Fibrocystic breast changes
|Fibrocystic breast changes|
|Classification and external resources|
Fibrocystic breasts or fibrocystic breast disease or fibrocystic breast condition commonly referred to as "FBC" is a condition of breast tissue affecting an estimated 30-60% of women and at least 50% of women of childbearing age. Some studies indicate that the lifetime prevalence of FBC may be as high as 70% to 90%. It is characterized by noncancerous breast lumps which can sometimes cause discomfort, often periodically related to hormonal influences from the menstrual cycle.
In ICD-10 the condition is called diffuse cystic mastopathy, or, if there is epithelial proliferation, fibrosclerosis of breast. Other names for this condition include chronic cystic mastitis, fibrocystic mastopathy and mammary dysplasia. The condition has also been named after several people (see eponyms below). Since it is a very common disorder, some authors have argued that it should not be termed a "disease", whereas others feel that it meets the criteria for a disease. It is not a classic form of mastitis (breast inflammation).
Signs and symptoms
The changes in fibrocystic breast disease are characterised by the appearance of fibrous tissue and a lumpy, cobblestone texture in the breasts. These lumps are smooth with defined edges, and are usually free-moving in regard to adjacent structures. The bumps can sometimes be obscured by irregularities in the breast that are associated with the condition. The lumps are most often found in the upper, outer sections of the breast (nearest to the armpit), but can be found throughout the breast. Women with fibrocystic changes may experience a persistent or intermittent breast aching or breast tenderness related to periodic swelling. Breasts and nipples may be tender or itchy.
Symptoms follow a periodic trend tied closely to the menstrual cycle. Symptoms tend to peak in the days and, in severe cases, weeks before each period and decrease afterwards. At peak, breasts may feel full, heavy, swollen, and tender to the touch. No complications related to breastfeeding have been found.
The exact mechanism of the condition is not fully understood, though it is known to be tied to hormone levels, as the condition usually subsides after menopause and is also related to the menstrual cycle. Post-menopausal women placed on hormone replacement therapy (HRT) have also reported symptoms of FBC indicating hormones may play a role.
Fibrocystic breast changes is a cumulative process, caused partly by the normal hormonal variation during a woman's monthly cycle. The most important of these hormones are estrogen, progesterone and prolactin.
These hormones directly affect the breast tissues by causing cells to grow and multiply. Many other hormones such as TSH, insulin, growth hormone and growth factors such as TGF-beta exert direct and indirect effects amplifying or regulating cell growth. Years of such fluctuations eventually produce small cysts and/or areas of dense or fibrotic tissue. Multiple small cysts and an increasing level of breast pain commonly develop when a woman hits her 30s. Larger cysts usually do not occur until after the age of 35. Over time, presumably driven by aberrant growth signals, such lesions may accumulate epigenetic, genetic and karyotypic changes such as modified expression of hormone receptors and loss of heterozygosity.
Several variants of fibrocystic breast changes may be distinguished and these may have different causes and genetic predispostions. Adenosis involves abnormal count and density of lobular units, while other lesions appear to stem mainly from ductal epithelial origins.
Diagnosis is mostly done based on symptoms after exclusion of breast cancer. Nipple fluid aspiration can be used to classify cyst type (and to some extent improve breast cancer risk prediction) but it is rarely used in practice. Biopsy or fine needle aspiration are rarely warranted.
Fibrocystic breast disease is primarily diagnosed based on the symptoms, clinical breast exam and on a physical exam. During this examination, the doctor checks for unusual areas in the breasts, both visually and manually. Also, the lymph nodes in the axilla area and lower neck are examined. A complete and accurate medical history is also helpful in diagnosing this condition. If the patient's medical history and physical exam findings are consistent with normal breast changes, no additional tests are considered but otherwise the patient will be asked to return a few weeks later for reassessment. Women may detect lumps in their breasts during self-examination as well.
In order to establish whether the lump is a cyst or not, several imaging tests may be performed. Mammography is usually the first imaging test to be ordered when unusual breast changes have been detected during a physical examination. A diagnostic mammography consists in a series of x-rays that provide clear images of specific areas of the breast.
Ultrasounds and MRIs are commonly performed in conjunction with mammographies as they produce clear images of the breast and clearly distinguish between fluid-filled breast cysts and solid masses. The ultrasound and MRI exams can better evaluate dense tissue of the breast; hence it is often undergone by young patients, under 30 years old.
The breast biopsy is usually the test used to confirm the suspected diagnosing. After imaging tests have been performed and have revealed unusual areas or lumps in the breast, a breast biopsy will be ordered. This test consists in removing a sample of breast tissue which is then looked at under a microscope. The specialist analyzing the tissue sample will be able to conclude if the breast changes are benign or malignant or whether breast fibrocystic disease is present.
There are four main types of breast biopsies that may be performed. A fine-needle aspiration biopsy is usually ordered when the doctor is almost certain that the lump is a cyst. This test is generally performed in conjunction with an ultrasound which is helpful in guiding the needle into a small or hard to find lump. The procedure is painless and it consists in inserting a thin needle into the breast tissue while the lump is palpated.
The core-needle biopsy is normally performed under local anesthesia and in a physician's office. The needle used in this procedure is slightly larger than the one used for a fine-needle biopsy because the procedure is intended to remove a small cylinder of tissue that will be sent to the laboratory for further examination.
A newer type of breast biopsy is the stereotactic biopsy that relies on a three-dimensional x-ray to guide the needle biopsy of non-palpable mass. The biopsy is performed in a similar manner, by using a needle to remove tissue sample but locating the specific area of the breast is done by x-raying the breast by two different angles. Surgical biopsy is a procedure performed to remove the entire lump or a part of it for laboratory analyzing. It may be painful and it is done under local anesthesia.
Most women with fibrocystic changes and no symptoms do not need treatment, but closer follow-up may be advised.
There is no widely accepted treatment or prevention strategy for fibrocystic condition. When treatment of symptoms is necessary it follows the same strategies as treatment for cyclical breast pain.
A few small-scale studies have indicated that the fibrocystic condition may be improved by dietary changes (especially by a reduced intake of caffeine and related methylxanthines or by a reduced intake of salt) and by vitamin supplements.
Very small, preliminary studies have shown beneficial effects of iodine supplementation (such as reducing the presence of breast cysts, fibrous tissue plaques and breast pain) in women with fibrocystic breast changes, with elemental iodine (I2) being more effective than iodide (I−). It is noted that iodine supplementation, via an iodine-based modulation of estrogen influence in the breast, also appears to inhibit early cancer progression in small studies done on breast cancer cells in a lab.. Since treatment success in a lab is often not replicated in humans, more human research is necessary to determine if iodine supplementation prevents breast cancer
A U.S. National Institutes of Health fact sheet of 2011 reported on a randomized, double-blind, placebo-controlled clinical trial performed on 111 women affected by fibrosis and having a history of breast pain. In this trial, daily doses of iodine led to decreased in breast pain, tenderness and nodularity. It was emphasized that further research to clarify iodine's role in fibrocystic breast disease is needed and that large doses of iodine should only be used under the guidance of a physician.
There are usually no adverse side effects to this condition. In almost all cases it subsides after menopause. A possible complication arises through the fact that cancerous tumors may be more difficult to detect in women with fibrocystic changes.
Breast cancer risk
Breast cancer risk is elevated for defined fraction of lesions. Except for patients with a strong family history of breast cancer, where the risk is two-fold, nonproliferative lesions have no increased risk. Proliferative lesions also have approximately a 2-fold risk. In particular, atypical hyperplasia is associated with an increased risk of developing breast cancer. Atypical lobular hyperplasia is associated with the greatest risk, approximately 5-fold and especially high relative risk of developing premenopausal breast cancer. Atypical ductal hyperplasia is associated with 2.4-fold risk. In contrast, a New England Journal of Medicine article  states that for women with a strong familial history of breast cancer, the risk of future breast cancer is roughly doubled, independent of histological status. The article further states "The relative risk of breast cancer for the cohort was 1.56 (95 percent confidence interval, 1.45 to 1.68), and this increased risk persisted for at least 25 years after biopsy. The relative risk associated with atypia was 4.24 (95 percent confidence interval, 3.26 to 5.41), as compared with a relative risk of 1.88 (95 percent confidence interval, 1.66 to 2.12) for proliferative changes without atypia and of 1.27 (95 percent confidence interval, 1.15 to 1.41) for nonproliferative lesions. The strength of the family history of breast cancer, available for 4808 women, was a risk factor that was independent of histologic findings. No increased risk was found among women with no family history and nonproliferative findings. In the first 10 years after the initial biopsy, an excess of cancers occurred in the same breast, especially in women with atypia."
It is not well understood whether the lesions are precursors of breast cancer or only indication of increased risk, for most types of lesions the chance of developing breast cancer is nearly the same in the affected and unaffected breast (side) indicating only coincidence of risk factors. For atypical lobular hyperplasia there is high incidence of ipsilateral breast cancers indicating a possible direct carcinogenetic link.
The estimated figures for the prevalence of fibrocystic breast changes in women over lifetime vary widely in the literature, with estimates ranging from about 30 to 60 % over about 50 to 60 % to about 60 to 75% of all women.
The condition is most common among women between 30 and 50 years of age.
This entity has historically also been termed Bloodgood’s disease, Cooper's disease (after Sir Astley Paston Cooper, 1st baronet), Phocas' disease, Reclus’ disease and Reclus’ syndrome (after Paul Reclus), Reclus-Schimmelbusch disease, Schimmelbusch disease and Tillaux-Phocas disease.
- Susan L. Norwoord (March 1990). "Fibrocystic Breast Disease An Update and Review". JOGNN – Journal of Obstetric Gynecologic, & Neonatal Nursing. 19: 116–121. doi:10.1111/j.1552-6909.1990.tb01629.x.
- Ghent WR, Eskin BA, Low DA, Hill LP (October 1993). "Iodine replacement in fibrocystic disease of the breast". Canadian Journal of Surgery (Comparative study). 36 (5): 453–60. PMID 8221402.
- Plu-Bureau G, Lê MG, Sitruk-Ware R, Thalabard JC. Cyclical mastalgia and breast cancer risk: results of a French cohort study. Cancer Epidemiol Biomarkers Prev. 2006;15(6):1229-1231.
- University of Maryland Medical Center. "Fibrocystic Breast Disease - Overview". Retrieved 21 June 2012.
- Disorders of breast (N60-N64) in ICD-10.
- Atlantic Women’s Specialists. "Fibrocystic Breast Changes". Retrieved 21 June 2012.
- Santen RJ, Mansel R (July 2005). "Benign breast disorders". N. Engl. J. Med. 353 (3): 275–85. doi:10.1056/NEJMra035692. PMID 16034013.
- "Ultrasound Characterization of Breast Masses". Indian Journal of Radiology and Imaging. 19: 242–247. August 2009. doi:10.4103/0971-3026.54878.
- "Fibrocystic Breast Condition".2010/04/13, MedicineNet.com
- "Fibrocystic Breast Condition".2010/04/13
- Cann, Stephen A.; van Netten, Johannes P.; van Netten, Christiaan (2000). "Hypothesis: iodine, selenium and the development of breast cancer". Cancer Causes and Control (review). 11 (2): 121–127. doi:10.1023/A:1008925301459. ISSN 0957-5243. PMID 10710195.
- Joseph E. Pizzorno; Michael T. Murray (14 September 2012). Textbook of Natural Medicine. Elsevier Health Sciences. p. 1371. ISBN 1-4377-2333-0.
- "Benign Breast Disease: When To Treat, When To Reassure, When To Refer". Cleveland Clinic Journal of Medicine. 69: 424–439. May 2002.
- "Tests and diagnosis".2010/04/13
- "Diagnosing Fibrocystic Breast Disease".2010/04/13
- "Types of non-cancerous breast conditions".2010/04/13
- Gadducci A, Guerrieri ME, Genazzani AR (February 2012). "Benign breast diseases, contraception and hormone replacement therapy". Minerva Ginecologica. 64 (1): 67–74. PMID 22334232.
- Ethel Sloane, Biology of Women, Cengage Learning, 2002, p. 200-201
- Stoddard II, Frederick R. (2008). "Iodine Alters Gene Expression in the MCF7 Breast Cancer Cell Line: Evidence for an Anti-Estrogen Effect of Iodine". International Journal of Medical Sciences. 5: 189–96. doi:10.7150/ijms.5.189. ISSN 1449-1907. PMC . PMID 18645607.
- "Iodine: Fact Sheet for Health Professionals". NIH. Retrieved 2015-02-07.
- Kessler JH (2004). "The effect of supraphysiologic levels of iodine on patients with cyclic mastalgia". The Breast Journal (Randomized Controlled Trial). 10 (4): 328–36. doi:10.1111/j.1075-122X.2004.21341.x. PMID 15239792.
- Ethel Sloane, Biology of Women, Cengage Learning, 2002, p. 200
- Marshall, LM; Hunter, DJ; Connolly, JL; Schnitt, SJ; Byrne, C; London, SJ; Colditz, GA (1997). "Risk of breast cancer associated with atypical hyperplasia of lobular and ductal types". Cancer Epidemiology, Biomarkers & Prevention. 6 (5): 297–301. PMID 9149887.
- Hartmann, L. C.; Sellers, T. A.; Frost, M. H.; Lingle, W. L.; Degnim, A. C.; Ghosh, K; Vierkant, R. A.; Maloney, S. D.; Pankratz, V. S.; Hillman, D. W.; Suman, V. J.; Johnson, J; Blake, C; Tlsty, T; Vachon, C. M.; Melton Lj, 3rd; Visscher, D. W. (2005). "Benign breast disease and the risk of breast cancer". New England Journal of Medicine. 353 (3): 229–37. doi:10.1056/NEJMoa044383. PMID 16034008.
- Page, D. L.; Schuyler, P. A.; Dupont, W. D.; Jensen, R. A.; Plummer Jr, W. D.; Simpson, J. F. (2003). "Atypical lobular hyperplasia as a unilateral predictor of breast cancer risk: a retrospective cohort study". The Lancet. 361 (9352): 125–9. doi:10.1016/S0140-6736(03)12230-1. PMID 12531579.
- Kelly A. McGarry; Iris L. Tong (6 July 2012). The 5-Minute Consult Clinical Companion to Women's Health. Lippincott Williams & Wilkins. p. 86. ISBN 978-1-4511-1654-0.
- Roger P. Smith (1 December 2008). Netter's Obstetrics and Gynecology. Elsevier Health Sciences. p. 371. ISBN 1-4377-2137-0.
- synd/1891 at Who Named It?