Adequate surgical margins in breast-conserving surgery are an important predictor
of local recurrence (LR) rates. The definition of tumor-free margins in National Surgical
Adjuvant Breast and Bowel Project (NSABP) trials requires that tumor cells do not touch ink, but
subsequent retrospective single-institution studies have suggested that wider margins confer
greater protection against LR. Particularly wide margins have been proposed for ductal
carcinoma in situ. However, wider margin requirements lead to higher re-excision rates, with
attendant economic, psychological, and cosmetic costs, and perhaps increased mastectomy rates.
Juxtaposed against these concerns about optimal margin width, a meta-analysis of clinical trials
has demonstrated the survival value of minimizing LR. We are therefore at a juncture where a
reduction of LR may be achieved by tumor resection with wide margins, but data regarding
optimal margin width are conflicting and the risk/benefit balance of tumorectomy with wide
margins has not been demonstrated. A randomized trial of re-excision for close margins inserted
into trials of systemic therapy could be considered but seems unlikely. Alternatively, detailed
longitudinal data need to balance the value the cost of wide margins. Until better data areand
available, the desirable margin width will vary depending on individual circumstances, including
age, histology, and patient preference.
The safety and efficacy of breast-conserving therapy (BCT) for women with early-stage breast cancer
are well established.[1,2] BCT entails wide excision of the tumor and appropriate nodal evaluation,
followed by radiation therapy to the breast. There is broad agreement that successful breast conservation
requires complete tumor excision, commonly described as a "tumor-free" or "negative" margin of
resection, but the definition of a negative margin is controversial. Opinions range from the original
National Surgical Adjuvant Breast and Bowel Project (NSABP) definition of "no ink on tumor," to a
recommended width of 10 mm or more. A widely held position based on single-institution retrospective
data is that a mandatory minimum distance between ink and tumor is necessary for good local control,
but the margin width is debated. A commonly accepted definition of adequate margins requires a 2-mm
distance between ink and tumor.
Randomized Trials, Resection Margins, and Recurrence in Invasive Breast Cancer
The original definition of a negative margin proposed by the NSABP was the absence of tumor cells at
the ink, and subsequent NSABP studies follow this simple rule. The landmark NSABP study of breast conservation involved 1851 patients; the positive margin rate was 6.8%, and with a 20-year follow-up
the in-breast tumor recurrence rate was 14.2%. Importantly, there was no attempt to distinguish new
primary tumors from true recurrences, and given the 20-year follow-up interval, there was undoubtedly
a substantial proportion of new primaries among the 14.2% of women who experienced ipsilateral breast
tumor recurrence (IBTR). According to recent studies that have tried to distinguish between these
events, the new primary cancer rate at 10 years may account for up to half of all observed IBTRs.[2,3] If
one estimates the true recurrence rate in the NSABP B-06 trial based on this estimate, then true local
recurrences occurred in about 7% of women. Other randomized trials of breast conservation are
summarized in ; all used either "grossly free margins" or "microscopically free margins" with noTable 1
minimal width required, and none distinguished new primaries from true recurrences except for the
Danish trial, which reported an overall IBTR rate of less than 6%. In these large studies with long
follow-up periods, IBTR rates range from 6% to 19.7%, but margins were not microscopically defined
for most of these trials, so the impact of margin width on IBTR rates is difficult to assess.
Nonrandomized Data on Resection Margins and Recurrence in Invasive Breast
TABLE 1, Summary of Randomized Trials of Breast Conservation
More recently, NSABP investigators have published two separate analyses of local recurrence, distant
disease, and breast cancer mortality, using pooled data from adjuvant therapy trials subsequent to B-06.
One report dealt with patients with node-negative breast cancer and included a total of 3,799 women
who participated in five NSABP protocols and underwent BCT with or without adjuvant systemic
therapy. Patients treated with adjuvant systemic therapy had a 12-year cumulative incidence of IBTR
of 6.6%, with a 1.8% "other local recurrence" rate (oLRR, or regional nodal recurrence). Younger
women had a significantly higher cumulative incidence of IBTR than did older women. In a similar
pooled analysis of trials enrolling women with node-positive disease, the 10-year incidences of IBTR
and oLRR were 8.7% and 6.0%, respectively. The time period over which these women were treated
extends into the 1990s; and although NSABP protocols required only that tumor should not touch the
margin ink, it is not known how individual NSABP surgeons applied this protocol definition, nor
whether or not re-excisions were being performed at these institutions for margins less than 1 or 2 mm.
Throughout the 1990s, several single-institution retrospective analyses designed to identify risk factors
for local recurrence of breast cancer have examined the impact of wider resection margins on local
control. In particular, much attention has been paid to the definition of a negative margin, with several
studies showing that a minimum margin width of 1 or 2 mm or more was associated with reduced risk of
local recurrence.[5-7] These studies described a lower recurrence rate than the B-06 study, albeit with
substantially shorter follow-up durations. Subsequent single-institution studies have demonstrated a
strong temporal effect on IBTR rates, with a significant decline in later time-periods[8,9]; although these
declines are undoubtedly related to better radiological and pathological evaluation, and to boost
radiotherapy and uniform use of systemic therapy, it is not possible to say what the contribution is of
wider excisions and re-excisions. More recent, larger studies that examined margin status and recurrence
rate are summarized in . Interestingly, the findings remain controversial, with two publicationsTable 2
from 2011 showing that margins less than 2 mm and (respectively) affect local control.[10,11]do do not
These recent data are consistent with an earlier review of margin width and IBTR risk by Singletary et
al, who found no direct relationship between the width of the negative margin and the IBTR rate.
Thus in the setting of contemporary breast cancer care, obtaining wider negative margins may not in
reality confer any added benefit, but may carry a significant potential for harm (psychological, cosmetic,
TABLE 2, Randomized Trial Data on Resection Margins and Recurrence in DCIS
Retrospective Studies of Local Control Following Breast Conservation for Invasive Cancer, Reported
Since 2000, With More Than 500 Patients per Study
Wapnir et al have recently reported on pooled data from patients participating in NSABP B-17 (testing
excision alone vs excision with radiotherapy) and B-24 (testing excision with radiotherapy, with or
without ).Importantly, margin-positive patients were allowedtamoxifen(Drug information on tamoxifen)
to participate in B-24, and the free margin definition in both studies was "no ink on tumor." The 15-year
outcomes were pooled and published recently, showing that IBTR rates in women treated with excision
and radiation have climbed since the original reports; they are now 19.8% (B-17) and 16.6% (B-24) with
radiation therapy alone, and a reduction to 13.2% is seen with the addition of tamoxifen in B-24.
The ductal carcinoma in situ (DCIS) trial by the European Organisation for Research and Treatment of
Cancer (EORTC), using a similar margin definition, showed similar results, with a 10-year local
recurrence rate of 15% in the radiated group. Thus long-term IBTR rates in prospective studies of DCIS
tend to be somewhat higher in DCIS patients than in patients with invasive breast cancer when a similar
margin threshold (no ink on tumor) is applied. highlights IBTR rates relative to margin width inTable 3
women treated with radiotherapy for DCIS.
Nonrandomized Data on Resection Margins and Recurrence in DCIS
A meta-analysis of data from DCIS trials and observational studies that included patients treated with
radiotherapy has provided information on incremental margin width and local control. Positive
margins are clearly associated with an increased risk of IBTR, but it appears that for DCIS (in contrast
to invasive cancer) there is a significant trend towards greater benefit with margins of 2 mm or more that
seems to plateau at a margin distance of 2 mm. Only a small number of patients have margins of 5 mm
or more, however. These data contrast with reports by Silverstein and colleagues, who suggest that
margins exceeding 10 mm are optimal for excision of DCIS. Since the interval between 1 mm and 10
mm in their study is not broken out into smaller intervals, one cannot determine whether the 2-mm
threshold is also significant in their experience. Other observational studies also suggest that for
DCIS, a close margin may increase the hazard of local recurrence, and therefore it may be
reasonable to define the optimal free margin for DCIS as a width of 2 mm.
Methods for Minimizing Residual Tumor
TABLE 3, DCIS IBTR Rates Relative to Margin Width in Patients Receiving Radiotherapy
Tumor-free margins are the agreed-upon objective indicator of a minimal residual tumor burden
following wide excision of a breast cancer, but clearly are only a surrogate marker of good local control.
Free margins do not ensure freedom from local recurrence, even when radiotherapy is used. As the best
available surrogate, however, obtaining negative margins remains the gold standard, and several
techniques have been tried to minimize residual tumor and the need for re-excision of positive margins
(however they are defined). Intraoperative frozen section or touch prep has been reported to reduce the
need for re-excision procedures but has not been widely adopted because it is resource-intensive and
does not perform well for the most common margin problem, namely DCIS at or near the margin.
Intraoperative touch-prep of margins in one study of 398 patients was associated with a positive
predictive value of 73.6%, whereas in another study of 30 patients, its positive predictive value was
21%; the technique clearly requires significant experience to implement, and at best will provide
incremental improvement over present re-excision rates. Frozen-section examination of margins was
evaluated in a Scandinavian study, which found that 16% of 186 patients required re-excision for
positive margins despite the use of frozen section. A prior American study showed similar results,
with false-negative frozen section findings in 19% of 97 patients. Since re-excision rates of under
20% can be regularly achieved without frozen section, the value of this technique is not clear.
There is wide agreement that orienting sutures and multicolored inks should be used to designate the
various tumorectomy surfaces, but the translation of intraoperative orientation to the surgical pathology
gross room is challenging, given the propensity of the specimen to flatten out and "change shape" by the
time it is grossly examined and sectioned. A solution to this problem may involve the technique of
"cavity shaves," in which thin samples of breast tissue from the resectional cavity are submitted
separately; if these are positive for tumor they represent, for the surgeon, more interpretable data
regarding the location of a positive margin. Cavity shavings are increasingly accepted as a valid and
reproducible way of decreasing re-excision rates. Huston et al found that complete resection of four to
six additional margins during the initial lumpectomy decreased the reoperation rate but was associated
with higher tissue volumes. In another study, a higher rate of negative microscopic margins and a
lower reoperation rate were found with the use of cavity shaves, with lower volumes of excised breast,
improved patient satisfaction, and decreased cost. Jacobson et al examined records of 125 patients in
a retrospective study and found excision of additional shaved margins at the original procedure reduced
re-operations by 48%. While the volume of resected tissue may be increased by use of routine cavity
shaves, as is the cost of pathological evaluation, the decreased rates of re-excision, with its attendant
costs, are likely to result in an overall advantage for this technique. Data on long-term outcomes have
not been reported.
The ability to perform real-time molecular imaging analysis of margins during surgery would clearly be
a significant advance; several groups have engaged in this effort, with encouraging reports of
preliminary data.[23,24] Further development of such techniques promises to lead to a point at which
accurate intraoperative margin evaluation may be possible and may even be combined with therapeutic
interventions, using techniques such as photodynamic therapy.
The optimal margin distance for breast cancer excision remains an area of controversy, particularly in
the setting of renewed interest in maximizing local control. Although NSABP studies have established
that "no ink on tumor" is the minimum required for local control, this does not answer theacceptable
question of what minimal distance is required for local control, since individual NSABPoptimal
surgeons and centers may have applied more stringent criteria for their patients. Surveys of radiation
oncologists in North America and in Europe and of surgeons in the United States have shown that there
is no consensus regarding optimal margins of excision. Among those surveyed, only 11% of US
surgeons, 46% of North American radiation oncologists, and 28% of European radiation oncologists endorsed negative margins as "no tumor at the ink."[23,24] Most surgeons do not perform intraoperative
margin analysis. Almost half of the surveyed surgeons (48%) examine the margins grossly with a
pathologist. Re-excision decision-making varies greatly: 57% of surgeons would never re-excise for a
positive deep margin, but 53% would always re-excise for a positive anterior margin. Jacobsen et al
found that 15% of surgeons accept any negative margin, 28% would accept a 1-mm negative margin,
50% would accept a 2-mm negative margin, 12% would accept a 5-mm negative margin, and 3% would
accept a 10-mm negative margin. This wide variation is reflected in reported re-excision rates,
which range from 10% to 50%.
Wide margin consequences
TABLE 4, Impact of Margin Width Definition on Positive Margin Rates
An unnecessarily wide standard for tumor resection margins results in high positive margin rates, and
obligates the surgeon to re-operate in order to obtain the required margins. shows that in studiesTable 4
reported since 2000, with sample sizes of more than 300 women, there is a clear relationship between
the definition of free margins and the positive margin rate. A definition of ink-free tumor allows the
positive margin rate to range between 10% and 20%; increasing the required width to even 1 mm
doubles the positive margin (and therefore the re-excision) rate to the range of 20% or greater, with
some studies reporting a rate of almost 50%. Since these positive margins are presumably re-excised, a
significantly larger proportion of breast cancer patients suffer the psychological and cosmetic costs of
re-excision. However, data presented in demonstrate that wider margins are not necessarilyTable 2
accompanied by better in-breast control. Older studies were nicely reviewed in 2002 by Singletary ;
provides a summary of more recent, large studies published since 2000. The lack of a trendTable 2
relating margin width to local control persists in the newer data, highlighting the multifactorial etiology
of in-breast recurrence of breast cancer (age, tumor characteristics, use of optimal systemic therapy and
radiotherapy) and discouraging the use of simplistic models that dictate that wider margins must mean
lower risk of in-breast recurrence.
The cost of re-operation for breast cancer
Additional surgery takes a significant emotional toll on the patient, a factor that has not received any
attention in the surgical literature. Recent data document the fact that a finding of positive margins at
first excision may lead to the decision to perform a mastectomy or even bilateral mastectomy. In
women who adhere to the plan for breast conservation, it compromises the final cosmetic outcomes,
with the potential to profoundly affect self-esteem, body image, and sexuality. The economic cost has
not been evaluated to date, although it includes the costs of the re-excision and conversion to
mastectomy, and possibly the cost of reconstruction. The perceived benefit of wide margins of resection
is also driving use of "oncoplastic" techniques of breast tumor resection, increasing costs of surgery not
only on the ipsilateral side, but also on the contralateral side, since many of these women then need a
reduction of the contralateral breast.
A consensus about the definition of negative margins is needed, with data-based guidelines for
re-excision parameters. A randomized trial devoted to this issue is unlikely to arouse enthusiasm.
However, if one considers this issue not only from the perspective of demonstrating a possible benefit of
wider excision (perhaps in high-risk subsets such as young women and those with triple-negative
tumors), but also from the vantage point of assessing harm from unnecessary intervention, then the
rationale for such a study is quite strong. A possible design would embed the margin question into one
or more large systemic therapy trials, and randomize women with margins of under 2 mm to re-excision
or not. Additionally, margin width is not captured in large national databases such as Surveillance,
Epidemiology, and End Results (SEER), the National Cancer Data Base (NCDB), or the National
Comprehensive Cancer Network (NCCN) database. Collection of margin width data along with the
number of surgical procedures would allow a better assessment of the impact of margin width standards
on a range of outcomes, and would enable comparative-effectiveness research in this area.
Finally, continued research is needed into better techniques for real-time margin sampling.
Improvements in this area, we would hope, could increase the accuracy of our resections, obviate the
need for re-excision, and improve outcomes with a single surgical procedure.
Financial Disclosure: The authors have no significant financial interest or other relationship with the
manufacturers of any products or providers of any service mentioned in this article.
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