Journal List > J Breast Cancer > v.21(2) > 1096874

Roh, Kim, Jung, Jeong, Ahn, and Kim: Comparison of Outcomes between Direct-to-Implant Breast Reconstruction Following Nipple-Sparing Mastectomy through Inframammary Fold Incision versus Noninframammary Fold Incision

Abstract

Purpose

In properly selected patients with breast cancer, nipple-sparing mastectomy (NSM) is generally considered safe by oncologic standards. We examined two groups of patients who underwent direct-to-implant (DTI) reconstruction after NSM, comparing complications encountered, revision rates, and aesthetic outcomes. The patients were stratified based on type of surgical incision and assigned to inframammary fold (IMF) and non-IMF groups.

Methods

We investigated 141 patients (145 breasts) subjected to NSM and immediate DTI reconstruction between 2013 and 2016. A total of 62 breasts (in 58 patients) were surgically removed via IMF incisions, with the other 83 breasts (in 83 patients) removed by non-IMF means.

Results

Complications associated with IMF (n=62) and non-IMF (n=83) incisions were as follows: skin necrosis (IMF, 9; non-IMF, 18); hematoma (IMF, 3; non-IMF, 4); seroma (IMF, 8; non-IMF, 4); mild capsular contracture (IMF, 4; non-IMF, 7); and tumor recurrence (IMF, 2; non-IMF, 8). Surgical revisions were counted as duplicates (IMF, 18; non-IMF, 38). Aesthetic outcomes following IMF incisions were rated as very good (44.2%), good (23.1%), fair (23.1%), or poor (9.6%).

Conclusion

IMF incision enables complete preservation of the nipple-areolar complex, yielding superior aesthetic results in immediate DTI breast reconstruction after NSM. The nature of incision used had no significant impact on postoperative complications or reoperation rates and had comparable oncologic safety to that of non-IMF incisions. IMF incisions produced the least visible scarring and did not affect breast shape. Most patients were satisfied with the aesthetic outcomes.

INTRODUCTION

Improvements in breast reconstruction technique have significantly enhanced the quality of life for most patients with breast cancer. Therapeutic standards have evolved from radical intervention to skin-sparing mastectomy (SSM) or most recently nipple-sparing mastectomy (NSM), advancing reconstructive and aesthetic outcomes incrementally [12]. Although NSM has raised safety issues, this technique is generally considered an acceptable oncologic option in properly selected patients [345].
The demand for immediate breast reconstruction following conservative mastectomy has increased, with implant-based reconstruction most commonly pursued. According to Albornoz et al. [6], approximately 80% of all breast reconstructions performed in the United States involve prosthetic devices, and the vast majority are implanted immediately, placed at the time of mastectomy. When performing immediate implantbased breast reconstruction, it is still debatable whether a single-stage, direct-to-implant (DTI) strategy or a two-stage (tissue expander/implant) solution is best.
NSM with immediate prosthetic reconstruction may be performed using either a one-stage or two-stage method. Proponents of the one-stage DTI approach emphasize its low revision rate, fewer operations, reduced overall cost, and excellent patient outcomes [789]. Those supporting the two-stage method cite the opportunity to recontour and select an ideal device at second stage, reduced capsular contracture risk in the setting of postmastectomy radiation, lower unplanned revision rate, as well as excellent patient outcomes [1011].
When performing NSM, the choice of incision may be problematic, given that numerous variations have reportedly shown merit. Alternatives include radial, transverse periareolar, lateral, inferolateral, double concentric periareolar, vertical infra-areolar, and inframammary fold (IMF) incisions, with or without an axillary extension [12131415]. Endara et al. [16] have comprehensively addressed the process of choosing an appropriate incision for NSM. A radial or IMF incision is known to minimize scarring.
Although no incision is ideal, some certainly should be avoided. Endara et al. [16] found similar rates of nipple necrosis for radial and IMF incisions (8.8% and 9.1%, respectively), whereas this rate was much higher (17.8%) for periareolar/circumareolar incision lines. The highest incidence of nipple necrosis (81.8%) was recorded for a transareolar approach [16]. Using IMF incisions, the Beth Israel Deaconess group achieved an 82.0% nipple-areolar complex (NAC) survival rate in 17 breasts [17]. Blechman et al. [18] also reported a 94.0% NAC survival rate; in our series, the NAC survival rate was 95.1%.
Both oncologic and plastic surgeons would nevertheless agree on the convenience of a non-IMF incision in performing NSM. Moreover, a clearer intraoperative view is enabled. The drawback is a potential for visible scarring and nipple deformity or positional changes as likely consequences of scar contractures.
In this study, we examined two groups of patients who underwent DTI reconstruction after NSM, comparing complications encountered, revision rates, and aesthetic outcomes. The patients were stratified by the nature of the surgical incision, assigned to IMF and non-IMF groups.

METHODS

Patient population

We investigated 141 patients (145 breasts) subjected to NSM and immediate DTI reconstruction at Gangnam Severance Hospital, Seoul, Korea between 2013 and 2016. A total of 62 breasts (in 58 patients) were operated upon using IMF incisions, with the remaining 83 breasts (in 83 patients) involving non-IMF incisions. Detailed patient chart reviews were conducted retrospectively. The Yonsei University College of Medicine Institutional Review Board approved this study (number: 2017-08352014-001), and all participating patients granted informed consent.
Prior to 2016, mastectomy and breast reconstruction at our facility entailed non-IMF incisions. Since then, IMF incision has been the method of choice. NSM is also our surgical preference and is typically reserved for smaller tumors (<3 cm across) situated >3 cm from the NAC. If undertaking SSM or confronting likely postmastectomy radiotherapy for nodal positivity, a tissue expander (rather than DTI) would be inserted.

Surgical technique

Preoperative markings were discussed and agreed upon by the oncologic and reconstructive teams. A lateral IMF incision was our preferred method. Incisions were made along the curvilinear skin crease, extending as far lateral as the 3 o'clock position for the left breast (9 o'clock for the right breast) and extending as far inferior as the 6 o'clock position. Sentinel lymph node biopsies or axillary dissections were also attempted through such incisions. If broader exposure was needed, counter-incisions of the axilla or along previous scars were made.
Acellular dermal matrices (DermACELL® [LifeNet Health, Virginia Beach, USA]; MegaDerm® [L&C BIO, Seoul, Korea]; or AlloDerm® [LifeCell Corp., Branchburg, USA]) were regularly used as inferolateral slings to expand inferior pockets and gain better IMF control. All permanent breast implants (Mentor Worldwide LLC, Santa Barbara, USA) were placed using dual plane technique (subpectoral and acellular dermal matrix positioning).
Skin incisions were routinely sutured to deep tissue (3–0 Vicryl; Ethicon, Bridgewater, USA), thereafter using 4–0 VLoc™ (Medtronic, Minneapolis, USA) and 5–0 Monosof (Medtronic) layer by layer. Two drains were placed at the time of mastectomy and removed after ~2–3 weeks. In the interim, patients were maintained on intravenous or oral antibiotics to protect against indigenous skin flora.

Postoperative care

Until the day of operation and on postoperative days 1 and 2, methylprednisolone sodium succinate (125 mg Solu-Medrol®; Pfizer, New York, USA) was injected twice daily. This regimen served to promote skin flap perfusion and prevent postoperative edema.
As early as 2002, reports had surfaced on use of leukotriene inhibitors to treat capsular contractures [1920]. The benefits of montelukast (Singulair®; Merck, Kenilworth, USA) in softening breasts and mitigating capsular contractures have since been documented in a number of studies. Our facility allows once-daily montelukast administration, starting on postoperative day 7.

Surgical complications

Complications were defined as necrosis of mastectomy skin and/or NAC, necessitating surgical intervention; seroma; capsular contracture; infection requiring intravenous antibiotics; implant loss; and tumor recurrence. Incidences of various reoperations in both groups were analyzed as well. To assess the impact of postoperative radiation on various complication and reoperation rates, subgroup analyses were performed, separating patients into postmastectomy radiation therapy (PMRT) and non-PMRT groups.

Aesthetic outcomes

All patients were photographed pre- and postoperatively by the plastic surgeon. Aesthetic outcomes were gauged through subjective evaluation of certain factors, including NAC position, breast shape, and symmetry (Table 1), as suggested by Salibian et al. [21] Using a three-point scale, results were rated as very good, good, fair, or poor. Clinical examinations and reviews of photo documentation were carried out for this purpose by two plastic surgeons and one oncologic surgeon. Bilateral mastectomies in two patients were excluded. Subgroup analysis (PMRT vs. non-PMRT) was also conducted.

Statistical analysis

Complication and reoperation data were analyzed statistically. Descriptive statistics and measures of central tendency were used to describe absolute and mean results, respectively, with analysis of binary datasets via t-test and invoking chi-square analysis for proportional response comparisons. Fisher exact test was applied to small values. All computations relied on standard software (SPSS version 15.0.1 for Windows; SPSS Inc., Chicago, USA), setting significance at p<0.05.

RESULTS

Therapeutic considerations

We analyzed 145 NSM procedures (unilateral, 141; bilateral, 2). The IMF group accounted for 62 breasts in 58 patients (mean age, 46.4±5.9 years; mean body mass index [BMI], 22.7±2.3 kg/m2). Neoadjuvant and adjuvant chemotherapy was given to six and 28 patients, respectively; 47 patients received hormonal therapy; and 16 breasts were irradiated after reconstruction. The mean size of implanted prosthetics was 219.9±57.4 mL. In 62 DTI reconstructions, our oncologic breast surgeons performed sentinel lymph node biopsy in 46, axillary lymph node dissection in 13, and neither procedure in two.
The non-IMF group accounted for 83 breasts in 83 patients (mean age, 45.2±8.5 years; mean BMI, 22.6±3.2 kg/m2). Neoadjuvant and adjuvant chemotherapy was given to three and 25 patients, respectively; 65 patients received hormonal therapy; and 14 breasts were irradiated after reconstruction. The mean size of implanted prosthetics was 255.3±76.9 mL. In 83 DTI reconstructions, our oncologic breast surgeons performed sentinel lymph node biopsy in 74 and axillary lymph node dissection in nine (Table 2).

Complications and reoperations

Procedural complications are summarized in Table 3. In the IMF group, skin necrosis (9/62, 14.5%), hematoma (3/62, 4.8%), seroma (8/62, 12.9%), capsular contracture (4/62, 6.5%) and infection (4/62, 6.5%) were encountered. Severe complications requiring breast implant removal were limited to three instances (4.8%). One of these patients acquired a postoperative infection and another developed severe capsular contracture after adjuvant radiotherapy. The third patient experienced extensive skin necrosis, which we debrided. The implant was then exchanged for a smaller one, anticipating a later reduction mammoplasty on the other side. There were two instances of tumor recurrence (3.2%), each adequately managed by oncologic surgeons.
In the non-IMF group, skin necrosis (18/83, 21.7%), hematoma (4/83, 4.8%), seroma (4/83, 4.8%), capsular contracture (7/83, 8.4%), infection (10/83, 12.0 %), implant removal (7/83, 8.4%), and tumor recurrence (8/83, 9.6%) were recorded. In the IMF (vs. non-IMF) group, capsular contracture (p=0.656), infection (p=0.259), implant loss (p=0.398), and tumor recurrence (p=0.132) rates tended to be lower, and the risk of skin necrosis (p=0.030) was significantly less. However, there were no significant between-group differences in terms of complications (Table 3, Figures 1 and 2).
We also investigated reoperations for secondary corrections, which were counted as duplicates. Results are shown in Table 4. In the IMF group, there were six skin flap revisions (9.7%), three hematoma evacuations (4.8%), two capsular contracture corrections (3.2%), three contralateral augmentation mammoplasties (4.8%), three implant extractions (4.8%), and one implant exchange (1.6%). In the non-IMF group, there were 13 skin flap revisions (15.7%), four hematoma evacuations (4.8%), one capsular contracture correction (1.2%), three scar revisions (3.6%), three contralateral augmentation mammoplasties (3.6%), four implant extractions (4.8%), and 10 implant exchanges (12.0%). The rate of implant exchange owing to size mismatch was significantly lower in the IMF (vs. non-IMF) group (p=0.019).

Subgroup analyses

In subgroup analysis, a higher incidence of complications was evident in the PMRT (vs. non-PMRT) group across all fields, including skin necrosis (17/30, 56.7%), hematoma (4/30, 13.3%), seroma (9/30, 30.0%), capsular contracture (9/30, 30.0%), infection (10/30, 33.3%), implant loss (8/30, 26.7%) and tumor recurrence (7/30, 23.3%). Again, skin necrosis in the IMF (vs. non-IMF) group was significantly less (p=0.024), but no other significant differences emerged (Table 5).
PMRT had no apparent impact on reoperation outcomes, and there were no significant differences according to type of incision (Table 6).

Aesthetic outcomes

To evaluate aesthetic outcomes, we compared pre- and postoperative photos. In the IMF group (n=58), two patients (four mastectomies) were excluded, and postoperative follow-up photos were lacking in four patients. In the non-IMF group (n=83), 28 patients also lacked follow-up photos. Ultimately, 107 patients (IMF, 52; non-IMF, 55) were eligible for review and comparison (Table 7).
Aesthetic outcomes in the IMF group were rated as follows: very good, 44.2% (23/52); good, 23.1% (12/52); fair, 23.1% (12/52); and poor, 9.6% (5/52). Of the 12 patients with fair results, six had received postoperative radiotherapy and two had experienced intractable seromas, leading to deep wound infections. The other four patients were free of comorbidities. One of the five patients with poor results showed breast asymmetry, having undergone implant removal for postoperative infection. Skin flap necrosis occurring in another three patients required surgical revision, and a capsular contracture necessitated capsulotomy and implant exchange.
Aesthetic outcomes in the non-IMF incision group were rated as follows: very good, 16.4% (9/55); good, 32.7% (18/55); fair, 29.1% (16/55); and poor, 21.8% (12/55). Of the 16 patients with fair results, most developed capsular contracture or implant malposition. In those rated as poor, some showed capsular contracture or mismatched implant size. There were also instances of implant malposition or skin necrosis needing reoperation. Outcomes rated as very good were significantly more numerous in the IMF (vs. non-IMF) group (p=0.002).
In subgroup analysis, the aesthetic superiority of the IMF incision was upheld in the non-PMRT group (n=78), with significantly more patients rated very good (p<0.001) and fewer rated as poor (p=0.209). However, in breast reconstructions performed after PMRT (n=29), there were no significant between-group differences (IMF vs. non-IMF) (Table 8).

DISCUSSION

Presently, NSM is a valid surgical option for treating breast cancer in selected patients. The combination of NSM and immediate breast reconstruction has been gaining traction as a preferred surgical strategy [222324], Furthermore, NSM techniques now include removal of glandular tissue from the nipple. This is a critical point of differentiation from prior subcutaneous mastectomy methods, where significant residual breast tissue was retained within and beneath the nipple. Benediktsson and Perbeck [25] have subsequently confirmed the oncologic safety of NSM, showing survival rates comparable to those of conventional mastectomy, given a 13-year median follow-up period.
One- and two-stage prosthetic reconstructions have been performed at a number of institutions using an array of incisions, including periareolar, inferior radial, inframammary, lateral, lateral radial, and inferolateral variations. The selection of a one- or two-stage approach in the setting of NSM is a complex process. Two-stage reconstruction yields better results, improving symmetry and implant position. Moreover, this strategy allows greater control over final breast volume and shape. However, cost is clearly a factor in that surgery is carried out at least twice. On the other hand, one-stage prosthetic reconstruction has few complications and confers relatively good aesthetic outcomes. At our facility, two-stage prosthetic reconstruction is elected if skin flap volume is scant or postoperative radiotherapy is anticipated.
As Endara et al. [16] have maintained, choosing the right incision for NSM facilitates both therapeutic and reconstructive efforts, preserving nipple-areola blood flow and producing an aesthetically favorable scar. Our oncologic surgeons generally relied upon non-IMF incisions until 2016. Thereafter, IMF incisions were introduced, supported by ideal incision criteria (referenced earlier). Since this transition, patient satisfaction has improved, and surgeons are pleased with the results, hoping to even further improve postoperative aesthetics.
Herein, we examined patients undergoing one-stage DTI breast reconstruction via non-IMF incisions and those reconstructed through IMF incisions, comparing complications. Skin necrosis in the IMF (n=9, 14.5%) vs. non-IMF (n=18, 21.7%) group was significantly less prevalent (p=0.030). There were nine instances of IMF-related skin necrosis in early 2016, suggesting a learning curve for this this new method. By preserving 3rd and 4th intercostal perforators to fortify the blood supply, our oncologic surgeon successfully enhanced remnant skin flap thickness and viability, and skin necrosis was seldom seen later that year. Nevertheless, skin necrosis did remain more problematic in non-IMF (vs. IMF) incisions, especially at the lower pole of the breast. One potential explanation is the gravitational pressure of implants against the lower reaches of skin flaps.
In the evolution of NSM procedures, the advantage of immediate breast reconstruction has brought to bear the importance of skin flap thickness in maintaining flap viability. Using 4 to 5 mm flaps, some sources [26] have confined necrosis to ~17%; through even thicker (10-mm) flaps, others have achieved rates <5% [2728]. Although thicker remnant flaps may indeed limit necrosis, no standard method is yet available for calibration, so consistency may be difficult to ensure. On average, our team generates 8-mm skin flaps. We are convinced that such relatively thick flaps may contribute to the lower rates of flap necrosis presently achieved. This also explains the lesser mean implant size in our IMF group, compared with the non-IMF group. The thin skin flaps formerly left behind were needed to cover larger sized implants. However, current (i.e., less aggressive) mastectomy trends leave relatively thick skin flaps, restricting the size of breast implants.
Rates of hematoma and seroma did not differ significantly by incision type, nor did the rate of capsular contractures, albeit somewhat premature. The follow-up period of ~1 year in the IMF group is possibly insufficient to reasonably assess contracture rates. Extended follow-up monitoring in future studies is truly needed. Rates of infection, implant loss, and tumor recurrence similarly showed no between-group differences.
In a subgroup analysis comparing postoperative complications in PMRT and non-PMRT groups, the various complications encountered did not differ significantly. As for reoperation outcomes, implant extraction was significantly more likely in the non-IMF (vs. IMF) group. This may be related to the higher rate of skin necrosis shown by the non-IMF group. Our data further indicated that PMRT had no impact on reoperation outcomes, regardless of incision type.
A multiplicity of criteria has been developed for assessing the aesthetic outcomes of NSM, including patient self-assessment, nipple sensitivity, postoperative scarring, nipple placement, breast contour, and overall symmetry [172930]. We used three criteria in our evaluations: NAC position, breast shape, and symmetry. IMF incisions concealed postoperative scarring and also resulted in fewer patient complaints.
Bilateral reconstruction (IMF group: four mastectomies) was excluded in our analysis of aesthetic outcome, owing to an inherent advantage in terms of symmetry. Accordingly, 35 patients (67.3%) in the IMF group were rated as having very good or good results, surpassing the corresponding rate (49.1%) in the non-IMF group. In the IMF (vs. non-IMF) group, significantly more patients were rated as very good (p=0.002).
Of note, we found no significant differences in aesthetic outcomes of IMF and non-IMF incisions after PMRT, regardless of aesthetic rating achieved. It may be that PMRT effects offset any aesthetic benefit conferred by IMF incisions. However, the aesthetic superiority of IMF (vs. non-IMF) incisions was upheld in non-PMRT subgroup analysis. Finally, because aesthetic outcomes were evaluated by our staff plastic surgeons, bias cannot be ruled out.
In conclusion, the use of IMF incisions for DTI breast reconstruction after NSM allows complete preservation of the NAC, with superior aesthetic results. We found that related postoperative complications, secondary corrective operations, and oncologic safety all compared favorably with non-IMF incisions. Moreover, IMF incisions produced the least visible scars and did not affect breast shape. Most patients expressed satisfaction with their aesthetic outcomes.

Notes

CONFLICT OF INTEREST: The authors declare that they have no competing interests.

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Figure 1

Representative reconstructive outcome: a 43-year-old woman with ductal carcinoma in situ of left breast. (A) Preoperative view. (B) Symmetric nipple-areolar complex position and breast shape in immediate postoperative state.

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Figure 2

Representative reconstructive outcome: a 40-year-old woman with mucinous carcinoma of left breast. (A) Preoperative status, prior to nipple-sparing mastectomy (via inframammary incision) removing 464 g of tissue. (B) Outcome 6 months after immediate direct-to-implant reconstruction.

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Table 1

Aesthetic outcome categories

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Aesthetic evaluation factor Very good Good Fair Poor
NAC location Symmetrically positioned Mild displacement Moderate displacement Severe displacement
Breast shape No irregularity Mildly irregular Moderate irregularities Severely distorted
Symmetry Symmetric Mild asymmetry Moderate asymmetry Severe asymmetry

NAC=nipple-areolar complex.

Table 2

Comparative demographics for direct-to-implant breast reconstructions performed with IMF incisions and non-IMF incisions

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Characteristic IMF incision (n = 58)
No. (%)
Non-IMF incision (n = 83)
No. (%)
p-value
No. of breasts 62 83 0.001
 Unilateral 54 (87.1) 83 (100)
 Bilateral 8 (12.9) 0
Age (yr)* 46.4 ± 5.9 45.2 ± 8.5 0.804
BMI (kg/m2)* 22.7 ± 2.3 22.6 ± 3.2 0.874
Neoadjuvant chemotherapy 6 (10.3) 3 (3.6) 0.105
Adjuvant chemotherapy 28 (48.3) 25 (30.1) 0.122
Hormone therapy 47 (81.0) 65 (78.3) 0.431
Postmastectomy radiotherapy 16 (27.6) 14 (16.9) 0.094
Implant volume (mL)* 219.9 ± 57.4 255.3 ± 76.9 < 0.001
Node dissection
 Sentinel lymph node biopsy 46 (79.3) 74 (89.2) 0.085
 Axillary lymph node dissection 13 (22.4) 9 (10.8) 0.053
 No procedure 2 (3.4) 0 0.167

IMF=inframammary fold; BMI=body mass index.

*Mean±SD

Table 3

Postoperative complications in patients undergoing DTI breast reconstruction following conservative mastectomy through IMF incision and non-IMF incision

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Complication Total DTI (n = 145)
No. (%)
IMF incision (n = 62)
No. (%)
Non-IMF incision (n = 83)
No. (%)
p-value
Skin breakdown/necrosis 27 (18.6) 9 (14.5) 18 (21.7) 0.030
Hematoma 7 (4.8) 3 (4.8) 4 (4.8) 0.067
Seroma 12 (8.3) 8 (12.9) 4 (4.8) 0.080
Capsular contracture 11 (7.6) 4 (6.5) 7 (8.4) 0.656
Infection 14 (9.7) 4 (6.5) 10 (12.0) 0.259
Implant loss 10 (6.9) 3 (4.8) 7 (8.4) 0.398
Recurrence 10 (6.9) 2 (3.2) 8 (9.6) 0.132

Each complication was counted in duplicate.

DTI=direct-to-implant; IMF=inframammary fold.

Table 4

Reoperation outcomes in patients undergoing DTI breast reconstruction following conservative mastectomy through IMF incision and non-IMF incision

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Reoperation Total DTI (n = 145)
No. (%)
IMF incision (n = 62)
No. (%)
Non-IMF incision (n = 83)
No. (%)
p-value
Skin flap revision 19 (13.1) 6 (9.7) 13 (15.7) 0.291
Hematoma evacuation 7 (4.8) 3 (4.8) 4 (4.8) 0.996
Capsular contracture correction 3 (2.1) 2 (3.2) 1 (1.2) 0.398
Scar revision 3 (2.1) 0 3 (3.6) 0.130
Incision and drainage due to infection 0 0 0
Contralateral augmentation mammoplasty due to size mismatch 6 (4.1) 3 (4.8) 3 (3.6) 0.714
Implant extraction 7 (4.8) 3 (4.8) 4 (4.8) 0.996
Implant change 11 (7.6) 1 (1.6) 10 (12.0) 0.019
Liposuction 0 0 0
Fat graft 0 0 0

Each complication was counted in duplicate.

DTI=direct-to-implant; IMF=inframammary fold.

Table 5

Subgroup analysis of postoperative complications based on PMRT

jbc-21-213-i005
Complication PMRT (n=30) Non-PMRT (n=115)
Total DTI
No. (%)
IMF incision (n=16)
No. (%)
Non-IMF incision (n=14)
No. (%)
p-value Total DTI
No. (%)
IMF incision (n=46)
No. (%)
Non-IMF incision (n=69)
No. (%)
p-value
Skin breakdown/necrosis 17 (56.7) 6 (37.5) 11 (78.6) 0.024 10 (8.7) 3 (6.5) 7 (10.1) 0.499
Hematoma 4 (13.3) 2 (12.5) 2 (14.3) 0.886 3 (2.6) 1 (2.2) 2 (2.9) 0.811
Seroma 9 (30.0) 6 (37.5) 3 (21.4) 0.338 3 (2.6) 2 (4.3) 1 (1.4) 0.339
Capsular contracture 9 (30.0) 3 (18.8) 6 (42.9) 0.151 2 (1.7) 1 (2.2) 1 (1.4) 0.771
Infection 10 (33.3) 3 (18.8) 7 (50.0) 0.070 4 (3.5) 1 (2.2) 3 (4.3) 0.533
Implant loss 8 (26.7) 3 (18.8) 5 (35.7) 0.295 2 (1.7) 0000 2 (2.9) 0.244
Recurrence 7 (23.3) 1 (6.3) 6 (42.9) 0.222 3 (2.6) 1 (2.2) 2 (2.9) 0.811

Each complication was counted in duplicate.

PMRT=postmastectomy radiation therapy; DTI=direct-to-implant; IMF=inframammary fold.

Table 6

Subgroup analysis of reoperation outcomes based on PMRT

jbc-21-213-i006
Reoperation PMRT (n=30) Non-PMRT (n=115)
Total DTI
No. (%)
IMF incision (n=16)
No. (%)
Non-IMF incision (n=14)
No. (%)
p-value Total DTI
No. (%)
IMF incision (n=46)
No. (%)
Non-IMF incision (n=69)
No. (%)
p-value
Skin flap revision 5 (16.7) 1 (6.3) 4 (28.6) 0.102 11 (9.6) 2 (4.3) 9 (13.0) 0.120
Hematoma evacuation 0 1 (6.3) 2 (14.3) 0.464 4 (3.5) 2 (4.3) 2 (2.9) 0.678
Capsular contracture correction 2 (6.7) 1 (6.3) 1 (7.1) 0.922 1 (0.9) 1 (2.2) 0 0.219
Scar revision 1 (3.3) 0 1 (7.1) 0.277 2 (1.7) 0 2 (2.9) 0.244
Incision and drainage due to infection 0 0 0 0 0 0
Contralateral augmentation mammoplasty due to size missmatch 2 (6.7) 1 (6.3) 1 (7.1) 0.922 4 (3.5) 2 (4.3) 2 (2.9) 0.678
Implant extraction 4 (13.3) 2 (12.5) 2 (14.3) 0.886 3 (2.6) 1 (2.2) 2 (2.9) 0.811
Implant change 4 (13.3) 1 (6.3) 3 (21.4) 0.222 7 (6.1) 0 7 (10.1) 0.026
Liposuction 0 0 0 0 0 0
Fat graft 0 0 0 0 0 0

Each complication was counted in duplicate.

PMRT=postmastectomy radiation therapy; DTI=direct-to-implant; IMF=inframammary fold.

Table 7

Aesthetic outcomes of the reconstructions

jbc-21-213-i007
Category Total DTI (n = 107)
No. (%)
IMF incision (n = 52)
No. (%)
Non-IMF incision (n = 55)
No. (%)
p-value
Very good 32 (29.9) 23 (44.2) 9 (16.4) 0.002
Good 30 (28.0) 12 (23.1) 18 (32.7) 0.267
Fair 28 (26.2) 12 (23.1) 16 (29.1) 0.479
Poor 17 (15.9) 5 (9.6) 12 (21.8) 0.084

DTI=direct-to-implant; IMF=inframammary fold.

Table 8

Comparisons of the aesthetic outcomes of the breast reconstruction after PMRT status

jbc-21-213-i008
Category Non-PMRT (n=78) PMRT (n=29)
Total DTI
No. (%)
IMF incision (n=39)
No. (%)
Non-IMF incision (n=39)
No. (%)
p-value Total DTI
No. (%)
IMF incision (n=13)
No. (%)
Non-IMF incision (n=16)
No. (%)
p-value
Very good 27 (34.6) 21 (53.8) 6 (15.4) < 0.001 5 (17.2) 2 (15.4) 3 (18.8) 0.811
Good 22 (28.2) 8 (20.5) 14 (35.9) 0.131 8 (27.6) 4 (30.8) 4 (25.0) 0.730
Fair 17 (21.8) 6 (15.4) 11 (28.2) 0.170 11 (37.9) 6 (46.2) 5 (31.3) 0.411
Poor 12 (15.4) 4 (10.3) 8 (20.5) 0.209 5 (17.2) 1 (7.7) 4 (25.0) 0.220

PMRT=postmastectomy radiation therapy; DTI=direct-to-implant; IMF=inframammary fold.

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