Effectiveness of the Nipples-Saving Mastectomy (NSM): Review on the Results, Oncologic Safety and Surgical Complications

A B S T R A C T

Background: The nipples-saving mastectomy (NSM), most recent technique, allows the whole mammary gland removal preserving the nipple-areola compound (NAC), obtaining oncologic safe results. When indicated, NSM is validated by the great aesthetic results obtained.
Objectives: The objective of this review is the evaluation of the effectiveness and oncologic safety of the nipple-saving mastectomy, marking the most frequent complications. Moreover, the possibility to use the NSM procedure as prophylactic mastectomy in patients at high risk has been evaluated.
Research Methods: A bibliographic research about clinical studies and previous reviews related to nipples-saving mastectomy has been conducted. No limitation about language was performed.
Results: The study included 12 articles, for a total of 2859 patients and 3849 NSM. Patients candidate to NSM, either as a prophylactic or curative treatment of mammary carcinoma, must undergo a careful selection screening. Most frequently occurring surgery-related complications were necrosis and infections; though not altering the cosmetic results, that have been positively evaluated in almost all patients.
Conclusion: Preservation of the areola-nipple compound seems to be oncologically safe and does not increase local recurrences, compared to the previous techniques. Moreover, it is associated with better aesthetic results and patients’ higher satisfaction.

Keywords

Breast cancer, nipples-saving mastectomy, oncologic risk, BRCA mutation

Introduction

Breast cancer (BC) is the most encountered malignant tumor in women [1]. Risk factors for mammary carcinoma include age, exposition to sexual hormones and genetic predisposition [2]. Oncologic risk evaluation and familiar/hereditary predisposition to the mammary and ovarian cancers represented the fundament of prevention so far, and the oncogenetic aims to develop diagnostic, therapeutic and preventive measures for subjects at risk [3]. Epidemiological studies have established the role of familiarity as a risk factor for breast cancer [4]. Some of the genetic mutations have been identified and the related risk has precisely been assessed (> 50%) [5]. In familiar type, BC has an earlier occurrence age, a more frequent bilaterality, a vertical transmission and a higher association with other neoplasia. BRCA1, BRCA2, TP53 and PTEN were identified as genes associated to hereditary/familiar BC [6]. During the past years, different preventive measures have been diffused to reduce morbidity or mortality of mammary carcinoma, such as prophylactic surgery in patients with positive genetic test, without proven neoplasia. When breast surgery was born in 1894, the surgical technique was very invasive. The “radical mastectomy”, introduced by William Stewart Halsted, included the removal of the entire breast with the skin, the superficial muscular level, the great pectoral and the small pectoral [7]. Patey introduced an innovative technique, known as “modified radical mastectomy” (MRM), which saved the great pectoral muscle [8].

The request of less invasive surgery techniques, led Madden to modify the procedure, introducing the small pectoral preservation [9]. In contemporary times, aesthetic results become desirable to improve the psychological acceptance of surgery for patients [10]. The saving-skin mastectomy (SSM) described in 1991 by Toth and Lappert, allows to preserve the cutaneous shell and the native infra-mammary crease (IMC) [11]. A meta-analysis carried out in 2010 revealed that SSM and MRM shared the same local recurrence rates [12]. The further evolution was the nipples-saving mastectomy (NSM), preserving the areola-nipple compound; its effectiveness and surgical radicality were long questioned because a bigger section of the mammary tissue was preserved. Then, when Hinton and co. assessed that NSM reached the same local recurrences and survival rates of MRM, the procedure obtained higher consensus [13]. Many studies have confirmed that the conservation of the NAC represents a safe technique, which doesn’t increase the risk of local recurrences [14-16]. The purpose of this work is to provide a revision of Literature based on clinical retrospective studies applying the NSM procedure and to evaluate results, oncologic safety and surgical complications of the latter technique.

Research Methods

Electronic databases, such as PubMed, the Cochrane library and the abstract DARE database were checked up to April 2020; the research has been conducted by using English key words “Nipple sparing-saving mastectomy”, “breast cancer”, “mastectomy for cancer”. References of the more relevant articles were manually searched. The last research was concluded on April 15, 2020. The search was carried out by two Authors SP, GG and the obtained results were discussed with the senior Author NP. The inclusion criteria of the study comprised the report of patients affected by breast cancer undergoing NSM; as well as a case series regarding patients undergoing surgery for preventive treatment. The paper’s language was not a choice criterion. All studies that failed to fulfil the established inclusion criteria and were about different surgical techniques apart from NSM or performed for benign diseases were excluded by the study.

Results

From the research performed, 12 articles have been selected for this work, for a total amount of 2859 patients and 3849 NSM, 772 proven procedures of oncologic prophylaxis related to the studies [17-28]. The average follow-up varies from 18 to 79 months (Table 1). Most common post-surgery complications were hematoma, occurring in 14.7% of patients of a series, capsular contractures, necrosis [19]. Higher local recurrence ranged from 1-7.3%, [18, 27]. Other complications registered have been summarized in (Table 2).

Table 1: Characteristics of the 12 selected articles.

Reference

Publication year

Patients

NSM performed

Average age, (range)

Average follow-up in months

Grobmyer et al. [17]

2018

136

272

41 (20-67)

53

Radovanovic et al. [18]

2018

435

441

49 (25-75)

79

Dull et al. [19]

2017

110

197

44 (20-77)

Nr

Shimo et al. [20]

2016

413

425

Nr

47

Moo et al. [21]

2016

413

721

Nr

32

Manning et al. [22]

2015

89

177

40

26

Yao et al. [23]

2014

201

397

Nr

33

Voltura et al. [24]

2008

36

51

Nr

18

Crowe et al. [ 25]

2008

110

149

43 (20-72)

Nr

Petit et al. [26]

2007

749

773

46 (20-73)

18

Sacchini et al. [27]

2006

123

192

45(22-70)

25

Crowe et al. [28]

2004

44

54

43 (29-72)

Nr

Nr: Not reported.


Table 2: Most encountered complications: the results are shown as number of NSM performed or number of patients. The values in parenthesis refer to the percentage values.

Reference

Complications

Number, (%)

Grobmyer et al. [17]

Nr

Nr

Radovanovic et al. [18]

Capsular contracture

Infection

Seroma

Mayor cutaneous necrosis

Minor cutaneous necrosis

Hematoma
Epidermolysis
NAC necrosis

Local recurrences

33/441 (7,5)

15/441 (3,4)

13/441 (2,9)

12/441 (2,7)

11/441 (2,5)

3/441 (0,7)

2/441 (0,5)

1/441 (0,2)

32/441 (7,3)

Dull et al. [19]

Necrosis
Infections

Hematoma

Pulmonary edema

Seroma

12/34 (35,3)

11/34 (32,3)

5/34 (14,7)

2/34 (5,9)

1/34 (2,9)

Shimo et al. [20]

Necrosis
Local recurrences

6/425 (1,4)

25/425 (5,8)

Moo et al. [21]

Local recurrences

Distant recurrences

Local and distant recurrences

8/368 (2,2)

9/368 (2,4)

6/368 (1,6)

Manning et al. [22]

Necrosis

Infection

Hematoma

13/177 (7,3)

4/177 (4,0)

3/177 (1,7)

Yao et al. [23]

Necrosis

NAC loss

10/397 (2,5)

7/397 (1,8)

Voltura et al. [24]

Local recurrences

2/36 (5,5)

Crowe et al. [25]

NAC partial loss

Infection

2/110 (1,8)

1/110 (0,9)

Petit et al. [26]

NAC total necrosis

Partial necrosis

Infections

Local recurrences

26/773 (3,4)

49/773 (6,3)

13/773 (1,7)

12/773 (1,5)

Sacchini et al. [27]

Necrosis

Local recurrence

22/192 (11,4)

2/192 (1,0)

Crowe et al. [28]

Nr

Nr

Nr: Not reported; NAC: Areola-Nipple Compound.


Discussion

Radical mastectomy represented the Gold standard treatment for BC for over a century. It led to the complete bosom removal, generating psychologic discomfort to the patient who felt disfigured. This technique’s aim was the total eradication of the local disease when it has been discovered in advanced phases [7]. The nipples-saving mastectomy (NSM) has been associated to a better aesthetic result and to a decrease in the risk of developing BC [29]. Many studies performed in 2014 have recorded the probabilities to develop BC after NSM to 12,4% [1]. Patients’ oncologic risk evaluation is composed by genetic tests, as the BRCA1 and BRCA2 mutations, involved in about 20% of familiar BC [30]. The alteration of these genes leads to uncontrolled cellular proliferation [31]. The estimated average cumulative risk of BC at the age of 70 is 57-65% in patients with BRCA1 mutations and 45-49% in BRCA2 alteration [32-35]. Another mutation gene is related to BC risk: p53, which applies in 50% of all kinds of cancer. Before undergoing mastectomy, accurate screening and selection phases are carried out. Contraindications to the NSM are neoplastic involvement of the nipple and tumor-nipple distance (TND) less than of 2,0 cm in NAC-negative tumors [36]. A recent study demonstrated that a tumor bigger than 2 cm results in a higher risk of nipple involvement [37].

I Choice of the Patient

Grobmyer et al. performed a review on NSM procedures, as a preventive surgery in 136 patients (135 women and 1 man) from 2001 to 2007 [17]. 104 patients presented genetic mutations; the BRCA1 in 62 patients, BRCA2 in 35 patients, PTEN in 2 patients, TP53 in 3 patients, ATM in 2 patients. Active smokers, people with big sizes of the bosom and ptosis were. Dull and co-workers, analysed NSM procedures performed from 2008 to 2014, in patients with tumor-nipple distance higher than 2 cm [19]. Manning and co-workers enrolled carriers of BRCA1 mutation, with a tumor-nipple distance higher than 1 cm [22]. Patients with a big size of the bosom, mammary ptosis and smokers were excluded. Also, Yao and co-workers observed patients with BRCA1 (125 patients) and BRCA2 mutation (76 patients) [23]. Crowe and co-workers evaluated 110 patients, excluding tumors bigger than 3,5 cm or people with clinical involvement in the axillary node, centrally placed tumors and inflammatory mammary carcinoma, as well as those with neoplastic involvement of the nipple and those subjected to pre-surgery chemotherapy [25, 28]. Petit and Veronesi evaluated the results of 773 NSMs performed on 749 patients from 2002 to 2007; they excluded 98 cases because they did not respect the requested standards [26]. The inclusion criteria were BC at least 1 cm outside the margins of the areola, absence of nipple retraction, bloody discharge and/or micro-calcifications in the areolar zone. The remaining articles did not include the analysis of the characteristics of the patients but the decision of submitting patients to NSM procedure was carefully evaluated and indicated to preserve patients’ health and safety.

II Surgical Technique

Different surgical techniques were evaluated. Dull used three different incisions: on a total of 197 NSM of his series, 27 have been conducted with a peri-areolar approach, 71 through lateral incision and 99 using an incision in the infra-mammary groove [19]. There were no significant differences on post-surgery complications. Moreover, in 106 (53,8%) patients underwent to tissue-expander reconstructive technique, while 91 patients (46,2%) underwent a direct reconstruction implant. There were no differences in the complication rates between the two groups of patients, 16,9% and 17,6% respectively. Also, Manning et al. performed reconstruction with tissue-expander in 80/89 patients, confirming the USA trend to prefer the expander reconstruction [22, 38]. In Voltura et al., the incision, for all the 51 NSM observed, was the lateral one [24]. Voltura and Crowe did not report the related rates, while, in a previous work, Crowe differentiated the choice of the incision: in surgical prophylaxis procedures, an oblique incision in the external upper quadrant was performed, while in NSM for carcinoma, a lateral incision was realized [25, 28]. These results are comparable to previous investigations; in a retrospective review based on 500 NSM, the complication rate was 21,1% in circumareolar incision cases and 8,5% in infra-mammary incision [39]. In a meta-analysis of 48 studies published between 1970 and 2013, the nipple necrosis rate was similar in both the groups: the circumareolar incision produced a rate of 17,81%, while the lateral and infra-mammary incisions had a necrosis rate of 8,83 and 9,09% respectively [40]. The infra-mammary incision appears to be the most reliable in terms of future complications.

III Most Encountered Complications

The most encountered complications in the 12 selected studies were tissue necrosis, followed by infections, although each study reported different percentages (Table 2). Radovanovic analysed early and late post-surgery complications in 64 procedures (14.51%) [18]. 22/26 ischaemic complications received a conservative treatment, and 4 patients requested the surgical removal of the necrotic skin. 11 patients (2,5%) needed the prosthesis explants. 68 patients (15,6%) developed remote metastasis and 53 (12,2%) deceased during the follow-up period of time. The smoking habit affected the good trend of the treatment: smokers developed complications more than no-smokers [19]. 4 smoker patients in Dull’s series developed bilateral complications for infections and nipple necrosis. The remaining studies shown complications rate ranging between 12-18%, consistent with the studies available in literature.

IV Patients Satisfaction

Most studies didn’t report on aesthetic results. The only ones examining the cosmetic results and patient’s satisfaction were the studies conducted by Petit, Veronesi et al. and the one conducted by Voltura et al. [24, 26]. In the first paper, the cosmetic results were evaluated with a survey, with a rating from 1 to 10 and 159 patients were examined. The overall result of patients’ satisfaction for symmetry, coloration and sensibility of NAC was 8/10. No patients regretted to have undergone a reconstructive surgery and 91,5% agreed that the mutilation was reduced after preserving the NAC. In addition, 93% of the women referred that the conservation of the nipple helped the psychological facing of the disease, and only 1,6% expressed total dissatisfaction. In Voltura and co-workers series, only 36 patients out of 38 submitted to NSM participated to the survey: 22/36 (61,1%) thought that the cosmetic results obtained were ‘excellent’, 10/36 (27,8%) evaluated as ‘good’ the results obtained, while 2 patients (5,5%) were not satisfied of the result and have estimated that the cosmetic look was poor. The overall satisfaction of patients submitted to NSM was very high; but only 2 of the studies selected for allowed to perform analysis on this matter. Further scientific investigation are needed in order to expand the study.

V Oncologic Safety

The main endpoint of this review was to evaluate the effectiveness of the NSM in terms of oncologic safety and cosmetic results through the study of clinical cases and written reviews. The analysis revealed that the NSM procedures performed for prophylactic purpose on specific subjects highlighted absence of the involvement of the NAC; while low rates of tumor recurrences have been detected in all the studies. Out of 12 articles consulted, 1 was a study about prophylactic NSM procedures only, so it was not included in the analysis of tumor recurrences after treatment of the mammary carcinoma [17]. The data have been included in the (Table 3).

Table 3: Number of removal of the nipple-areola compound (NAC) and related percentages.

Reference

Nr of removal NAC /NSM

% tumoral recurrences

Grobmyer et al. [17]

/

/

Radovanovic et al. [18]

24/441

5,4

Dull et al. [19]

1/73

1,4

Shimo et al. [20]

10/425

2,3

Moo et al. [21]

1/368

0,3

Manning et al. [22]

8/177

4,5

Yao et al. [23]

3/51

5,9

Voltura et al. [24]

2/34

5,9

Crowe et al. [25]

9/86

10,5

Petit et al. [26]

2/773

0,3

Sacchini et al. [27]

0

0

Crowe et al. [28]

6/37

16,2


Inside the cohorts of cases of breast cancer, the different phases of the disease and the duration of the follow-ups challenged the analysis; the lowest percentages in particular, were very likely influenced by the short follow-up periods, even if a follow-up of about 28 months was proven to be the period at highest risk of local recurrence [41]. Nevertheless, the analysis showed a percentage of tumor recurrences chargeable to the NAC of less than 17%; finally, it seems that the NSM is a feasible procedure with acceptable rates of local recurrences without compromising the short-term oncologic safety.

Conclusion

According to the collected data, NSM does not seem to increase the risk of developing breast cancer; even if the evaluated follow-ups do not allow to verify the long-term action. The NSM procedure seems to be particularly suitable as a prophylactic surgical option on carefully selected patients at high risk. The scientific research should expand the studies with further clinical cases; but, at the moment, the low risk of local recurrences chargeable to the NAC strengthens the oncologic safety of the procedure. The NAC conservation allows to obtain excellent aesthetic results, helping the psychological facing aspect of the disease, but a multi-disciplinary preventive approach is mandatory to explain the risks and the surgical complications related to the procedure.

Acknowledgement

Limongelli PMD, PhD, Professor of the Division of General, Mini-Invasive and Obesity Surgery. University of Study of Campania “Luigi Vanvitelli” Naples, Italy: he had participated substantially in conception, design and execution of the study and with his clinical, surgical and professional experience.

Ethical Approval and Consent to Participate

Not applicable.

Consent for Publication

Not applicable.

Availability of Data and Materials

The datasets used and/or analysed during the current study are available from the corresponding author on reasonable request.

Competing Interests

None.

Funding

None.

Article Info

Article Type
Review Article
Publication history
Received: Sat 07, Nov 2020
Accepted: Sat 21, Nov 2020
Published: Mon 07, Dec 2020
Copyright
© 2023 Domenico Parmeggiani. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Hosting by Science Repository.
DOI: 10.31487/j.JSO.2020.06.02

Author Info

Corresponding Author
Domenico Parmeggiani
Unit of General and Obesity Surgery, University of Campania, Luigi Vanvitelli, Caserta, Italy

Figures & Tables

Table 1: Characteristics of the 12 selected articles.

Reference

Publication year

Patients

NSM performed

Average age, (range)

Average follow-up in months

Grobmyer et al. [17]

2018

136

272

41 (20-67)

53

Radovanovic et al. [18]

2018

435

441

49 (25-75)

79

Dull et al. [19]

2017

110

197

44 (20-77)

Nr

Shimo et al. [20]

2016

413

425

Nr

47

Moo et al. [21]

2016

413

721

Nr

32

Manning et al. [22]

2015

89

177

40

26

Yao et al. [23]

2014

201

397

Nr

33

Voltura et al. [24]

2008

36

51

Nr

18

Crowe et al. [ 25]

2008

110

149

43 (20-72)

Nr

Petit et al. [26]

2007

749

773

46 (20-73)

18

Sacchini et al. [27]

2006

123

192

45(22-70)

25

Crowe et al. [28]

2004

44

54

43 (29-72)

Nr

Nr: Not reported.


Table 2: Most encountered complications: the results are shown as number of NSM performed or number of patients. The values in parenthesis refer to the percentage values.

Reference

Complications

Number, (%)

Grobmyer et al. [17]

Nr

Nr

Radovanovic et al. [18]

Capsular contracture

Infection

Seroma

Mayor cutaneous necrosis

Minor cutaneous necrosis

Hematoma
Epidermolysis
NAC necrosis

Local recurrences

33/441 (7,5)

15/441 (3,4)

13/441 (2,9)

12/441 (2,7)

11/441 (2,5)

3/441 (0,7)

2/441 (0,5)

1/441 (0,2)

32/441 (7,3)

Dull et al. [19]

Necrosis
Infections

Hematoma

Pulmonary edema

Seroma

12/34 (35,3)

11/34 (32,3)

5/34 (14,7)

2/34 (5,9)

1/34 (2,9)

Shimo et al. [20]

Necrosis
Local recurrences

6/425 (1,4)

25/425 (5,8)

Moo et al. [21]

Local recurrences

Distant recurrences

Local and distant recurrences

8/368 (2,2)

9/368 (2,4)

6/368 (1,6)

Manning et al. [22]

Necrosis

Infection

Hematoma

13/177 (7,3)

4/177 (4,0)

3/177 (1,7)

Yao et al. [23]

Necrosis

NAC loss

10/397 (2,5)

7/397 (1,8)

Voltura et al. [24]

Local recurrences

2/36 (5,5)

Crowe et al. [25]

NAC partial loss

Infection

2/110 (1,8)

1/110 (0,9)

Petit et al. [26]

NAC total necrosis

Partial necrosis

Infections

Local recurrences

26/773 (3,4)

49/773 (6,3)

13/773 (1,7)

12/773 (1,5)

Sacchini et al. [27]

Necrosis

Local recurrence

22/192 (11,4)

2/192 (1,0)

Crowe et al. [28]

Nr

Nr

Nr: Not reported; NAC: Areola-Nipple Compound.


Table 3: Number of removal of the nipple-areola compound (NAC) and related percentages.

Reference

Nr of removal NAC /NSM

% tumoral recurrences

Grobmyer et al. [17]

/

/

Radovanovic et al. [18]

24/441

5,4

Dull et al. [19]

1/73

1,4

Shimo et al. [20]

10/425

2,3

Moo et al. [21]

1/368

0,3

Manning et al. [22]

8/177

4,5

Yao et al. [23]

3/51

5,9

Voltura et al. [24]

2/34

5,9

Crowe et al. [25]

9/86

10,5

Petit et al. [26]

2/773

0,3

Sacchini et al. [27]

0

0

Crowe et al. [28]

6/37

16,2


References

  1. Siegel RL, Miller KD, Jemal A (2016) Cancer statistics. CA Cancer J Clin 66: 7-30. [Crossref]
  2. Basu NN, Barr L, Ross GL, Evans DG (2015) Contralateral risk-reducing mastectomy: Review of risk factors and risk-reducing strategies. Int J Surg Oncol 2015: 901046. [Crossref]
  3. Bonanni B, Nosenzo MA, Bisanti L, Orthmann N (2012) I tumori Eredo-familiari della Mammella e dell'Ovaio. Milano: Osservatorio nazionale sulla salute della Donna.
  4. Zuradelli M, Ripamonti CB, Autuori M (2016) Carcinoma mammario eredo-familiare. Collegio Italiano dei Senologi: linee guida.
  5. Hopper JL, Southey MC, Dite GS, Jolley DJ, Giles GG et al. (1999) Population-based estimate of the average age-specific cumulative risk of breast cancer for a defined set of protein-truncating mutations in BRCA1 and BRCA2. Cancer Epidemiol Biomarkers Prev 8: 741-747. [Crossref]
  6. Alaofi RK, Nassif MO, Al Hajeil MR (2018) Prophylactic mastectomy for the prevention of breast cancer: Review of the literature. Avicenna J Med 8: 67-77. [Crossref]
  7. Halsted WS (1894) The results of operations for the cure of the breast performed at the Johns Hopkins Hospital from June 1889 to January 1894. Ann Surg 20: 497-555. [Crossref]
  8. Patey DH, Dyson WH (1948) The prognosis of carcinoma of the breast m relation to the type of operation performed. Br J Cancer 2: 7-13. [Crossref]
  9. Madden JL, Kandalaft S, Bourque RA (1972) Modified radical mastectomy. Ann Surg 175: 624-634. [Crossref]
  10. Bailey CR, Ogbuagu O, Baltodano PA, Simjee UF, Manahan MA et al. (2017) Quality-of-life outcomes improve with nipple-sparing mastectomy and breast reconstruction. Plast Reconstr Surg 140: 219-226. [Crossref]
  11. Toth BA, Lappert P (1991) Modified skin incisions for mastectomy: the need for plastic surgical input in preoperative planning. Plast Reconstr Surg 87: 1048-1053. [Crossref]
  12. Lanitis S, Tekkis PP, Sgourakis G, Dimopoulos N, Al Mufti R et al. (2010) Comparison of skin sparing mastectomy versus non skin sparing mastectomy for breast cancer: a meta analysis of observational studies. Ann Surg 251: 632-639. [Crossref]
  13. Hinton CP, Doyle PJ, Blamey RW, Davies CJ, Holliday HW et al. (1984) Subcutaneous mastectomy for primary operable breast cancer. Br J Surg 71: 469-472. [Crossref]
  14. de Alcantara Filho P, Capko D, Barry JM, Morrow M, Pusic A et al. (2011) Nipple-sparing mastectomy for breast cancer and risk-reducing surgery: the Memorial Sloan-Kettering Cancer Center experience. Ann Surg Oncol 18: 3117-3122. [Crossref]
  15. Gerber B, Krause A, Dieterich M, Kundt G, Reimer T (2009) The oncological safety of skin sparing mastectomy with conservation of the nipple-areola compound and autologous reconstruction: an extended follow-up study. Ann Surg 249: 461-468. [Crossref]
  16. Petit JY, Veronesi U, Orecchia R, Curigliano G, Rey PC et al. (2012) Risk factors associated with recurrence after nipple-sparing mastectomy for invasive and intraepithelial neoplasia. Ann Oncol 23: 2053-2058. [Crossref]
  17. Grobmyer SR, Pederson HJ, Valente SA, Al Hilli Z, Radford D et al. (2019) Evolving indications and long term oncological outcomes of risk reducing bilateral nipple sparing mastectomy. BJS Open 3: 169-173. [Crossref]
  18. Radovanovic Z, Ranisavljevic M, Radovanovic D, Vicko F, IvkovicKapicl T et al. (2018) Nipple-Sparing Mastectomy with Primary Implant Reconstruction: Surgical and Oncological Outcome of 435 Breast Cancer Patients. Breast Care (Basel) 13: 373-378. [Crossref]
  19. Dull B, Conant L, Myckatyn T, Tenenbaum M, Cyr A et al. (2017) Nipple-sparing mastectomies: Clinical outcomes from a single academic institution. Mol Clin Oncol 6: 737-742. [Crossref]
  20. Shimo A, Tsugawa K, Tsuchiya S, Yoshie R, Tsuchiya K et al. (2016) Oncologic outcomes and technical considerations of nipple-sparing mastectomies in breast cancer: experience of 425 cases from a single institution. Breast Cancer 23: 851-860. [Crossref]
  21. Moo TA, Pinchinat T, Mays S, Landers A, Christo P et al. (2016) Oncologic Outcomes After Nipple-Sparing Mastectomy. Ann Surg Oncol 23: 3221-3225. [Crossref]
  22. Manning A, Wood C, Eaton A, Stempel M, Capko D et al. (2015) Nipple-sparing mastectomy in patients with BRCA 1/2 mutations and variants of uncertain significance. Br J Surg 102: 1354-1359. [Crossref]
  23. Yao K, Liederbach E, Tang R, Lei L, Czechura T et al. (2015) Nipple-sparing mastectomy in BRCA1/2 mutation carriers: an interim analysis and review of the literature. Ann Surg Oncol 22: 370-376. [Crossref]
  24. Voltura AM, Tsangaris TN, Rosson GD, Jacobs LK, Flores JI et al. (2008) Nipple-sparing mastectomy: critical assessment of 51 procedures and implications for selection criteria. Ann Surg Oncol 15: 3396-3401. [Crossref]
  25. Crowe JP, Patrick RJ, Yetman RJ, Djohan R (2008) Nipple-Sparing Mastectomy Update One Hundred Forty-Nine Procedures and Clinical Outcomes. Arch Surg 143: 1106-1110. [Crossref]
  26. Petit JY, Veronesi U, Orecchia R, Luini A (2007) The nipple sparing mastectomy: a 5-year experience at the European Institute of Oncology of Milan. Breast Cancer Res 9: 10.
  27. Sacchini V, Pinotti JA, Barros AC, Luini A, Pluchinotta A et al. (2006) Nipple-sparing mastectomy for breast cancer and risk reduction: oncologic or technical problem? J Am Coll Surg 203: 704-714. [Crossref]
  28. Crowe JP, Kim JA, Yetman R, Banbury J, Rebecca J et al. (2004) Nipple-sparing mastectomy: technique and results of 54 procedures. Arch Surg 139: 148-150. [Crossref]
  29. Djohan R, Gage E, Gatherwright J, Pavri S, Firouz J et al. (2010) Patient satisfaction following nipple sparing mastectomy and immediate breast reconstruction: an 8year outcome study. Plast Reconstr Surg 125: 818-829. [Crossref]
  30. Balmaña J, Díez O, Rubio I, Castiglione M, ESMO Guidelines Working Group (2010) BRCA in breast cancer: ESMO clinical practice guidelines. Ann Oncol 21: v20-v22. [Crossref]
  31. Venkitaraman AR (2002) Cancer Susceptibility and the Functions of BRCA1 and BRCA2. Cell 108: 171-182. [Crossref]
  32. Antoniou A, Pharoah PD, Narod S, Risch HA, Eyfjord JE et al. (2003) Average risks of breast and ovarian cancer associated with BRCA1 or BRCA2 mutations detected in case series unselected for family history: A combined analysis of 22 studies. Am J Hum Genet 72: 1117-1130. [Crossref]
  33. Chen S, Parmigiani G (2007) Meta-analysis of BRCA1 and BRCA2 penetrance. J Clin Oncol 25: 1329-1333. [Crossref]
  34. Van der Kolk DM, de BockGH, Leegte BK, Schaapveld M, Mourits MJE et al. (2010) Penetrance of breast cancer, ovarian cancer and contralateral breast cancer in BRCA1 and BRCA2 families: High cancer incidence at older age. Breast Cancer Res Treat 124: 643-651. [Crossref]
  35. Mavaddat N, Peock S, Frost D, Ellis S, Platte R et al. (2013) Cancer risks for BRCA1 and BRCA2 mutation carriers: Results from prospective analysis of EMBRACE. J Natl Cancer Inst 105: 812-822. [Crossref]
  36. Billar JA, Dueck AC, Gray RJ, Wasif N, Pockaj BA (2011) Preoperative predictors of nipple-areola compound involvement for patients undergoing mastectomy for breast cancer. Ann Surg Oncol 18: 3123-3128. [Crossref]
  37. Steen ST, Chung AP, Han S, Vinstein AL, Yoon JL et al. (2013) Predicting nipple-areolar involvement using preoperative breast MRI and primary tumour characteristics. Ann Surg Oncol 20: 633-639. [Crossref]
  38. Hernandez Boussard T, Zeidler K, Barzin A, Lee G, Curtin C (2013) Breast reconstruction national trends and healthcare implications. Breast J 19: 463-469. [Crossref]
  39. Colwell AS, Tessler O, Lin AM, Liao E, Winograd J et al. (2014) Breast reconstruction following nipple-sparing mastectomy: Predictors of complications, reconstruction outcomes, and 5-year trends. Plast Reconstr Surg 133: 496-506. [Crossref]
  40. Endara M, Chen D, Verma K, Nahabedian MY, Spear SL (2013) Breast reconstruction following nipple-sparing mastectomy: A systematic review of the literature with pooled analysis. Plast Reconstr Surg 132: 1043-1054. [Crossref]
  41. Buchanan CL, Dorn PL, Fey J, Giron G, Naik A et al. (2006) Locoregional recurrence after mastectomy: incidence and outcomes. J Am Coll Surg 203: 469-474. [Crossref]