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Introduction

For nearly a century the standard surgical approach to treating breast cancer was to perform a Halstead radical mastectomy removing the breast, axillary lymph nodes and pectoralis muscle. It was believed that the more tissue that was removed the better the survival for the patient. This theory was disproven and surgeons began performing less invasive surgery in the 1970s and 1980s (1,2). With the publication of National Surgical Adjuvant Breast and Bowel Project protocol B-06, breast conserving surgery was determined to have equivalent results in terms of survival and local recurrence with the addition of radiation therapy, when compared with mastectomy (3). If deemed to be an appropriate candidate, patients have the choice between breast conserving surgery or mastectomy. The rates of breast conserving surgery have remained stable over the last decade, however the rates of women opting for contralateral prophylactic mastectomy have steadily increased for various reasons (4). For patients undergoing mastectomies, rates of reconstruction vary and ≤42% undergo this procedure (5). Traditionally, mastectomy with reconstruction for the treatment of breast cancer has been performed via a skin-sparing approach, as first described by Toth and Lappert (6) in 1991. Nipple and skin-sparing mastectomies, with preservation of the nipple-areola complex (NAC), have generally been performed for the treatment of benign disease and prophylactically in women at high risk for the development of breast cancer (7–9).

One of the concerns regarding the safety of nipple-sparing mastectomies (NSMs) in the treatment of breast cancer patients is the potential increased risk of breast cancer recurrence. The terminal duct lobular unit has been identified as the location for the development of all breast cancer, and a 2008 study identified the presence of terminal duct lobular units in the nipples of 9% of patients (10,11). The rate of occult malignancy detected in the NAC in mastectomy specimens has varied widely with studies reporting an incidence of 1–31% (12–16). Over the years, a number of prospective and retrospective studies have demonstrated a cancer recurrence rate in the NAC of up to 2%, with local recurrence rates ranging from 1–6% (17–19). A more recent meta-analysis comparing NSM to skin-sparing mastectomy (SSM) and/or modified radical mastectomy (MRM) identified no difference in overall survival, disease free survival or local recurrence amongst the groups in properly selected patients with early stage breast cancer (20).

Overall complication rates for NSM have been reported to be as high as 60% in certain older studies, with more recent data suggesting complication rates of 16–22% (21–22). In a 2003 study published by Gerber et al (19) the complication rate of NSM was compared with SSM and MRM and the overall complication rates were 20, 20, and 18% respectively. Similar findings have been reported in more recent retrospective studies comparing NSM with SSM (16,21). With comparable complication and recurrence rates to SSM, more surgeons are offering NSM to patients as a more cosmetically appealing alternative.

The current study was undertaken to evaluate the outcomes of patients undergoing NSMs at a single, large university hospital. Specifically, complication rates and tumor recurrence were studied.

Patients and methods

Patients

A prospectively maintained database of all surgical patients with breast cancer treated between September 2008 and June 2014 was queried following approval from the Washington University Institutional Review Board. A retrospective chart review was then undertaken for all patients who had undergone an NSM performed by one of two breast surgical oncologists with reconstruction performed by one of two plastic surgeons. Charts were reviewed for patient demographics, including age, body mass index (BMI) and smoking status. In those patients who underwent NSMs due to cancer, tumor characteristics were also recorded, including tumor size and nipple to tumor distance as well as tumor recurrence. All patients were required to have a tumor to nipple distance of >2 cm to be eligible for nipple-sparing mastectomy at our institution. The incision utilized, as well as the type of reconstruction undertaken were also evaluated. For all patients, any complications occurring within 30 days of surgery were documented, including any additional surgical procedures that were performed.

Statistical analysis

Statistical analysis was performed utilizing Fishers exact test for categorical variables and students unpaired t-test for continuous variables utilizing SPSS software version 22 (IBM SPSS, Armonk, NY, USA). P<0.05 was considered to indicate a statistically significant difference.

Results

Patient demographics

In the 6-year study period, 110 patients underwent 197 NSMs. Twenty-three (20.9%) patients had a unilateral NSM, while 87 (79.1%) went on to have bilateral NSMs. Of the 197 procedures performed, 124 (62.9%) were prophylactic and 73 (37.1%) were completed for cancer. Of the patients presenting with a breast cancer diagnosis, 25 (34.2%) had ductal carcinoma in situ (DCIS), 32 (43.8%) were TNM Stage I, 14 (19.2%) were TNM Stage II and 2 (2.8%) were TNM Stage III. Nine (8%) patients underwent neoadjuvant chemotherapy, 17 (15.5%) were treated with adjuvant chemotherapy and 3 (2.7%) underwent neoadjuvant and adjuvant chemotherapy. Two (1.8%) patients had undergone previous breast conserving therapy with radiation therapy. Ten (9%) patients underwent adjuvant chest wall radiation due to positive or close (<1 mm) margins or lymph node involvement on final pathology results.

The mean age of all patients undergoing surgery was 44.4 years (range, 20–77). Overall, the patients in the current study were at a healthy weight with an average BMI of 24, with a BMI range of 18–47. Breast weight was only documented for 106 specimens, with a mean weight of 475.5 g (range, 124.1–1,625.0 g). Thirteen (11.8%) of the patients studied were active smokers at the time of surgery.

Complications

The overall complication rate in this study was 17.3% (34/197; Table I). There was no statistically significant difference in complication rates based on patient age, BMI or breast weight. However, those patients who had complications were more likely to be smokers (26.5%) compared to patients without any complications (8.6%; P<0.05). Four of the patients who were smokers developed bilateral complications of infection and nipple necrosis. Thirteen patients underwent removal of their implant or tissue expander due to a complication and this was more common in smokers (25.0%) than nonsmokers (4.6%; P<0.05).

Table I. Comparison of demographics, tumor characteristics and surgical data of patients undergoing nipple-sparing mastectomies with and without subsequent complications.

Table I.

Comparison of demographics, tumor characteristics and surgical data of patients undergoing nipple-sparing mastectomies with and without subsequent complications.

	No complications (n=163)	Complications (n=34)	P-value
Patient age, years (range)	44.1 (25–77)	43.6 (20–72)	NS
BMI (range)	25.2 (19.9–31.9)	23.7 (17.9–47.9)	NS
Smoker (%)	14 (8.6)	9 (26.5)	<0.01
Prophylactic surgery (%)	105 (64.4)	19 (55.8)	NS
Stage (%)
0	21 (12.9)	4 (11.8)	NS
I	26 (16)	6 (17.6)	NS
II	10 (6.1)	4 (11.8)	NS
III	1 (0.6)	1 (3)	NS
Breast weight, g (range)a	458 (124–1625)	545 (170–836)	NS
Tumor size, cm (range)b	1.5 (0–6)	1.0 (0–1.05)	NS
Tumor to nipple distance, cm (range)c	5.87 (2.93–10.93)	5.23 (0–8.51)	<0.05
Chest wall radiation	7 (4.3)	5 (14.7)	<0.05
Incision utilized
Circumareolar	19 (11.7)	8 (23.5)	NS
Lateral	62 (38.0)	9 (26.5)	NS
Inframammary	82 (50.3)	17 (50)	NS
Reconstruction
Tissue expander	18 (52.9)	88 (54)	NS
Direct to implant	16 (47.1)	75 (46)	NS

a Patient data not available for 78 patients without complications and 13 patients with complications.

b Patient data not available for 3 patients without complications and 1 patient with complications.

c Patient data not available for 19 patients without complications and 7 patients with complications. P-values calculated using Student's unpaired t-test and Fisher's exact test. NS, non-significant.

There was no difference in the rate of complications, whether the operation was performed prophylactically or as part of breast cancer treatment (Table I). We considered a positive nipple margin to be a complication; therefore those patients with a closer tumor to nipple distance on final pathology had a significantly higher complication rate (Table I). Of the patients with complications, 5 (14.7%) had undergone either prior chest wall radiation or adjuvant radiation compared with only 7 (4.3%) patients without complications (P<0.05). The most common complications were skin flap or nipple necrosis (12/34) and infection (11/34) (Table II). Five occurrences of necrosis required NAC reconstruction, 3 instances were extensive necrosis necessitating implant removal and an additional 2 required surgical revision of the incision. Of the 11 infections occurring in the 30-day postoperative period, 9 required removal of the implant and 1 patient required surgical revision of their wound. Five hematomas occurred postoperatively with 3 requiring surgery for evacuation of the hematoma and 1 necessitating implant removal. A single seroma occurred in the 30-day postoperative period, which was treated with needle aspiration. One patient developed flash pulmonary edema in the immediate postoperative period but had had bilateral NSMs and therefore was considered to have had two complications.

Table II. All complications (n=34) and additional surgical procedures performed to correct the associated complication.

Table II.

All complications (n=34) and additional surgical procedures performed to correct the associated complication.

Complication type	Number of complications	Additional procedures required (n)
Positive nipple margin	3	Removal of NAC (3)
Hematoma	5	Evacuation (3), implant removal (1)
Infection	11	Implant removal (9), wound revision (1)
Necrosis	12	NAC reconstruction (5), implant removal (3), revision of incision (2)
Seroma	1	Aspiration
Flash pulmonary edema	2	None

[i] NAC, nipple areolar complex.

Surgical technique

Twenty-seven (13.7%) NSMs were completed via a circumareolar approach, 71 (36%) via a lateral breast incision and 99 (50.3%) utilizing an inframammary incision. There was no difference in overall complication rates among the three incision types utilized (Table I). However, when evaluating the 9 complications that resulted in loss of the NAC, there was a significant difference amongst the 3 incision types utilized (Table III). Seven of the 9 (77.8%) instances of NAC loss occurred following the use of a circumareolar incision compared to 1 (11.1%) loss each with the lateral and inframammary approaches (P<0.05). The removal of the NAC that occurred after both a lateral and inframammary approach was due to DCIS behind the nipple, whereas only 1 NAC was removed following a circumareolar incision due to a positive nipple margin. The type of reconstruction performed did not affect complication rates (Table I). Overall, 106 (53.8%) patients underwent reconstruction with tissue expander placement and 91 (46.2%) received direct-to-implant based reconstruction. There was no difference in complication rate among patients receiving a tissue expander (16.9%) and direct implant (17.6%) (P>0.05). However, a significantly larger percentage of patients receiving a direct implant (10.9%) underwent implant removal due to a complication than those with placement of a tissue expander (2.8%; P<0.05).

Table III. Comparison of the incision utilized and the rate of NAC loss.

Table III.

Comparison of the incision utilized and the rate of NAC loss.

Incision utilized	Loss of NAC (n=9)	P-value
Circumareolar, n (%)	7 (77.8)	<0.05
Lateral, n (%)	1 (11.1)
Inframammary, n (%)	1 (11.1)

[i] P-value calculated using Fisher's exact test. NAC, nipple areolar complex.

Outcomes

In the first 3 years of the study, 44 NSMs were performed with 9 (20.5%) complications, compared with a complication rate of 16.3% (25/153) in the final 3 years of the study (P>0.05). The complication rate has steadily declined, with only 5/37 (13.5%) patients experiencing a complication occurring in the most recent six months of the study.

Follow-up ranged between 3 months and 6 years, and only one (1.4%) patient in the cohort who underwent an NSM for cancer ultimately developed a recurrence. This occurred in a patient with a T1N0 tumor, 4.75 cm from the NAC who developed a chest wall recurrence. There were no instances of tumor recurrence within the NAC in the current study.

Discussion

The rate of local recurrence in numerous studies of patients undergoing an NSM varies, ranging from 0–25.7% (18,19,23,24). In the studies demonstrating rates of local recurrence >10%, cancer recurrence in the lymph nodes was included in the rate (19,24). Gerber et al (19) evaluated 246 patients with an indication for MRM who were treated with MRM, SSM or NSM with axillary lymph node dissection, identifying no differences in the rates of local recurrence amongst the three groups after a mean follow-up period of 101 months. More recent studies have demonstrated much lower local recurrence rates, similar to the present findings (16,24). An analysis of 1,006 procedures from the Italian National database of NSM, the local regional recurrence rate was 2.9% with a recurrence rate in the NAC of 0.7% (25). In the present study, a single recurrence occurred, yielding a local recurrence rate of 1.4%. This was a chest wall recurrence in a patient with stage I (T1N0) cancer who did not require adjuvant chemotherapy or radiation following NSM. No patients presented with recurrence in the NAC during the time period studied.

In order to decrease the likelihood of cancer involvement of the NAC, numerous studies have recommended that the tumor to NAC distance on pre-operative imaging be no closer than 2 cm (23,26–28). Tumors found to be closer than 2 cm to the NAC are considered to be a relative contraindication to pursuing NSM. The lower local recurrence rate in the current study is likely due in large part to patient selection, as there was a requirement that all imaging demonstrate a distance >2 cm between the tumor and the NAC. A previous study by Tang et al (29) evaluated their groups experience with positive nipple margins and management, including excision of only the nipple with retention of the areola, and identified that at a 36-month median follow-up, no recurrences occurred in the nipple/NAC. This may expand the indications for NSM in the future.

The complication rate in the present study was 17.3%, which is comparable with the reported literature (21,25,30,31). In the current study, those patients with a closer tumor to nipple distance had a higher complication rate. Any patient requiring excision of the nipple-areolar complex (NAC) for any reason was considered to have had a complication. Therefore a higher complication rate associated with a close tumor to nipple distance is attributed to the three patients who had excision of the NAC for a final positive nipple margin with involvement of DCIS. The closest tumor to nipple margin, without a positive margin or complication, in this study was found to be 2.93 cm.

Although the rate of overall complications was similar from 2008–2011 and 2012–2014, when examining the data for 2014, as experience with the operation has increased the complication rate has decreased to 13.5%. As this is becoming a more common option for patients, the present study anticipates a further decline in complications.

Smoking is established to increase complication rates in breast surgery (5,31–36). In a prospective study published by Matsen et al (33) examining skin flap necrosis rates following any mastectomy with reconstruction, 14% of patients had some level of skin flap necrosis (33). Using univariate analysis, smoking was revealed to be a significant factor in necrosis rates (32). Similarly, in a study published in 2014, 6% of patients undergoing NSM were found to be smokers, and had an odds ratio of 3.3 for any complications compared with non-smokers (31). This trend was also evident in the present study, with patients who were smokers at the time of NSM having significantly more complications than non-smokers and requiring removal of their implants or tissue expanders due to these complications.

One of the most well-described complications to occur after an NSM is skin or nipple necrosis, which at times necessitates removal of the NAC. In the majority of contemporary studies, the necrosis rate has been found to be between 0 and 7% (21,22,25,31). In the current study the total necrosis rate was 6%, with 5 (2.5%) patients requiring removal and reconstruction of the NAC due to the extent of necrosis.

When NSMs were first being performed at the Washington University School of Medicine, one of three incision types was utilized: Circumareolar (which encompassed a portion of the NAC border), lateral radial and inframammary. The circumareolar approach was replaced by the lateral radial or inframammary incisions, as there was significantly less loss of the NAC when the incision did not involve the NAC. This has been demonstrated by numerous other studies (28,34,37). In a 2014 retrospective review of 500 NSMs, patients with incisions encompassing the NAC had a complication rate of 21.1% compared to 8.5% when the inframammary incision was used (31). A meta-analysis of 48 studies published between 1970 and 2013 evaluated whether incision type led to an increase in nipple necrosis, and revealed that a circumareolar incision yielded a 17.81% necrosis rate, whereas while radial/lateral and inframammary incisions had necrosis rates of 8.83 and 9.09%, respectively (21). Due to the increased number of complications and rate of nipple loss with a circumareolar approach in both the literature and in the present study, this has been abandoned at Washington University School of Medicine and NSMs are now performed through a lateral or inframammary incision only.

Historically, patients who underwent implant-based reconstruction following NSM had tissue expanders placed at the time of mastectomy, however immediate reconstruction with a silicone or saline implant following NSM has become more widely accepted in recent years. In a 2010 prospective study of 214 consecutive NSMs with immediate silicone implant reconstruction, the overall complication rate was 16% with 6% requiring explantation of the prostheses due to the complication (22). In 2012 the present study began performing NSM with direct-to-implant reconstruction and in the study period identified no difference in complication rates when a permanent implant was placed at the time of mastectomy in lieu of a tissue expander; however, more patients with direct implant-based reconstruction required removal of their implants.

There are limitations to the present study, as it was a retrospective chart review and certain medical data was missing or incomplete. For example, breast weight was only recorded for 106 breast specimens and therefore the current study was unable to delineate whether larger breast size increases complication rates. Although this is a retrospective study, it provides additional data regarding the oncologic safety and low complication rate of NSMs. It is unlikely that a randomized controlled trial may be offered to patients comparing NSM to SSM and MRM, as patients who are candidates for a NSM would not want to be randomized to a less cosmetically pleasing surgery.

In conclusion, the present study adds to the growing literature demonstrating the oncologic safety of NSMs with a local recurrence rate of 1.4% in properly selected patients with tumor to nipple distance >2 cm. Additionally, the current study also demonstrated a low complication rate, including a low rate of nipple-areolar loss with a lateral or inframammary incision. These results further demonstrate that NSMs are safe and do not comprise oncologic outcomes or increase complication rates.

References