Poland’s syndrome (PS) is a very rare congenital musculoskeletal disorder characterised by hypoplasia or absence of the pectoralis major muscle and may be associated with breast hypoplasia, ammastia, chest wall deformities and ipsilateral upper limb abnormalities. A higher incidence of certain malignant tumours, including infiltrating ductal carcinoma (IDC) of the breast, has been reported in these patients. We present 2 cases of PS associated with breast carcinoma operated on in our department, describing their characteristics and oncological evolution.
Case 1: A 39-year-old woman with right PS (breast hypoplasia, absence of pectoralis, shortening of the ipsilateral arm and malformations of the fingers), and with a history of a contralateral symmetry mammoplasty. She started with a 20 mm nodule in the upper outer quadrant of the right breast, with no pathological lymphadenopathies. Mammography showed a 2 cm spiculated nodule, BIRADS 5. The core needle biopsy indicated IDC. She underwent lumpectomy and sentinel node biopsy (SNB) with definitive anatomopathological results of grade III IDC, hormone receptor (HR) positive and Her2-positive enlargement, stage T1N0M0. After surgery, she evolved favourably and was discharged 24 h after surgery. She received 6 cycles of fluorouracil, epirubicin and cyclophosphamide (FEC) associated with trastuzumab for one year. In addition to radiotherapy (50 Gy + boost 10 Gy) and hormone therapy with tamoxifen for 5 years. There was no recurrence with a 10-year follow-up.
Case 2: A 48-year-old female patient with a history of right PS due to breast hypoplasia. She was assessed for pain and local discomfort in the right breast. Physical examination showed induration and retraction of the nipple, with no palpable nodules or lymph nodes. Mammography revealed small retroareolar punctate calcifications with no other alterations and a skin biopsy of the nipple was performed. The result was positive for stage T4bN0M0 IDC. She received neoadjuvant treatment with 4 cycles of doxorubicin and cyclophosphamide followed by 12 cycles of paclitaxel with subsequent skin-sparing mastectomy, SNB and immediate reconstruction with direct prosthesis. Pathological anatomy showed a 3 cm grade III IDC with free borders, HR positive, Ki-67 of 15% and negative Her2 magnification. The SNB was negative for metastasis. She had a satisfactory evolution and was discharged 48 h postoperatively. Subsequently, hormone therapy with exemestane was started, and treatment has been ongoing to date, with no evidence of tumour recurrence.
To date, 22 cases of PS associated with breast carcinoma have been described (Table 1). Of the cases described, 59% were in the left breast, with malignant degeneration of the hypoplastic breast in 86.3% of the cases, with the healthy breast being affected in only 9% and only one case with bilateral involvement. Histology was IDC in 95% of cases, with oestrogen and progesterone receptor positivity in 68% and 53%, respectively, and Her2 amplification in 54%. Mastectomy with or without reconstruction was performed in most cases (77%). Our cases showed a right predominance, with involvement of the hypoplastic breast by IDC and HR expression. Only one of them had Her2 enlargement (case 1).
Cases of Poland's syndrome and breast cancer reported in the literature.
| # | Author | Age | Side | Breast involved | Histology | Hormonal receptors | Stage | Surgery | Hormonal treatment | CT | RT |
|---|---|---|---|---|---|---|---|---|---|---|---|
| 1 | Fukushima et al., 1999 | 57 | Right | Ipsilateral | IDC | O+P+Her2 N/R | IIAT1N1M0 | Mastectomy + AE | − | − | − |
| 2 | Fukushima et al., 1999 | 53 | Left | Ipsilateral | IDC | O−P−Her2 N/R | IIAT2N0M0 | Tumorectomy + AE | − | − | − |
| 3 | Havlik et al., 1999 | 33 | Right | Ipsilateral | IDC + ILC | O+P−Her2 N/R | IIAT2N0M0 | Mastectomy + AE | − | − | − |
| 4 | Katz et al., 2001 | 42 | Left | Ipsilateral | IDC | O−P+Her2− | IAT1N0M0 | Mastectomy + AE | − | + | − |
| 5 | Okamo et al., 2002 | 59 | Right | Contralateral | IDC | O+P+Her2 N/R | IIAT1N1bM0 | Tumorectomy + AE | − | + | − |
| 6 | Khandelwal et al., 2004 | 71 | Right | Ipsilateral | IDC + ISDC | O+P−Her2− | IAT1N0M0 | Mastectomy + AE | − | − | − |
| 7 | Wong et al., 2004 | 51 | Left | Ipsilateral | ISDC | ON/RP N/RHer2 N/R | 0TisN0M0 | Mastectomy | − | − | − |
| 8 | Tamiolakis et al., 2004 | 53 | Left | Ipsilateral | IDC | O−P+Her2− | IAT1N0M0 | Mastectomy + AE | − | + | − |
| 9 | Salhab et al., 2005 | 52 | Left | Ipsilateral | IDC + ISDC | O N/RP N/RHer2 N/R | IAT1N0M0 | Tumorectomy + SNB | − | − | − |
| 10 | Wang et al., 2008 | 46 | Right | Ipsilateral | IDC | O+P+Her2− | IIBT2N1M0 | Mastectomy + AE | − | + | + |
| 11 | Ji et al., 2008 | 58 | Left | Ipsilateral | IDC | O N/RP N/RHer2 N/R | IIAT2N0M0 | Mastectomy + AE | − | − | − |
| 12 | Caussa et al., 2009 | 43 | Left | Ipsilateral | IDC | O+P N/RHer2− | IIIAT3N1M0 | Mastectomy + AE | + | + | + |
| 13 | Yesilkaya et al., 2011 | 39 | Left | Ipsilateral | IDC | O−P+Her2+ | IIAT2N0M0 | Mastectomy + AE | + | + | − |
| 14 | Zhang et al., 2011 | 43 | Left | Ipsilateral | IDC | O+P+Her2+ | IIICT1N3M0 | Mastectomy + AE | − | + | − |
| 15 | DeFacio et al., 2017 | 62 | Right | Contralateral | IDC | O−P−Her2+ | IIAT2N0M0 | Mastectomy bilateral + SNB | − | + | − |
| 16 | DeFacio et al., 2018 | 69 | Left | Ipsilateral | IDC | O+P−Her2- | IAT1bN0M0 | Tumorectomy + SNB | − | − | + |
| 17 | DeFacio et al., 2018 | 37 | Right | Bilateral | R: ISDCL: IDC | O R+ L−P R− L−Her2 R+ L+ | R: IAT1bN0M0I: IAT1cN0M0 | Mastectomy + AE bilateral | − | − | − |
| 18 | Huang et al., 2018 | 74 | Left | Ipsilateral | IDC | O+P+Her2− | IIBT3N0M0 | Mastectomy + AE | + | − | − |
| 19 | Huang et al., 2018 | 60 | Left | Ipsilateral | IDC | O−P−Her2+ | IIIBT4N1M0 | Mastectomy + AE | − | − | − |
| 20 | Malatay Gonzalez et al., 2020 | 56 | Left | Ipsilateral | IDC | O+P+Her2+ | IVT3N0M1 | Mastectomy + AE | + | + | + |
| 21 | Case 1, 2007 | 39 | Right | Ipsilateral | IDC | O+P+Her2+ | IAT1cN0M0 | Tumorectomy + SNB | + | + | + |
| 22 | Case 2, 2018 | 48 | Right | Ipsilateral | IDC | O+P+Her2− | IIIBT4bN0M0 | Mastectomy + SNB | + | + | − |
AE: Axillary emptying; CT: Chemotherapy; IDC: Infiltrating ductal carcinoma; ILC: Infiltrating lobular carcinoma; ISDC: In situ ductal carcinoma; L: Left breast; N/R: Not reported; O: Oestrogen receptors; P: Progesterone receptors; R: Right breast; RT: Radiotherapy; SNB: Sentinel node biopsy.
PS is a congenital musculoskeletal disorder with an estimated incidence of 1:20,000 to 1:32,000 births,1 with a predilection for males.2 Breast involvement can range from mild hypoplasia to complete absence or ammastia.3 Seventy percent of cases affect the right side of the body.
Although the aetiology is unknown, the main defect is thought to be in the mesoderm from which the pectoral area and upper limb develop, due to decreased blood flow from the subclavian in this region during embryonic development.4 These vascular alterations have been demonstrated in some studies.5,6,8
The diagnosis of this disease is mainly clinical. In some cases, the clinical features are not so characteristic and may only present breast asymmetry or slight alterations of the chest wall, so this disease may be underdiagnosed. In this case, complementary imaging tests such as chest wall ultrasound, computed axial tomography or magnetic resonance imaging are recommended.5
Surgical treatment of breast cancer in these patients does not differ from that of the general population,9 although it is necessary to take extreme precautions to avoid thoracic lesions due to the possible absence of both pectoral muscles.8 Aesthetic correction of the hypoplastic breast requires individualised treatment and may require a contralateral symmetry mammoplasty.7 Greater caution should be exercised with the use of external radiotherapy in these patients, as it carries a higher risk of pulmonary and cardiac lesions and complications due to the absence of pectoral muscle to protect the intrathoracic organs.
Future studies are needed to establish a definitive relationship between the two pathologies, although this could be complicated due to the low incidence of this disease and the greater involvement of males.
To date, 22 cases of SP associated with breast carcinoma have been reported. Although there is no definitive association between the two, there may be an increased risk of cancer in these patients. We therefore recommend closer follow-up and a high level of suspicion when nodules or other breast alterations appear.
Conflict of interestsThe authors have no conflict of interests to declare.
