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Nonneoplastic Lesions of the Cervix


The uterine cervix is divided into ectocervix, endocervix, and transformation zone. The ectocervix is lined by mature glycogenated squamous epithelium comprised of basal and parabasal cells, which progressively mature as they move towards the mid and superficial layers. Maturation is characterized by an ascending increase in cytoplasmic volume, usually associated with intracellular glycogen, which appears as a clear perinuclear space imparting a “basket weave” appearance to the epithelium ( Fig. 7.1 ). Estrogen stimulates epithelial proliferation, maturation, and desquamation, while progesterone inhibits this process. Squamous atrophy secondary to low estrogen levels is found during the premenarchal and postmenopausal periods.

FIG. 7.1
Normal ectocervix. Mature nonkeratinizing squamous epithelium, which in reproductive age accumulates glycogen in the surface layers (basket weave appearance).

The endocervical mucosa contains surface epithelium and endocervical glands lined by a single layer of mucinous columnar epithelium. The endocervical “glands” actually represent deep, cleft-like infoldings of the surface epithelium and tunnel-like collaterals ( Fig. 7.2 A,B ). The tall columnar epithelial cells have basally-oriented, small, round-to-oval nuclei and finely vacuolated, mucin-filled cytoplasm. At the junction between the cervix and the isthmus, the glandular epithelium transitions to a tuboendometrioid morphology with mucin depletion and apical blebs and/or cilia. Mitoses are rarely observed within the normal endocervical glands. The endocervical glands are subject to reactive, metaplastic, and hyperplastic changes.

FIG. 7.2
Normal endocervix. Relatively uniform “glands”, which in fact represent clefts and invaginations of the mucosa which may include branching, undulated and stellate clefts and areas of marked cystic dilation (A, see scanning magnification in inset ). The normal endocervix can have papillary architecture (B). These examples demonstrate the architectural heterogeneity of the endocervix, which can vary greatly over time and topographically.

The transformation zone is the region of metaplastic squamous epithelium located between the original squamocolumnar junction and the new, physiologic squamocolumnar junction ( Fig. 7.3 ). It is believed that squamous metaplasia arises from the subcolumnar reserve cells, either via the multipotent capabilities of these cells to differentiate into the squamous and glandular cells of the cervix, or via “top down” differentiation of squamocolumnar junction cells into subcolumnar reserve cells, and in turn, to other cells types. Of note, most human papilloma virus (HPV)–related squamous intraepithelial lesions begin at the physiologic squamocolumnar junction.

FIG. 7.3
Functional squamous–columnar junction at the transformation zone, displaying squamous metaplasia characterized by orderly cellular stratification, distinct cell borders, and nuclear monotony; residual endocervical glandular cells can be seen in the surface.

It is important to recognize the various benign squamous and glandular lesions of the cervix as many of these can mimic HPV-related and HPV-unrelated premalignant and malignant proliferations. Metaplastic or atrophic squamous epithelium, which lacks normal maturation, may closely resemble a high-grade squamous intraepithelial lesion (HSIL), whereas glandular epithelium with reactive, metaplastic, or hyperplastic changes may be concerning for in situ or invasive endocervical adenocarcinoma. In these situations, in addition to close examination of architectural and cytologic features and mitotic activity, a p16 immunostain is often a helpful diagnostic adjunct as strong and diffuse cytoplasmic and nuclear immunoreactivity is a surrogate for high risk HPV infection. Gastric-type adenocarcinoma of the cervix (including minimal deviation adenocarcinoma [MDA]/adenoma malignum), which is not related to HPV infection, is another frequent consideration in the differential diagnosis and a significant exception to this approach.

Squamous and Squamous-Like Conditions

Immature Squamous Metaplasia

Clinical Features

Squamous metaplasia is the replacement of the mucinous endocervical epithelium by stratified squamous epithelium through a process of subcolumnar reserve cell proliferation and differentiation. Squamous metaplasia is a very common finding in women of reproductive age. On colposcopy, squamous metaplasia can be appreciated as pink to white areas with branching surface vessels located in transformation zone. With acetic acid, these areas become pale to glassy with a membranous appearance. They will acquire a mahogany brown or black color with Lugol’s iodine.

Pathologic Features

Immature squamous metaplasia is located adjacent to the physiologic squamocolumnar junction and undergoes maturation as it extends along the surface toward the ectocervix. Nests of immature squamous cells are found subjacent to the surface within replaced endocervical glands ( Fig. 7.4A ). Reflecting the lack of maturation, the cells have a high nuclear to cytoplasmic ratio throughout all layers of the epithelium, yielding an increased nuclear density. However, the cells often have distinct cell borders and conspicuous spinous processes and the nuclei are evenly spaced without overlap. The nuclei are uniform in size and shape and contain fine chromatin and nucleoli discernible at high power magnification. Mitotic activity is variable and usually confined to the basal and parabasal layers. Residual endocervical cells or mucin droplets may be present at the superficial/luminal aspect ( Fig. 7.4B ). Immature squamous metaplasia develops into mature squamous metaplasia, which is virtually indistinguishable from the ectocervical epithelium, except for its location in the surface of the endocervix and the underlying endocervical glands ( Fig. 7.4C ).

FIG. 7.4, Immature squamous metaplasia. Benign squamous epithelium with incomplete maturation occupies endocervical glands and surface (A). Residual cuboidal mucinous epithelium can be sometimes seen on the surface, undermined by squamous metaplasia; note the orderly maturation and the even chromatin detail of the nuclei (B). Once it achieves full maturation, squamous metaplasia is undistinguishable from the ectocervix, other than its location overlying and partially replacing endocervical glands (C).

Atypical immature metaplasia (AIM) is a vague and controversial term, formerly used to describe metaplastic squamous epithelium with greater cellularity and more prominent cytologic atypia but absent to equivocal koilocytosis and rare mitoses. AIM actually represents a heterogeneous group of lesions reclassified as benign (metaplastic or reactive) or HPV-related squamous intraepithelial lesions based on MIB-1 proliferation index, p16 staining and HPV status. Thus, this term is no longer recommended as nowadays most lesions with this equivocal morphology can be correctly classified using morphology and ancillary testing.

Ancillary Studies

Squamous metaplasia is positive for squamous markers such as p63 and p40. It is negative for p16 or shows only patchy, discontinuous, and mostly cytoplasmic positivity. ProExC is usually negative and MIB-1 immunoreactivity is confined to the basal and parabasal layers.

Differential Diagnosis

Squamous metaplasia is a well-known benign mimic of HPV-related HSILs . HSILs are distinguished by crowded nuclei with a high nuclear to cytoplasmic ratio, nuclear pleomorphism, hyperchromasia, and coarse chromatin, and mitotic activity in the upper two-thirds of the epithelium, including atypical mitoses. HSIL with an immature metaplastic phenotype can be especially difficult to identify, as the partial maturation resembles metaplasia and masks the HPV-related nuclear changes. Immunohistochemical studies are quite helpful in challenging cases. The recent CAP/ASCCP Lower Anogenital Squamous Terminology Standardization project for HPV-associated lesions recommends the use of p16 immunohistochemistry when the differential diagnosis is between a precancerous lesion and a benign mimic such as squamous metaplasia or atrophy. Strong and diffuse cytoplasmic and nuclear p16 staining within at least the lower third of the squamous epithelium (“block positive” pattern) supports the diagnosis of an HSIL. ProExC (MCM2/TOP2A), which is a newer marker targeted against DNA topoisomerase IIA and mini-chromosome maintenance protein 2, is also potentially useful in this differential diagnosis. Almost all HSILs display strong nuclear staining with ProExC within the full thickness of the lesion. A combination of ProExC and p16 provides higher specificity for the detection of HSIL than either marker alone.

Prognosis and Treatment

Immature squamous metaplasia is a benign process and does not require treatment, as it naturally evolves towards a mature squamous metaplastic phenotype.

Squamous Atrophy

Clinical Features

Atrophy represents changes in the squamous epithelium related to low levels of estrogen. It is most commonly identified in postmenopausal women but may also

Immature Squamous Metaplasia—Fact Sheet

Definition

  • □n

    Replacement of endocervical epithelium in the transformation zone by immature squamous cells

Prevalence, Incidence, and Location

  • □n

    Common; part of physiologic change during reproductive years

Age Distribution

  • □n

    Reproductive age

Clinical Features

  • □n

    Incidental microscopic finding

  • □n

    Colposcopic findings

  • □n

    Light pink or whitish area with prominent branching surface vessels located within transformation zone

  • □n

    With acetic acid, patchy pale areas or glassy white-pink membranes with tongue-like projections toward the os

  • □n

    Mahogany brown or black with Lugol’s iodine

Treatment and Prognosis

  • □n

    Benign, self-limited condition. No treatment

be seen in younger patients who have undergone bilateral oophorectomy, and those who are postpartum or taking oral contraceptive pills (OCPs) with low estrogen content. Although squamous atrophy is usually asymptomatic, only coming to attention at the time of routine screening for cervical cancer, some patients may present with postmenopausal, intermenstrual, or postcoital vaginal bleeding. On colposcopy, atrophy appears as pale and opaque mucosa with subepithelial petechiae (due to manipulation trauma during examination).

Immature Squamous Metaplasia—Pathologic Features

Microscopic Findings

  • Stratified squamous epithelium with incomplete maturation

  • Less cytoplasm compared to mature epithelium

  • Increased nuclear density with evenly spaced nuclei

  • Nuclei with uniform size and shape, fine chromatin, and small nucleoli

  • Overlying endocervical cells or mucin droplets at surface/luminal aspect

  • Immunohistochemical Featuresp16 and ProExC negative

  • Ki-67: variable staining (usually confined to basal/parabasal layer)

Differential Diagnosis

  • HSIL

Pathologic Features

Squamous atrophy is characterized by thinning of the epithelium (<5 cell layers) and reduced or absent cytoplasmic maturation in the mid and superficial zones (partial versus complete atrophy, respectively). The squamous cells show decreased cytoplasm and little to no intracytoplasmic glycogen. Although there is an increased nuclear-to-cytoplasmic ratio, the nuclei are uniform in size and spacing, and generally small, round-to-oval in shape and smoothly contoured ( Fig. 7.5 ). They may appear somewhat hyperchromatic, but the chromatin is fine and evenly dispersed. Cellular polarity is maintained. Mitotic activity is only rarely seen, and is always confined to the basal and parabasal layers.

FIG. 7.5, Squamous atrophy. Markedly thin epithelium (< 3 layers) with minimal maturation, but no cytologic atypia.

Ancillary Studies

Atrophic squamous epithelium is negative for p16 and ProExC and has a low MIB-1 proliferation index, with only few positive cells in the basal layers.

Differential Diagnosis

Atrophy may be mistaken for a HSIL due to the appearance of crowded cells with a high nuclear-to-cytoplasmic ratio at low magnification. In contrast to atrophy, HSILs display conspicuous nuclear overlap, nuclear enlargement, hyperchromasia and coarse chromatin. Mitoses are more numerous and both typical and atypical forms extend into the superficial half of the epithelium. In cases that are difficult to distinguish by H&E morphology alone, immunohistochemical studies showing diffuse strong nuclear and cytoplasmic positivity for p16 and an elevated MIB-1 index confirm the diagnosis of HSIL.

The term “postmenopausal squamous atypia” refers to the presence of pseudokoilocytes in the setting of atrophy or transitional cell metaplasia (TCM). These cells have perinuclear halos and subtle membrane irregularity. Although they may be mistaken for low-grade squamous intraepithelial lesion (LSIL), they can be distinguished by their small and uniform nuclear size (with no more than two-fold enlargement), central placement within the perinuclear halo, and less frequent bi-/multinucleation.

Prognosis and Treatment

Topical estrogen is the treatment for symptomatic cases of cervical and vulvovaginal atrophy. There is no increased risk of dysplasia or carcinoma.

Squamous Atrophy—Fact Sheet

Definition

  • Squamous epithelium with lack of normal maturation due to decreased estrogen

Prevalence, Incidence, and Location

  • Common in postmenopause, status post-oophorectomy, postpartum, or in patients on low estrogen content OCPs

Age Distribution

  • Postmenopausal women (most commonly)

Clinical Features

  • Usually asymptomatic, but may be associated with postmenopausal, intermenstrual, or postcoital bleeding

Colposcopic Findings

  • Pale, brittle mucosa without luster, sometimes with subepithelial petechiae due to manipulation trauma to subepithelial capillaries

Treatment and Prognosis

  • Benign condition

  • Topical estrogen if symptomatic

Squamous Atrophy—Pathologic Features

Microscopic Findings

  • Thin epithelial thickness (< 5 layers) with less pronounced maturation

  • Cells with decreased cytoplasm and little to no intracytoplasmic glycogen (high N:C ratio)

  • Nuclei may be crowded and hyperchromatic but are uniform in size and shape and contain fine chromatin

  • Rare basal mitoses

  • Immunohistochemical Featuresp16 and ProExC negative

  • Ki-67 shows occasional staining confined to basal/parabasal layers

Differential Diagnosis

  • HSIL

  • LSIL

Transitional Cell Metaplasia

Clinical Features

TCM is part of the spectrum of atrophy, and therefore typically seen in postmenopausal women most commonly detected as an incidental histologic finding. Its name refers to its resemblance to hyperplastic urothelium.

Pathologic Features

TCM consists of a thickened epithelium (>10 cell layers) with a “streaming” appearance and lack of squamous maturation. The lesional cells have distinctive oval-to-elongated nuclei with pale chromatin and longitudinal grooves ( Fig. 7.6 ). Perinuclear cytoplasmic halos are common, but in contrast to LSIL, they are uniform in size and contain centrally placed nuclei. The nuclei have a uniform vertical distribution in the basal aspect of the epithelium, and a horizontal streaming orientation towards the surface. At the surface, these horizontally oriented cells resemble the umbrella cells of the normal urothelium. Mitoses are infrequent. Rare cases show intraepithelial glandular differentiation resembling cystitis glandularis.

FIG. 7.6, Transitional cell metaplasia. This is a form of atrophy of the cervix. Notice the orderly orientation of the epithelium, vertical towards the base and horizontal towards the surface resembling abortive umbrella cells (arrow); squamous nuclei are elongated and have easily identifiable grooves (arrowheads).

Ancillary Studies

Immunohistochemical studies have shown that TCM expresses cytokeratins 7 and 18, but it seldom expresses cytokeratin 20 (unlike normal urothelium). Scattered cells within the basal layers can show neuroendocrine differentiation, highlighted by immunoreactivity for calcitonin and serotonin.

Differential Diagnosis

Like other benign lesions that lack maturation, such as immature squamous metaplasia and squamous atrophy, TCM must be distinguished from a HSIL . The diagnosis is facilitated by an appreciation of the cytologic features at high magnification: HSIL characteristically shows nuclear pleomorphism, hyperchromasia, coarse chromatin and increased mitotic activity. Although few cases of TCM with mild to moderate atypia have been reported in the largest series, it is uncertain whether these represent a dysplastic process or not. Strong, diffuse immunoreactivity for p16 will support a diagnosis of HPV-related HSIL.

Prognosis and Treatment

As a benign and mainly incidental finding, TCM is an indolent lesion that does not usually require treatment, unless associated with symptomatic cervical atrophy.

Adenoid Basal Hyperplasia

Adenoid basal hyperplasia is a rare lesion of the cervix that resembles adenoid basal carcinoma and is postulated to arise from the sub-columnar reserve cells. It is an incidental microscopic finding in women of reproductive or postmenopausal age. Adenoid basal hyperplasia is found close to the squamocolumnar junction. It consists of nests of basaloid cells that are in continuity with the reserve cell basal epithelium. Small gland-like spaces are present at the center of some nests. Squamous differentiation is rare. Adenoid basal hyperplasia is differentiated from adenoid basal carcinoma by its small size, superficial location with attachment to the overlying epithelium and absence of stromal infiltration, uncommon squamous differentiation, lack of mitotic activity and inconsistent association with HPV infection.

Transitional Cell Metaplasia—Fact Sheet

Definition

  • Squamous epithelium resembling urothelium; likely representing a morphologic variant of atrophy

Prevalence, Incidence, and Location

  • Uncommon, affects mostly cervix but also vagina

Age Distribution

  • Postmenopausal women

Clinical Features

  • Incidental microscopic finding

Treatment and Prognosis

  • Benign, no treatment required

Transitional Cell Metaplasia—Pathologic Features

Microscopic Findings

  • Thickened epithelium with lack of squamous maturation

Elongated Nuclei, Nuclear Grooves, Perinuclear Halos

  • Basal nuclei are vertically oriented; superficial nuclei streaming horizontally oriented

  • Superficial cells may resemble umbrella cells

  • Immunohistochemical Featuresp16 and ProExC negative

  • Ki-67 shows low labelling, limited to basal aspect

Differential Diagnosis

  • HSIL

Squamous Papilloma

Noncondylomatous, nondysplastic squamous papillomas of the cervix are very rare and the diagnosis should be rendered only after the exclusion of other entities in the differential diagnosis, including exophytic LSIL and HSIL, and more importantly squamous cell carcinoma of the papillary/squamotransitional variant.

Inverted Transitional Cell Papilloma

Inverted transitional cell papillomas of the cervix are very rare benign lesions that resemble the entity of the same name in the bladder. It must be distinguished from papillary squamotransitional cell carcinoma of the cervix and urothelial carcinoma with secondary cervical spread, both of which exhibit cytologic atypia, mitotic activity, and in some cases, evident invasion.

Glandular and Gland-Like Conditions

Tubal and Tuboendometrioid Metaplasia

Clinical Features

Metaplasia of tubal or tuboendometrioid type is a common finding in the cervix. Tubal metaplasia is present in approximately 30% of cervical specimens, including 60% of hysterectomies and 20% of cone biopsies, according to one large series. It is found in patients spanning a wide range of ages, often following cervical biopsy, Loop Electrosurgical Excision Procedure (LEEP), or cold knife cone excision. Although it has been suggested that estrogen contributes to this phenomenon in the endometrium, the same is unknown for the cervix. It is important to note that the junction between the upper endocervix and the lower uterine segment (isthmus) is characterized by tubal-like ciliated epithelium, and thus, some lesions labeled as tubal metaplasia may simply represent sampling of this area.

Pathologic Features

Tubal metaplasia is characterized by replacement of the mucinous endocervical epithelium with tubal-like epithelium consisting of ciliated cells, nonciliated (secretory) cells, and intercalary (peg) cells ( Fig. 7.7 ). Tuboendometrioid metaplasia has, in addition to tubal-type epithelium, alternating areas of columnar nonmucinous and nonciliated cells with apical snouts, similar to the inactive endometrium ( Fig. 7.8A ). Both forms of metaplasia lack cytologic atypia and mitotic activity. The metaplastic epithelium is found within architecturally normal endocervical glands and overlying surface epithelium, more commonly in the upper than the lower endocervix, and usually confined to the superficial third of the cervical wall. Importantly, the periglandular stroma can appear reactive with hypercellularity, edema, myxoid change, and inflammation, especially in metaplasia after cervical procedures ( Fig. 7.8B ).

FIG. 7.7, Tubal metaplasia. Endocervical epithelium is replaced by tubal-type epithelium with varying proportions of ciliated (usually predominant), secretory, and peg cells.

FIG. 7.8, Tuboendometrioid metaplasia. The epithelium is mucin-depleted and has tubal and endometrioid-like bland cytomorphology (A). At low power magnification, the periglandular stroma shows mild hypercellularity, which should not be misinterpreted as endocervical adenocarcinoma associated with stromal desmoplasia (B).

Tubal and tuboendometrioid metaplasia may raise concern for in situ or invasive adenocarcinoma. It may be present in deep glands and can display stromal changes similar to desmoplasia. In addition, worrisome features such as nucleomegaly, cellular crowding, and varying degrees of pseudostratification are common. Few reports in the literature have described typical and atypical tubal metaplasia with a pseudoinfiltrative growth pattern and atypical tuboendometrioid adenosis as forms of extensive adenosis of the cervix related to in utero diethylstilbestrol (DES) exposure.

Ancillary Studies

Tuboendometrioid metaplasia is positive for bcl-2 and hormone receptors. In addition, these lesions show negative to patchy immunoreactivity for p16, and the MIB-1 proliferation index is usually less than 10%.

Differential Diagnosis

HPV-related adenocarcinoma in situ (AIS) and invasive adenocarcinoma are the major considerations in the differential diagnosis. At low magnification, both adenocarcinoma and tubal metaplasia stand out against the background of normal mucinous endocervical epithelium due to a more darkly stained appearance. At higher magnification, AIS and adenocarcinoma of the usual type are characterized by pseudostratified columnar cells with mucin depletion, malignant nuclear features, apoptotic bodies, and apical “floating” mitoses. A ciliated variant of AIS, rarely reported in the literature, poses a greater diagnostic challenge, but can be recognized by the presence of nuclear dysplastic features, conspicuous proliferation, and immunohistochemical results. An immunohistochemical panel including bcl-2, ER, p16, and MIB-1 may be useful in challenging cases. In contrast to tubal and tuboendometrioid metaplasia, endocervical adenocarcinoma is strongly and diffusely positive for p16 (nuclear and cytoplasmic), and negative for bcl-2 and ER. An MIB-1 proliferation index is typically greater than 30% in AIS versus less than 10% in benign mimics. Endometriosis is composed of Mullerian glands with an endometrioid/tuboendometrioid appearance, thus overlapping with tuboendometrioid metaplasia. Endometriosis can be recognized by the presence of periglandular endometrial-type stroma and evidence of chronic bleeding (hemosiderin-laden macrophages).

Prognosis and Treatment

Tubal and tuboendometrioid metaplasia is a benign condition that does not require treatment.

Other Types of Metaplasia

Oxyphilic

Oxyphilic metaplasia is an incidental microscopic finding. It is focally present as a single gland or few glands lined by large, cuboidal, or polygonal epithelial cells with dense, finely vacuolated, eosinophilic cytoplasm. On occasion, this change can feature enlarged, hyperchromatic, vesicular, or multilobate nuclei with prominent nucleoli. Stratification and mitotic activity are absent. Although its appearance may be worrisome, uneventful follow-up in a small series of cases supports that this lesion is benign in nature.

Intestinal

Intestinal metaplasia, characterized by glandular epithelium with goblet cells and occasionally argentaffin cells, is very rarely encountered in an otherwise benign cervix. It is more commonly identified in the context of in situ or invasive adenocarcinoma of intestinal type. A diagnosis of intestinal metaplasia should only be made after careful evaluation has excluded malignancy.

Pyloric

A gastric phenotype is present in HPV-independent glandular neoplasia, which includes gastric-type adenocarcinoma. It is also seen in benign conditions such as type A tunnel clusters and lobular endocervical hyperplasia (LEGH), and rarely in otherwise unremarkable endocervical epithelium as cells with eosinophilic granular cytoplasm resembling normal pyloric type mucosa ( Fig. 7.9 ). Alcian blue/periodic acid-Schiff (PAS) staining will show neutral (gastric) type mucin, instead of the acid type mucin of the normal endocervix. Immunohistochemical studies for HIK1083 and MUC6 can also be used to confirm the presence of pyloric gland mucin.

FIG. 7.9, Simple gastric (pyloric-type) metaplasia. Glandular cells with eosinophilic granular cytoplasm occupy the upper aspect of the endocervical gland (compare to the normal endocervical mucinous appearance on the lower aspect of the gland).

Endometriosis

Clinical Features

Endometriosis is defined as endometrial glands and/or stroma outside of the uterine corpus. Cervical involvement by endometriosis is typically less common than other sites in the reproductive tract and abdominopelvic cavity. It is found in 2%–4% of patients undergoing colposcopic examination, predominantly women of reproductive age in their 20s to 50s. Cervical endometriosis can either be superficial or deep in location. Superficial endometriosis is often localized in areas of trauma in patients who have had a prior surgical procedure (curettage, biopsy, electrocautery excision), abortion, or vaginal delivery, suggesting that at least some of these cases represent trauma-induced metaplasia or implantation of eutopic endometrium. In contrast, deep endometriosis is usually an extension of cul-de-sac involvement by pelvic endometriosis.

Tubal and Tuboendometrioid Metaplasia—Fact Sheet

Definition

  • Replacement of endocervical glands by epithelium resembling that of fallopian tube and endometrium

Prevalence, Incidence, and Location

  • Up to 30% of cervical specimens

  • Frequently seen after prior cervical biopsy or excision

  • Preferentially in upper endocervix, superficial third of wall

Age Distribution

  • Wide age range

Clinical Features

  • Incidental microscopic finding

  • May be detected as atypical glandular cells on Pap smear

Treatment and Prognosis

  • No treatment; benign

Tubal and Tuboendometrioid Metaplasia—Pathologic Features

Microscopic Findings

  • Tubal-like epithelium consisting of ciliated or clear cells, nonciliated (secretory) cells and intercalary (peg) cells

  • Tuboendometrioid metaplasia also has nonciliated cells with apical snouts resembling inactive endometrium

  • Nucleomegaly, cellular crowding, varying degrees of pseudostratification, and scant mitotic activity can be observed

Immunohistochemical Features

  • Bcl-2, ER, and PR positive.p16 negative or patchy

  • CEA negative

  • Low MIB-1 index (<10%)

Differential Diagnosis

  • Endocervical adenocarcinoma (in situ and invasive)

  • Endometriosis

Superficial endometriosis manifests with premenstrual spotting, brownish vaginal discharge or postcoital bleeding. However, many cases (up to 50%) are asymptomatic and incidental. If it comes to attention at routine Papanicolaou smear, it is not infrequently diagnosed as atypical glandular cells of undetermined significance (AGUS). Deep endometriosis presents with symptoms similar to abdominopelvic endometriosis and includes cyclic pelvic pain.

Pathologic Features

Gross Findings

Cervical endometriosis may be associated with gross abnormalities in cervical excisions and hysterectomies, such as thickened, diffusely granular, or heaped up and hemorrhagic mucosa; a polypoid mass; or cervical stenosis. In many cases, no gross abnormality is appreciated.

Microscopic Findings

Superficial endometriosis is generally confined to the superficial third of the cervical wall immediately beneath the surface epithelium, sometimes with overlying ulceration ( Fig. 7.10 ). The lesions range from few glands to several millimeters in greatest dimension. The glands tend to resemble those of proliferative endometrium, being well-spaced and round-to-oval, although occasionally they show irregularity in size and shape and crowded spacing. Mitotic figures can be conspicuous depending on the hormonal state. Glands are embedded within dense but occasionally sparse endometrial-type stroma with small arterioles and extravasated red blood cells. Stroma usually contains varying amounts of hemosiderin and hemosiderin-laden macrophages. Other nonspecific findings include chronic inflammation, edema, fibrosis, and elastosis. Stromal endometriosis is an uncommon variant composed predominantly to exclusively of endometrial-type stroma (thus, with absence or paucity of glands). Rarely, endometriosis can grow in a polypoid fashion resembling an endometrial polyp (“polypoid endometriosis”) or a polypoid adenomyoma.

FIG. 7.10, Superficial (mucosal) endometriosis. The mucosa is disrupted by a hemorrhagic area containing mucin-depleted endometrioid glands which are surrounded by densely cellular and hemorrhagic stroma.

Ancillary Studies

Endometriotic glands are positive for ER, PR, pax-2, and bcl-2 and show negative to patchy p16 staining. Endometriotic stromal cells are strongly CD10-positive and CD34-negative, whereas cervical stromal cells usually have the opposite pattern of expression. Reticulin and trichrome stains highlight endometriotic foci, revealing a fine reticulin network and sparse collagen (red) in the endometriotic stroma, in contrast to abundant thick collagen fibers (blue) and lack of reticulin fibers in the cervical stroma.

Differential Diagnosis

Superficial endometriosis is distinguished from tuboendometrioid metaplasia primarily by the identification

Endometriosis—Fact Sheet

Definition

  • Ectopic endometrial glands and stroma or stroma only (“stromal endometriosis”)

Prevalence, Incidence, and Location

  • 2%–4% of women undergoing colposcopy

  • Superficial endometriosis: usually inner third of wall

  • Deep endometriosis: deeply located and associated with pelvic endometriosis

Age Distribution

  • Reproductive age

Clinical Features

  • Superficial endometriosis:

    • Abnormal vaginal bleeding

    • Atypical glandular cells on Papanicolaou smear

  • Deep endometriosis

    • Pelvic pain

Treatment and Prognosis

  • Generally excellent prognosis

  • Rarely associated with endometrioid carcinoma

Endometriosis—Pathologic Features

Gross Findings

  • Thickened, diffusely granular, or heaped up and hemorrhagic mucosa; polypoid mass; or cervical stenosis

Microscopic Findings

  • Proliferative endometrium-like glands, usually well-spaced and round-to-oval, embedded in endometrial-type stroma

  • Hemorrhage, hemosiderin, chronic inflammation, histiocytes, fibrosis

Immunohistochemical Features

  • Endometrial glands: BCL-2, PAX-2, ER, and PR positive; p16 positive, but usually focal or patchy

  • Endometrial stroma: CD10 positive, CD34 negative

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