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Bacterial, viral, fungal, and other infectious conditions


Besides the common bacterial, fungal, and viral infections of the oral cavity, any infection that occurs in any part of the body may manifest in the mouth, including mycobacterial, treponemal, and protozoal infections, although they are uncommon and rarely occur initially in the mouth. However, in many parts of the world, syphilitic and protozoal infections are on the rise. Polymicrobial bacterial infections in the mouth are common and are generally not subject to biopsy, because most of these are related to dental caries and periodontal infections. Actinomycosis is one bacterial infection that is seen on biopsy with some frequency.

Oral actinomycosis

In the medical literature, the five common sites for actinomycosis are cervicofacial, pulmonary, ileocecal, genitourinary, and central nervous system. The least well-recognized, and yet fairly common, infection involving the jawbones and oral soft tissues is discussed here. Unlike other forms of actinomycosis that are chronic and require months of antibiotic therapy, gnathic actinomycosis generally is a localized infection that is amenable to local debridement and may not even require antibiotic therapy.

Clinical and radiographic findings

  • This occurs in adults in the fifth and sixth decades of life, with equal sex predilection and equal jaw involvement, and patients are usually healthy.

  • The most common manifestation is a periapical infection, painless (80% of cases) or painful, in a root canal–treated or grossly carious tooth. It may also be associated with impacted teeth, periodontal infection around natural teeth, periimplantitis around dental implants, and osteonecrosis and osteomyelitis of the jaws ( Fig. 4.1 A). Chronic untreated mandibular odontogenic infection may lead to cutaneous fistulae and cervicofacial actinomycosis (see Fig. 4.1 B).

    FIG. 4.1, (A) Periapical actinomycosis manifesting within an apical radicular cyst after root canal therapy. (B) Actinomycosis from a carious mandibular molar resulting in cutaneous sinus tract. (C) and (D) Actinomycosis causing a sinus tract on the mucosa with associated periapical radiolucency. (E) Periapical actinomycosis with yellow sulfur granules.

  • A sinus tract (gingival parulis) and suppuration are almost always present, and yellowish “sulfur granules” or “grains” representing masses of bacteria may be noted during the curettage ( Fig. 4.1 C–E).

  • In periapical actinomycosis, there is a nondescript usually >1 cm radiolucency around a necrotic or endodontically treated tooth, a sign of long-standing infection, often associated with perforation of the buccal or lingual/palatal cortex ( Fig. 4.2 A–D).

    FIG. 4.2, (A) and (B) Large periapical radiolucencies of periapical actinomycosis associated with endodontically treated maxillary and mandibular teeth. (C) and (D) Poorly demarcated radiolucency at apices of right maxillary first molar with perforation of both buccal and palatal cortices.

  • Pure soft tissue infections are rare and cases have been noted in the tongue.

  • The presence of Actinomycetes colonies within tonsillar crypts may predispose patients to obstructive tonsillar hypertrophy but this is not considered a form of actinomycosis.

Etiopathogenesis and histopathologic features

Actinomycetes are non–spore-forming, gram-positive microaerophilic, obligate, or facultative filamentous bacteria. There are several species, such as Actinomyces israelii , A. odontolyticus, A. naeslundii, A. gerencseriae, A. viscosus , and A. meyeri. They cause suppurative lesions and enter the bone through a carious tooth, periodontal pockets, or possibly a sinus tract. Actinomycetes have been identified within root canals in 50% of infected root canals. The classic Splendore-Hoeppli effect composed of peripheral eosinophilic star-burst radiations represents deposition of antigen-antibody complexes (immunoglobulins and major basic proteins), inflammatory tissue debris, and fibrin. One theory suggests that this walling off of the bacteria prevents phagocytosis and destruction of the organisms leading to chronicity.

  • Abundant granulation tissue is present with abscesses and acute and chronic inflammation. Concomitant radicular cyst, periapical granuloma, dentigerous cyst, or other pathosis is usually present.

  • “Sulfur granules” are composed of round-to-ovoid masses of slender filamentous bacteria with a peripheral eosinophilic rim, often with eosinophilic star-burst appearance or radiating “clubs” (Splendore-Hoeppli phenomenon) surrounded by neutrophils ( Fig. 4.3 A–D). Clumps of actinomycetes alone without the eosinophilic fringe (representing the host response) are not sufficient for the diagnosis of active infection.

    FIG. 4.3, (A) Periapical granuloma and actinomycosis with sulfur granule (arrow) . (B) Sulfur granule with typical radiating eosinophilic clubs (Splendore-Hoeppli effect) and suppuration. (C) Osteonecrosis of the jaw with bony sequestra with extensive bacterial colonization and sulfur granules (arrow) . (D) Sulfur granule with typical Splendore-Hoeppli effect. (E) Sulfur granule showing variable Gram-positive staining along the filament (Gram variability) (Brown and Brenn stain). (F) Sulfur granule containing slender argyrophilic filaments (methenamine silver stain). (G–H) Bacterial colonies within tonsilliths.

  • Bacteria are gram-variable (gram-positive but with variable intensity of staining along the filament), and argyrophilic with methenamine silver stain (see Fig. 4.3 E–F).

  • Positive culture for actinomyces is not sufficient for the diagnosis since this is a commensal in the biofilm of the teeth and will colonize the surfaces of exposed necrotic bone.

Differential diagnosis

  • Actinomycotic colonies (without the eosinophilic border) are a common component of dental plaque that often contaminates oral biopsy specimens and do not represent actinomycosis in the absence of suppuration and clinical signs. It may also be seen within tonsilliths ( Fig. 4.3 G–H).

  • Masses of actinomycotic organisms are often found on the surface of exposed bony sequestra, such as in osteoradionecrosis or medication-related osteonecrosis of the jaws. This phenomenon represents surface colonization only (biofilm) if sulfur granules are not noted on histopathology ( Fig. 17.8 ).

  • Splendore-Hoeppli reaction is seen not only in actinomycosis but also in other bacterial infections such as botryomycosis, in deep fungal infections such as blastomycosis, and in parasitic infections such as schistosomiasis. Appropriate staining and attention to the morphology of the organism is essential for accurate diagnosis.

Management and prognosis

  • Curettage, 2 to 3 weeks of antibiotics (e.g., amoxicillin, doxycycline, or clindamycin), and removal of the original source of infection (e.g., apical curettage and apicoectomy, extraction of carious or impacted tooth) is curative. Prolonged antibiotic therapy for several months is not required for conventional intraoral actinomycosis.

References

  • Boyanova L, Kolarov R, Mateva L, Markovska R, Mitov I. Actinomycosis: a frequently forgotten disease. Future Microbiol . 2015;10:613-628.

  • Brook I. Actinomycosis: diagnosis and management. South Med J . 2008;101:1019-1023.

  • D’Amore F, Franchini R, Moneghini L, et al. Actinomycosis of the tongue: a case report and review of literature. Antibiotics . 2020;9:124.

  • Gomes-Silva W, Pereira DL, Fregnani ER, Almeida OP, Armada L, Pires FR. Clinicopathological and ultrastructural characterization of periapical actinomycosis. Med Oral Patol Oral Cir Bucal . 2020;25:e131-e136.

  • Hussein MR. Mucocutaneous Splendore-Hoeppli phenomenon. J Cutan Pathol . 2008;35:979-988.

  • Kaplan I, Anavi K, Anavi Y, et al. The clinical spectrum of Actinomyces-associated lesions of the oral mucosa and jawbones: correlations with histomorphometric analysis. Oral Surg Oral Med Oral Pathol Oral Radiol Endod . 2009;108:738-746.

  • Kutluhan A, Salvız M, Yalçıner G, et al. The role of the Actinomyces in obstructive tonsillar hypertrophy and recurrent tonsillitis in pediatric population. Int J Pediatr Otorhinolaryngol . 2011;75:391-394.

  • Kuyama K, Fukui K, Ochiai E, et al. Identification of the actinomycete 16S ribosomal RNA gene by polymerase chain reaction in oral inflammatory lesions. Oral Surg Oral Med Oral Pathol Oral Radiol . 2013;116:485-491.

  • LeCorn DW, Vertucci FJ, Rojas MF, et al. In vitro activity of amoxicillin, clindamycin, doxycycline, metronidazole, and moxifloxacin against oral Actinomyces. J Endod . 2007;33:557-560.

  • Lo Muzio L, Favia G, Lacaita M, et al. The contribution of histopathological examination to the diagnosis of cervico-facial actinomycosis: a retrospective analysis of 68 cases. Eur J Clin Microbiol Infect Dis . 2014;33:1915-1918.

  • Sezer B, Akdeniz BG, Gunbay S, Hilmioglu-Polat S, Basdemir G. Actinomycosis osteomyelitis of the jaws: report of four cases and a review of the literature. J Dent Sci . 2017;12:301-307.

  • Tang G, Samaranayake LP, Yip HK, et al. Direct detection of Actinomyces spp. from infected root canals in a Chinese population: a study using PCR-based, oligonucleotide-DNA hybridization technique. J Dent . 2003;31:559-568.

Herpesvirus infections

Table 4.1 shows the eight herpesviruses that are pathogenic in humans. All herpesviruses establish latency for the lifetime of the host after a primary infection, with periodic reactivation and most adults in the United States are seropositive for many of the herpesviruses. Kaposi sarcoma is discussed in Chapter 6 .

TABLE 4.1
Herpesvirus Infections
Herpesvirus Type Disease Manifestation
HHV-1
Herpes simplex virus-1
Alpha virus		 Oral cavity: Primary herpetic gingivostomatitis and recrudescent herpes stomatitis or herpes labialis
Genital herpes, eczema herpeticum, herpes whitlow, herpes gladiatorum, ocular herpes, herpes encephalitis, disseminated infection
HHV-2 Although usually found on skin and mucosa below the waist (genital herpes), may also be found in the mouth with lesions identical to those of HSV-1, neonatal infection, herpetic whitlow (also see HHV-1 above)
Herpes simplex virus-2
Alpha virus
HHV-3
Varicella-zoster virus
Alpha virus		 Oral cavity: Primary infection exhibits oral ulcers; recrudescent infection is facial or oral shingles along the distribution of the trigeminal nerve and is usually unilateral
Primary infection is chickenpox; skin shingles are common on the trunk
HHV-4
Epstein-Barr virus
Gamma virus		 Oral cavity: Hairy leukoplakia occurs in patients with HIV/AIDS, organ transplant recipients, or other immunocompromised hosts, as well as those on immunosuppressive agents; non infrequently occurs in the healthy host
Epstein-Barr virus mucocutaneous ulcer in immunosuppressed or immunosenescent host
Infectious mononucleosis, Burkitt lymphoma, central nervous system lymphoma, diffuse large B-cell lymphoma, NKT lymphoma, immunodeficiency-associated lymphoproliferative disorder, Hodgkin lymphoma, plasmablastic lymphoma, nasopharyngeal carcinoma, leiomyosarcoma, follicular dendritic cell sarcoma
HHV-5 Oral cavity: Penetrating oral ulcers; organism may be a bystander noted in other ulcerative lesions
Cytomegalovirus Infectious mononucleosis–like syndrome, retinitis, gastroenteritis, hepatitis, pneumonitis
Beta virus
HHV-6 No documented oral findings
Beta virus Roseola infantum, exanthema subitum
HHV-7 No documented oral findings
Beta virus Roseola infantum, exanthema subitum
HHV-8
Kaposi sarcoma herpesvirus
Gamma virus		 Oral cavity: Kaposi sarcoma
Skin and visceral Kaposi sarcoma, primary effusion lymphoma, multicentric Castleman disease, diffuse large B-cell lymphoma
HHV , Human herpes virus; HSV , herpes simplex virus.

Herpes simplex virus and varicella-zoster infection

These two herpesvirus infections result in painful ulcers and blisters of the oral mucosa and skin.

Clinical findings

  • Primary herpetic gingivostomatitis: This is a common herpesvirus infection in the first three decades of life and most are subclinical infections. When symptomatic, there is a viral prodrome of fever, malaise, and sore throat, followed by an acute onset of multiple, painful, clustered, and subsequently coalescent ulcers on any mucosal surface, but frequently on the lip mucosa, tongue, and gingiva. Most cases are associated with herpes simplex virus (HSV)-1 and some with HSV-2 ( Fig. 4.4 A–B)

    FIG. 4.4, Herpes simplex virus infection. (A) Primary infection with coalescent ulcers on the tongue dorsum. (B) Ulcers on the nonkeratinized lip mucosa and marginal gingiva of same patient as in A. (C) Recrudescent herpes labialis in immunocompetent host. (D) Recrudescent herpes simplex on the marginal gingiva in an immunocompetent host. (E) Recrudescent herpes simplex on the hard palatal mucosa. (F) Recrudescent herpes simplex virus ulcer of the ventral tongue and skin in a patient with cancer. (G and H) Recrudescent herpes simplex virus ulcers of the left buccal mucosa and tongue dorsum in a patient with leukemia.

  • Recrudescent infection in healthy hosts: Herpes labialis on the lip (fever blisters or cold sores) is the most common presentation with less common sites being the keratinized mucosa of the hard palatal mucosa and attached gingiva. There are painful, 2- to 3-mm clustered and coalescent ulcers with scalloped borders often induced by injury (e.g., sunburn) or trauma (e.g., dental procedures) (see Fig. 4.4 C–E).

  • Recrudescent infection in immunocompromised hosts: Ulcers occur anywhere on the oral mucosa and may appear aphthous-like if on the nonkeratinized mucosa (see Fig. 4.4 F–H).

  • More than 50% of cases of erythema multiforme are induced by HSV reactivation (see Chapter 8 ).

  • Primary varicella-zoster virus (VZV): This infection causes vesicles on erythematous skin (“dew drop on a rose petal”) and also in the mouth that rupture to form ulcers. Reactivation of VZV tends to occur in older adults, in immunocompromised hosts, and in those on biologic therapies such as tumor necrosis factor inhibitors.

  • Herpes zoster: This results in linear blisters and ulcers in a dermatomal distribution on the skin along the course of a sensory nerve, as well as in the oral cavity and facial skin corresponding to the distribution of the trigeminal nerve ( Fig. 4.5 ). Postherpetic neuropathy occurs frequently in older adults and can be chronic and debilitating.

    FIG. 4.5, (A) Recrudescent varicella-zoster infection: oral shingles exhibiting coalescent ulcers of the right hard palatal mucosa. (B) Recrudescent varicella-zoster infection affected the skin of the left lower face.

Etiopathogenesis and histopathologic features

HSV and VZV are DNA viruses that are cytotoxic to epithelial cells. After primary infection, latency is established in sensory ganglia and peripherally at mucosal sites. Reactivation of HSV either leads to asymptomatic shedding, which is the primary means of transmission, or results in painful lesions as noted previously (also referred to as recrudescence ).

  • Multinucleated giant epithelial cells are present superficially at the edge of the ulcer and exhibit “nuclear molding,” with nuclei containing “ground-glass” amphophilic Cowdry inclusions. Similar cells are noted if the edge of the ulcer is scraped (Tzanck test), and the presence of HSV or VZV may be confirmed by immunohistochemical studies ( Fig. 4.6 ).

    FIG. 4.6, Herpes simplex virus (HSV) infection. (A) HSV ulcer of dorsum of tongue. (B) Multinucleated epithelial cells at the edge the ulcer exhibiting smudgy Cowdry inclusions and nuclear molding. (C) Immunohistochemical study confirms the presence of HSV-1.

  • A biopsy of only the center of the ulcer without epithelium may not show viral inclusions and cannot be presumed to be negative for HSV or VZV infection.

  • Positive polymerase chain reaction (PCR) test or culture for HSV should be correlated with clinical findings because asymptomatic shedding (induced by trauma, illness, or stress) is a frequent occurrence.

Differential diagnosis

  • The epithelium adjacent to an ulcer may contain multinucleated giant epithelial cells, but these cells have abundant cytoplasm, no nuclear molding, dispersed chromatin, and no Cowdry inclusions, although nucleoli may be prominent ( Fig. 11.32 ). They tend to be within the suprabasal area of intact epithelium instead of superficially and immediately adjacent to the ulcer.

Management and prognosis

  • Primary HSV infections, or recrudescent HSV infections in immunocompromised patients, as well as herpes zoster infections, are managed with supportive care, hydration, pain control, and systemic therapy with acyclovir, valacyclovir, or famciclovir (see Appendix B ).

  • Herpes labialis may be successfully managed with a 1- or 2-day course of valacyclovir or famciclovir, topical acyclovir, penciclovir, or docosanol ( Appendix B ). The use of sunscreen often prevents recrudescent herpes labialis induced by sun damage.

References

  • Arain N, Paravastu SC, Arain MA. Effectiveness of topical corticosteroids in addition to antiviral therapy in the management of recurrent herpes labialis: a systematic review and meta-analysis. BMC Infect Dis . 2015;15:82.

  • Eisen D. The clinical characteristics of intraoral herpes simplex virus infection in 52 immunocompetent patients. Oral Surg Oral Med Oral Pathol Oral Radiol Endod . 1998;86:432-437.

  • Elad S, Zadik Y, Hewson I, et al. A systematic review of viral infections associated with oral involvement in cancer patients: a spotlight on Herpesviridae. Support Care Cancer . 2010;18:993-1006.

  • Woo SB, Challacombe SJ. Management of recurrent oral herpes simplex infections. Oral Surg Oral Med Oral Pathol Oral Radiol Endod . 2007;103(suppl 12):e1-e18.

  • Woo SB, Lee SF. Oral recrudescent herpes simplex virus infection. Oral Surg Oral Med Oral Pathol Oral Radiol Endod . 1997;83:239-243.

Hairy leukoplakia

Hairy leukoplakia is caused by the Epstein-Barr virus (EBV), and the term leukoplakia as used in this context is for historical reasons and does not connote any tendency for dysplasia or malignancy.

Clinical findings

  • Hairy leukoplakia occurs most commonly in immunocompromised individuals, especially those with HIV/AIDS with low CD4 counts and in organ transplant recipients.

  • However, many cases have been reported in healthy patients, usually older adults, possibly due to immunosenescence, with a slight female predilection, unlike in patients with HIV/AIDS.

  • Hairy leukoplakia presents as a white, painless, linear lesion or plaque, usually on the lateral border of tongue, and cases are usually bilateral. Classically, white linear lesions run perpendicular to the long axis of the tongue ( Fig. 4.7 ).

    FIG. 4.7, Hairy leukoplakia. (A) Typical vertical fissures on lateral border of tongue. (B) White plaque and fissures, likely with secondary candidiasis. (C) Faint white plaque of the ventral tongue in a healthy patient.

Etiopathogenesis and histopathologic features

EBV establishes latency in peripheral memory B lymphocytes and one theory proposes that these B lymphocytes migrate to the lamina propria or to the oral epithelium where EBV undergoes productive replication resulting in hairy leukoplakia. However, another theory is that EBV latently infects blood-borne Langerhans cell precursors which transport EBV to the oral epithelium where they mature into Langerhans cells and where productive replication occurs.

  • There is variable parakeratosis and bacterial colonization may be present if the lesion has been traumatized; candidal hyphae and/or spores may be present, often in the absence of spongiotic pustules in immunocompromised hosts ( Figs. 4.8 and 4.9 A). Sharp demarcation of parakeratin from the underlying band of pale, edematous superficial keratinocytes is characteristic though not specific for the diagnosis.

    FIG. 4.8, Hairy leukoplakia. (A) Oral mucosa with shaggy parakeratosis, acanthosis and keratinocyte edema. (B) There is candidal colonization without spongiotic pustules and keratinocytes exhibit peripheral condensation of chromatin surrounding smudgy central Cowdry inclusions.

    FIG. 4.9, Hairy leukoplakia. (A) Oral mucosa with parakeratosis and underlying band of edematous, ballooned cells. (B) Keratinocytes exhibit peripheral condensation of chromatin, coarsely clumped chromatin, and smudgy Cowdry inclusions. (C) In situ hybridization study shows nuclear positivity for Epstein-Barr virus–encoded RNA. (D) Electron photomicrograph showing peripheral condensation of chromatin (“beading”) and nucleus filled with virions that constitute the Cowdry inclusion.

  • Virally infected cells within these pale keratinocytes show central Cowdry inclusions (“ground-glass,” homogeneous, amphophilic nuclear mass consisting of virions) with margination or “beading” of chromatin against the nuclear membrane (see Figs. 4.8 B and 4.9 B). Such findings are readily identified on exfoliative cytology. In situ hybridization studies show nuclear positivity for Epstein-Barr–encoded RNA (EBER); Epstein-Barr nucleic acid, and latent membrane protein (LMP) may be also positive (see Fig. 4.9 C).

  • Ultrastructurally, there are herpesvirus-sized particles in the center of the nucleus (Cowdry inclusion) with chromatin margination at the periphery ( Fig. 4.9 D).

Differential diagnosis

  • Factitial/frictional keratosis due to bite trauma does not show Cowdry inclusions or chromatin margination and is negative for EBV by in situ hybridization ( Fig. 4.10 ).

    FIG. 4.10, Frictional/factitial parakeratosis. (A) Oral mucosa with parakeratosis and underlying band of pale cells and acanthosis. (B) There is no evidence of Cowdry inclusions and chromatin margination is absent.

  • Reactive epithelial atypia may be present and should not be over-diagnosed as dysplasia.

Management and prognosis

  • Adjustment of antiretroviral therapy in patients with HIV/AIDS or reduction of immunosuppressive therapy in post-organ transplant patients may resolve lesions, and candidiasis should be treated ( Appendix B ).

  • Since cases are usually asymptomatic, no treatment is necessary. However, cases have resolved with a combination of topical antiherpetic medications (such as 1% penciclovir or 5% acyclovir cream/ointment), valacyclovir, and 25% podophyllin resin.

  • Hairy leukoplakia may be the first indication of HIV-positive status and patients should be tested if there are risk factors for HIV exposure in the patient’s history.

  • Patients who are HIV negative should be reassured that this is not necessarily an indication of some other as yet undiagnosed immunosuppressive disorder.

References

  • Almazyad A, Alabdulaaly L, Noonan V, Woo SB. Oral hairy leukoplakia: a series of 45 cases in immunocompetent patients. Oral Surg Oral Pathol Oral Radiol . 2021:132:210-216.

  • Alramadhan SA, Bhattacharyya I, Cohen DM, Islam MN. Oral hairy leukoplakia in immunocompetent patients revisited with literature review. Head Neck Pathol . 2021;15:989-993.

  • Bhayat A, Yengopal V, Rudolph M. Predictive value of group I oral lesions for HIV infection. Oral Surg Oral Med Oral Pathol Oral Radiol Endod . 2010;109:720-723.

  • Casiglia J, Woo SB. Oral hairy leukoplakia as an early indicator of Epstein-Barr virus-associated post-transplant lymphoproliferative disorder. J Oral Maxillofac Surg . 2002;60:948-950.

  • Chambers AE, Conn B, Pemberton M, et al. Twenty-first-century oral hairy leukoplakia—a non–HIV-associated entity. Oral Surg Oral Med Oral Pathol Oral Radiol . 2015;119:326-332.

  • Darling MR, Alkhasawneh M, Mascarenhas W, Chirila A, Copete M. Oral hairy leukoplakia in patients with no evidence of immunosuppression: a case series and review of the literature. J Can Dent Assoc . 2018;84:i4.

  • Fraga-Fernández J, Vicandi-Plaza B. Diagnosis of hairy leukoplakia by exfoliative cytologic methods. Am J Clin Pathol . 1992;97:262-266.

  • Moura MD, Haddad JP, Senna MI, et al. A new topical treatment protocol for oral hairy leukoplakia. Oral Surg Oral Med Oral Pathol Oral Radiol Endod . 2010;110:611-617.

  • Walling DM, Ray AJ, Nichols JE, et al. Epstein-Barr virus infection of Langerhans cell precursors as a mechanism of oral epithelial entry, persistence, and reactivation. J Virol . 2007;81:7249-7268.

Epstein-barr virus mucocutaneous (ulcer) (lymphoproliferative disease)

This entity is considered a “lymphoid proliferation associated with immune deficiency and dysregulation” in the 2022 WHO classification of B-cell lymphoid proliferations and lymphomas.

Clinical findings

  • Approximately 66% of patients are on iatrogenic immunosuppression for treatment of autoimmune diseases and post-organ transplantation with the most common medication being methotrexate in 46% of cases while 8% to 11% of patients are on azathioprine, mycophenolate, prednisone, rituximab and cyclosporine A; most of these patients are in the seventh decade of life. Females constitute 60% of patients probably because this condition is often seen in patients with rheumatoid arthritis which has a female predilection.

  • The second most frequently affected population are older patients with age-related immunosenescence constituting 27% of cases and these patients are in the eighth decade of life.

  • Less frequently affected patients are those undergoing cancer chemotherapy, those with HIV/AIDS, and those with primary immunodeficiency syndromes.

  • It presents as a nonhealing, generally fairly large painful ulcer of the oral mucosa with the tongue and tonsils comprising 58% of cases ( Fig. 4.11 A).

    FIG. 4.11, Epstein-Barr virus mucocutaneous ulcer. (A) Necrotic ulcer of the palatal mucosa. (B) Ulcerated mucosa with an intense, deep lymphocytic infiltrate. (C) The infiltrate is polymorphous and contains atypical Hodgkin-like cells with convoluted nuclear outlines. (D) Lymphocytes are positive for CD30 and CD20 ( inset , CD20). (E) Lymphocytes are positive for Epstein-Barr–encoded RNA.

  • The gastrointestinal tract especially the anorectal region and the skin each comprise 20% of cases and the genital mucosa is infrequently affected; 17% exhibit multifocal disease.

Etiopathogenesis and histopathologic features

This is believed to arise from reactivation of latent EBV infection due to immunocompromise or immunosenescence. EBV latency typing reveals predominantly latency pattern II (as seen in Hodgkin lymphoma and nasopharyngeal carcinoma) with expression of genes for Epstein-Barr nuclear antigen (EBNA)-1 and LMP-1 and LMP-2.

  • There is deep ulcer with a polymorphous infiltrate of lymphocytes, plasma cells, eosinophils, atypical immunoblast-like lymphocytes, and Hodgkin-like or Reed-Sternberg–like cells; the pattern may be diffuse or angiocentric ( Fig. 4.11 B–C).

  • The atypical immunoblast-like lymphocytes and Hodgkin-like or Reed-Sternberg–like cells are CD30+, EBER+, and LMP+, and also positive for B-cell markers namely CD20, MUM-1, and PAX-5 ( Fig. 4.11 D–E). A small lymphocyte variant has been reported without the presence of atypical blast-like cells. There is variable positivity for CD79a, CD15, CD45, BCL-2, and BCL-6. PDL1 but not PD1 may be present within the atypical cells. There is a background of CD3+ T cells, usually around the atypical infiltrate, and focal necrosis may be present. Ki67 proliferation index in the EBER+ cells may be as high as 25%, and less than 25% in the EBER cells. There are at least 50 EBV+ cells/high power field in almost all cases.

  • Some cases show polyclonal, oligoclonal, or clonal IgH and T-cell receptor gene rearrangements.

Differential diagnosis

  • Traumatic ulcerative granuloma with stromal eosinophilia does not generally show atypical Reed-Sternberg cells but may have many eosinophils, lymphocytes, and histiocytes. Older reports of CD30+ traumatic ulcerative granulomas may have represented cases of EBV mucocutaneous ulcers.

  • EBV-negative diffuse large B-cell lymphoma appears similar but consists of sheets of large, atypical lymphocytes and is not polymorphic as seen in EBV mucocutaneous ulcers; such lymphomas are CD30–, and positive for mutations such as MYD88 , CD79A , CD79B , CARD11 , and EZH2 which are not seen in EBV mucocutaneous ulcers.

  • Classic Hodgkin lymphoma is positive for B-cell markers as well as being CD30+ and is also positive for EBV but this is a very rare occurrence in the oral cavity.

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