The magnitude of the role surgical exploration and extirpation play in the contemporary management of patients with advanced ovarian cancer is hard to overstate. Beyond diagnostic confirmation, the aggressive posture taken to remove bulk disease provides—among other benefits—symptomatic relief, theoretically enhanced immunologic integrity, chemosensitivity, and improved survival characteristics. This latter intimation continues to drive the “surgery first” dictum to which most gynecologic oncologists subscribe. As is concisely presented in the article by Dr. Schwartz, the approach of primary cytoreduction has broad appeal based on primarily retrospective reports and meta-analyses of these reports. For instance, one widely quoted report of nearly 7,000 stage III or IV ovarian cancer patients demonstrated a continuous probit model whereby every 10% increase in cytoreduction was associated with a 5.5% increase in median overall survival.
Despite consensus in this regard, however, the vast evidence base to support the approach is admittedly circumstantial, as phase III interrogation of the hypothesis has yet to be formally done in most settings, with the exception of interval cytoreduction. Unfortunately, even in this setting, universal acceptance of the magnitude of effect is debated, based on cited variances between the randomized trials in terms of stage of the patients accrued, extent of surgical intent offered, the study’s statistical design and power, chemotherapy used, frequency of secondary assessment of response, and allowance of maintenance therapy following primary treatment.
‘Biology vs Brawn’
A common cogitation further confounding the issue, and as yet unanswered, is the “biology vs brawn” contention. Simply put, is it the innate characteristics of the tumor that provide a disease distribution that affords more complete tumor excision or is it the skills of the surgeon that render a biologically antagonistic tumor more responsive to therapy because it was aggressively resected? The debate has fostered further data-mining, such as the description of a unique microarray gene signature representing patients with bulky postoperative residuum. In contrast, recent reports have proposed that a differential effect in survival exists even within the category of “optimal” (no visible vs < 1 cm residual disease), while others have suggested that improved outcomes can be produced in patients with the poorest preoperative disease distribution once aggressive upper abdominal cytoreduction renders them disease-free.
Figure1: GOG 213 Trial—The treatment schema for Gynecologic Oncology Group (GOG) 213, a phase III randomized, controlled clinical trial of carboplatin and paclitaxel alone or in combination with bevacizumab followed by bevacizumab and secondary cytoreductive surgery in platinum-sensitive, recurrent ovarian, primary peritoneal, and fallopian tube cancer.
The complexities of the issues involved in this dialogue are problematic, interrelated, and unlikely to be settled soon. It is clear that the effectiveness of chemotherapy influences this discussion, and as such, distinguishes the disease from other intra-abdominal malignancies. Fortunately, studies such as the soon-to-be-reported European Organisation for Research and Treatment of Cancer–Gynaecological Cancer Cooperative Group (EORTC-GCCG) 55971 trial, which randomized advanced-stage ovarian, fallopian tube, and primary peritoneal cancer patients to either primary surgery or induction chemotherapy followed by surgery, will formally initiate the illumination of this debate.
Several somewhat peripheral (but no less important) issues will remain, even if the aforementioned approach is codified. Dr. Schwartz poignantly raised some of these issues. First, while we may agree that 100% removal of disease is our stated goal of surgery, determining in whom this can be reasonably achieved will require validation not only of preoperative imaging but also of what and where disease should be searched in order to provide confidence that the patient is truly “optimal.” Previous attempts at exporting an individual institution’s imaging assessment have largely failed. Currently, a joint study from Memorial Sloan-Kettering and M.D. Anderson Cancer Center is prospectively evaluating the utility of preoperative computed tomography (CT) scan and CA-125 on the ability to determine success of optimal tumor reduction.
A second, related consideration is the extent to which we can standardize extirpative surgical acumen among gynecologic oncologists so that the probability for complete resection will reach parity. It is suspected that wide variances exist, as reported rates of complete resection (even in selected patients) across trials and within the same institution differ. A recent survey showed that many gynecologic oncologists are unfamiliar with procedures that could improve their patients’ surgical outcomes and increase the proportion of optimal cytoreductions. This same survey demonstrated that 84% of responders favored continuing education emphasizing surgical technique and strategy. It is not inconceivable that in the absence of parity, a call for centralized surgical management could be a featured solution.
Finally, a responsive investigative process will need discriminating development to address the ever-changing adjuvant therapy domain, as the question of surgical merit will undoubtedly be raised in the context of “new and improved” nonsurgical therapy. We applaud the worldwide cooperative group clinical research mechanism for enabling this process.
1. Bristow RE, Tomacruz RS, Armstrong DK, et al: Survival effect of maximal cytoreductive surgery for advanced ovarian carcinoma during the platinum era: A meta-analysis. J Clin Oncol 20:1248-1259, 2002.
2. Rose PG, Nerenstone S, Brady MF, et al: Secondary surgical cytoreduction for advanced ovarian carcinoma. N Engl J Med 351:2489-2497, 2004.
3. Eisenkop SM, Spirtos NM: Procedures required to accomplish complete cytoreduction of ovarian cancer: Is there a correlation with “biological aggressiveness” and survival? Gynecol Oncol 82:435-441, 2001.
4. Berchuck A, Iversen ES, Lancaster JM, et al: Prediction of optimal versus suboptimal cytoreduction of advanced-stage serous ovarian cancer with the use of microarrays. Am J Obstet Gynecol 190:910-925, 2004.
5. Chi DS, Eisenhauer EL, Lang J, et al: What is the optimal goal of primary cytoreductive surgery for bulky stage IIIC epithelial ovarian carcinoma (EOC)? Gynecol Oncol 103:559-564, 2006.
6. Axtell AE, Lee MH, Bristow RE, et al: Multi-institutional reciprocal validation study of computed tomography predictors of suboptimal primary cytoreduction in patients with advanced ovarian cancer. J Clin Oncol 25:384-389, 2007.
7. Eisenkop SM, Spirtos NM: What are the current surgical objectives, strategies, and technical capabilities of gynecologic oncologists treating advanced epithelial ovarian cancer? Gynecol Oncol 82:489-497, 2001.
8. Munkarah AR, Coleman RL: Critical evaluation of secondary cytoreduction in recurrent ovarian cancer. Gynecol Oncol 95:273-280, 2004.
9. Dizon DS, Hensley ML, Poynor EA, et al: Retrospective analysis of carboplatin and paclitaxel as initial second-line therapy for recurrent epithelial ovarian carcinoma: Application toward a dynamic disease state model of ovarian cancer. J Clin Oncol 20:1238-1247, 2002.