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continuing_education_activitystatpearls· Continuing Education Activity· item NBK585050

Oral fungal infections arise when normally commensal fungi within the oral microbiota become pathogenic under conditions such as immunosuppression, systemic disease, or prolonged antimicrobial therapy. The oral cavity hosts diverse fungal species, including Candida, Aspergillus, and Rhizopus, which may cause opportunistic infections when host defenses are compromised. Oral candidiasis is the most common oral fungal infection and historically gained prominence during the HIV/AIDS epidemic as an indicator of immune decline. This course details the etiologies of fungal infections, which in recent years have increased in incidence due to factors such as diabetes mellitus, immunodeficiency, prolonged hospitalization, corticosteroid use, and emerging conditions such as COVID-19–associated immunosuppression, as well as other clinically significant infections affecting the oral cavity include aspergillosis, mucormycosis, histoplasmosis, blastomycosis, cryptococcosis, paracoccidioidomycosis, and geotrichosis. Clinical manifestations are also discussed, including white plaques, erythema, ulceration, burning sensation, and pain. This activity reviews the epidemiology, pathogenesis, diagnosis, and management of oral fungal infections. Participants will also gain an understanding of characteristic oral lesions, identify underlying risk factors, and apply appropriate diagnostic and therapeutic strategies, including antifungal pharmacotherapy and surgical interventions when indicated. This activity for healthcare professionals is designed to enhance the learner's competence in identifying oral fungal infections, performing the recommended evaluation, and implementing an appropriate interprofessional approach when managing this condition, particularly in immunocompromised populations. Objectives: Identify common causative organisms of oral fungal infections. Evaluate the clinical features of fungal infections of the oral mucosa. Implement the recommended management for the various fungal species that cause oral infections. Apply effective strategies to improve care coordination among interprofessional team members and positive outcomes for patients with oral mucosa fungal infections. Access free multiple choice questions on this topic.

introductionstatpearls· Introduction· item NBK585050

The oral cavity provides a unique ecological site that harbors a dynamic microbiota. Candida, Aspergillus, and Rhizopus are commensal oral fungi species. However, they may become pathogenic and cause opportunistic infections under certain conditions. Oral candidiasis is the most common oral fungal infection and gained particular prominence during the AIDS epidemic, as it was recognized as a sentinel opportunistic infection signaling the progression from HIV infection to AIDS.[1] The incidence of fungal infections has been on the rise in recent years, especially in COVID-19 patients, due to several factors such as immunodeficiency, hyperglycemia caused by diabetes mellitus, prolonged hospitalizations, prolonged use of steroids, and hematopoietic malignancies.[2][3] In general, oral fungal infections are increasingly common for various reasons and pose serious challenges, especially for immunocompromised patients, including those receiving chemotherapy and people with HIV. The advent of newer therapies for several diseases has also influenced the incidence of fungal infections.[4] The diagnosis of oral fungal infection is mainly based on clinical and histopathological presentation of the lesional tissue. Characteristic features include a burning sensation and an unpleasant taste in the mouth, white plaques, ulcerations, erythema, and pain. The most common oral cavity fungal infections include candidiasis, aspergillosis, mucormycosis or zygomycosis, histoplasmosis, blastomycosis, cryptococcosis, paracoccidioidomycosis, and geotrichosis. The modalities for detecting fungal organisms have also evolved to include rapid molecular tests, eg, polymerase chain reaction (PCR). Prompt evaluation of oral lesions is essential to establish the diagnosis, initiate therapy, and monitor clinical progress. Management primarily involves maintaining proper oral and denture hygiene, identifying and correcting predisposing factors, and selecting an appropriate antifungal agent. For some types of fungal infections, surgical debridement may also be indicated.

etiologystatpearls· Etiology· item NBK585050

Oral Candidiasis Candida albicans causes around 95% of oral candidiasis infections.[5] Up to 80% of the general population are asymptomatic carriers of Candida albicans, and simple carriage does not predictably lead to infection.[5] However, infections caused by antifungal-resistant, nonalbicans species have increased in recent years, possibly due to age, malignancy, use of polyenes and azoles, indwelling catheters, and more advanced diagnostic methods.[6] Nonalbicans species include Candida glabrata, Candida tropicalis, Candida parapsilosis, Candida dubliniensis, Candida guilliermondii, Candida krusei, and Candida kefyr. Besides C albicans, C glabrata and C dubliniensis are most commonly isolated from oral lesions in HIV patients.[7] Candida auris is an emerging, multidrug-resistant strain causing outbreaks in healthcare settings, particularly among post-COVID-19 patients.[8] Aspergillosis Aspergillosis is caused by Aspergillus species, saprophytes that grow on dead and decaying matter. Aspergillus fumigatus is the most common cause of invasive disease since the size of its conidia favors penetration into alveoli, promoting establishment in host tissues even in the absence of severe local trauma.[9][10] Aspergillus flavus can cause infections limited to the paranasal sinuses, which may extend to adjacent oral tissues.[11] Mucormycosis Mucormycosis, otherwise known as zygomycosis, is caused by fungi of the order Mucorales, primarily the genera Rhizopus, Mucor, and Rhizomucor. Other clinically relevant organisms within the order Mucorales include: Actinomucor, Apophysomyces, Cunninghamella, Lichtheimia (previously named Absidia), Saksenaea, and Syncephalastrum.[12] Rhizopus accounts for 90% of rhinocerebral mucormycosis,[13] a rare opportunistic infection involving the brain, nasal cavity, oral cavity, and paranasal sinuses.[14] Rhizopus oryzae, Rhizopus microsporus, and Absidia corymbifera are the commonly isolated species in patients with mucormycosis.[15] Histoplasmosis

etiologystatpearls· Etiology· item NBK585050

Mucormycosis, otherwise known as zygomycosis, is caused by fungi of the order Mucorales, primarily the genera Rhizopus, Mucor, and Rhizomucor. Other clinically relevant organisms within the order Mucorales include: Actinomucor, Apophysomyces, Cunninghamella, Lichtheimia (previously named Absidia), Saksenaea, and Syncephalastrum.[12] Rhizopus accounts for 90% of rhinocerebral mucormycosis,[13] a rare opportunistic infection involving the brain, nasal cavity, oral cavity, and paranasal sinuses.[14] Rhizopus oryzae, Rhizopus microsporus, and Absidia corymbifera are the commonly isolated species in patients with mucormycosis.[15] Histoplasmosis Histoplasmosis is caused by Histoplasma capsulatum, a dimorphic environmental fungus that thrives in soil contaminated with bat or bird excreta.[16] The 2 clinical entities of histoplasmosis in humans: the infection caused by H capsulatum var capsulatum, known as Darling disease, small-form histoplasmosis, or American histoplasmosis; and the infection caused by H capsulatum var duboisii, referred to as large-form histoplasmosis or African histoplasmosis.[17] Blastomycosis Blastomyces dermatitidis, a spore-forming dimorphic fungus, causes blastomycosis.[18] B dermatitidis organisms live in acidic, moist, and sandy soil. Blastomyces helicus and Blastomyces percursus are the other species recognized in blastomycosis. Cryptococcosis Cryptococcus neoformans var grubii, Cryptococcus neoformans var neoformans, Cryptococcus gattii, Cryptococcus bacillisporus, Cryptococcus deuterogattii, Cryptococcus tetragattii, and Cryptococcus decagattii are the Cryptococcus species known to be pathogenic. Cryptococcus neoformans is found in the excreta of birds, eg, pigeons, in the environment, eg, in amoeba nests, and in tree hollows.[19] Cryptococcus gattii is frequently associated with various eucalyptus species, particularly in tropical and subtropical regions.[20] Paracoccidioidomycosis Paracoccidioidomycosis or South American blastomycosis is caused by the thermodimorphic fungus Paracoccidioides brasiliensis complex, which comprises Paracoccidioides brasiliensis, Paracoccidioides americana, Paracoccidioides restrepiensis, and Paracoccidioides venezuelensis or Paracoccidioides lutzii.[21] Geotrichosis

etiologystatpearls· Etiology· item NBK585050

Paracoccidioidomycosis Paracoccidioidomycosis or South American blastomycosis is caused by the thermodimorphic fungus Paracoccidioides brasiliensis complex, which comprises Paracoccidioides brasiliensis, Paracoccidioides americana, Paracoccidioides restrepiensis, and Paracoccidioides venezuelensis or Paracoccidioides lutzii.[21] Geotrichosis Geotrichosis is a rare opportunistic fungal infection caused by Geotrichum candidum. Species, eg, Geotrichum capitatum and Geotrichum clavatum, can affect the lungs.[22]

epidemiologystatpearls· Epidemiology· item NBK585050

Oral Candidiasis Oral candidiasis is the most common oral fungal infection and is associated with extremes of age, particularly in newborns and older adults. Almost 5% to 7% of infants develop oral candidiasis.[23] Other risk factors include, but are not limited to, oral immunosuppression, diabetes mellitus, malnourishment, long-term steroid treatment, antibiotic treatment, and denture use.[24] The prevalence increases in patients with AIDS, cancer, and those undergoing radiotherapy or chemotherapy.[5] Aspergillosis Aspergillosis is the second most common oral mycosis after candidiasis, with a higher prevalence in males. Though primary invasive aspergillosis is uncommon in the oral cavity, dissemination from the nose or sinuses can result in oral aspergillosis.[25] Aspergillosis frequently occurs in patients with uncontrolled diabetes mellitus, immunocompromising conditions, and those undergoing chemotherapy.[26] The gingiva is the most commonly affected area, followed by the hard palate and maxillary sinus. Mucormycosis Mucormycosis is the third most common oral mycosis and can potentially become a fatal opportunistic fungal infection in individuals with diabetes mellitus, hematological malignancies, or undergoing deferoxamine therapy.[27] Mucormycosis rarely occurs in healthy individuals. The incidence of rhinomaxillary mucormycosis in COVID-19 patients has risen due to poorly controlled diabetes, prolonged use of corticosteroids, cytokine storms, lymphopenia, endothelial damage, and iron dysregulation.[28] Oral mucormycosis commonly occurs in the fourth to sixth decade of life.[29] Moreover, up to half of the patients with mucormycosis have diabetes, and this condition is the most prominent underlying medical comorbidity in infected patients.[30][31] Histoplasmosis

epidemiologystatpearls· Epidemiology· item NBK585050

Mucormycosis is the third most common oral mycosis and can potentially become a fatal opportunistic fungal infection in individuals with diabetes mellitus, hematological malignancies, or undergoing deferoxamine therapy.[27] Mucormycosis rarely occurs in healthy individuals. The incidence of rhinomaxillary mucormycosis in COVID-19 patients has risen due to poorly controlled diabetes, prolonged use of corticosteroids, cytokine storms, lymphopenia, endothelial damage, and iron dysregulation.[28] Oral mucormycosis commonly occurs in the fourth to sixth decade of life.[29] Moreover, up to half of the patients with mucormycosis have diabetes, and this condition is the most prominent underlying medical comorbidity in infected patients.[30][31] Histoplasmosis Histoplasmosis is the most common systemic fungal infection in the United States and is more prevalent in men.[32] Histoplasmosis capsulatum has a worldwide distribution, with the highest prevalence in the central United States. In West Africa, however, Histoplasma duboisii is more common.[17] Histoplasmosis predominantly affects adults and is more frequently reported in individuals with underlying immunocompromising conditions, including HIV/AIDS, hematologic malignancies, organ transplantation, and the use of tumor necrosis factor-α inhibitors.[33] The lungs are the primary site of infection, while oral involvement is relatively uncommon. Disseminated histoplasmosis can affect the oral cavity as part of the initial presentation of a disseminated form, as a localized lesion, or as the only manifestation. Oral histoplasmosis most frequently occurs in the tongue, palate, and lips.[34] Blastomycosis Blastomycosis is endemic in Central and Southern North America. Sporadic cases of blastomycosis in humans have also been documented outside endemic regions, including Hawaii, Israel, India, Africa, and parts of Central and South America.[35] Unlike histoplasmosis, blastomycosis frequently affects immunocompetent individuals, and there is no reliable way to screen for exposure to the fungus. Oral lesions present as a result of dissemination or local inoculation.[36] Blastomycosis is prevalent in men aged 20 to 50 years who work outdoors. Cryptococcosis

epidemiologystatpearls· Epidemiology· item NBK585050

Blastomycosis is endemic in Central and Southern North America. Sporadic cases of blastomycosis in humans have also been documented outside endemic regions, including Hawaii, Israel, India, Africa, and parts of Central and South America.[35] Unlike histoplasmosis, blastomycosis frequently affects immunocompetent individuals, and there is no reliable way to screen for exposure to the fungus. Oral lesions present as a result of dissemination or local inoculation.[36] Blastomycosis is prevalent in men aged 20 to 50 years who work outdoors. Cryptococcosis Cryptococcus neoformans causes infection in both immunocompromised and immunocompetent individuals, but Cryptococcus gattii infects immunocompetent hosts. C neoformans causes 95% of cryptococcal infections, whereas only 4% to 5% are caused by C gattii.[19] HIV patients account for more than 80% of cryptococcosis cases.[19] The central nervous system and lungs are the most frequently affected areas; oral lesions occur rarely. Paracoccidioidomycosis Paracoccidiomycosis is endemic in Latin America, with higher prevalence among males aged 30 to 60.[37][38] The beta-estradiol in female hormones prevents the conversion of hyphae to yeast form, resulting in a lower prevalence in females.[39] Geotrichosis Geotrichosis is rare in the nails, skin, and oral cavity. Pulmonary infection is the most common form of the disease.[40] Most cases occur in adults, with a slight female predominance. Individuals with underlying conditions, eg, tuberculosis, diabetes mellitus, lymphoma, leukemia, HIV/AIDS, or those receiving immunosuppressive therapy are at increased risk of infection.[40]

pathophysiologystatpearls· Pathophysiology· item NBK585050

Oral Candidiasis Candida albicans is a commensal fungus in the oral cavity. Commensal microorganisms reside on the external surface of the body or mucosa without adversely affecting human health. However, they may become pathogenic under certain conditions, causing superficial to invasive disseminated infections. Candida reversibly adheres to the oral epithelial cells through electrostatic interactions in its commensal yeast state.[5] Cell-wall receptors, eg, the agglutinin-like sequence family of glycoproteins, mediate attachment.[5] When host defence mechanisms are impaired, the yeast undergoes a morphological transition to the filamentous hyphal form, a process known as phenotypic switching, which is critical for invasion of host tissues.[5] Host defence against C albicans is primarily mediated by cell-mediated immunity and Th17-associated cytokines; disruption of these mechanisms predisposes to mucocutaneous candidiasis.[41] Extracellular hydrolytic enzymes, eg, secreted aspartyl proteinases and secreted phospholipases produced by C albicans, facilitate host tissue destruction and subsequent invasion.[5] In addition, C albicans can form biofilms on denture bases, increasing virulence and reducing susceptibility to antifungal agents.[42] Aspergillosis The infectious mechanism of aspergillosis involves the fungal conidia entering the respiratory tract by inhalation. In healthy individuals, these spores are effectively cleared by innate immune mechanisms, primarily alveolar macrophages. Neutrophils encounter conidia that escape macrophage surveillance, and in patients with underlying risk factors, the conidia germinate and disseminate by angioinvasion, spreading to the skin, orbits, and palate. After Aspergillus has inoculated the oral cavity, it can invade the host tissues by releasing toxins, eg, aflatoxin, proteases, phospholipases, hemolysin, gliotoxin, and phthalic acid.[25] Spores can also enter the sinuses during dental procedures, eg, root canal procedures or tooth extractions.[43] In hospital settings, exposure to decaying organic matter or inadequate dust control may increase the risk of aspergillosis in vulnerable patients.[44] The infection's clinical manifestation depends on the organism's pathogenicity and the host's immune response. Mucormycosis

pathophysiologystatpearls· Pathophysiology· item NBK585050

After Aspergillus has inoculated the oral cavity, it can invade the host tissues by releasing toxins, eg, aflatoxin, proteases, phospholipases, hemolysin, gliotoxin, and phthalic acid.[25] Spores can also enter the sinuses during dental procedures, eg, root canal procedures or tooth extractions.[43] In hospital settings, exposure to decaying organic matter or inadequate dust control may increase the risk of aspergillosis in vulnerable patients.[44] The infection's clinical manifestation depends on the organism's pathogenicity and the host's immune response. Mucormycosis Fungal spores can gain entry into the host through inhalation into the respiratory tract, direct inoculation at sites of skin trauma, or ingestion through the gastrointestinal tract.[45] Neutrophils and phagocytes play a central role in host defense, explaining the increased susceptibility to mucormycosis in patients with diabetes mellitus, neutropenia, or those receiving deferoxamine therapy. The infection usually starts in the nasal cavity, where the humid environment favors fungal growth. Oral infection usually spreads through the paranasal sinuses via the nose or direct wound contamination. The palate is affected if the infection spreads through the sinuses. Wound contamination can affect any part of the oral cavity. Implantation of the organism into the maxilla can occur during any oral surgical procedure.[29] The fungi exhibit angioinvasion, invading small blood vessels and forming intravascular thrombi, thereby reducing tissue perfusion and resulting in extensive necrosis. In diabetic ketoacidosis, acidosis promotes the release of iron from iron-binding proteins, eg, transferrin, increasing serum iron availability; fungal hyphae produce rhizoferrin, which chelates iron and facilitates fungal iron uptake, thereby enhancing growth and tissue invasion.[46] Histoplasmosis

pathophysiologystatpearls· Pathophysiology· item NBK585050

The palate is affected if the infection spreads through the sinuses. Wound contamination can affect any part of the oral cavity. Implantation of the organism into the maxilla can occur during any oral surgical procedure.[29] The fungi exhibit angioinvasion, invading small blood vessels and forming intravascular thrombi, thereby reducing tissue perfusion and resulting in extensive necrosis. In diabetic ketoacidosis, acidosis promotes the release of iron from iron-binding proteins, eg, transferrin, increasing serum iron availability; fungal hyphae produce rhizoferrin, which chelates iron and facilitates fungal iron uptake, thereby enhancing growth and tissue invasion.[46] Histoplasmosis Histoplasma capsulatum is a thermally dimorphic fungus that exists as a mycelial form in soil enriched with bird or bat guano and converts to a yeast form after inhalation into the host.[32] After passing through the mucosal barriers in the terminal passage of the lungs, the yeasts are phagocytosed by macrophages, and the host defense mechanism usually destroys them, as Dectin-1 is a macrophage receptor that recognizes β-glucan present in the cell wall of Histoplasma. The organism evades immune recognition by masking β-glucan with α-linked glucan and by expressing heat shock protein 60 on its cell surface, which binds to the complement receptor 3 (CR3) on host macrophages and facilitates cellular entry without triggering a significant inflammatory response. In immunocompetent individuals, cell-mediated immunity leads to granuloma formation and containment of infection, whereas impaired immunity permits intracellular proliferation and hematogenous dissemination to reticuloendothelial organs and occasionally the oral mucosa. The most common pathological findings include pulmonary granulomas and intracellular yeast forms within macrophages.[16] Blastomycosis Following inhalation, Blastomyces dermatitidis conidia are phagocytosed by alveolar macrophages, neutrophils, and monocytes. Conidia that survive phagocytosis undergo a morphological shift to the yeast form, which is resistant to phagocytosis due to a thick capsule.[18] The conversion of conidia to yeast form in response to a change in temperature from 71.6 °F (22 °C) to 98.6 °F (37 °C) is essential for its pathogenicity, which is mediated by the virulence factors dimorphism-regulating kinase-1 and blastomyces adhesion-1 (BAD1). Cryptococcosis

pathophysiologystatpearls· Pathophysiology· item NBK585050

Following inhalation, Blastomyces dermatitidis conidia are phagocytosed by alveolar macrophages, neutrophils, and monocytes. Conidia that survive phagocytosis undergo a morphological shift to the yeast form, which is resistant to phagocytosis due to a thick capsule.[18] The conversion of conidia to yeast form in response to a change in temperature from 71.6 °F (22 °C) to 98.6 °F (37 °C) is essential for its pathogenicity, which is mediated by the virulence factors dimorphism-regulating kinase-1 and blastomyces adhesion-1 (BAD1). Cryptococcosis The infectious mechanism of cryptococcosis is characterized by inhaled spores entering the lungs and activating alveolar macrophages. The macrophages, in turn, recruit other immune cells to elicit helper T-cell responses with cytokines including TNF, interferon-γ, and IL-2, causing granulomatous inflammation.[47] The yeast can remain latent within phagolysosomes in thoracic lymph nodes for many years. The prominent mucopolysaccharide capsule and other virulence factors (eg, melanin production, phospholipase, and urease activity) protect the fungi against host defenses, enabling them to survive within macrophages. The fungi produce mucin, causing macrophages to burst and leading to granulomatous inflammation.[48] The infection may become symptomatic or disseminated without a granulomatous reaction. In immunodeficient states, the yeast proliferates and spreads through the blood to the brain by crossing the blood-brain barrier.[49] Paracoccidioidomycosis Paracoccidioides enters the lungs through inhalation. Here, the infected micronidia reach the lower airway, transform into yeast, and then spread to other organs via lymphohaematogenous dissemination.[38] The organism can sometimes enter the mucosa without affecting the lungs.[21] Geotrichosis Geotrichum is a part of the normal oral flora and is not pathogenic in immunocompetent individuals.[40]