Breast lesions during pregnancy and lactation: a pictorial essay
Article information
Abstract
A wide range of breast lesions can arise during pregnancy and lactation, from benign or Epub ahead of print inflammatory diseases to malignant tumors. Hormone-influenced physiological changes of the breast make the radiological evaluation of breast lesions challenging. Knowledge of the imaging features of normal physiological changes and common breast lesions during this period can help radiologists accurately diagnose and appropriately manage conditions. As such, this pictorial essay illustrates normal physiological changes related to pregnancy and lactation, as well as common benign and malignant breast lesions encountered during those periods.
Introduction
During pregnancy and lactation, the breast undergoes physiological changes under the influence of various hormones. These manifest as parenchymal tissue pattern alterations and increased blood flow [1]. Changes of this nature may make the radiological evaluation of breast lesions more difficult [2,3]. Most breast lesions detected during pregnancy and lactation are benign; however, the possibility of pregnancy-associated breast cancer (PABC) must be considered to avoid a delayed diagnosis [4]. The purpose of this article is to review the imaging findings associated with pregnancy- and lactation-related physiological changes of the breast and to discuss the benign and malignant lesions common during those periods.
Normal Physiological Changes of the Breast during Pregnancy and Lactation
The breast undergoes various changes during pregnancy and lactation in response to hormones such as estrogen, progesterone, and prolactin [1]. During pregnancy, the number and size of breast ducts and lobules increase. The fluid content of the breast also increases, accompanied by involution of the fibrofatty stroma [1,5]. After delivery, prolactin induces milk accumulation and corresponding lobular growth and distension, and oxytocin induces the milk ejection reflex and facilitates the maintenance of milk production [1,4-6]. These physiological changes result in increased breast volume with associated palpable nodularity and increased firmness, making the clinical detection of palpable lesions difficult [5]. Spontaneous unilateral or bilateral bloody nipple discharge can occur during pregnancy and early lactation (in up to 20% of pregnant women and 15% of lactating women) due to proliferative changes in epithelial cells as well as increased breast vascularity [1,4]. This condition is usually self-limiting. However, persistent unilateral bloody nipple discharge can be a pathological condition that occurs secondary to infection, papilloma, or breast cancer. A diagnostic imaging evaluation is recommended if pathological nipple discharge is suspected [1,4,7].
Imaging Evaluations and Breast Biopsies during Pregnancy and Lactation
The evaluation of breast imaging studies during pregnancy and lactation is challenging because of physiological and structural changes in the breast, as well as the need to balance maternal and fetal well-being [7].
Mammography
On mammography, physiological changes during pregnancy and lactation result in a diffuse increase in parenchymal density with breast enlargement (Fig. 1). These changes decrease the sensitivity of mammography by 70%-90% [1,4-6].
Mammography is generally safe during pregnancy, as it exposes the mother and fetus to negligible radiation. The fetal radiation dose from a four-view mammogram is less than 0.03 mGy and does not have teratogenic effects [8,9]. In their Appropriateness Criteria, the American College of Radiology (ACR) established evidence-based guidelines for specific clinical conditions. According to these guidelines, there is limited evidence to support breast cancer screening in pregnant or lactating women. However, screening mammography is not contraindicated during pregnancy, particularly in women at intermediate to high risk for breast cancer. Mammography and digital breast tomosynthesis are appropriate modalities for breast cancer screening. In a diagnostic setting, mammography can be used as a supplement to ultrasonography for breast evaluations in pregnant women with palpable masses or pathological nipple discharge. A complete mammographic evaluation is recommended for locoregional staging in pregnant women with newly diagnosed breast cancer [7,9].
Ultrasonography
On ultrasonography, during pregnancy, the breast shows diffuse hypoechogenicity with fibroglandular enlargement and increased vascularity (Fig. 2A). In lactating women, the breast shows diffuse hyperechogenicity with a prominent ductal system and increased vascularity (Fig. 2B, C) [4,6,10,11]. Ultrasonography is the best imaging modality to evaluate breast lesions during pregnancy and lactation, as it is sensitive and confers no radiation exposure [6,11,12]. According to the ACR Appropriateness Criteria, pregnant woman with palpable masses or pathological nipple discharge should be initially evaluated by ultrasonography in order to characterize the features of the lesion and plan proper management [1,7,13].
Magnetic Resonance Imaging
The physiological increases in breast vascularity during pregnancy and lactation result in markedly increased background parenchymal enhancement on breast dynamic contrast-enhanced magnetic resonance imaging (MRI). These changes may limit the sensitivity of MRI [14].
MRI has a limited role during pregnancy and lactation due to concerns about gadolinium exposure and limited data regarding the safety of the technique for such use [8]. According to the ACR Appropriateness Criteria, the routine use of breast MRI is not appropriate in either screening or diagnostic settings during these periods; rather, use of the technique is recommended only in situations where the risk-benefit ratio is clear [7].
Core Needle Biopsy
Core needle biopsy is considered safe during pregnancy and lactation, but caution should be exercised due to the relatively high risk of bleeding, infection, or milk fistula formation [1,8]. To minimize complications, patients are recommended to discontinue breastfeeding prior to biopsy. Additionally, procedures should be performed only under strict aseptic conditions. Moreover, it is helpful to monitor and facilitate hemostasis by using compression or ice packs after biopsy [1].
Inflammatory and Infectious Diseases
Puerperal Mastitis
Mastitis occurs relatively often during lactation, specifically in up to 20%-25% of breastfeeding women [15]. The most common pathogens are Staphylococcus aureus and Streptococcus , which are present in the infant’s nasopharynx and infect the breast through nipple cracks during breastfeeding [4]. If an abscess is suspected, ultrasonography is the most useful modality for the diagnosis and treatment of mastitis [1,4]. On ultrasonography, mastitis appears as an ill-defined area of altered echotexture, usually with hypoechoic or heterogeneous echogenicity; increased vascularity is observed on color Doppler ultrasonography (Fig. 3). Ancillary findings include skin thickening and enlarged axillary lymph nodes [2]. The abscess is an irregular hypoechoic or anechoic mass, sometimes with internal echogenic debris and/or posterior acoustic enhancement (Fig. 4) [6]. Treatment of mastitis includes appropriate antibiotic therapy. Ultrasound-guided fine-needle aspiration, vacuum-associated biopsy, or surgical drainage can be effective treatment options in the case of abscess formation [15,16]. However, if the patient does not respond to antibiotic therapy for puerperal mastitis, the possibility of cancer should be considered and further evaluation should be performed [2,4].
Granulomatous Mastitis
Granulomatous mastitis is a rare inflammatory disease of unknown etiology that typically affects young women within 5 years of pregnancy [1,6]. Clinically, it manifests as a firm to hard mass and is accompanied by reactive lymphadenopathy in up to 15% of patients [1,2]. On ultrasonography, solitary or multiple clustered, circumscribed, or irregular heterogeneous hypoechoic masses are observed, often with contiguous tubular configurations (Fig. 5). Diffuse abscess or fistula formation can also be seen [13]. These masses can occur in any part of the breast but tend to spare the subareolar regions [1,2]. Due to the variations in imaging results, they can sometimes resemble malignancy. It is important to correlate the imaging features with the histopathological findings and to engage in long-term follow-up [13].
Benign Disorders during Pregnancy and Lactation
Galactocele
Galactocele is a milk-filled retention cyst caused by the obstruction of the lactiferous duct. It is the most common benign breast mass in women who are or who recently stopped lactating [6,10]. Clinically, it manifests as one or multiple painless palpable masses [10]. On mammography, galactocele can exhibit various imaging features depending on the proportion of fat and protein in the individual’s breast milk. When completely radiolucent with a relatively high fat content, it is known as pseudolipoma. A cystic mass with a fat-fluid level is a diagnostic indicator of a galactocele, with the fat content above and the water content remaining at the bottom. Alternatively, when the high viscosity of breast milk does not allow the separation of the fat and water contents, a galactocele can resemble a hamartoma; this condition is known as pseudohamartoma [1,4,10]. On ultrasonography, galactocele manifests as a simple or complicated cyst, typically an oval-shaped mass with a circumscribed margin and variable internal echogenicity (Fig. 6) [1,10,17]. A common complication of galactocele is infection. Galactocele infection is confirmed when mixed milky and purulent material is obtained by fine-needle aspiration. On ultrasonography, an infected galactocele appears relatively conspicuous and similar to an abscess (Fig. 7) [1]. Uncomplicated galactoceles with typical imaging features are self-limiting; in cases of galactoceles with associated symptoms or atypical imaging features, ultrasound-guided fine-needle aspiration should be performed [10].
Lactating Adenoma
A lactating adenoma is a benign tumor that develops in response to physiological hormonal changes during pregnancy and lactation [10]. Histopathologically, lactating adenomas display lobular expansion with numerous enlarged and dilated acini separated by connective tissue. Lactating adenoma has been suggested to be a variant of fibroadenoma, tubular adenoma, or lobular hyperplasia [6,10], and it can spontaneously regress after pregnancy and lactation [10]. On ultrasonography, lactating adenomas usually manifest as oval, circumscribed, homogeneous, hypoechoic or isoechoic masses and/or posterior acoustic enhancements (Fig. 8A, B). However, lesions with atypical imaging features such as irregular margins, heterogeneity, or posterior acoustic shadowing may mimic malignancy [1,10]. Lactating adenomas can regress naturally upon cessation of pregnancy or lactation (Fig. 8C) [4].
Fibroadenoma
Fibroadenomas are the most common benign breast tumors in young women. The image features of fibroadenomas are usually similar in pregnant and non-pregnant woman [2]. However, morphological and physiological changes can occur during pregnancy and lactation. As hormone-sensitive tumors, fibroadenomas often become enlarged with or without increased vascularity during pregnancy and lactation, and they can regress after the cessation of breastfeeding [1,13]. Spontaneous infarction of fibroadenoma is very rare, but can sometimes occur during pregnancy or lactation. Infarction can cause a fibroadenoma to exhibit more complex features, such as lobulated margins, heterogeneous echotexture, and posterior acoustic shadowing [1,4]. Secretory hyperplasia can sometimes occur in fibroadenomas during pregnancy and lactation. Fibroadenoma with secretory hyperplasia or lactational changes can exhibit heterogeneous echotexture and/ or dilated ducts and cysts, resembling a complex fibroadenoma (Fig. 9) [1]. In cases with atypical radiological features, percutaneous core needle biopsy should be performed to confirm the diagnosis.
Malignant Disorders during Pregnancy and Lactation
Pregnancy-Associated Breast Cancer
Breast cancer that occurs during pregnancy or within 1 year of delivery is defined as PABC. PABC occurs in one of every 3,00010,000 pregnancies and accounts for 1%-3% of all breast malignancies [4,5]. PABC usually manifests as a painless, palpable mass. Because of the difficulty in carrying out clinical examinations during pregnancy and shortly afterward, diagnosis may be delayed [2,4]. PABCs are biologically aggressive and have been found to be larger and more advanced than non-PABCs in same-age patients [2,5]. More than 50% of patients present with axillary lymph node metastasis; additionally, a high prevalence of hormone-receptornegative and HER2/neu-positive tumors has been reported in PABC, as has a high rate of inflammatory breast cancer [1,12,18] (Figs. 10, 11). A combination of delayed diagnosis and an aggressive growth pattern due to the biological effects of pregnancy results in poor prognosis; recurrence is common and appears within 2-3 years of diagnosis [1,2,13]. The imaging features of PABC are similar to those of non-PABC. The sensitivity of mammography is relatively low in pregnant or lactating patients due to increased glandular density; however, mammography may still be useful to visualize malignant microcalcifications, multifocality, multicentricity, or bilaterality [6] (Fig. 12). Ultrasonography is the most appropriate modality to assess PABC [1,12]. On ultrasonography, PABC manifests as a circumscribed to spiculated, hypoechoic to complex mass with or without posterior acoustic shadowing. However, aggressive tumors can show posterior acoustic enhancement that reflects necrotic or cystic degeneration. Associated features include thickening of the Cooper’s ligaments, edema, skin thickening, and axillary lymphadenopathy [2]. On MRI, features of PABCs include circumscribed to irregular margins, heterogeneous or rim enhancement, segmental distributed non-mass enhancement, and diffuse unilateral enhancement [19]. Despite the increased background parenchymal enhancement and T2 signal heterogeneity during pregnancy and shortly afterward, MRI may be a reliable modality of evaluating the extent and severity of PABC (Fig. 13) [5,19,20].
Conclusion
The imaging findings associated with breast lesions that arise during pregnancy and lactation do not differ greatly from those associated with similar lesions in non-pregnant women. However, it is difficult to utilize breast imaging during pregnancy and lactation due to hormone-induced physiological changes. To facilitate the accurate diagnosis of breast lesions during this period, it is important to understand the imaging findings associated with common breast lesions and physiological changes.
Notes
Author Contributions
Conceptualization: Lee SE. Data acquisition: Lee SE, Bae YK. Data analysis or interpretation: Lee SE, Bae YK. Drafting of the manuscript: Lee SE. Critical revision of the manuscript: Lee SE. Approval of the final version of the manuscript: all authors.
No potential conflict of interest relevant to this article was reported.
Acknowledgements
This study was supported by a research grant from Yeungnam University.