process via its vertical mastoid segment in the anterior wall; and the inner ear, including the bony labyrinth, is in close proximity within the petrous temporal bone, separated by only a few millimeters of bone.^[1]^[11] Development of the mastoid process involves progressive pneumatization, which initiates prenatally with the antrum but intensifies postnatally during infancy as epithelial invaginations erode the bone to form air cells. This process occurs rapidly, with significant expansion in the first year of life and the air cell system becoming well-developed by age 2 years, reaching near-adult configuration by 3 to 5 years.^[12]^[13]^[14] Anatomical diagrams of the temporal bone, such as sagittal or axial cross-sections, commonly illustrate the mastoid process by outlining its air cell trabeculae, the antrum's rounded contour, and spatial relationships to the tympanic cavity, facial canal, and dural venous sinuses for educational visualization.^[15]

Etiology and Pathophysiology

Causes

Mastoiditis primarily arises as a complication of acute otitis media (AOM), with bacterial infection extending from the middle ear to the mastoid air cells in the majority of cases.^[1] This progression occurs when untreated or inadequately treated AOM leads to contiguous spread of pathogens, accounting for over 90% of acute mastoiditis instances.^[8] The most frequently implicated bacterial pathogens include Streptococcus pneumoniae, which is isolated in approximately 25-40% of culture-positive cases, followed by Streptococcus pyogenes (group A streptococcus), nontypeable Haemophilus influenzae, Moraxella catarrhalis, and Staphylococcus aureus (including methicillin-resistant S. aureus in regions with high resistance prevalence).^[8]^[16]^[17] Less common etiologies encompass viral infections, such as those following post-viral AOM, fungal pathogens in immunocompromised individuals, and non-infectious triggers like direct trauma or iatrogenic injury from ear surgery.^[1] These rare causes typically manifest in specific clinical contexts, such as viral upper respiratory infections predisposing to secondary bacterial involvement or opportunistic fungal invasion in patients with severe immunosuppression.^[18] Key risk factors for developing mastoiditis include young age, particularly under 2 years, where the median age at presentation is around 12 months due to immature immune responses and eustachian tube anatomy.^[1] Unvaccinated status against pneumococcal disease significantly elevates risk, as conjugate vaccines like PCV13 have substantially reduced incidence by targeting prevalent serotypes of S. pneumoniae.^[19] Immunocompromising conditions, such as HIV infection or ongoing chemotherapy, further predispose individuals by impairing pathogen clearance, while anatomical abnormalities like eustachian tube dysfunction or incomplete mastoid pneumatization hinder drainage and ventilation.^[1] Socioeconomic barriers, including limited access to timely medical care, exacerbate vulnerability by allowing AOM to progress unchecked.^[20] Emerging trends indicate a rise in antibiotic-resistant strains, particularly post-2020, attributed to widespread antibiotic overuse during the COVID-19 pandemic and resultant shifts in bacterial serotypes, leading to more challenging infections with pathogens like resistant S. pneumoniae and S. aureus.^[21] As of 2025, multiple studies report a sustained increase in pediatric mastoiditis incidence post-COVID-19, primarily due to the reversal of non-pharmaceutical interventions leading to surges in respiratory infections, with ongoing surveillance recommended for antimicrobial resistance and shifts in etiology.^[22]^[23]

Mechanisms

Mastoiditis typically develops as a complication of acute otitis media, where the infection spreads from the middle ear cavity through the aditus ad antrum—a narrow passage connecting the epitympanum to the mastoid antrum—into the mastoid air cells.^[1] This spread obstructs drainage, leading to mucosal edema and accumulation of purulent fluid within the pneumatized mastoid air cells, which are lined by a thin mucous membrane continuous with that of the middle ear.^[24] The resulting increased pressure exacerbates local inflammation and impairs ventilation, setting the stage for further pathological changes.^[3] The inflammatory response is driven by bacterial exotoxins released from pathogens such as Streptococcus pneumoniae or Haemophilus influenzae, combined with host-derived cytokines that recruit immune cells and promote tissue damage.^[1] This cascade induces osteitis, an inflammation of the thin bony septae separating the mastoid air cells, characterized by hyperemia, edema, and infiltration of inflammatory cells.^[25] Over time, the ongoing inflammation stimulates osteoclast activity, leading to bone resorption and potential coalescence of adjacent air cells into larger pus-filled cavities or abscesses.^[26] Mastoiditis progresses through distinct stages based on the extent of tissue involvement. In the initial non-coalescent stage, the process is limited to mucosal hyperemia and serous or mucoid effusion without bony destruction, often resolving with prompt treatment.^[3] Progression to coalescent mastoiditis occurs when persistent infection erodes the intercell septae, causing bony coalescence and formation of cholesteatoma-like debris, which further compromises mastoid structure.^[1] If untreated, this can advance to a subperiosteal abscess, where pus accumulates beneath the periosteum of the mastoid process, potentially eroding through the cortex.^[25] The severity and progression of these mechanisms are modulated by several factors, including the host's immune status—such as in immunocompromised individuals where impaired defenses accelerate spread—and the virulence of the infecting bacteria, with more aggressive strains promoting rapid osteolysis.^[3] Delayed initiation of appropriate antibiotic therapy exacerbates the process, allowing unchecked bacterial proliferation and increasing the risk of intracranial extension, such as through dehiscent bone or vascular channels.^[1]

Clinical Presentation

Signs and Symptoms

Mastoiditis typically presents with acute symptoms following an untreated or inadequately treated middle ear infection. Common manifestations include severe postauricular pain and tenderness over the mastoid process, swelling and erythema behind the ear, purulent otorrhea, fever, and conductive hearing loss. The auricle may protrude anteriorly and inferiorly due to mastoid swelling pushing against the cartilage.^[27]^[28]^[3] Systemic signs often accompany the local findings, such as high fever that may spike suddenly, headache, and irritability, particularly in pediatric patients. In cases with potential meningeal involvement, patients may exhibit neck stiffness. Children may also display nonspecific signs like lethargy or fussiness.^[1]^[28]^[2] In chronic or subacute mastoiditis, symptoms are less intense and may include persistent low-grade fever, recurrent episodes of ear infections, and the presence of granulation tissue in the ear canal without significant acute swelling or erythema. Hearing loss may persist or worsen over time.^[2]^[29] Mastoiditis predominantly affects young children, with most cases occurring in those under 2 years of age and a median age of 12 months; symptoms in infants can be subtle, such as feeding difficulties or irritability rather than overt pain. Recent studies as of 2024 note a potential increase in incidence at the end of the COVID-19 pandemic.^[8]^[1]^[30]

Complications

Mastoiditis, if untreated or inadequately managed, can lead to serious local, intracranial, and systemic complications due to the contiguous spread of infection from the mastoid air cells through bone erosion, venous channels, or direct extension.^[1] Local complications primarily involve structures adjacent to the mastoid process. A subperiosteal abscess forms when pus accumulates beneath the periosteum of the mastoid bone, often presenting as postauricular swelling and tenderness.^[1] Bezold's abscess, a rarer variant, occurs when infection erodes through the mastoid tip into the sternocleidomastoid muscle, extending to the neck and potentially forming a deep abscess.^[31] Facial nerve palsy arises from inflammatory compression or direct involvement of the facial nerve within the temporal bone, leading to ipsilateral facial weakness.^[1] Labyrinthitis results from spread to the inner ear, causing vertigo, sensorineural hearing loss, and nystagmus due to serous or suppurative inflammation of the labyrinth.^[31] Intracranial complications are among the most severe and arise via hematogenous spread through emissary veins or direct dural invasion. Meningitis is a common complication occurring when bacteria breach the meninges, leading to headache, fever, and neck stiffness; overall intracranial complications affect 5-10% of acute mastoiditis patients in contemporary series.^[32] Sigmoid sinus thrombosis develops from septic thrombophlebitis of the sigmoid sinus, often signaled by otalgia and mastoid tenderness, potentially progressing to septic emboli.^[33] Epidural and subdural abscesses form from pus collection in the extradural or intradural spaces, respectively, via bone dehiscence or vascular routes, manifesting with focal neurological deficits.^[31] Otogenic brain abscesses, typically in the temporal lobe or cerebellum, result from direct extension or septic emboli, presenting with altered mental status and seizures.^[31] Rare systemic complications include sepsis from bacteremia and extension of osteomyelitis to the skull base, which can involve the petrous apex or clivus, leading to cranial nerve palsies beyond the facial nerve.^[34] In the pre-antibiotic era, mastoiditis frequently led to serious complications with high rates of morbidity and mortality. With the widespread use of antibiotics, complication rates have decreased significantly.^[10]

Diagnosis

Clinical Evaluation

The clinical evaluation of suspected mastoiditis commences with a thorough history to identify predisposing factors and symptom progression. Most cases arise as a complication of recent acute otitis media (AOM), often within days to weeks of the initial ear infection. Patients or caregivers typically describe persistent or escalating ear pain, otorrhea, and fever despite prior antibiotic treatment for AOM, signaling potential treatment failure. Inquiring about pneumococcal vaccination status is essential, as immunization reduces the incidence of AOM and its complications, while immunocompromising conditions such as diabetes or HIV increase susceptibility to severe disease. The timeline of symptoms—such as ear pain and discharge persisting beyond 48-72 hours—guides the urgency of evaluation and helps differentiate uncomplicated AOM from mastoid involvement. Physical examination focuses on local and neurological findings to corroborate suspicion of mastoiditis. Inspection of the postauricular region often reveals swelling, erythema, and anterior displacement of the auricle due to mastoid inflammation. Palpation elicits tenderness, warmth, and sometimes fluctuance over the mastoid process, which is a hallmark sign in acute cases. Otoscopy is critical, demonstrating middle ear effusion, a bulging or perforated tympanic membrane, and possible granulation tissue in the external auditory canal. Neurological assessment includes evaluation of cranial nerves, particularly the facial nerve (VII) for signs of weakness or paralysis, which may indicate extension of infection. Red flags warranting immediate concern for intracranial complications include altered mental status, severe headache, nuchal rigidity, or seizures, prompting expedited intervention. In pediatric patients, who comprise the majority of cases due to higher AOM rates, examination emphasizes a bulging tympanic membrane and postauricular edema, often in children under 2 years. In adults, evaluation should incorporate history of chronic otitis media or prior ear surgeries, as these predispose to subacute or chronic mastoiditis presentations with subtler signs.

Imaging and Tests

Laboratory tests play a supportive role in confirming infection and guiding therapy in suspected mastoiditis. A complete blood count (CBC) with differential typically reveals leukocytosis with a left shift, indicating an acute bacterial process.^[1] Inflammatory markers such as C-reactive protein (CRP) and erythrocyte sedimentation rate (ESR) are often elevated, reflecting the degree of systemic inflammation, though they are not essential for diagnosis and correlate closely with clinical findings.^[1]^[35] Blood cultures should be obtained in cases of suspected sepsis or systemic involvement, although they have a low positive yield of 3% to 6%, most commonly isolating Streptococcus pneumoniae.^[9] Tympanocentesis, involving aspiration of middle ear fluid, is recommended for microbiologic culture and sensitivity testing, particularly in treatment failures or prior antibiotic exposure, to identify the causative pathogen and inform targeted antimicrobial therapy.^[36]^[37] Imaging modalities are crucial for confirming mastoid involvement and evaluating for complications. Computed tomography (CT) of the temporal bone serves as the gold standard, demonstrating opacification of mastoid air cells, bony septae disruption (coalescence), cortical bone erosion, and subperiosteal abscesses in acute cases.^[1]^[38] Post-contrast CT enhances visualization of associated soft tissue or vascular complications.^[38] Magnetic resonance imaging (MRI) is indicated for assessing soft tissue extension, intracranial involvement such as abscesses or meningitis, or when CT findings are equivocal, offering superior detail on dural enhancement and venous sinus thrombosis.^[38]^[2] Plain radiographs of the mastoid are generally avoided due to their low sensitivity in detecting early changes or subtle erosions.^[1] Audiometry is performed to quantify conductive hearing loss, which is common in mastoiditis due to middle ear effusion and ossicular involvement, aiding in baseline assessment and monitoring treatment response.^[39] Indications for advanced testing include high clinical suspicion based on persistent otalgia, postauricular swelling, or fever despite antibiotics; CT is pursued promptly if complications such as abscess or neurological deficits are suspected, with urgent imaging required in the presence of signs like altered mental status or cranial nerve palsies.^[40]

Management

Medical Treatment

The medical treatment of uncomplicated mastoiditis centers on intravenous broad-spectrum antibiotics to target common bacterial pathogens, with initial empiric coverage for resistant strains. Therapy typically begins with ceftriaxone (50-100 mg/kg/day IV, divided every 12-24 hours, up to 2 g/day in adults) combined with vancomycin (15-20 mg/kg IV every 8-12 hours, targeting trough levels of 15-20 mcg/mL) to address potential resistant Streptococcus pneumoniae and methicillin-resistant Staphylococcus aureus (MRSA).^[41]^[3] This regimen is continued for 48-72 hours while monitoring for clinical response, such as defervescence and reduced ear pain.^[1] If the patient improves, intravenous antibiotics are maintained for 7-10 days before de-escalation or transition to oral agents, with a total treatment duration of 2-4 weeks based on clinical and microbiological factors.^[42] Cultures from middle ear aspirate guide narrowing of therapy to more specific agents, such as high-dose amoxicillin or cefotaxime alone if susceptible organisms are identified, to combat antimicrobial resistance.^[43] Recent analyses from 2023-2025 highlight the importance of this culture-directed de-escalation in pediatric cases to optimize outcomes while minimizing broad-spectrum use.^[44] A 2025 study reported that conservative management resolved acute pediatric mastoiditis without further treatment in 94% of cases.^[45] Myringotomy, often with tympanostomy tube insertion, is a key adjunct to facilitate drainage of purulent middle ear fluid and obtain samples for culture, performed under local or general anesthesia depending on patient age.^[41] Supportive measures include analgesics like ibuprofen (10 mg/kg every 6-8 hours as needed) for pain and inflammation, along with intravenous hydration to maintain euvolemia.^[3] For patients showing improvement within 48-72 hours, transition to outpatient management involves oral antibiotics such as amoxicillin-clavulanate (90 mg/kg/day divided every 12 hours) for the remainder of the course, typically 10-14 days, with weekly otoscopy follow-up to assess tympanic membrane healing and rule out progression.^[40]^[42]

Surgical Interventions

Surgical interventions are reserved for cases of mastoiditis that are complicated, refractory to medical therapy, or associated with coalescent disease, where conservative management fails to control the infection.^[1] These procedures aim to drain abscesses, debride infected mastoid air cells, and prevent further spread of infection, particularly when imaging reveals bone erosion or collections.^[41] In pediatric patients, who comprise the majority of acute cases, surgery is indicated if there is no clinical improvement within 48 hours of intravenous antibiotics or if complications such as subperiosteal abscesses arise.^[46] Simple mastoidectomy, also known as cortical mastoidectomy, is the primary surgical approach for acute coalescent mastoiditis or failed medical therapy.^[47] During the procedure, the surgeon performs a postauricular incision to expose the mastoid cortex, which is then drilled to access and exenterate the infected air cells, allowing drainage of pus and removal of necrotic tissue while preserving the posterior ear canal wall (canal wall-up technique) to maintain hearing function.^[48] A canal wall-down mastoidectomy may be employed in more extensive disease, where the posterior canal wall is removed to facilitate wider access and aeration, though this is less common in acute settings to avoid unnecessary hearing impairment.^[47] This surgery is typically indicated for subperiosteal abscesses or when medical treatment does not resolve otoscopic findings of mastoid swelling and erythema.^[41] Myringotomy with placement of ventilation tubes serves as an adjunctive procedure, particularly in recurrent or persistent cases, to promote middle ear drainage and ventilation.^[9] The tympanic membrane is incised under microscopic guidance, fluid is aspirated for culture, and a grommet or tube is inserted to equalize pressure and prevent fluid reaccumulation, often performed concurrently with mastoidectomy in complicated infections.^[1] For advanced complications, such as subperiosteal or intratemporal abscesses, surgical management includes incision and drainage of the collection, frequently combined with mastoidectomy for source control.^[49] In cases of lateral sinus thrombosis, anticoagulation may be considered alongside surgical debridement via mastoidectomy to remove thrombotic material and infected bone, although its routine use remains controversial.^[41]^[50] Intracranial involvement, including epidural abscesses or meningitis, necessitates urgent surgical intervention to drain collections and address the primary otogenic source, often through a combined transmastoid approach.^[46] Timing of surgery is critical: elective for uncomplicated refractory cases, but emergent within hours if there is intracranial extension or signs of sepsis to mitigate neurological risks. In chronic or recurrent mastoiditis, a canal wall-up mastoidectomy is preferred to preserve auditory canal integrity and hearing thresholds.^[47] Postoperatively, patients receive continued intravenous antibiotics tailored to culture results, with close monitoring for resolution of fever and otoscopic improvement, followed by audiologic evaluation to assess hearing preservation.^[41] Follow-up includes serial examinations to detect residual cholesteatoma or recurrence, emphasizing the role of ventilation tubes in preventing future episodes.^[9]

Outcomes

Prognosis

With early intervention using antibiotics and appropriate surgical measures when needed, the prognosis for mastoiditis is generally excellent, with cure rates exceeding 95% in uncomplicated cases.^[41] In developed countries, mortality has declined dramatically to less than 1% due to timely diagnosis and treatment, compared to historical rates of 10-20% or higher before the widespread use of antibiotics, when intracranial complications were common and often fatal.^[1] Prompt management typically leads to full resolution within weeks, minimizing the risk of progression to severe sequelae.^[40] Outcomes worsen with delayed treatment, immunocompromised states, or associated complications; for instance, patients with labyrinthitis as a complication face a risk of persistent hearing loss despite intervention. Immunocompromised individuals, such as those with HIV or undergoing chemotherapy, experience higher rates of treatment failure and prolonged recovery due to impaired immune responses.^[1] Recent analyses confirm that complication rates are low with immediate antibiotic therapy, emphasizing the importance of early recognition to avoid adverse effects like abscess formation or nerve involvement.^[1] Long-term effects are rare with complete resolution but include an elevated risk of chronic suppurative otitis media if infection persists incompletely, potentially leading to recurrent episodes and structural ear damage.^[51] Pneumococcal conjugate vaccination significantly reduces the incidence of mastoiditis by preventing initial otitis media episodes that can progress to mastoiditis, particularly in pediatric populations.^[52] Overall, adherence to vaccination schedules and vigilant follow-up post-treatment optimize lifelong auditory health.^[19]

Epidemiology

Mastoiditis has become a rare condition in the post-antibiotic era, with incidence rates ranging from 1.2 to 2.0 cases per 100,000 children annually in the United States and similar figures in Europe based on data from the early 2020s.^[53] In pediatric populations, rates are notably higher among children under 2 years, reaching up to 38 per 100,000 in some cohorts, reflecting the vulnerability of very young patients to complications of acute otitis media.^[53] Overall, the disease affects approximately 1.2 to 6.1 cases per 100,000 children aged 0-14 years in developed countries.^[54] Demographically, mastoiditis predominantly impacts young children, with 70-80% of cases occurring in those under 5 years and a median age of presentation around 12 months.^[1] There is a male predominance, with ratios approximately 1.5:1, as evidenced by studies showing 57-69% of pediatric cases in boys.^[55] In adults, the condition exhibits a bimodal distribution, with secondary peaks in the elderly associated with chronic ear disease and immunosuppression.^[8] Since the 1950s, the incidence of mastoiditis has declined by 80-90% due to widespread antibiotic use for otitis media and the introduction of pneumococcal conjugate vaccines, which have reduced invasive complications from Streptococcus pneumoniae.^[56] However, a sustained uptick in cases has been observed post-2020, linked to antibiotic-resistant strains and disruptions in healthcare access during the COVID-19 pandemic.^[22] Geographically, rates remain elevated in low-resource settings with limited vaccination coverage and antibiotic availability, such as sub-Saharan Africa, where otitis media complications like mastoiditis are more prevalent.^[57]

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May 16, 2024 · If there is any concern that hearing may have been affected, it can be evaluated by a test called an audiogram.Missing: audiometry | Show results with:audiometry
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Mar 28, 2024 · Vancomycin and ceftriaxone are recommended until cultures become available. Again, systemic steroids slow the inflammation and promote drainage.Approach Considerations · Pharmacologic Therapy · Myringotomy...
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Mastoiditis - acute, immunocompetent patient. (<1 month duration). OR. Subacute (duration >= 1 month) but with the following distinctions from chronic ...
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Dec 25, 2023 · The current guidelines include a conservative approach (parenteral antibiotics alone, antibiotics plus minor surgical procedures such as myringotomy)
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The main points of the management protocol are: initiate a broad-spectrum intravenous antibiotic treatment; mastoidectomy should be performed if the infection ...
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Mastoidectomy is a surgical procedure of the temporal bone that opens postauricular air cells by removing the thin bony partitions between them.Missing: structures | Show results with:structures
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Mastoidectomy: Definition, Surgery & Recovery - Cleveland Clinic
Mar 23, 2022 · A mastoidectomy is a surgical procedure that removes diseased cells from air-filled spaces within your mastoid bone. Your mastoid bone sits just
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Management of acute complicated mastoiditis at an urban, tertiary ...
Surgical management included myringotomy ± tympanostomy tube placement in 46 (95.8%) patients (the only surgery in 10), drainage of subperiosteal abscess ...
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Labyrinthitis - StatPearls - NCBI Bookshelf
Jul 23, 2025 · Symptoms typically include dizziness, nausea, vomiting, hearing loss, and tinnitus. While most cases are viral in origin, bacterial infections, ...
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Our analysis revealed low complication rates (1.8%), all reversible, performed consistently by three surgeons. General anesthesia in children with upper ...
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Epidemiology of pediatric acute mastoiditis in Israel: A National ...
Oct 17, 2022 · The incidence was 7.78 cases per 100,000 children-years but was significantly higher in children under 2 years of age (average of 38.31 per ...2 Patients And Methods · 3 Results · 4 Discussion<|separator|>
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Very common in the pre-antibiotic era (at least 20% of OMA resulted in AM, often complicated by devastating extratemporal and intracranial sequelae), the ...Missing: mortality | Show results with:mortality
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[PDF] Mastoiditis in adults: a 19-year retrospective study - ResearchGate
Abstract The objective of our study was to review ret- rospectively the clinical, radiological and therapeutic findings in 62 adults with acute mastoiditis ...
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Jan 4, 2010 · There is no doubt that the incidence of acute mastoiditis has decreased in the post-antibiotic era [7]. In 1946, House [9] pointed to an 80 ...
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Chronic Suppurative Otitis Media - AAFP
Nov 15, 2013 · Occasionally it can lead to fatal intracranial infections and acute mastoiditis, especially in developing countries. In children with ...