Should positive sentinel node cases have a further axillary dissection?
The question raised by the title is a controversial topic in management of breast cancer at the present time. It is important to understand the historical background of nodal disease in breast cancer. In the 1930s and 1940s, two-thirds of patients had axillary nodal metastases, usually multiple [1]. By the 1960s and 1970s, that proportion was down to roughly 50%, but still largely involved multiple nodal metastases [1]. Beginning in the late 1980s with the onset of extensive mammographic screening, the proportion of patients with positive axillary nodes has declined still further. In the entire state of Rhode Island in the years 1987–2003, encompassing the wide spread use of sentinel node biopsy, the rate of metastatic nodes in all breast cancer patients was only 26% [2]. Among cancers that were discovered just by mammography, that positive node rate is in the order of 15% or less [3]. Currently 44% of node positive patients in Rhode Island have only one-node metastases, and only a minority have more than three-node metastases [2]. Many of the positive nodes in these mammographically discovered cancers, and in smaller palpable cancers, are micrometastasis (2 mm or less in diameter). The implication of such small nodal micrometastases is still somewhat unclear, but in node metastases less than 0.2 mm in diameter, usually detected by immunohistochemical (IHC) staining, there is apparently no prognostic implication. Thus the American Joint Commission on Cancer (AJCC) in the most recent 6th edition has defined such minor collections of cancer cells in lymph nodes as N0 (IHC+) and urged that such a node definition not be used in prognostication or decision-making in breast cancer [4].
Thus over the past 50 years there have been enormous changes in the burden of lymph node metastases such that node metastases now occur in the minority of patients, and that in a majority of contemporary patients that do have nodal metastases, there is only minimal involvement. On this background, of course, the introduction of sentinel node biopsy has been possible, particularly as a method of avoiding axillary dissection entirely in patients that have negative sentinel nodes. Sentinel node biopsy thus has had a dramatic effect on the management of breast cancer by essentially eliminating the need for any further axillary investigation or axillary dissection in the great majority of patients who have no nodal metastases. In fact, when sentinel nodes are positive, in over 60% of patients, these are the only axillary nodes involved, indicating that sentinel node removal itself is sufficient to remove all metastases in the majority of situations [5]. That proportion of patients who have nodal metastases confined only to the sentinel nodes varies by size of the primary cancer: in T2 cases from 25% to 50%, and in T3 cases from 20% to 40%.
When the sentinel node is positive, a variety of factors need to be appreciated to make decisions regarding subsequent axillary dissection. First, it is critical that pathologists exactly define the ‘positive’ axillary node. Is it a collection of cells ≤0.2 mm in maximum size detected by IHC, in which the staging is N0(IHC+)? Is the metastasis larger than .2 mm but ≤2 mm, usually detected by routine hematoxylin and eosin (H&E) staining, in which case it is N1(mic) with prognostic implications that are uncertain? While metastases larger than 2 mm in diameter may be meaningful prognostically, the issue is whether there are other node metastases in the axilla and whether they need removal. This incidence of other metastases is related to the size of the primary cancer, the number of sentinel nodes and non-sentinel nodes removed and the number and size of our nodal metastases discovered, as well as other factors such as age and grade [6]. Thus if a patient has a single positive macrometastases but four negative other sentinel or non-sentinel nodes, the likelihood of finding other node metastases in the axilla is extremely unlikely. However, if the patient had a single sentinel node discovered and it was positive with a macrometastases, then the possibility of other node metastases in the axilla may range up to 50% depending on primary tumor characteristics such as size, grade, lymph vessel invasion, receptor activity, etc. A nomogram has been developed and validated to calculate the risk of other metastases in non-sentinel nodes [6].
Recent literature has indicated that even if a sentinel node is positive and a follow-up axillary dissection is not performed, the risk of a regional axillary nodal recurrence following breast conservation and radiation therapy is only about 2% [7]. Interestingly, this nodal recurrence rate is similar to regional nodal recurrence after axillary dissection. Even if the axilla is not specifically treated by regional lymphatic radiotherapy, there is a similar very low rate of nodal recurrence. When breast conservation is practiced with accompanying radiotherapy, the tangent radiation portals for the breast cover the lower ½ to 2/3 of the axillary lymph nodes in anatomic studies performed [8]. Thus the majority of lower axillary lymph nodes, whether positive or negative, are actually treated in the usual breast conservation patient with whole breast radiation therapy as a result.
What regional nodal therapy to undertake after defining a positive sentinel node should be contingent on the expected survival of the patient, the expected regional recurrence rate, and the implication of other possible nodal metastases. Would any major alteration of management depend on knowledge about the remaining axillary lymph nodes? Would radiation portals be adjusted or added? Would different chemotherapeutic agents be utilized?
To understand lymph node metastases, the purpose of the lymphatic system should be known [9]. The functioning lymphatic system is the principal implementing organ of immunological competence of the host. From an evolutionary point of view lymphocytes and their collection in lymph nodes were a later development of the method of more carefully interrogating contamination from the hostile external environment by viruses, parasites, and bacteria. Immunocompetence develops with humoral antibodies from B lymphocytes (innate immunological system), or the rapidly changing interactions with the hostile external environment that produces cellular responses from T lymphocytes with cytotoxicity from cytokines and other products (adoptive immune system) [10]. The lymphatic system has only two other functions: the return of interstitial fluid to the vascular space and the delivery of nutrients from the intestinal tract to the vascular space, both via the lymphatic vessels that eventually coalesce and form the thoracic duct. Thus lymphocytes and lymph nodes are entirely related to the need for an immunological defense from the external environment and, developmentally, have almost nothing to do with tumors since cancers are, with some exceptions, almost entirely ‘self’ rather than ‘other’. Few human cancers elicit significant antibody responses either naturally or when manipulated in the laboratory (melanoma, neuroblastoma, renal cell carcinoma and others) and the overwhelming majority of human cancers do not normally elicit significant immunological responses. Thus lymph node metastases are an accidental by-product of cancer cells shed into the lymphatic stream without an immunological reaction.
The other aspect of evaluating whether one should remove possible lymph node metastases derives from analysis of extensive clinical and laboratory literature regarding the relationship of lymph node metastases to survival [9,11]. In summary, there is no consistent evidence that removing lymph node metastases in a wide variety of cancers (gastric, esophageal, lung, colon, rectum, breast, head and neck, and other sites) improves survival, although it definitely decreases regional nodal recurrence rates. In randomized trials in breast, gastric, lung, esophagus, and colon cancer, survival results are similar whether the regional node basins are observed, sampled, dissected, or treated with radiation therapy [11]. Greater or lesser nodal resections in pancreatic, gastric, colon, esophageal, or lung cancer show no difference in survival [11]. Observation vs. routine initial regional node dissection in patients with melanoma [12] and breast cancer [13] show no improvement in survival overall. The concern that deliberately leaving behind lymph node metastases might impair survival in breast cancer has been addressed by at least six recent randomized clinical trials [14]. When patients are randomized between observation or dissection of axillary lymph nodes, there is no difference in long-term survival, either overall or disease-free, even though a high proportion (30–50%) of the breast cancer patients observed are known to have node metastases by the incidence of node metastases in the arm randomized to nodal resection. In these six randomized trials comparing axillary dissection to observation in breast cancer patients, disease-free and overall survival is identical. These studies demonstrate that lymph node metastases are ‘indicators but not governors’ of distant metastases and survival, and this assumption is continually borne out in the clinical literature.
While lymph node metastases are an excellent prognostic indicator, in terms of indicating the statistical likelihood of distant metastases, they themselves do not govern outcomes, since lymphatic metastases of whatever extent do not interfere with any vital organ function such as metastases to the liver, brain, or lung. Survival is governed entirely by such distant metastases to vital organs, not by metastases to non-vital organs. Cells from lymph node metastases may only have the capacity to grow in nodal sites, and animal research indicates that human breast cancer node metastatic cells when injected into animals go only to lymph node sites [15], an exquisite example of metastatic specificity [16–19]. Many research studies clearly demonstrate this metastatic specificity phenomenon. Thus lymph node metastases are not generating foci for vital organ metastases.
Other recent research that bears on the question of whether to dissect the axilla after a positive sentinel node is derived from the research laboratories, clinical studies, and the organ transplantation literature. Utilizing organs for transplantation from donors who have ever had an invasive cancer transmits a significant risk of transmitting that donor cancer to the recipient. These transplanted cancers clearly must arise from occult or dormant cells in the donated organ after recipient immunosuppression. Thus, donors that are disease-free after melanoma treatment transmitting that melanoma to recipients after kidney transplantation is well documented in the literature, even many years after the melanoma was removed [20]. Such transplanted melanoma and the resulting clinical metastases cause death in half the recipients. Such transplanted melanoma may not kill the recipient if immunosuppression is withdrawn, which results in rejection of the transplanted kidney, but usually also the transplanted melanoma. Lung and/or heart organ donations transplant cancers from donors who have ever had an invasive cancer to almost 50% of recipients [21]. Such invasive malignancies transmitted with donor organs have arisen from a variety of organ sites including cervix, kidney, liver, lung, prostate cancer, brain tumors, and sarcomas. This phenomenon is important in that it indicates that dissemination of individual cancer cells or cancer cell clusters, even from small cancers and cured cancers, is extremely common but usually unaccompanied by a worsened outcome because of the dormant nature of such transmitted cancer cells. Thus in T1a and T1b breast cancers, bone marrow aspiration reveals cancer cells in 25% and 35% of patients [22], although 15-year disease-free survival is 95% and 90%, respectively. The frequency of these metastatic cells in the bone marrow replicates the cells that would have been seen in transplanted donor organs in recipients of transplantation if they had been sampled in as detailed a fashion as lymph nodes or bone marrow. A recent [23] report from M.D. Anderson Hospital documents that 7–22 years after mastectomy for breast cancer, there are circulating cancer cells in over 1/3 of patients that are clinically completely disease-free, indicating the frequency of ‘dormant’ metastases that reside for long periods of time without clinical expression if angiogenesis and progressive growth does not occur. All this recent data puts the implication of cancer cells seen in the lymph node in perspective. Since we do not pathologically or histologically sample other organs as minutely as we do sentinel nodes, we do not detect such cells, clusters of cells, or micrometastases in other solid organs. Thus many minor or limited nodal metastases may not be progressive, do not serve as generating foci for other organ specific metastatic cells, do not destroy any vital organ function themselves, and serve only as a marker for metastatic potential.
In summary, there is no need to do an axillary dissection following the discovery of a positive sentinel node unless the information gleaned from such an axillary dissection would change, in a definitive way, the therapy proposed. If biopsy of a single sentinel node revealed a macrometastases and subsequent axillary dissection revealed no further metastases, extensive nodal radiation could be avoided, that might be a reason to do the axillary dissection. If the subsequent axillary dissection revealed four positive nodes, an appropriate judgement would include comprehensive nodal radiation therapy, since such patients have a high risk of regional nodal recurrence and poor survival.
Thus the answer to the original question is complex and multifaceted depending on patient and cancer features and what therapeutic measures might result from the additional information obtained by the axillary dissection. Increasingly, however, the need for axillary dissection, even after a positive sentinel node biopsy, should be seriously questioned, and will be abandoned entirely over the next few years [24].