Transcript Slide 1

Campbell’s Chapter 29
Neoplasms of the Testis
Brent Zamzow D.O.
Introduction
• Most common malignancy in males 15-35
• Survival
– <50% prior to 1970
– >95% in 1997
• Improved survival:
–
–
–
–
–
Accurate tumor markers
Effective chemo
Modifications of surgical technique
Mostly radiosensitive
Backup treatments if primary treatments fail
WHO Classification of Testicular Tumors
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
Germ Cell Tumors
Precursor lesions-intratubular malignant germ cells (carcinoma in situ)
Tumors of one histologic type (pure forms)
–
Seminoma
•
Variant-seminoma with syncytiotrophoblastic cells
–
Spermatocytic seminoma
•
Variant-spermatocytic seminoma with sarcoma
–
Embryonal carcinoma
–
Yolk sac tumor
–
Polyembryoma
–
Trophoblastic tumors
•
Choriocarcinoma
•
Choriocarcinoma with other cell types
•
Placental site trophoblastic tumor
–
Teratoma
•
Mature teratoma
•
Dermoid cyst
•
Immature teratoma
•
Teratoma with malignant areas
Tumors of more than one histologic type (mixed forms)-specify types and
estimate percentage
Sex Cord/Gonadal Stromal Tumors
Pure forms
–
Leydig's cell tumor
–
Sertoli's cell tumor
•
Large-cell calcifying Sertoli's cell tumor
•
Lipid-rich Sertoli's cell tumor
Granulosa cell tumor
–
Adult-type granulosa cell tumor
–
Juvenile-type granulosa cell tumor
Tumors of thecoma/fibroma group
Incompletely differentiated sex cord/gonadal stromal tumors
Mixed forms
Unclassified Forms
Tumors Containing Both Germ Cell and Sex Cord/Gonadal Stromal
Elements
Gonadoblastoma
Mixed germ cell-sex cord/gonadal stromal tumors, unclassified
Miscellaneous Tumors
Carcinoid tumor
Tumors of ovarian epithelial types
Lymphoid and Hematopoietic Tumors
Lymphoma
Plasmacytoma
Leukemia
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
Tumors of Collecting Ducts and Rete
Adenoma
Carcinoma
Tumors of the Tunica, Epididymis, Spermatic Cord,
Supporting Structures, and Appendices
Adenomatoid tumor
Mesothelioma
–
Benign
–
Malignant
Adenoma
Carcinoma
Melanotic neuroectodermal
Desmoplastic small round cell tumor
Soft Tissue TumorsUnclassified TumorsSecondary
TumorsTumor-like Lesions
Nodules of immature tubules
Testicular lesions of adrenogenital syndrome
Testicular lesions of androgen-insensitivity syndrome
Nodular precocious maturation
Specific orchitis
Nonspecific orchitis
Granulomatous orchitis
Malakoplakia
Adrenal cortical rest
Fibromatous peritonitis
FuniculitisResidue of meconium peritonitis
Sperm granuloma
Vasitis nodosa
Sclerosing lipogranuloma
Gonadal splenic fusion
Mesonephric remnants
Endometriosis
Epidermal cyst
Cystic dysplasia
Mesolithial cyst
Others
Classification
• Germ Cell Tumors (GCT)
– Seminoma
• Classic or Typical
• Anaplastic
• Spermatocytic
– Nonseminoma
•
•
•
•
Embryonal Cell Carcinoma
Yolk Sac Tumor
Teratoma
Choriocarcinoma
• >50% GCT are mixed
Normal testis
Classic Seminoma
• 82-85% of seminomas
• Mostly men in 30’s
• Rarely occurs in adolescents or infants
• Clear cytoplasm, dense nucleus
• Synctiotrophoblasts in 10-15%
– Elevated B-HCG in 10%
– hCG up to 500 ng/mL
• Lymphocytes in 20%
Classic Seminoma
Anaplastic Seminoma
• 5-10% of seminomas
•
•
•
•
Greater mitotic activity
Higher rate of local invasion
Increased rate of metastasis
Higher rate of B-HCG production
• Stage for stage – treatment outcomes same as
classic seminoma
• Classification no longer used
Anaplastic Seminoma
Spermatocytic Seminoma
• 3 sizes of cells
• 9% of seminomas
• 50% older than 50
• Very low metastatic potential
– Prognosis favorable
– Orchiectomy only
Spermatocytic Seminoma
Seminoma
• Painless testicular mass
• Testis size normal or smaller in 15%
• Age
– 35-55 classic seminoma
– Peak 35-39
– >60 spermatocytic seminoma
• Most common germ cell tumor in men >65
– Rare before 10
Nonseminomatous Germ Cell
Tumors (NSGCTs)
•
•
•
•
Embryonal
Choriocarcinoma
Teratoma
Yolk Sac
• Mixed
Embryonal Carcinoma
• Small, hard, irregular mass
• Age 25-35
• Smallest germ cell tumor
– 40% <2cm
• Invades tunica vaginalis
• Often close to rete testis
• Gray/white with necrosis or hemorrhage
• Highly malignant
Embryonal
Embryonal Tumor Markers
• Can have elevated hCG & AFP
• Synctiotrophoblasts common in stroma
– hCG not elevated in pure embryonal
• AFP usually due to yolk sac elements
Choriocarcinoma
• Commonly present metastatic
• Usually a peripheral mass
• Central hemorrhage
• Must have synctiotrophoblasts &
cytotrophoblasts
•
•
•
•
1-2% of tumors
hCG elevated in >99%
Age 20-30
Worst prognosis
Choriocarcinoma
Teratoma
• Derived from ectoderm, mesoderm, endoderm
– 2 or more embryonic germ cell layers in various
stages of maturation
• Can contain bone, cartilage, intestinal,
pancreatic, liver, muscle, neural cells
• Lined by any cell type
• Large, lobulated, nonhomogeneous
• Rarely can get malignant teratoma
Teratoma
Teratoma
• Classifications
–
–
–
–
Mature
Immature
With malignant transformation
Simple epidermoid cysts
• 3% of adult, 38% of children
• Elevated AFP 20-25%
• Age 25-35
• Epidermoid cysts – benign
• Metastatic teratoma resistant to chemo &
radiation
Yolk Sac Tumor
• Other names
–
–
–
–
Endodermal Sinus Tumor
Adenocarcinoma of the infantile testis
Juvenile Embryonal Carcinoma
Orchioblastoma
• Most common testis tumor age 0-10
– Slow growing mass
– 25% have hydrocele
– AFP elevated in >90%
• In adult mixed tumors, 1/3 have yolk sac
elements
Yolk Sac Tumor
• Yellow, mucinous
• Higher incidence of hematogenous spread
• Treatment
– >80% confined to testis & cured by radical
orchiectomy
– Low-volume retroperitoneal lymph node involvement
– RPLND
– Advanced disease – chemo
– Residual mass unresponsive to chemo – radiation
– Survival 87% for all stages
Yolk sac
Mixed Tumors
• 60% of tumors
• Most frequent mixed tumor
– Embryonal, seminoma, yolk sac, teratoma &
syncytiotrophoblasts
•
•
•
•
Document % of volume for each type
AFP & hCG can be elevated
Age 10-30
Managed as NSGCT
Intratubular Germ Cell Neoplasia:
CIS of Testis
• Precursor to all GCTs except spermatocytic seminoma
• Risk Factors
–
–
–
–
–
Contralateral testis w/ unilateral ca (2-38%)
Cryptorchidism (5-6%)
Infertility (1%)
Extragonadal GCT (35-50%)
Intersex (25-100%)
• Evenly distributed through testis
– Open biopsy is reliable
– US unreliable
• Treatment Options
–
–
–
–
Observation – treatment of choice
Orchiectomy
Radiation (European treatment)
Chemo ineffective
Epidemiology of GCTs
• Incidence
– Lifetime risk white male – 1 in 500
• 1/3 risk for American blacks
– Highest incidence – Scandinavia, Switzerland,
Germany, New Zealand
– Lowest incidence – Asia, Africa
• Laterality
– 2-3% are bilateral
– More common on R
Etiology
• Cryptorchidism
– 7-10% of tumors had cryptorchidism
– 1940 – 48x higher risk
– 1980 – 3-14x higher risk
– 5-10% cryptorchidism make tumor in other
side
– Structural abnormalities seen in cryptorchid
testis at 3 years
– Orchiopexy does not prevent cancer, allows
clinical surveillance
Pathogenesis
• Tunica albuginea – barrier to spread
• ½ of NSGCT present as metastatic
• Complete spontaneous regressions rare
• Consider all adult GCT malignant
• Infantile teratoma is benign
• Lymphatic mets is common in all GCTs
– Choriocarcinoma – lymph & vascular
Patterns of Spread
• Predictable (except for choriocarcinoma)
• Spermatic cord has 4-8 lymph channels
• Right-sided tumors
– Interaortocaval at level of L2 body
– Can cross from R to L
• Left-sided tumors
– Para-aortic between L ureter, L renal vein, aorta,
origin of IMA
• NSGCT – doubling time 10-30 days
• 85% of those who die from GCT, die within 2yrs
of orchiectomy
Presentation
• Signs & symptoms
–
–
–
–
Usually painless lump
30-40% c/o heaviness or dull ache
10% acute pain
10% present with metastatic manifestations
• Neck mass, cough, nausea, vomiting, lumbar pain, bone pain
– Gynecomastia is present in 5% of GCTs
• Any hypoechoic area on US w/i tunica
suspicious for tumor
Staging
• Based on pathology of primary tumor &
imaging of chest & retroperitoneum
• Understage 20% (Stage I undergoing
RPLND)
– 10-15% have undetectable nodal mets
– 5-10% relapse at extranodal sites
Staging Systems
• American Joint Committee on Cancer (AJCC) – 1997,
2002
– TNMS system
• Stage grouping
– Stage 0, Ia, Ib, Is, IIa, IIb, IIc, III
– Stage I
• No nodes, no mets
– Stage II
• Positive regional nodes
– Stage III
• Nonregional nodes or pulmonary mets
Imaging
• CXR
– PA & lateral CXR should be initial radiologic
procedures
• CT
– Abdominal CT is best test to look for retroperitoneal
mets
• Do after orchiectomy
– If CXR or abdominal CT is abnormal, get chest CT
• MRI – no benefit
• PET Scan – no benefit over CT
– Cannot detect microscopic disease
Tumor Markers
• Draw tumor markers prior to orchiectomy
• Alpha-fetoprotein (AFP)
– Serum protein of early embryo
• Human Chorionic Gonadotropin (hCG)
– Secreted by placenta
• Lactic Acid Dehydrogenase (LDH)
• Placental Alkaline Phosphatase (PLAP) & GammaGlutamyl-Transpeptidase (GGTP)
– Low sensitivity
AFP
•
Early levels
– In fetus produced by fetal yolk sac, liver, GI tract
– Highest levels at 12-14 weeks gestation
– At 1 year declines to low adult levels
•
5-7 day half life
•
Can be elevated in:
–
–
–
–
–
Testis, liver, pancreas, stomach, lung ca
Normal pregnancy
Benign liver disease
Ataxia-telangiectasia
Tyrosinemia
•
Never elevated in pure choriocarcinoma or seminoma
•
Can be elevated in:
–
–
–
–
Pure embryonal
Teratocarcinoma
Yolk sac
Combined
HCG
• Has alpha & beta subunits
– Alpha subunit similar to FSH, LH, TSH
– Beta subunit is distinct
• Secreted by placenta to maintain corpus luteum
• Syncytiotrophoblastic cells produce hCG in GCTs
• 24-36 hour half life
• Elevated in all choriocarcinoma, 40-60% of embryonal,
5-10% of seminomas
• Can be elevated in:
– Marijuana smokers
– Liver, pancreas, stomach, lung, breast, kidney, bladder ca
– Elevated LH - false positive HCG
LDH
• High levels in muscle, liver, kidney, brain
• High false positive rate
• Most useful as a marker for bulky disease
Tumor Markers
• NSGCTs
–
–
–
–
Elevated AFP 50-70%
Elevated hCG 40-60%
Elevated either or both 90%
10% of advanced disease will have normal tumor markers
• Be careful
– Elevated AFP can be from liver dysfunction
– Elevated hCG can be from hypogonadism & marijuana
– Normal markers does not mean no residual disease
• 10-20% after chemo & RPLND for bulky disease have viable tumor
despite normal markers
• Degree of AFP or hCG elevation is proportional to tumor
burden
Treatment of GCTs
• Radical orchiectomy for local control
– Offer sperm banking prior to surgery
• >50% have mets, so most require further
treatment
– Treat retroperitoneal lymph nodes
– Large retroperitoneal mets – chemo initially
• 65-85% seminomas confined to testis
• 60-70% nonseminomas present as recognizable
metastatic disease
Partial Orchiectomy
• Option for
– Organ confined tumor <2cm
• Especially incidentally found, nonpalpable
– Solitary testis or w/ B/L tumors
• Careful frozen sections
• Can use crushed ice, gentle occlusion of
spermatic cord
Stage I Seminoma
• 15-25% staging error
• Radiation – treatment of choice
– 20-25 Gy to para-aortic nodes
– 5-year disease free survival >95%
– Long-term side effects
• Infertility, GI, 2nd malignancy
– 3% relapse (outside retroperitoneum) & need chemo
• Chemotherapy
– Carboplatin x1-2 experimental
• Surveillance
– Optimum surveillance protocol unknown
– Give option for <6cm, no vascular invasion, normal hCG,
compliant, <34
– 15-20% will relapse & require XRT or chemo
Stage IIa & IIb Seminoma
• XRT
– Ipslilateral external iliac, b/l common iliac, paracaval,
para-aortic, cisterna chyli
– Avoid kidney
– Shield contralateral testis
– 5-yr disease free survival 80%
– 3% relapse
• Chemo
– If nodes close to kidney
Stage IIc & III Seminoma
• Before platinum – radiation
• Cisplatin-based chemo now treatment of choice
–
–
–
–
Bleomycin, Etoposide, Cisplatin (BEP) x3–4
Etoposide, Cisplatin (EP) x4
90% complete response to chemo at 4yrs
10% relapse after initial chemo response
• Postchemo residual retroperitoneal mass
– Well-delineated, >3cm – resect
• Mass = GCT, then salvage chemo (vinblastine, ifosfamide,
cisplatin)
– Otherwise observation
NSGCTs
• Low Stage
– Surveillance
– Chemo
– RPLND
• High Stage
– Chemo
• Good vs. Poor risk
RPLND
• 1948
• Retroperitoneal nodes are first &
sometimes only areas of mets
• Gold Standard of staging
• Modified template RPLND
– Most likely areas to be involved
– Minimize side effects
• Infertility, ejaculatory dysfunction
Stage I NSGCTs
•
Radiation - not used in North America, relapse rate 24%
•
Surveillance
– Option for low risk:
• No vascular/lymphatic invasion (<T2)
• <40% embryonal
• Motivated, reliable pts
– Relapse 28%, survival 99%
– Protocol
• CXR, tumor markers q1mo x1yr, q2mo x1yr, q3-6mo up to 10 more yrs
• CT q2-3mo x2yrs, q6mo up to 10yrs
•
Chemo – BEP x2-3
– Option for low or high risk:
• T2 or higher (vascular/lymphatic invasion)
• >40% embryonal
•
Modified template RPLND
– If negative, then observe
• 70% of RPLNDs find no disease
– If <2cm nodes (N1), observe or adjuvant chemo – BEP x2 or EP x2
– If >2cm nodes (N2), adjuvant chemo – BEP x2 or EP x2
– 5-10% relapse outside field of RPLND
Stage IIa & IIb NSGCTs
• Bilateral RPLND
– N1 (nodes <2cm) – observe or adjuvant
chemo – BEP x2
– N2 (nodes 2-5cm) – adjuvant chemo – BEP
x2
• Chemo – BEP x3 or EP x4
– If post-orchiectomy tumor markers elevated
– If nodes >3cm
Stage IIc & III NSGCTs
• Low Risk
– No nonpulmonary visceral mets
– AFP <1000, hCG <5000, and LDH <1.5x normal
• Intermediate Risk
– No nonpulmonary visceral mets
– Markers between low & high risk
• High Risk
– Nonpulmonary visceral mets
– AFP >10,000, hCG >50,000, or LDH >10x normal
Stage IIc & III NSGCTs
• Low risk
– Chemo – BEP x3 or EP x4
– 92% 5-yr survival
• High risk
– Chemo – BEP x4 or B/isosfamide/P
– 48% 5-yr survival
Stage IIc & III NSGCTs
• After Chemo
– Complete response (normal tumor markers, no
residual mass)
• Observe
– 10% relapse & need salvage chemo
– Partial response (normal tumor markers, residual
mass)
• Full B/L RPLND & resect residual mass
– 10-20% GCT – salvage chemo
– 40-50% teratoma – observe or resect
– 40% necrosis – observe
– Poor response (elevated tumor markers or no
shrinkage of mass)
• Salvage chemo, high dose chemo & autologous bone
marrow transplant
– 25% long term survival
Chemo & XRT Toxicity
• 2nd Malignancy
– Up to 18% 25yrs after XRT
– Chemo
• Higher long-term incidence of leukemia, melanoma,
lymphoma, colon, stomach, kidney, prostate, bladder,
thyroid, rectum, pancreas, connective tissue cancers
• Bleomycin
– Pulmonary Toxicity
• Etoposide
– Myelosuppression
• Cisplatin
– Nephrotoxicity – also Carboplatin
– Low Magnesium
– Neurotoxicity & Ototoxicity
Other Testicular Tumors
• Extragonadal Germ Cell Tumors
– Mediastinum, retroperitoneum, sacroccygeal
region, pineal gland
•
•
•
•
Leydig Cell Tumor
Sertoli Cell Tumor
Gonadoblastoma
Lymphoma
Leydig Cell Tumors
• 1-3% of testicular tumors
• 10% malignant
– Average survival – 3 years if malignant
• Reinke’s crystals – red extracellular lobular crystals
• Presentation
–
–
–
–
Precocious puberty in kids
Elevated testosterone, urinary 17-ketosteroids
Mass
Impotence, gynecomastia
• Treatment
– Radical orchiectomy & surveillance
– Endocrine w/u
Leydig Cell Tumor
Sertoli’s Cell Tumors
•
•
•
•
•
<1% testicular tumors
Most common testicular tumor in dogs
10% malignant
Any age
Radical orchiectomy
– RPLND if metastatic
Others
•
Gonadoblastoma
– 0.5% testicular tumors
– 80% are in phenotypically female pts
– Good prognosis
•
Epidermoid Cyst
– 1% testicular tumors
– ? Monolayer teratoma
– Benign
•
Rete Testis Adenocarcinoma
– Age 20-80
– Very malignant
•
Adrenal Rest Tumor
– B/L tumor, CAH – remission w/ corticoid treatment
•
Lymphoma
–
–
–
–
5% testicular tumors
Most common secondary tumor
Most common testicular tumor in age >50
½ are B/L
• THE END