Invasive Paget's disease of the vulva treated with a combination of surgery and concurrent chemoradiotherapy: A case report.

Invasive Paget's disease of the vulva (IP) is rare among patients with vulvar cancer. Radiation therapy and chemotherapy are not considered as radical, whereas surgical resection of the tumor with abdominal lymphadenectomy is highly invasive. Thus, more effective and less invasive treatments for IP are required. The present study reports a case of a 64-year-old woman with IP, who was treated with a combination of surgery and concurrent chemoradiotherapy (CCRT). The patient was diagnosed with IP with suspected lymph node metastases to the inguinal and pelvic lymph nodes, after having suffered from pruritus vulvae for 7 years. Following mapping biopsy, wide local excision, bilateral inguinal lymph node resection and laparoscopic pelvic lymphadenectomy were successfully performed. The vulva was reconstructed with a local fat flap. Postoperative pathological examination revealed metastases to the bilateral superficial inguinal and the left obturator and lateral suprainguinal lymph nodes. Adjuvant CCRT (whole pelvic irradiation, 50.4 Gy with weekly cisplatin, 40 mg/m2) was completed without notable complications. Therefore, laparoscopic pelvic lymphadenectomy may be useful in determining the irradiation field for adjuvant CCRT in patients with advanced IP.

Introduction

Invasive Paget's disease of the vulva (IP) is a rare entity among patients with vulvar cancer, accounting for <1% of all vulvar malignancies (1). Radiation therapy and chemotherapy are not considered to be radical, whereas surgical resection of the tumor with abdominal lymphadenectomy is highly invasive (2,3). Paget's disease of the vulva is classified into primary and secondary, which may be distinguished using immunohistochemistry (3–5). Primary Paget's disease is subdivided into three categories, namely intraepithelial Paget's disease (IEP), IP, and Paget's disease as a manifestation of an underlying adenocarcinoma of a skin appendage or a vulvar gland (4–6). While IEP is usually treated with surgery and its prognosis is relatively good, IP is associated with a poor prognosis (1,3) and a treatment strategy for advanced IP has not yet been standardized (2,6). Thus, more effective and less invasive treatments for IP are required.

We encountered a case of IP with metastases to the pelvic lymph nodes, which was effectively treated with a combination of wide local excision, inguinal lymph node resection and laparoscopic pelvic lymphadenectomy, followed by concurrent chemoradiotherapy (CCRT).

Case report

A 64-year-old woman visited Kyoto University Hospital with a rapidly growing mass in the vulva accompanied by pruritus. The patient had first experienced pruritus in the vulva 7 years prior and visited a local hospital. A topical cream was prescribed, but the pruritus persisted. Finally, the patient found a growing mass in the vulva and visited the hospital again. A wide erythematous rash and a hemorrhagic red mass were observed in the vulva and the patient was diagnosed with vaginal cancer and was referred to our hospital for further evaluation. At presentation, a solid mass measuring 4.3 cm was observed in the right vulva, with bilateral inguinal lymphadenopathy (Fig. 1A). A biopsy of the mass revealed invasive cancer cells. The results of the immunohistochemical examination revealed that the tumor cells were positive for cytokeratin (CK)7 and negative for p63 and CK20. Biopsies from the erythematous rash surrounding the mass revealed Paget's cells in the epithelium, indicating that the invasive tumor cells originated from primary vulvar Paget's cells, and the case was diagnosed as IP. Bilateral superficial inguinal lymphadenopathy and left obturator and lateral suprainguinal lymphadenopathy were observed on computed tomography, magnetic resonance imaging and positron emission tomography examination (Fig. 1B-D). After mapping biopsy, local tumor resection, bilateral inguinal lymph node resection and laparoscopic pelvic lymphadenectomy were performed, followed by adjuvant CCRT. The vulva was reconstructed using a local fat flap (Fig. 2A), and laparoscopic pelvic lymphadenectomy was performed to determine the irradiation field for CCRT (Fig. 2B). The operative time was 8 h and 17 min and the total intraoperative blood loss was 66 g. Postoperative pathological examination revealed invasive adenocarcinoma arising from non-invasive Paget's disease (Fig. 3). Metastases to the bilateral superficial inguinal nodes and left obturator and lateral suprainguinal nodes were identified. CCRT (whole pelvic irradiation, 50.4 Gy/28 fractions with weekly cisplatin 7 cycles, 40 mg/m2) was completed without notable complications. The patient experienced an incomplete fracture of the left femoral head, which was possibly treatment-related, 12 months after the treatment and was treated conservatively with the administration of non-steroidal anti-inflammatory drugs and rest. The patient remained alive without recurrence 15 months after the treatment.

Figure 1.

Preoperative findings of invasive Paget's disease of the vulva. (A) Macroscopic appearance of the vulvar tumor. A red mass measuring 4.3×3.6 cm near the clitoris and a widespread erythematous rash in the vulva were observed. (B) Enlarged bilateral superficial inguinal lymph nodes (arrowheads) were observed on computed tomography scan. (C) Enlarged left obturator and lateral supra-inguinal lymph nodes (arrowheads) were visualized using computed tomography. (D) On positron emission tomography, fluorodeoxyglucose uptake (arrowheads) was observed in the left obturator and lateral supra-inguinal lymph nodes, as well as the vulvar tumor.

Figure 2.

Intraoperative findings of the invasive Paget's disease of the vulva. (A) After local resection of the tumor, the vulva was reconstructed with a local fat flap. (B) Laparoscopic pelvic lymphadenectomy; an enlarged left obturator lymph node is indicated.

Figure 3.

Hematoxylin and eosin staining of the resected specimen of the invasive Paget's disease of the vulva. Note the protrusion of invasive adenocarcinoma (yellow square) abruptly arising on a background of non-invasive Paget's disease (red square). Left, loupe image; magnification, ~x5. Upper-right; magnification, ×200. Lower-right; magnification, ×200.

Discussion

Paget's disease of the vulva is classified into primary and secondary Paget's disease; the former is of cutaneous origin, whereas the latter originates from other malignancies, such as those from the urogenital or gastrointestinal tracts (3–5). Primary Paget's disease is subdivided into three categories: Intraepithelial Paget's disease (IEP), IP, and Paget's disease as a manifestation of an underlying adenocarcinoma of a skin appendage or vulvar gland (4–6). Immunohistochemistry is useful for the differential diagnosis of primary and secondary Paget's disease; Paget's cells of vulvar origin express CK7 and carcinoembryonic antigen, whereas those secondary to urothelial cancer are positive for CK20, p63, uroplakin-III and GATA-3, and those secondary to anorectal adenocarcinoma are positive for CK20, CDX2 and MUC2, but negative for CK7 (3,7). The tumor cells in the present case were positive for CK7 and negative for p63 and CK20, suggesting a vulvar origin.

While IEP is usually treated with surgery and its prognosis is relatively good, the prognosis of IP is poor (1,3) and treatment strategies for advanced IP have not yet been standardized (2,6). IP is usually treated as squamous cell carcinoma (SCC) of the vulva (3). Stage IV SCC of the vulva is usually treated with chemotherapy or CCRT (8–10). When Paget's disease is treated with radiotherapy, a radiation dose of 40–50 Gy is recommended for IEP and 55–65 Gy for IP (3,11,12). A previous case report described the efficacy of CCRT in advanced IP; good disease control was obtained within the irradiation field, although the metastatic lesions outside the irradiation field progressed (2). In the present case, metastases were limited to inguinal and pelvic lymph nodes, both of which were within the field of whole pelvic irradiation. Thus, it was suggested that the disease may be controlled with CCRT.

Historically, radical vulvectomy was previously performed for vulvar SCC, but this procedure is extremely invasive and severe complications, such as postoperative wound dehiscence, infection, lymphedema and psychosexual impairment, are common (8,13). Moreover, recurrence following radical vulvectomy is not rare in Paget's disease (6). Wide local resection, which is a less invasive approach, is currently becoming the standard treatment modality for early-stage SCC of the vulva and primary IEP (6,14). Our patient did not experience wound dehiscence or infection following wide local resection, and underwent adjuvant CCRT immediately after the surgery. However, it is difficult to obtain clear surgical margins in Paget's disease, as Paget's cells spread through the epidermis (15,16). Intraoperative evaluation of the surgical margins is conducted in some cases, but it is associated with ~10% false negative outcomes, since Paget's cells are difficult to evaluate on frozen sections (3,17). Therefore, in the present case, mapping biopsy was conducted prior to surgery, as it has been reported to be useful for determining the surgical margins in extramammary Paget's disease (16).

Although surgery alone does not appear to be sufficient for the treatment of IP (15), surgery as a staging procedure may be useful, as accurate staging is key to determining treatment strategy for IP. It has been reported that over one-third of patients with Paget's disease with metastases to the lymph nodes succumb to the disease (1), which suggests that treating lymph node metastases is crucial. Laparoscopic pelvic lymphadenectomy is widely performed in gynecological malignancies, such as cancers of the uterine corpus and cervix; this procedure is safe and less invasive, with a shorter hospital stay compared with laparotomy (18). Laparoscopic lymphadenectomy is conducted to determine the irradiation field in cervical cancer and in some cases of vulvar SCC (18,19); hence, it may also be useful for IP with suspected lymph node metastases. Bilateral inguinal lymphadenectomy was avoided, as lymphadenectomy combined with radiotherapy may cause severe lymphedema (14). Instead, resection of the enlarged lymph nodes was performed, and the patient did not develop lymphedema after CCRT.

In conclusion, we herein present a case of invasive Paget's disease treated successfully without severe complications using a combination of local excision and laparoscopic pelvic lymphadenectomy as a staging surgery followed by adjuvant CCRT. Laparoscopic pelvic lymphadenectomy may be useful for determining the irradiation field for adjuvant CCRT in cases with advanced IP. However, further studies are required to establish an optimized treatment strategy for IP.