Gastrointestinal Pathology. Группа авторов
periodic acid–Schiff (PAS, Figure 2.5) or Grocott methenamine silver (GMS) stains. In Candida (Torulopsis) glabrata infections, only small budding yeast forms are seen, which may mimic histoplasmosis.
Figure 2.4 Debris of slough off superficial squamous epithelium with fungal hyphae and acute inflammation.
Figure 2.5 PAS stain of Figure 2.4 illustrating the fungal elements of Candida albicans.
Figure 2.6 Multinucleated basal keratinocytes typical of HSV esophagitis.
Candida can colonize preexisting ulcers or damaged mucosa of any etiology, and in such cases the possibility of dual infection or pathology should be considered. Also, when Candida yeast forms are present only in desquamated keratin debris unassociated with inflammation or endoscopic findings, carry over from an oral infection should be suspected. Cytologic brushings are also very useful in the diagnosis of Candida esophagitis, as the organisms are readily identified on Papanicolaou stained smears.
Herpes Simplex (HSV)
If HSV infection is suspected, in addition to biopsies for histology, fresh tissue can be sent for viral culture to confirm the diagnosis and identify strains that may be resistant to acyclovir. HSV infection is associated with ulceration and a mixed inflammatory infiltrate of intraepithelial neutrophils, eosinophils, and lymphocytes, as well as aggregates of macrophages that can be a diagnostic clue. HSV infects squamous cells of intact or denuded epithelium and is best identified at the edge of an ulcer and in cells within the ulcer slough. Therefore, optimal histologic diagnosis requires sampling of the ulcer edge rather than the ulcer bed. The typical viral cytopathic effects include multinucleation, ground glass nuclei, and dense intranuclear eosinophilic inclusions with a thickened nuclear membrane and a clear halo (Cowdry type A inclusion bodies) (Figure 2.6). Viral inclusions and multinucleated cells are not always identifiable in biopsies, and ancillary immunohistochemistry (IHC) staining for HSV may be required. Concomitant infection of Candida, cytomegalovirus, or bacteria can exist, particularly in immunocompromised patients. Varicella Zoster Virus has been associated with esophagobronchial fistula formation.
Cytomegalovirus (CMV)
Culture is not used routinely, and does not distinguish the simple presence of CMV from active infection; however, culture may be useful for identifying drug resistance.
Ulceration and granulation tissue formation with associated acute inflammation is common. In contrast to HSV esophagitis, CMV rarely infects the squamous epithelium, and preferentially involves endothelial cells, stromal cells, and glandular epithelium. Therefore, biopsies of the ulcer bed should preferentially be performed when CMV esophagitis is suspected (Figure 2.7). CMV cytopathic effect is characterized by nuclear enlargement with classic “owl eye” large intranuclear inclusions, and granular, eosinophilic cytoplasmic inclusions (Figure 2.8a). Smaller, atypical intranuclear inclusions may be present and are more subtle, simulating activated fibroblasts. These infected cells are best identified by immunohistochemical staining (Figure 2.8b). CMV may coexist with HSV and Candida infection in some cases.
Figure 2.7 Erosive esophagitis with prominent granulation and atypical cellular elements.
Bacterial Esophagitis
Sheets of bacteria are typically present with associated necrosis and mucosal erosion, highlighted by a tissue Gram stain. Inflammation may be scant or absent in neutropenic patients.
Mycobacterial Esophagitis
Histologic features include subepithelial and mural necrotic and non‐necrotic granulomas with fibrosis and chronic inflammation. Acid fast bacilli can be recognized on Ziehl–Neelsen stain in approximately 2/3 of cases.
Immunohistochemical Studies and Molecular Features
IHC staining for HSV (HSV 1 and 2 cocktail stain) may be useful for suspected infections if diagnostic inclusions are not readily identified on H&E sections. Similarly, IHC for CMV is useful to highlight infected cells without typical CMV morphology, and may be more sensitive than light microscopy.
PCR for M. tuberculosis may be useful in selected cases.
Figure 2.8 High‐magnification evaluation of Figure 2.7 demonstrated (a) endothelial CMV infection (b) confirmed by immunohistochemistry.
Differential Diagnosis
Clinical
Inflammatory changes of the esophagus can be seen in many conditions, most commonly acid reflux disease. Behcet's disease may present with focal ulcers, as can pill‐induced (associated with an impacted pill, which may or may not be present during exam) ulcers.
Microscopic
The differential diagnosis of Candida esophagitis includes reflux esophagitis, drug injury, glycogenic acanthosis, ectopic sebaceous glands, and other infections.
The differential diagnosis of HSV esophagitis includes other etiologies of mucosal ulceration, including other infections, Crohn's disease, HIV‐associated ulceration, and drug injury. In some cases, the cytologic atypia induced in the squamous epithelium by the viral cytopathic effects of HSV may be difficult to distinguish from squamous dysplasia/carcinoma, as well as radiation esophagitis.
Prognosis, Evolution, and Clinical Management
Most patients present with dysphagia or odynophagia and undergo upper endoscopy with biopsy. Infectious etiologies are treated with appropriate antimicrobials (e.g. fluconazole for candida), typically with high response rates. In immunosuppressed patients, including those on chronic inhaled steroids, frequent retreatment, or chronic suppressive treatment, may be necessary after full efforts to restore immune function.