Breast Cancer Surgery II PDF

Summary

This document provides an overview of breast cancer, including its epidemiology, risk factors, and different assessment models. It covers hormonal and non-hormonal factors and various risk assessment models like the Gail and Claus models, as well as the BRCAPRO and Tyrer-Cuzick models. The document aims to offer a comprehensive understanding of breast cancer, beneficial for medical professionals, researchers, and students.

Full Transcript

SURGERY II
BREAST CANCER
Dr.MAYMONA CHOUDRY August 22,2024

EPIDEMIOLOGY o it predicts the cumulative risk of breast
Most common cancer in the Philippines cancer according to decade of life
3 for every 100 Filipina (PSA and DOH) o 5-year risk and lifetime risk
197 countries – highest prevalence
Female:Male (1000x)
Males: 1:1000
85% no family history
2022 – 33.079 cases (WHO)
Average lifetime risk: 12%
o 50 years old: 11%
o 70 years old: 7%
The most common site-specific cancer in women
Leading cause of death from cancer for women
age 20-59 years
Higher rates occur in westernized countries due to
changes in reproductive patterns, increased
screening, dietary changes, and decreased activity
Incidence increases rapidly during the 4th-5th
decade of life
RISK FACTORS
Estrogen exposure is directly proportional to
breast cancer
Hormonal vs. non-hormonal factor
Hormonal Risk Factors Early menarche
Nulliparity
Late menopause
Obesity
Protective Factors Moderate levels of exercise
Longer lactation period
Full term pregnancy

Radiation exposure
o Young women who receive mantle
radiation therapy for Hodgkin’s
lymphoma have a breast cancer risk that
is 75 times greater than that of age-
matched control subjects
Alcohol consumption à increase levels of
estradiol
Long-term consumption of food with high fat
content à contributes to an increased risk of
breast cancer by increasing serum estrogen level
RISK ASSESSMENT MODEL
Gail Model
o Most frequently used in the US
o incorporates:
§ age
Claus Model
§ age at menarche
o Cancer and Steroid Hormone Study
§ age at first live birth
o Prevalence of high penetrance breast
§ number of breast biopsy
cancer susceptibility genes
specimens
o VS Gail Model: incorporates more
§ history of atypical hyperplasia
information about family history but
§ number of 1st degree relatives
excludes other risk factors.
with breast cancer
o Provides individual estimates of breast
cancer risk according to decade of life

MAT-MAT 50 years old

BRCAPRO Model
o Mendelian model
o Calculates the probability that an
individual is a carrier of a mutation in one
of the breast cancer susceptibility genes
based on their family history of breast
and ovarian cancer
o Requires input of all family history
information regarding breast and ovarian
cancer
Tyrer-Cuzick Model
o Attempts to utilize both family history
information and individual risk Chemoprevention
information o Tamoxifen – SERM
o Uses the family history to calculate the § 1st drug to reduce incidence of
probability that an individual carries a breast in healthy women
mutation in one of the breast cancer § Recommended only for:
susceptibility genes, and then the risk is women who have a Gail
adjusted based on personal risk factors, relative risk of 1.66% or
including age at menarche, parity, age at higher;
first live birth, age at menopause, history
women who are age 35
of atypical hyperplasia or LCIS, height, and
to 59;
body mass index
women over the age of
60;
or women with a
diagnosis of LCIS or
atypical ductal or
lobular hyperplasia
§ DVT: 1.6x
§ Pulmonary embolism: 3x
§ Endometrial cancer: 2.5x
§ Cataract surgery: 2x most likely
Tamoxifen vs. Raloxifene
Tamoxifen Raloxifene
Ability to reduce = =
cancer risk
Adverse event +
profile
76% efficacy of
tamoxifen

MAT-MAT 90% § Invasive ductal carcinomas –
Effects on long-term QOL: poorly quantified poorly differentiated
Women with an estimated lifetime risk of 40% § Hormone receptor negative
o Prophylactic mastectomy added 3 years § Triple receptor negative
of life o Profile:
Women with an estimated lifetime risk of 85% § Early age of onset
o Prophylactic mastectomy added >5 years § Higher prevalence of bilateral
Risk reducing mastectomy is highly effective at breast cancer
preventing breast cancer in both BRCA1 & BRCA2 § (+) ovarian cancer possibly colon
mutation carriers and prostate cancers
BRCA 2
o Autosomal dominant with high
penetrance
BRCA MUTATIONS o BRCA 2 mutation carriers:
5% of breast cancer § Lifetime breast cancer risk: 85%
Autosomal dominant with varying penetrance § Lifetime ovarian cancer risk: 20%
Germline mutations in BRCA1 o Men with BRCA 2 mutations:
o 45% hereditary breast cancers § Estimated breast cancer risk is
o At least 80% hereditary ovarian cancers 6%
Female mutation carriers § 100-fold increase
o Lifetime breast cancer risk: 85% o Associated breast cancers:
o Lifetime ovarian cancer risk: 40% § Invasive ductal carcinomas – well
differentiated
§ Express hormone receptors
o Profile:
§ Early age of onset
§ Bilateral breast cancer
§ (+) ovarian, colon, prostate,
pancreatic, gallbladder, bile duct,
stomach cancers, and melanoma
IDENTIFICATION OF BRCA MUTATION CARRIERS
Obtaining a complete, multigenerational family
history

MAT-MAT 1st- or 2nd-degree relatives with PRIMARY BREAST CANCER
breast cancer at any age >80% breast cancers: productive fibrosis that
o Patient or relative with bilateral breast involves the epithelial and stromal tissues
cancer With growth of the cancer and invasion of the
o Male breast cancer in a relative at any age surrounding breast tissues, the accompanying
CANCER PREVENTION FOR BRCA MUTATION CARRIERS desmoplastic response entraps and shortens
Risk management strategies: Cooper’s suspensory ligaments à skin retraction
o Risk reducing mastectomy and Peau d’orange à develops when the drainage of
reconstruction the lymph fluid from the skin is disrupted
o Risk reducing salphingo-oophorectomy Disease-free and overall survival correlates:
o Intensive surveillance for breast and o Size of primary breast cancer
ovarian cancer Close association
o Chemoprevention o Cancer size and axillary LN involvement
Screening: Breast cancer recurrence
o Clinical breast examination every 6 Local-regional 20%
months Distant >60%
o Mammography every 12 months Local-regional + distant 20%
beginning at the age of 25 years
MRI: HISTOPATHOLOGY OF BREAST CANCER
o ASCO recommendations CARCINOMA IN SITU
§ MRI in women with 20-25% Absence of invasion of cells into the surrounding
greater lifetime risk of stroma and their confinement within natural
developing breast cancer (mainly ductal and alveolar boundaries
based on family history) Multicentricity à refers to the occurrence of a
§ Women with a known BRCA1 or second breast cancer outside the breast quadrant
BRCA2 mutation of the primary cancer (or at least 4cm away)
§ Those who have a first-degree o Occurs in 60 to 90% of women with LCIS
relative with a BRCA1 or BRCA2 o 40 to 80% in DCIS
mutation and not had a genetic Multifocality à refers to the occurrence of a
testing themselves second cancer within the same breast quadrant as
§ Women who were treated with the primary cancer (or within 4cm of it)
radiation therapy to the chest LCIS à bilaterally in 50% to 70% of cases
between the ages of 10 and 30 DCIS à bilaterally in 10% to 20% of cases
years
§ Those who have Li-Fraumeni
syndrome, Cowden syndrome, or
Bannayan-Riley-Ruvalcaba

MAT-MAT