On another forum, somebody posted this abstract, and I want to share it with you all - with comments. Since I am being treated as a true oligometastatic patient, this topic interests me. I think it is becoming more and more accepted as a real possibility, that a very small subset of women with mets can live long lives.
It is incredibly hopeful, especially that three people with mets lived out their full, natural lifespan, almost 70% with single organ mets made it 10 years, and 50% made it to 20 years. Too many doctors are still unaware of this possibility and may not treat patients appropriately. I am very pleased that my onc recognized the possibility and I got aggressive treatment. Of course, we are still waiting to find out if it is working or not.
Only a few years ago oncologists were telling their patients that the average Stage IV patient survived an AVERAGE of two years no matter what their treatment and many were nihilisitic in their attitude. Oligometastatic disease has such a better prognosis, would this not imply it is important to be aggressive in trying to find and equally aggressive in trying to treat the first metastases if they are rare.
The rationale behind not testing periodically after completion of treatment and waiting for a fracture to occur , seizure or change in vision to occur etc has been that most patients don't, it is expensive to check, and there is not much benefit in finding the metastases earlier rather than later. That is obviously not so for oligometastatic disease.
Is oligometastatic disease a characteristic of the type of breast cancer or the fact it was found early?
Breast Cancer. 2012 Apr 25. [Epub ahead of print]
Log in to post a reply
Possible clinical cure of metastatic breast cancer: lessons from our 30-year experience with oligometastatic breast cancer patients and literature review.
Kobayashi T, Ichiba T, Sakuyama T, Arakawa Y, Nagasaki E, Aiba K, Nogi H, Kawase K, Takeyama H, Toriumi Y, Uchida K, Kobayashi M, Kanehira C, Suzuki M, Ando N, Natori K, Kuraishi Y.
Department of Clinical Oncology and Hematology, The Jikei University School of Medicine, 3-25-8, Nishi-shimbashi, Minato-ku, Tokyo, 105-8461, Japan, firstname.lastname@example.org.
Metastatic breast cancer (MBC) is generally incurable. However, 10-20-year relapse-free survival of MBC is approximately 2%, implying that at least a small subset of MBC patients achieve prolonged survival. We therefore analyzed long-term outcome in a particular subset, i.e., oligometastatic breast cancer (OMBC).
Data of OMBC subjects (N = 75) treated in our institution from April 1980 to March 2010 were retrospectively analyzed. OMBC was identified as: one or 2 organs involved with metastatic lesions (excluding the primary lesion resectable by surgery), fewer than 5 lesions per metastasized organ, and lesion diameter less than 5 cm. Patients were generally treated with systemic chemotherapy first, and those who achieved complete response (CR) or partial response (PR) were further treated, if applicable, with local therapy (surgical or radiation therapy) to maintain CR or to induce no evidence of clinical disease (NED), with additional systemic therapy.
Median follow-up duration was 103 (6-329) months. Single or 2 organs were involved in, respectively, 44 (59%) and 31 (41%) cases with metastatic lesions, 48% of which were visceral. In cases where effects of systemic therapy, possibly in combination with other treatments, were evaluated (N = 68), CR or PR was achieved in 33 (48.5%) or 32 (47.1%), respectively, with overall response rate (ORR: CR + PR) of 95.6% (N = 65). In cases receiving multidisciplinary treatment (N = 75), CR or NED (CR/NED), or PR was induced in 48 (64.0%) or 23 (30.7%) cases, respectively, with ORR (CR/NED + PR) of 94.7% (N = 71). CR rates (60.5%) with systemic therapy and CR/NED rates (79.5%) with multidisciplinary treatment were significantly better in subjects with a single involved organ than in those with two involved organs (P = 0.047 and 0.002, systemic only or multidisciplinary treatments, respectively). Medians estimated by Kaplan-Meier method were: overall survival (OS) of 185.0 months and relapse-free interval (RFI) of 48.0 months. Estimated outcomes were: OS rates (OSR) of 59.2% at 10 years and 34.1% at 20 years, and relapse-free rates (RFR) of 27.4% at 10 years and 20 years. No disease progression was observed after 101.0 months as RFR. Cases with single organ involvement (N = 44) showed significantly better outcomes (OSR of 73% at 10 years and 52% at 20 years, RFR of 42% at 10 years and 20 years). Those who received local therapies (N = 35) also showed better prognosis: OSR of 82% at 10 years and 53% at 20 years, RFR of 38% at 10 years and 20 years. Three cases (4%) survived for their lifetime without relapse after achieving CR or NED, our definition of clinical cure. Multivariate analysis revealed factors favoring better prognosis as: none for OS, and single organ involvement with metastasis, administration of local treatment, and shorter disease-free interval (DFI) (P = 0.030, 0.039, and 0.042, respectively) for RFR. Outcomes in OMBC in literature were OSR of 35-73% at 10 years and 26-52% at 20 years, and RFR of 27-42% at 10 years and 26-42% at 20 years.
The present analyses clearly indicate that OMBC is a distinct subgroup with long-term prognosis superior to MBC, with reasonable provability for clinical cure. Further prospective studies to better characterize OMBC are warranted to improve prognosis in MBC.