Mammography # 1 Week 2
Mammography Facts 1 in 8 women who live to 95 will develop breast cancer Most common malignancy in women, only lung cancer kills more women One of the most treatable cancers Before Mammo fewer than 5% of pt’s survived 4 years after diagnosis with a 80% recurrence With a radical mastectomy survival increased to 40% with a 10% recurrence
Goal of Mammography Detect cancer before it is palpable Early detection, diagnosis and treatment is the key to a favorable prognosis
How would your family feel with you missing from the family picture?
How would you feel about your father, brother or mother missing from the family picture?
Breast Self Exam
Breast Dimpling
Breast Cancer
Peau d’orange
Anatomy of the Breast Vary in shape & size Cone shaped with the post surface (base) overlying the pectoralis & serratus muscles Axillaries tail extends from lat. base of the breasts to axillaries fossa Tapers ant. from the base ending in nipple, surrounded by areola
Female Breast Consists of 15-20 lobes Divide into several lobules Lobules contain acini, draining ducts and interlobular connective tissue. By teenage years each breast contains hundreds of lobules
Lymph Nodes Lymphatic vessels of the breast drain laterally and medially Laterally into the axillary lymph nodes (C & D) 75& drain toward axilla Medially into the mammary lymph nodes 25% toward mammary chain (F) A pectoralis major muscle B axillary lymph nodes: levels C axillary lymph nodes: levels D axillary lymph nodes: levels E supraclavicular lymph nodes F internal mammary lymph nodes
Quadrants of the Breast
3 Tissue Types
Breast Changes with Age
Breast Classifications
Fibro-glandular Breast Dense with very little fat Females 15-30 years of age Or 30 years or older without children Pregnant or lactating
Fibro-fatty Breast Fibro-fatty Average density 50% fat & 50% fibro-glandular Women 30-50 years of age Or women with 3 or more children
Fatty Breast Fatty Minimal density Women 50 and older (postmenopausal), men and children
Positioning
Various Mammographic Positioning
Ouch! Why Compression? Two Reasons: Decrease thickness of breast tissue Reduce OID
Cranio- caudad :CC
Diagram of Proper CC Positioning
CC Images
Multiple Bilateral Benign Calcifications
Breast Cancer
Carcinoma
Microcalcifications
CC positioning CR Perpendicular Film tray brought to level of inframammary crease Wrinkles and folds smoothed out Compression applied Markers on axillary side
CC Criteria No motion Nipple in profile All pertinent anatomy demonstrated Dense areas penetrated High contrast & optimal resolution Absence of artifacts Marker & patient ID visible
Medio-lateral Oblique: MLO
MLO Diagram for Proper Positioning
MLO Properly Positioned
Bilateral MLO
MLO positioning CR & cassette (IR) angled 45 degrees Top of cassette (IR) at axilla Compression applied Nipple in profile Marker at axilla
MLO criteria No motion Pectoral muscle to level of nipple visualized Breast pulled away from chest wall Nipple in profile Dense areas of breast penetrated High contrast & optimal resolution Absence of artifacts Marker & PT ID visible
What position is this?
What position is this?
Breast Implants Are they worth it?
Complication with Breast Augmentation Mammography has a 80-90% true positive rate for detecting breast cancer in those women without implants Decreases to 60% with implants Because 85% of breast tissue is obscured More images are needed than the standard two projections There is a risk of rupturing the implant
Elkland Method for Imaging with Breast Implants
Image Comparison Which is the Push back (Elkland)?
Male Mammography and Cancer
Male Mammography 1300 men get breast cancer per year 1/3 die Most are 60 years or older Nearly all are primary tumors Symptoms include: Nipple retraction Crusting Discharge Ulceration
Gynemastia Benign excessive development of male mammary gland Occurs in 40% of male cancer pt’s Survival rates with treatment are 97% for 5 years
Old and New Equipment
Cone Magnification
Cone magnification
Mammography Equipment
Digital vs. Film