2. Diagnosis
DCIS is usually revealed by mammogram in a breast cancer screening process. Because of development of cancer control programs, diagnosis of DCIS has increased in this past decade. Calcifications are not present in all cases and lesions can be occult mammographically, contributing to a sensitivity of 70% - 80% [1].
As the extent of disease is underestimated, breast MRI has emerged as a main tool for diagnosis and characterization of DCIS with a sensitivity of 77% to 96% [2]. The presentation as a mass is rare but possible [3].
3. Surgery and Radiotherapy
The van Nyus criteria is the most common system used to predict recurrence after treatment. This classification has identified 3 groups taking into account size of tumor, margin after surgery and pathological grade. This system has been confirmed as a good prognosis factor by a recent cohort study of 4578 patients diagnosed with DCIS enrolled by Whitfield and al. [4].
In a recent review of seventeen DCIS randomized trials, a stratification in high, intermediate or low risk was achieved, including different parameters: age, positive estrogen receptors (ER+), use of tamoxifen and extent of surgery.
Conventional radiotherapy (50 Gy in 25 fractions) has reduced the 15-year cancer death in the high, low and intermediate risk groups in respectively 7.8%, 1.1%, and 0.1%.
The local recurrence decreased of 60% with this adjuvant irradiation without impact on metastases or survival.
Size, pathological subtype and margins were the major risk factors for local recurrence after breast conserving therapy. [5].
Results of NSABP trial have confirmed hypofractionnated regimens of radiotherapy as an option. In this approach, different techniques can be been used: - 3D conformal radiotherapy with 15 fractions of 2.8 Gy for non palpable initial tumor, with negative or close marginsafter surgery and no residual microcalcification—IMRT with 15 fractions of 2.7 Gy to the breast plus 0.5 Gy daily integrated boost to surgical cavity.[6]
The independent effect of boost radiation on the development of local recurrence has been evaluated. All women diagnosed with DCIS and treated with breastconserving surgery and radiation therapy in Ontario from 1994 to 2003 were identified. Treatments and outcomes were noted through administrative databases and validated by chart review. The impact of boost radiation on the development of local recurrence was determined using survival analysis.
In this population cohort the administration of boost radiation does not decrease the risk of recurrence [7].
Skin-sparing mastectomy is an option in the treatment of DCIS without micro invasion. A retrospective study is reported on one hundred and forty-five consecutive women treated from 1998 to 2005 for pure DCIS bymastetomy with or without radiation. Patients with microinvasion were excluded. The primary endpoint was local recurrence, defined as recurrence on the chest wall. Regional and distant recurrences were secondary endpoints.
Outcomes were analyzed according to margin status [positive, close (2 mm), or negative], location of the closest margin in the breast (superficial, deep, or both), nuclear grade, necrosis, receptor status, type of mastectomy, and hormonal therapy.
In this study, patients treated with skin-sparing mastectomy with unfavorable features such as high-grade disease also seemed to have a very low risk of chest wall recurrence and there is no benefit for radiotherapy.
We are strongly moving to a new molecular approach of biopsy samples looking forward DCIS. In a recent publication, basal cytokeratin seems to be a potential marker in ductal carcinoma in situ: the immunoexpression of basal CK 5/6 in both high-grade and low-grade DCIS lesions indicates a lower risk of invasive carcinoma [8].
Presence of microinvasion (DCISM) is an issue in this pathologic analysis, even if its prognostic implication is unclear.
Rahul and al reported results of 393 patients with DCIS/DCISM from a database analyzed to assess differrences in clinical-pathologic features and outcomes of 2 cohorts, to examine the rate of local recurrence. The natural history of DCISM closely resembles that of DCIS, with a low incidence of local-regional and distant failuresafter treatment [9].
4. Adjuvant Hormonotherapy
Discussion of adjuvant treatment is sustained by the specific aim of decreasing risk of invasive disease after surgery and radiotherapy. The NSABP performed a double-blind prospective trial (NSABP-B-24) to mesure efficiency of tamoxifen for 1804 women with 20% clinical disease and 23% of positive or unknown margins. Patients were randomly assigned to conservative treatment (lumpectomy plus 50 Gy radiotherapy), with versus no tamoxifen (20 mg/day for five years). Breast cancer events were defined as the presence of new ipsilateral disease, contralateral disease, or metastases. Women in the tamoxifen group had fewer breast cancer events at five years (8.2% vs. 13.4%; P = 0.009) [10].
With tamoxifen, ipsilateral invasive breast cancer decreased from 4.2% to 2.1% at 5 years (P = 0.03). The incidence of contralateral breast neoplasms (invasive and noninvasive) also decreased from 0.8% per year to 0.4% per year (P = 0.01). The benefit of tamoxifen extended to those patients with positive or uncertain margins.
But the risk of invasive breast cancer or recurrent DCIS in the remaining breast tissue is very small [11].
5. Conclusion
The prognosis of DCIS remains good after conservative surgery and radiotherapy or mastectomy alone. Parallel to Van nyus factors novel molecular markers could be useful for selecting group who will benefit of adjuvant stereotactic radiotherapy.
NOTES