Reproductive System Pathology Part 1 PDF

Summary

This document covers various aspects of pathology related to the reproductive system, focusing on male urogenital and breast issues. It includes details of tests, pathology cases, histology, and practice questions. This content is suitable for students studying reproductive system pathology in medical education.

Full Transcript

Reproductive System
Pathology Part 1– Male
Urogenital and Breast
Pathology Cases
1. Testes – Normal histology

2. Testis – Epididymo-orchitis

3. Testis – Torsion

4. Testis – Hydrocele

5. Testis – Seminoma

6. Prostate – Normal Histology

7. Prostate – Benign Nodular hyperplasia (BPH)

8. Prostate – Adenocarcinoma

9. Bladder – Normal Histology

10. Bladder – Transitional Cell Carcinoma

11. Breast – Normal Histology

12. Breast – Fibroadenoma

13. Breast – Ductal Carcinoma
Case 1: Testis – Normal
Histology
Role of the testes: production of spermatozoa and
androgens. testosterone
Organisation: subdivided by septa into ~250 lobules.
Each lobule contains 1-4 seminiferous tubules
embedded in surrounding stroma (each tubule is 30-
70cm long). tightly coiled

The septa converge posteriorly at a thickened region
called the mediastinum testis; this is where the
seminiferous tubules also open into a network called
the rete testis.
where all converge and drain
 tightest
The thick capsule surrounding the testis is the tunica The lining of the
albuginea; external to this is a double layer of mesothelium, seminiferous tubules is
the tunica vaginalis.
find some fluid
composed of tall columnar
cells called sustentacular
cells (Sertoli cells) - the
supporting cells for
spermatogenesis – and 3-4
polygonal
interstitial
produce testosterone
layers of smooth muscle
with LH cells. supporting cells
help favour sperm production

The interstitial cells of
faded purple Leydig are the endocrine
cells of the testis, found
between seminiferous
outside - stem cells
tubules. These synthesise
lumen
and secrete testosterone.
spermatids
second division, spermatids
 stem cells closest

Spermatogonia

line by smooth muscle

divide again
Spermatids

island of Leydig
 Case 2: Epididymo-orchitis
replaced by abscess, surgical removal

Epididymitis = inflammation of the epididymis
Orchitis = inflammation of the testicles
spreads to testicle
inflammation of testicle and epididymis

Cause varies with age of the patient.
- Children: uncommon but may be associated with
congenital anomalies and Gram-negative urinary tract
infections. improper development
backflow of bacteria
- Sexually active men under the age of 35: sexually
transmitted infections with Gonorrhoea or Chlamydia
should be suspected.
- Men over the age of 35: urinary tract infections and
prostatitis are more common with Pseudomonas and
Acute epididymitis caused by gonococcal; E.coli being the main culprits. TB version in prac
older males UTI granuloma, giant cell
epididymis is replaced by an abscess (Robbins) inflame prostate, retention of urine UTI, sexually transmitted

*the case you will be reviewing in practicals this week is a case of tuberculous epididymo-orchitis
Epidiymo-orchitis
Presentation: Management:
- Symptoms develop over 24-48 hours If suspected sexually transmitted organism –
Ceftriaxone and doxycycline or azithromycin
- Swollen, red, tender testicle
(antibiotic coverage for Chlamydia and
- ++Pain painful urination, frequencty Gonorrhoea)
- Systemic signs of fever, nausea, vomiting in severe cases
- Symptoms of underlying cause also present (dysuria, discharge etc.) If suspected UTI – trimethoprim or ceflex for 2
weeks (as for prostatitis)
- Positive Prehn’s sign (relief of pain on elevation of the testis)
elevate testicle, relieve pain - epididymal-orchitis

Tests: torsion, ischaemia - need untwisting

- Urine MCS
- STD panel urine

- Standard bloods (FBC, Chem20, CRP) white cell count

- Doppler ultrasound to exclude torsion
make sure there is supply
 Bacterial invasion induces non-specific acute inflammation
characterised by congestion, oedema, and infiltration by neutrophils,
eventually macrophages, and lymphocytes. May result in atrophy of the tubules
(left) and may progress to abscess formation. With treatment, acute
epididymo-orchitis heals with fibrous deposition and scarring that can
lead to infertility; some cases persist and become chronic.
*Leydig cells are spared (usually); androgen production is not affected
pick up and treat early infertile due to scarring

not well defined
Sertoli cells, light pink with
loss of chromatin distribution
Case 3 - Testicular arteries typically patent

Torsion
swollen and painful
Most important differential for
presentations involving painful
swelling of the testicles.
Results from twisting of the
spermatic cord, cutting off venous
drainage.
One of the few true urological
emergencies. time-limited
The arteries remain patent,
producing intense vascular
engorgement and eventual Testicular Torsion (Robbins)
haemorrhagic infarction.
twists and cuts off drainage
 Occurs most commonly in adolescence.
Usually results from a bilateral anatomic

Testicular Torsion defect that leads to increased mobility of
the testes (bell-clapper abnormality –
high attachment of the tunica vaginalis
leaving the testis to freely rotate),
precipitated by increased growth of the
testes during puberty.
unusually high attachment of tunica vaginalis

Presents with sudden onset extreme
testicular pain, often without inciting
injury or on waking.
The affected testicle is swollen, tender,
testicle pulled up
high riding and high-riding. Nausea/vomiting and
abdominal pain may be present. The
testicle may be red and may contain
blue/purple areas of infarction.
Prehn’s sign is NEGATIVE.
no amount of lifting will relieve pain

Manual untwisting of the testicle must
occur within 6 hours of symptom onset.
Orchiopexy is also performed.
both testicles saved
6 hours to save fix to scrotum
 heterogenous - areas of necrosis 24 hrs to see

hyperechoic - haemorrhage

doppler for flow

look at swelling

normal

surgery for clinical criteria
remove
gravity
Case 4: Hydrocele

all fluid

impaired drainage, fluid accumulation
Presents as a painless mass in the
testicle, often “balloon-like”. Large
hydroceles can cause discomfort due
to their size. remove sac or fluid re-accumulate

Definitive treatment is surgical
excision of the hydrocele sac or
recurrence rate is high.

Congenital hydroceles: during
testicular descent, as the testis
descends through the inguinal canal,
the peritoneum is also drawn into the
scrotum (the processus vaginalis –
future tunica vaginalis). If the
connection between the peritoneum
and the processus vaginalis remains,
there is potential for peritoneal fluid to
accumulate in the scrotum, forming a
hydrocele.
transillumination,
impaired drainage
 Case 5: Seminoma
Testicular neoplasms are divided into two categories: germ cell tumours
(95%) and sex cord-stromal tumours. from other cell types
Sertoli, Leydig

Germ cell tumours are further subdivided into seminomas and non-
separate out
seminomas.
and other chemicals
Germ-cell tumours are associated with in-utero exposure to pesticides and
are more likely to develop in men with previous cryptorchidism or
hypospadias. There is also a strong genetic predisposition. As such these
tumours often arise from a precursor lesion called intra-tubular germ cell
neoplasia (ITGCN) which is present in-utero and remains dormant until
after puberty. present at birth

Seminomas account for 50% of all testicular germ-cell tumours.

present from birth
accumulate
 tunica albuginea - stop spread
never direct needle biopsy

Seminomas present as a painless testicular mass.
Although they are malignant, the tunica albuginea
acts as a natural barrier to spread and should not
be compromised by direct needle biopsy.
Treatment is via radical orchidectomy followed by
radio or chemotherapy.

Diagnostic markers include:
lactate dehydrogenase
- Elevated LDH (expressed on chromosome 12p
which is often reduplicated and amplified in
almost all seminomas) often mutated
- Elevated HCG in 15% of patients whose
seminomas contain syncytiotrophoblasts
- On immunohistochemistry – positive for KIT Macroscopically: homogenous, lobulated, gray-white
screen other markers appearance. Sometimes 10x the size of the normal testis
sheet of large uniform cells, not have seminiferous tubules + fibrous septa with lymphocytes

Microscopically, a seminoma appears as sheets of uniform cells divided
into poorly demarcated lobules.
Seminoma cells are large and round with a distinct cell membrane and a
large central nucleus.
The surrounding fibrous septa are infiltrated by lymphocytes
 1. A 15-year-old male patient presents with sudden onset left scrotal pain of 2 hours
duration. The left half of the scrotum is swollen, tender, and the testicle is palpable in
the upper scrotum. What is the most appropriate next step in management?
A. Pain relief and overnight observation
testicular torsion
B. Urgent scrotal exploration B
C. External version of the left testis

Practice D.
E.
Send for doppler USS of the testis
Administer IV fluids

Questions 2. Which of the following is incorrect regarding the histology of a normal testis:
A. Fibrous septa separate the testes into multiple lobules’
B. Interstitial cells of Leydig produce testosterone under the influence of LH
C. The seminiferous tubules are lined by a tall columnar epithelium known as
sustentacular (Sertoli) cells
D. Spermatids are located closest to the lumen of the seminiferous tubule
E. Sustentacular cells produce testosterone under the influence of LH E

Leydig produce testosterone with LH
 3. Which of the following is true regarding acute epididymo-orchitis?
A. Common causative organisms in males >35 years old include E.coli and
Pseudomonas A
B. Epididymo-orchitis is common in children due to congenital anomalies of the
urogenital system
C. Prehn’s sign is negative on clinical examination positive

D. Neutrophilic infiltration is uncommon on histological examination
do see

Practice E. The testis is more commonly involved than the epididymis

Questions 4. A 21-year-old male presents with a painless, firm mass in his right testicle. The
mass is non-transilluminating. Which of the following is correct regarding this
condition:
A. Core biopsy is the most appropriate next step in investigating this lesion
B. HCG would likely be elevated and LDH decreased in this patient
C. Microscopically this lesion would appear as sheets of uniform cells with large nuclei C
solid mass, never biopsy
D. Microscopically this lesion would most likely demonstrate caseating granulomatous
inflammation
E. Antibiotics are the most appropriate management for this condition
 at base of bladder

seminal vesicles
large portion of seminal
fluid

Prostate
Pathology
peripheral near rectum
transition through periurethral region
 papillary infold

Case 6:
Normal
Prostate
Histology

gland to ducts
The prostate consists of glands, ducts, and fibromuscular stroma.
The mucosa of the secretory glands contains papillary projections into the lumen, giving
the glands a distinct appearance. The epithelium is cuboidal or columnar.
The secretory glands may also contain aggregates of prostatic secretions called corpora
amylacea. The number of these deposits increases with age and is a normal pink regions

characteristic of the prostate. normal hyperactive - normal deposits
Prostatic secretions
The secretions from the prostate account for 30% of total seminal fluid volume.
travel through female repro system
It contains citric acid, the enzyme fibrinolysin (liquifies the semen), acid
phosphatase, and a number of other enzymes and lipids.
Prostate-specific antigen (PSA) is also secreted by the secretory cells of the
epithelium which functions to liquefy semen allowing sperm to travel freely. It also
aids in dissolving cervical mucus, allowing the entry of sperm into the uterus.
In prostatic adenocarcinoma, PSA levels rise in response to an increased number of
dysplastic glands and increased glandular activity. PSA may also be elevated in non-
cancerous conditions of the prostate including prostatitis, and benign prostatic
hyperplasia. not perfect screening tool
 Case 7: Benign Prostatic Hyperplasia

The most common benign prostatic disease in men older than 50 years.
Arises from hyperplasia of predominantly stromal tissue (as compared to glands in
prostate cancer) under the influence of androgens. The main androgen formed in the
prostate is dihydrotestosterone (DHT) through the enzyme 5-alpha-reductase.
very active - growth and proliferate prostate dysplastic glands
tissue
Nodular enlargement predominantly occurs in the peri-urethral area which may result
in urinary tract obstruction, hence symptoms often include poor stream, difficulty
passing urine, nocturia, and overflow dribbling. obstruction

Treatment includes lifestyle modifications (reducing alcohol and caffeine),
pharmacological treatment (alpha blockers i.e. tamsulosin to relax prostate smooth
muscle and 5-alpha-reductase inhibitors i.e. finasteride, dutasteride), and surgical
intervention (TURP, HIFU, radiofrequency ablation etc.). HIFU - high frequency ultrasound

resect out reduce testosterone available
surgical later
erectile dysfunction
Investigations should include: BPH most commonly affects the inner periurethral zone of the prostate,
producing nodules that compress the prostatic urethra. On microscopic
- Urine MCS make sure not UTI, prostatitis examination, the nodules exhibit variable proportions of stroma and glands.
- DRE change in peripheral zone e.g. cancer

- PSA Hyperplastic glands are lined by tall columnar epithelium and retain their
papillary infoldings. Stromal tissue is increased and corpora amylacea
- Prostate USS evaluate size deposits may be prominent. more fibromuscular stroma

cancer - lose papillary infold, lose stromal tissue
increased glands

Papillary infoldings
Hyperplastic within hyperplastic
stroma glands
still normal prostate
 significant BPH
distended bladder

prostate sitting below bladder Normal
Case 8: Prostate adenocarcinoma glandular

The most common form of cancer in men, linked to several factors
including age, race, family history, hormone levels, and environmental
influences. Survival and growth of prostate cancer is highly androgen
driven. Growth is usually within the peripheral zone. cancer growth mainly here
androgens

how dysplastic and poorly differentiated

Grading is via the Gleason Scale where tumour growth pattern is
graded between 1 (well differentiated) and 5 (no differentiation);
because most tumours contain two growth patterns, both patterns
are graded and the numbers added to arrive at the final Gleason
Score.

score increases two common patterns
2+3 = 5
 cells pleomorphic and dysplastic

Microscopically, prostate
adenocarcinoma presents with
back-to-back glands and
predominantly glandular
hyperplasia as opposed to BPH
which is predominantly stromal
hyperplasia.
These glands often lack the
papillary infoldings as seen in the
normal prostate.
There may be invasion of these
dysplastic glands into
surrounding smooth muscle.
hallmark of cancer
Prostate Cancer
Presentation:
- Asymptomatic in early stages
- Similar symptoms to BPH develop: frequent urination, nocturia, poor stream, dribbling, haematuria
invasive and start to break down
- Fatigue, weight loss, bone pain

Metastasis often involves bones
Investigations: image - glandular
solid, no longer spongy - solid mass in prostate
of the vertebra (through Batson’s
- DRE initial workup
osteoblastic lesions plexus) or pelvis. These are
- PSA if significantly high spread in vertebral column
osteoblastic lesions (bone
- Prostate biopsy (Trans-rectal, US guided)
- MRI/CT for staging
usual
forming)
metastases, via venous plexus - Batson's

Management:
- Radical prostatectomy for localised disease like solid masses
if local only
- External beam radiation therapy
- Interstitial radiation therapy (brachytherapy)
- Androgen deprivation in advanced metastatic disease either through orchidectomy or synthetic LHRH which suppresses LH release.
remove testicles
 Bladder
Pathology
 top layer - dome cells

Case 9: Normal
stretch when full

Bladder Histology
The epithelium of the bladder is
transitional epithelium (also called
urothelium) – a type of tissue that
changes shape in response to
stretch. Consists of multiple layers of
epithelial cells which contract and
expand as required. The superficial
layer of transitional epithelium
appears dome-shaped (termed
umbrella cells) when the bladder is
not stretched, and these flatten to a
squamous shape when stretched.
The muscosal layer is highly folded
in its relaxed state.
 detrusor

mucosa, highly folded

very muscular wall - detrusor

The muscle layer of the bladder is comprised of three layers: inner longitudinal, middle circular, and outer
longitudinal (difficult to distinguish histologically).
Note the highly folded mucosal layer.
increase surface area
Case 10: Bladder Carcinoma
from transitional cells

95% of bladder tumours are epithelial in origin, mostly arising from the transitional cells
and hence are called urothelial or transitional tumours.
Although most commonly found in the bladder, urothelial carcinoma may also develop in
the renal pelvis and ureters where urothelium is also present.
Two precursor lesions: non-invasive papillary tumours (most common – originate from
urothelial hyperplasia) and flat noninvasive papillary carcinoma (CIS) which are
associated with smoking, older age, and occupational exposure to chemicals (i.e. arsenic,
nitrosamines). genetic or environmental smoking most important - 3-7x increased

Most common presentation is painless haematuria. why present
One of the worst prognostic markers for urothelial carcinoma is invasion of the detrusor
muscle as once this occurs, there is a 30% 5-year mortality rate. before into detrusor if possible
both environmental and genetics

more common

increased thickness
then invade
 massive lesion
with necrosis

Diagnosis is assisted through
urinalysis and urine cytology and
confirmed through biopsy via
cystoscopy. sheds

Treatment requires resection of
existing lesions with adjunct
chemo/radiotherapy. camera through
until surgically amenable

flat, localised
Microscopically, urothelial
carcinoma appears as a
thickened, highly dysplastic
transitional epithelium with
inflammatory infiltration and
neo-vascularisation.

Umbrella cells are absent and
haemorrhage is common.
no longer dome cells

thick and
dysplastic
elongated and spindled
neovascularisation
haemorrhage common
Practice Questions
1. A 65-year-old man presents with urinary frequency, nocturia, poor stream initiation, and dribbling post urination. Which of the
following, if present, would suggest a diagnosis of benign prostatic hyperplasia over prostate cancer?
A. The presence of corpora amylacea within glands
B. An elevated PSA
C. Histologically, the presence of hyperplastic stroma more-so than glandular tissue C

D. The absence of papillary infoldings in glandular mucosa more stroma
E. The presence of hyperplastic glands with minimal stroma on histological examination

2. Which of the following is FALSE regarding transitional cell carcinoma (TCC) of the bladder:
A. These lesions often arise from urothelial cell hyperplasia
B. Occupational exposure to nitrosamines has been attributed to development of TCC
C. Microscopically, haemorrhage is common due to neo-vascularisation
D. Umbrella cells are more prevalent within the mucosa of this lesion upon microscopic examination D
absent in carcinoma
E. The most common presenting complaint is painless haematuria
Breast Pathology
 The adult female breast is composed of branching ducts and acini, grouped
together to form lobules. The ducts and acini are lined by a dual cell layer →
Case 11 – Normal inner epithelial cell layer (cuboidal to columnar) and outer myoepithelial cell
layer (flattened cells), resting on a basement membrane.
Breast Pathology There are two types of stroma within breast tissue: denser interlobular stroma
(between lobules) and loose intra-lobular stroma (within lobules, surrounding
acini). into lots of lobules

b/w lobules

Interlobular
stroma
mosdt b/w

intralobular
stroma Lobule
in lobules
some within

cells lining ducts
 ducts and glands
A lobule has been
isolated here.
A Note the intra-lobular
stroma (A).
b/w ducts

An acinus has been
magnified in the in-set
image at the bottom left.
The cells lining the lumen
are cuboidal luminal
epithelial cells (green
arrow), surrounding this
are flattered
myoepithelial cells (red
in lumen, secretory component
arrow).
form mammary gland
Case 12 -
Fibroadenoma

A benign, solid tumour. Commonly found in
young women of reproductive age, fluctuate with
the menstrual cycle and may regress after
menopause (likely hormonal relationship).
Arise from hyperplasia of intra-lobular stroma
(within lobules), which results in flattening of
ducts and acini. rubbery from stromal tissue
intralobular
Presentation: discrete, mobile, non-tender
strong hormonal relationship
rubbery mass. move away
discrete and homogenous mass

Investigations: USS and fine needle aspiration
Treatment: nil required, can excise if bothersome
benign, not bother them
 benign, homogenous
breast lobule

On US of the breast, these lesions
present as well—circumscribed, hypo-
echoic masses without disruption of
normal breast architecture

Hyperplasia of intra-lobular stroma (1)
surrounded by a connective tissue
capsule (2). On high power, note the huge space b/w, hyperplasia, squish acini and give slit-like appearance
flattening of normal breast epithelium
due to compression from the
hyperplastic stroma. This is a benign
lesion but requires histological diagnosis
to exclude a similar lesion (Phyllodes
tumour) which resembles a
fibroadenoma both clinically and
radiographically (differing histologically)
but has malignant potential.
potential to develop into cancer

fibroadenoma
 Case 13 – Breast The most common and deadly female malignancy. Each year,
1.7million women are diagnosed.
Cancer

Types: all breast cancers can be separated into three
major groups defined by the expression of two
proteins, ER and HER2
“Luminal” cancers are defined as being positive Risk factors:
for ER and negative for HER2. This is the most increased exposure
lifetime
to oestrogen Gender (99% are female)
common cancer in older women. epithelial oestrogen receptor +tve
others luminal B
HER2 cancers are defined as cancers over- HER2 Age mostly older
expressing HER2 and can be ER positive or Lifetime exposure to oestrogen (nulliparity, early menarche,
negative. *Cancers that are HER2 positive and ER late menopause) not having children - risk
positive are also called luminal B cancers. hyperproliferative menopause late

Triple negative breast cancers (TNBC) are negative Genetics (BRCA genes) increased risk
for ER and HER2. The term “triple” negative arises Environmental and lifestyle factors (less important)
as they are also negative for PR which is under the
control of ER. don't express receptors
also negative for progesterone, HER2, oestrogen
TNBC and HER2 cancers peak and plateau in middle aged
women and occur infrequently in older women.
 BRCA
more common
Pathogenesis of familial breast cancer Pathogenesis of sporadic breast cancer
¼ to 1/3 rd of breast cancers occur due to inheritance of Luminal (ER+) cancers arise via the dominant pathway of breast
susceptibility genes. cancer development, accounting for 50-65% of cases. Those with
most common
high ER expression usually have PR expression which is
The most important high penetrance genes for familial breast upregulated by oestrogen. ER+ and PR+ tumours are often well
cancer are tumour suppressor genes involved in genomic differentiated and slow-growing. well differentiated and slow growing
stability. Inheritance is autosomal dominant.
Biggest risk factor is oestrogen exposure which increases
Mutations in BRCA1 and BRCA2 are responsible for 80-90% of local growth factor expression and regulates dozens of
single gene familial breast cancers and 3-6% of all breast genes expressed in breast epithelium.
cancers. Respond well to therapy; have more favourable outcome;
BRCA1 cancers are usually poorly differentiated TNBC. risk of recurrence low; even when they metastasise can be
This gene is also associated with ovarian cancer (20-40% held in check by anti-oestrogen therapy for years.
unfavourable
of carriers) Most commonly detected by mammogram screening (even
BRCA2 cancers are also poorly differentiated but often when no mass is palpable) driven by oestrogen, not proliferate w/o oestrogen
ER positive. This gene is also associated with male breast
cancer increased risk of breast cancer HER2+ cancers (20% of cancers) arise via a pathway that leads to
amplification of the HER2 gene which stimulates cell
Both genes are associated with prostatic and pancreatic proliferation. Detectable by immunostaining. Has targeted
cancer therapy
TNBC arise through an oestrogen independent pathway, not
associated with HER2 amplification and comprise 15% of breast
cancers. Associated with TP53 mutations and BRCA mutations.
More likely to present as a palpable mass, less readily detectable
on screening. Survival with mets is unlikely.
less detectable, less likely survival
possible to survive long periods
 Histology
Almost all breast cancers are adenocarcinoma and arise from either
the ducts (ductal carcinoma) or lobules (lobular carcinoma).
If bound by the basement membrane, they are referred to as
carcinoma in situ (i.e. ductal carcinoma in situ).
ductal - no specific type
The majority of invasive breast cancers are ductal carcinomas (now
referred to as breast carcinoma of no specific type or NST) – these you
will be expected to know in more detail. Most commonly, these
present as a hard, irregular, radiodense mass associated with
desmoplastic stromal reaction.
Invasive carcinoma is classed into one of three types based on its
luminal - HER2 receptor profile (discussed earlier) and is also graded based on
the Nottingham Histologic Score (Grade 1 for well differentiated;
grade 2 for moderately differentiated; and grade 3 for poorly
differentiated). dysplastic ducts
Histologically appears as pleomorphic, atypical ductal epithelium
invading the stroma with surrounding desmoplasia
 highly expressing

overexpressed in hyperproliferative

expansion, lots of ductal atypical tissue
not well differentiated
dysplastic
Tumour composed of nests
of atypical epithelial cells
forming irregular gland-like
structures with prominent
bands of fibrous tissue
(desmoplasia)

moderately differentiated
some desmoplastic stroma
see some glands
 Presentation

Presenting features vary and may include
a palpable mass, skin changes (puckering,
skin dimpling, nipple inversion), and
Paget’s disease of the nipple (seen in DCIS
as unilateral erythematous scale over the
nipple of the affected breast due to
malignant cell extension along the duct
system into the nipple skin).
malignant extension
scaly, red itching
indicate ductal CIS
 Stage
DEGREE

TNM

T - SIZE
N - NODES
M - METASTASES
 Duct Ectasia

Commonly Assessed
Differentials

Mastitis: acute localised redness, swelling and
tenderness of the breast often associated with breast-
feeding
Fat necrosis: painless palpable mass with a history of
breast trauma trauma Mastitis
Duct ectasia: dilation of the ducts post-menopause
(due to secretory stasis), presenting with white nipple bacterial infection
in milk ducts
discharge and peri-areolar mass dilate ducts, discharge
Fibrocystic change: lumpy breasts, may be tender,
hormone dependent fluctuate

Intraductal papilloma: most common cause of bloody
nipple discharge benign growth
Questions
1. What is the MOST likely diagnosis in a young woman presenting with a painless,
rubbery, mobile breast lump which fluctuates throughout her menstrual cycle:
a. Intraductal papilloma
b. Duct ectasia
c. Fat necrosis
d. Fibroadenoma D painless, rubbery

e. Ductal carcinoma
Questions
2. Which of the following histopathological diagnoses of a breast mass would be
associated with the least favourable prognosis?
a. Ductal carcinoma in situ localised

b. Phyllodes tumour benign with potential

c. Well—differentiated ER positive ductal carcinoma fair

d. ER+/PR+ ductal carcinoma with metastasis anti-oestrogen therapy

e. Triple negative ductal carcinoma with metastasis E
Questions
3. Which of the following receptor profiles constitutes “luminal” breast cancer?
a. HER2 receptor positive
b. ER receptor positive B ER positive is luminal

c. HER2 receptor positive; ER receptor negative
d. ER receptor positive; HER 2 receptor positive
e. ER receptor negative; HER2 receptor negative
 Thank you!
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