The Quest for an Evidence-Based Approach to Intermediate-Risk Prostate Cancer

Publication
Article
OncologyOncology Vol 30 No 3
Volume 30
Issue 3

We must now come to a uniform consensus regarding the descriptions of these risk groups in order to truly determine which treatments have the best oncologic efficacy, while minimizing overtreatment and optimizing patients’ quality of life.

Oncology (Williston Park). 30(3):238–239.

The goal of risk classification in prostate cancer should be to accurately characterize the likelihood of disease recurrence and the potential for prostate cancer–related death. Based on an individual patient’s risk, physicians can present him with appropriate treatment options to maximize survival and quality of life, in the context of his particular comorbid conditions and life expectancy. Accurate risk stratification is crucial, whether it is used to avoid overtreatment of very-low-risk or low-risk prostate cancer, or to identify subgroups of intermediate-risk patients who may benefit from more aggressive, and in some cases, multimodal therapy. The challenge in basing treatment on risk stratification is not at the far ends of the spectrum (very-low-risk or very-high-risk disease), where treatment paradigms are established, but rather in the middle, where intermediate-risk disease exhibits a broad range of behavior. The oncologic behavior of tumors in the intermediate-risk category is highly variable, demonstrating a wide range of prostate cancer–specific mortality, prostate-specific antigen (PSA) progression, and clinical disease recurrence across different treatment modalities.[1]

This review by Serrano and Anscher focuses on the substantial group of patients who fall into the intermediate-risk prostate cancer category as defined by the National Comprehensive Cancer Network; the authors advocate further subclassification of this group into favorable intermediate-risk (FIR) and unfavorable intermediate-risk (UIR) prostate cancer.[2] Studies from both surgical[3] and radiation[4,5] series have shown that men with UIR disease had inferior outcomes compared with men with FIR disease with regard to biochemical recurrence–free survival, distant metastasis, and cancer-specific survival. These varying outcomes suggest that FIR and UIR prostate cancer have different oncologic potentials and should be managed differently. The authors also point out that FIR prostate cancer behaves in a more indolent fashion than UIR disease and may not always warrant treatment. A recent update by Klotz et al on a large active surveillance (AS) cohort included a substantial percentage of patients (21%) with intermediate-risk prostate cancer (Gleason score 3+4 only).[6] After 15 years of follow-up, 85% of the initial 993 patients were still alive, and only 15 deaths (1.5%) were attributed to prostate cancer, even though 21% of the patients included were diagnosed with intermediate-risk prostate cancer.[6] Others have also suggested that there is a divide within intermediate-risk prostate cancer (Gleason score = 7), with the oncologic behavior of primary Gleason pattern 3 prostate cancer mimicking that of low-risk disease, and with primary Gleason pattern 4 prostate cancer mirroring high-risk disease.[7-9]

Risk stratification is further confounded by a heavy reliance on Gleason scoring from prostate biopsy specimens. Recent revisions to the Gleason scoring system have resulted in improved outcomes in both low-risk (Gleason score 6) and intermediate-risk (Gleason score 7) prostate cancer, as patients who were once considered low-risk have been reclassified into the intermediate-risk category. This phenomenon is known as the Will Rogers effect. The 2005 (and now 2014) International Society of Urological Pathology revision of Gleason scoring[10,11] may hamper efforts to study long-term outcomes of intermediate-risk prostate cancer patients, given that extended follow-up is required to recognize oncologic outcomes in prostate cancer on account of its slow growth pattern. Gleason scoring is also prone to interobserver variability by pathologists.[12] Finally, there are frequent discrepancies between prostate needle biopsy and radical prostatectomy Gleason scoring.[13] Most recently, Epstein et al have proposed and validated a new risk classification system that would replace the Gleason scoring system and take into account the distinction of FIR and UIR, as supported here by Serrano and Anscher.[11] In this new grading system, patients with Gleason 3+4=7 prostate cancer would be considered risk group 2, and those with Gleason 4+3=7 would be considered risk group 3. Of course, the adoption of an entirely new grading system, even if it is more accurate in terms of oncologic potential, will undoubtedly pose challenges for the study of intermediate-risk prostate cancer outcomes over time.

Evidence clearly suggests that UIR prostate cancer behaves similarly to high-risk prostate cancer.[14,15] The outcomes for radiation therapy are summarized nicely in this review; however, we believe that surgery should remain a fundamental management option for clinically localized UIR and high-risk prostate cancer. Recent studies suggest that surgery may lead to improved survival compared with radiotherapy in patients with intermediate- or high-risk localized prostate cancer.[16] Additionally, improvement in cancer-specific survival has been noted in high-risk patients undergoing surgery compared with those treated with external beam radiation therapy.[17] The results of the ProtecT trial (ClinicalTrials.gov identifier: NCT02044172) will provide additional insight into the role of surgical management in intermediate-risk prostate cancer.[18]

Conversely, with an armamentarium of treatment options available, it is also necessary to consider which patients truly do require treatment and which are suitable for AS. Intermediate-risk prostate cancer patients with favorable features (eg, low-volume Gleason 3+4=7 disease, PSA level < 10 ng/mL) may be more appropriately grouped with their low-risk counterparts in terms of treatment. Some large AS cohorts have included significant numbers of these intermediate-risk patients, and have demonstrated satisfactory outcomes, particularly in older patients,[6] suggesting that AS may be expanded to include carefully selected intermediate-risk prostate cancer patients with favorable features.

We have made great progress in stratifying the large and heterogeneous group of prostate cancer patients based on the oncologic potential of their cancers. However, we must now come to a uniform consensus regarding the descriptions of these risk groups in order to truly determine which treatments have the best oncologic efficacy, while minimizing overtreatment and optimizing patients’ quality of life.

Financial Disclosure:The authors have no significant financial interest in or other relationship with the manufacturer of any product or provider of any service mentioned in this article.

References:

1. D’Amico AV, Whittington R, Malkowicz SB, et al. Biochemical outcome after radical prostatectomy, external beam radiation therapy, or interstitial radiation therapy for clinically localized prostate cancer. JAMA. 1998;280:969-74.

2. Serrano NA, Anscher MS. Favorable vs unfavorable intermediate-risk prostate cancer: a review of the new classification system and its impact on treatment recommendations. Oncology (Williston Park). 2016;30:229-36.

3. Reese AC, Pierorazio PM, Han M, Partin AW. Contemporary evaluation of the National Comprehensive Cancer Network prostate cancer risk classification system. Urology. 2012;80:1075-9.

4. Keane FK, Chen MH, Zhang D, et al. The likelihood of death from prostate cancer in men with favorable or unfavorable intermediate-risk disease. Cancer. 2014;120:1787-93.

5. Zumsteg ZS, Spratt DE, Pei I, et al. A new risk classification system for therapeutic decision making with intermediate-risk prostate cancer patients undergoing dose-escalated external-beam radiation therapy. Eur Urol. 2013;64:895-902.

6. Klotz L, Vesprini D, Sethukavalan P, et al. Long-term follow-up of a large active surveillance cohort of patients with prostate cancer. J Clin Oncol. 2015;33:272-7.

7. Schiffmann J, Wenzel P, Salomon G. Heterogeneity in D’Amico classification-based low-risk prostate cancer: differences in upgrading and upstaging according to active surveillance eligibility. Urol Oncol. 2015;33:329.e13-9.

8. Dinh KT, Muralidhar V, Mahal BA, et al. Occult high-risk disease in clinically low-risk prostate cancer with ≥50% positive biopsy cores: Should national guidelines stop calling them low-risk? Urology. 2016;87:125-32.

9. Chan TY, Partin AW, Walsh PC, Epstein JI. Prognostic significance of Gleason score 3+4 versus Gleason score 4+3 tumor at radical prostatectomy. Urology. 2000;56:823-7.

10. Epstein JI, Allsbrook WC Jr, Amin MB, et al. The 2005 International Society of Urological Pathology (ISUP) Consensus Conference on Gleason Grading of Prostatic Carcinoma. Am J Surg Pathol. 2005;29:1228-42.

11. Epstein JI, Egevad L, Amin MB, et al. The 2014 International Society of Urological Pathology (ISUP) Consensus Conference on Gleason Grading of Prostatic Carcinoma: definition of grading patterns and proposal for a new grading system. Am J Surg Pathol. 2016;40:244-52.

12. Allsbrook WC, Mangold KA, Johnson MH, et al. Interobserver reproducibility of Gleason grading of prostatic carcinoma: urologic pathologists. Human Pathol. 2001;32:74-80.

13. Sved PD, Gomez P, Manoharan M, et al. Limitations of biopsy Gleason grade: implications for counseling patients with biopsy Gleason score 6 prostate cancer. J Urol. 2004;172:98-102.

14. Wilt TJ, Brawer MK, Jones KM, et al. Radical prostatectomy versus observation for localized prostate cancer. N Engl J Med. 2012;367:203-13.

15. Pierorazio PM, Walsh PC, Partin AW, Epstein JI. Prognostic Gleason grade grouping: data based on the modified Gleason scoring system. BJU Int. 2013;111:753-60.

16. Sooriakumaran P, Nyberg T, Akre O, et al. Comparative effectiveness of radical prostatectomy and radiotherapy in prostate cancer: observational study of mortality outcomes. BMJ. 2014;348:g1502.

17. Taguchi S, Fukuhara H, Shiraishi K, et al. Radical prostatectomy versus external beam radiotherapy for cT1-4N0M0 prostate cancer: comparison of patient outcomes including mortality. PLoS One. 2015;10:e0141123.

18. Lane JA, Donovan JL, Davis M, et al. Active monitoring, radical prostatectomy, or radiotherapy for localised prostate cancer: study design and diagnostic and baseline results of the ProtecT randomised phase 3 trial. Lancet Oncol. 2014;15:1109-18.

Recent Videos
A phase 1 trial assessed the use of PSCA-directed CAR T cells in patients with metastatic castration-resistant prostate cancer.
Findings from a phase 1 study may inform future trial designs intended to yield longer responses with PSCA-targeted CAR T cells.
A phase 1 trial assessed the use of PSCA-directed CAR T cells in patients with metastatic castration-resistant prostate cancer.
Two women in genitourinary oncology discuss their experiences with figuring out when to begin a family and how to prioritize both work and children.
Over the past few decades, the prostate cancer space has evolved with increased funding for clinical trial creation and enrollment.
Rohit Gosain, MD; Rahul Gosain, MD; and Rana R. McKay, MD, presenting slides
Rohit Gosain, MD; Rahul Gosain, MD; and Rana R. McKay, MD, presenting slides
Rohit Gosain, MD; Rahul Gosain, MD; and Rana R. McKay, MD, presenting slides
Rohit Gosain, MD; Rahul Gosain, MD; and Rana R. McKay, MD, presenting slides
Anemia in patients who receive talazoparib plus enzalutamide for metastatic castration-resistant prostate cancer appears to be manageable without any compromises in patient-reported outcomes and quality of life.
Related Content