Pathology Of The Ovary PDF

Summary

These notes detail the pathology of the ovary. The document covers learning objectives, further reading material, and study questions related to ovarian tumors. The document is useful for medical students studying reproductive system and gynecology.

Full Transcript

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Pathology of the Ovary

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Pathology of the Ovary
Instructor: Lucy Ma, MD; email: [email protected]
Block 5: Urology/Endocrine/Reproduction
Thread: Pathology

Learning Objectives
By exam time, you should be able to do the following:
1. Categorize the major types of ovarian tumors by tissue of origin
(epithelial, germ cell, sex cord–stromal).
2. Classify ovarian epithelial tumors based on both histologic features
(serous, mucinous, endometrioid, etc.) and malignant potential
(benign, borderline, and malignant).
3. Discuss the associations between BRCA mutations, TP53, and highgrade serous carcinoma.
4. Describe and identify the major subtypes of germ cell tumors.
5. Describe and identify the major subtypes of sex cord–stromal
tumors.
6. Discuss the most common primary tumor types that metastasize to
the ovary.

Further Reading
Prat J, Mutter GL. The Female Reproductive System and Peritoneum. In:
Strayer DS, Saffitz JE, Rubin E. Rubin’s Pathology Mechanisms of Human
Disease. Eighth edition. Wolters Kluwer; 2020. (Available online to
students via the Scott Library)

Study Questions
1. A 37-year-old patient presents with anovulation and clitoromegaly.
They have also noticed worsening acne and coarse facial hair. Pelvic
exam demonstrates an adnexal mass. Assuming their adnexal mass is
causing her symptoms, what is the most likely diagnosis?

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2. A 19-year-old patient is at their family medical doctor for a new
patient visit. On their intake form, they note that their grandmother
died young from “some kind of ‘lady’ cancer” and three of their
aunts had breast cancer. Based on the family history, which type of
ovarian neoplasm are they most at risk for? What sort of
prophylactic measures might be considered?
3. A 32-year-old patient presents to their OB-GYN with a positive
home pregnancy test. Office ultrasound is notable for an adnexal
mass and an unremarkable uterus with no evidence of intrauterine
pregnancy. Based on this clinical history, what is the most likely
diagnosis? What is the most likely neoplastic diagnosis?
4. A 54-year-old patient with a history of endometriosis presents to
their OB-GYN with increased abdominal discomfort and a
sensation of “pelvic fullness.” An exploratory laparotomy and
hysterectomy with bilateral salpingo-oophorectomy shows a large left
ovarian mass. Histologic exam reveals back-to-back tubular
endometrioid-like glands with cribriform architecture, nuclear atypia
with stromal invasion, as well as foci of benign endometrial type
glands with endometrial stroma. What is the most likely diagnosis?
What genetic alterations, if any, would you expect to see in their
tumor?
5. A 70-year-old patient presents with melena and pelvic fullness.
Abdominal and pelvic imaging reveals bilateral ovarian masses as
well as a diffusely thickened gastric lining. An upper GI endoscopy
study reveals gastric carcinoma. What histology do you expect to see
in the ovaries?

Ovarian cycle
a. First ovarian cycle at puberty is called menarche; cessation of
ovarian cycle is called menopause
b. Length of cycle is ~21-35 days (on average 28 days)
c. Divided into two phases:
a. Follicular phase  follicle development to ovulation
i. Ovarian follicle consists of an oocyte surrounded
by inner layer of granulosa cells and outer layer
of theca cells

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ii. During follicular phase, ovaries produce single
dominant follicle (termed Graafian follicle)
selected for ovulation
b. Luteal phase  ovulation to menses
i. Following ovulation, the remaining granulosa
cells of the follicle luteinize transform into
corpus luteum
d. Ovulation (egg released from ovary) is stimulated by LH surge
e. Generally, theca cells secrete androgens (under the influence of
LH) while granulosa cells secrete estrogen (under the influence
of FSH)

Polycystic Ovarian Syndrome (PCOS)
a. One of the most common endocrine/metabolic disorders in
reproductive age
b. Principal features  androgen excess, ovulatory dysfunction,
and polycystic ovaries
c. Clinical presentation: infertility, oligomenorrhea, hirsutism,
acne, obesity
d. Etiology: not entirely clear; quite complex with multiple
potential etiologies
e. Pathophysiology: cardinal finding is elevated LH (or elevated
LH:FSH level)
a. Persistently elevated LH leads to absence of LH surge, and
therefore, absence of ovulation. LH acts on theca cells to
secrete androgens. In turn, androgens are converted to
estrogen.
i. Excess androgens lead to clinical presentation of
hirsutism, acne, etc.
ii. Excess estrogens lead to increased risk of
endometrial hyperplasia/carcinoma
iii. Impaired ovulation leads to infertility and
oligomenorrhea

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b. Insulin resistance and hyperinsulinemia
i. Increased risk of type 2 diabetes
f. Histology: bilaterally enlarged ovaries with multiple/numerous
follicle cysts and thick fibrous capsule, absence of corpus luteum

Endometriotic Cyst
a. Also known as “endometrioma” or “chocolate cyst” clinically
b. Etiology & pathophysiology : endometriosis involving ovary
a. Repeated cycles of hemorrhage leads to brown, “chocolate”
color
c. Histology: evidence of endometriosis lining a cyst
a. Endometriosis: 1) endometrial glands, 2) endometrial
stroma, 3) hemosiderin-laden macrophages (from
accumulation of old blood)

Ovarian Neoplasms
a. Epidemiology:
i.
In the US, ovarian cancer is 2nd most common
gynecologic malignancy following uterine cancer, but
it is the most common cause of death from
gynecologic cancer
ii.
5th leading cause of cancer death in natal females
(following lung, breast, colorectal, and pancreatic
cancers)
b. Categorization: By ovarian component
i.
Surface/fallopian tube epithelium  surface
epithelial tumors
ii.
Germ cells germ cell tumors
iii.
Sex cord/stromal cellssex cord-stromal tumors
iv.
Extraovarian  metastasis

Surface Epithelial Ovarian Neoplasms
a. Classified by epithelial type and malignant potential
b. Classification by malignant potential
i. Benign
1. Minimal to mild cytologic atypia

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2. Minimal epithelial proliferation
3. 80% of ovarian tumors
ii. Borderline
1. Mild to moderate cytologic atypia
2. Increased epithelial proliferation with
complex architecture
3. NO INVASION
iii. Malignant/Carcinoma
1. Marked cytologic atypia
2. Marked epithelial proliferation with complex
architecture
3. Invasive
c. Classification by epithelial type
i. Three major histologic types
1. Serous
2. Mucinous
3. Endometrioid
ii. Rare subtypes
1. Brenner/Transitional cell
2. Clear cell
d. Serous ovarian tumors
i. Most common ovarian neoplasm
ii. Histology: Fallopian tube-like epithelium (ciliated
columnar)
iii. 30% are malignant (Serous ovarian carcinoma)
1. Malignant low-grade (Type 1)
2. Malignant high-grade (Type 2)
iv. Low-grade serous ovarian carcinoma
1. Progress from
benignborderlinecarcinoma
2. Mutations: KRAS, BRAF, ERBB2
v. High-grade serous ovarian carcinoma
1. No association with
benignborderlinecarcinoma tumor
pathway
2. Arise from Fallopian tube epithelium via
intraepithelial precursors
3. Associated with BRCA1 and BRCA2
germline mutations
4. Mutations: TP53

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5. Accounts for majority of ovarian carcinoma
diagnoses and related deaths
e. Mucinous ovarian tumors
i. Usually benign or borderline
1. Primary mucinous ovarian carcinomas are
rare
ii. 20-25% of ovarian epithelial neoplasms
iii. Histology: Columnar epithelial cells with cytoplasmic
mucin
iv. Mutations: KRAS
f. Endometrioid ovarian tumors
i. Malignant (carcinoma) more common than benign
and borderline
ii. 10-15% of all ovarian carcinomas
iii. 15-20% associated with endometriosis
iv. Mutations: PTEN, CTNBB1, ARIDA1
v. Histology is identical to that of endometrial
endometrioid carcinoma

Germ Cell Tumors
a. 15-20% of all ovarian tumors; comprise second largest group
of ovarian neoplasms
b. Similar to germ cell tumors of the testis
c. Four main types
i. Teratoma
ii. Dysgerminoma
iii. Yolk sac
iv. Nongestational choriocarcinoma
d. Rare Subtypes
i. Embryonal
ii. Mixed germ cell
e. Teratoma
i. Most common germ cell tumor
ii. Three categories
1. Mature “benign” teratoma
a. Also known as “dermoid cyst”
b. Comprises ~95% of germ cell tumors

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c. Contains components of mature
tissue types (ectoderm, mesoderm,
and endoderm)
i. Although usually benign,
mature tissue type can
undergo malignant
transformation; i.e.,
squamous cell carcinoma!
d. Associated with anti-NMDA receptor
encephalitis
2. Immature (malignant) teratoma
a. Contains immature fetal tissue,
typically immature neuroepithelium
3. Monodermal/specialized teratoma
a. Mature teratomas made up of entirely
one type of tissue
b. Classic examples:
i. Struma ovarii: Mature thyroid
tissue only, can be functional
(hyperthyroidism), can be site
of origin of papillary thyroid
carcinoma
ii. Ovarian carcinoid:
Neuroendocrine tumor, can
also be functional
f. Dysgerminoma
i. Ovarian counterpart to testicular seminoma
ii. Malignant potential: considered malignant but
variable levels of aggressiveness
iii. Histology: Similar to testicular seminoma, large
vesicular cells with clear cytoplasm, well-defined cell
borders, and centrally-placed nuclei, arranged in
nests/cords, separated by fibrous septa containing
lymphocytes or granulomatous inflammation
iv. May show elevated serum LDH
g. Yolk sac (endodermal sinus tumor)
i. Derived from extraembryonic yolk sac structures
ii. Malignant potential: Malignant
iii. Histology: Characteristic for Schiller-Duval bodies
and hyaline globules
iv. May show elevated serum alpha feta protein (AFP)

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h. Nongestational choriocarcinoma
i. Derived from extraembryonic trophoblastic
structures  composed of cytotrophoblasts and
syncytiotrophoblasts
ii. Extremely rare; most commonly seen as a
component in mixed germ cell tumors
iii. Histology: Resembles gestational choriocarcinomas
with sheets of atypical trophoblasts.
iv. May show elevated serum beta-hCG

Sex-Cord Stromal Tumors
a. Derived from ovarian stroma and sex cords of the embryonic
gonad
b. Can have hormonal effects
c. Three main types
i. Granulosa cell
ii. Fibroma/thecoma/fibrothecoma
iii. Sertoli-Leydig
d. Granulosa cell tumor
i. Resemble developing ovarian follicle
ii. Adult and juvenile subtypes
iii. May have elevated serum estrogen, systemic
symptoms of hyperestrogenic state (endometrial
hyperplasia/carcinoma, or precocious puberty in
children)
iv. Adult granulosa cell tumor
1. Recurrent FOXL2 mutations
2. Histology: nuclear grooves, Call-Exner bodies
(small follicle-like structures filled with
eosinophilic material)
3. May have elevated serum inhibin
e. Fibroma/Thecoma/Fibrothecoma
i. Derived from ovarian stromal cells
1. Fibroblasts  Fibroma
2. Theca cells  Thecoma
3. Mixture of both  Fibrothecoma
ii. Malignant potential: Mostly benign, rare incidences
of sarcoma
iii. Histology: Low grade spindle cells with
collagenous/fibromatous stroma

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iv. Associated with multiple syndromes, including:
1. Meigs syndrome: hydrothorax, ascites, and
ovarian fibroma
2. Basal nevus (Gorlin) syndrome: Basal cell
carcinoma, keratocystic odontogenic tumors,
bilateral ovarian fibromas
f. Sertoli-Leydig
i. Derived from sex cords of embryonic gonad,
composed of various amounts of Sertoli and Leydig
cells
ii. Often androgen-secreting
1. Virilization, hirsutism, voice changes
iii. Histology: Sertoli tubules and groups of Leydig cells
(polygonal pink cells)

Metastasis to Ovary
a. Ovary is most common site of metastasis within the
gynecologic tract
b. Often BILATERAL ovarian involvement
c. Common sites of origin: GI tract (most common), breast,
and other Müllerian organs
d. Krukenberg Tumor
i. Refers to bilateral ovarian masses composed of
mucinous signet ring cells, usually of gastric origin

Answers to Study Questions
These answers are not meant to be all encompassing; rather they are examples of the
types of thought processes needed for application of the material.
1. A 37-year-old patient presents with anovulation and clitoromegaly.
They have also noticed worsening acne and coarse facial hair. Pelvic
exam demonstrates an adnexal mass. Assuming their adnexal mass is
causing her symptoms, what is the most likely diagnosis?
Answer: The clinical symptoms are indicative of virilization, suggestive of a
testosterone-secreting lesion. The ovarian tumor most commonly associated
with virilization is a Sertoli-Leydig tumor.
2. A 19-year-old patient is at their family medical doctor for a new

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patient visit. On their intake form, they note that their grandmother
died young from “some kind of ‘lady’ cancer” and three of their
aunts had breast cancer. Based on the family history, which type of
ovarian neoplasm are they most at risk for? What sort of
prophylactic measures might be considered?
Answer: The family history is strongly suggestive of a BRCA1 or BRCA2
mutation, which has an estimated risk of ovarian cancer of 20-60% by age
70. Because the most commonly associated ovarian cancer is high-grade
serous carcinoma, a bilateral salpingo-oophorectomy may be a considered a
prophylactic measure. They will require counseling regarding fertility and the
hormonal impact of a bilateral oophorectomy.
3. A 32-year-old patient presents to their OB-GYN with a positive
home pregnancy test. Office ultrasound is notable for an adnexal
mass and an unremarkable uterus with no evidence of intrauterine
pregnancy. Based on this clinical history, what is the most likely
diagnosis? What is the most likely neoplastic diagnosis?
Answer: The most likely diagnosis of an adnexal mass in a patient with an
increased hCG and no evidence of intrauterine pregnancy is an ectopic
pregnancy. However, assuming that they are not pregnant, one possible
neoplastic cause is a mixed germ cell tumor with a choriocarcinoma
component.
4. A 54-year-old patient with a history of endometriosis presents to
their OB-GYN with increased abdominal discomfort and a
sensation of “pelvic fullness.” An exploratory laparotomy and
hysterectomy with bilateral salpingo-oophorectomy shows a large left
ovarian mass. Histologic exam reveals back-to-back tubular
endometrioid-like glands with cribriform architecture, nuclear atypia
with stromal invasion, as well as foci of benign endometrial type
glands with endometrial stroma. What is the most likely diagnosis?
What genetic alterations, if any, would you expect to see in their
tumor?
Answer: The tumor description of marked nuclear atypia and stromal
invasion is diagnostic of an adenocarcinoma. The background showing foci
of benign endometrial glands and endometrial stroma is compatible with
endometriosis; therefore, this is consistent with an endometrioid carcinoma
of the ovary. The most common genetic mutations are CTNNB1, PIK3CA,
KRAS, ARID1A, and PTEN.
5. A 70-year-old patient presents with melena and pelvic fullness.

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Abdominal and pelvic imaging reveals bilateral ovarian masses as
well as a diffusely thickened gastric lining. An upper GI endoscopy
study reveals gastric carcinoma. What histology do you expect to see
in the ovaries?
Answer: Bilateral ovarian masses in the setting of diffuse gastric cancer is
suggestive of metastatic gastric carcinoma involving the ovaries (or
Krukenberg tumors), in which the histology would appear as diffuse
infiltration of mucinous signet-ring cells.