CME
Physicians: Maximum of 1.00 AMA PRA Category 1 Credit™
Released: April 28, 2023
Expiration: April 27, 2024
PARP Inhibitor Plus AR Inhibitor Combinations
Daniel P. Petrylak, MD:
In patients with mCRPC, HRR alterations, particularly BRCA alterations, are associated with poor prognosis.1 The combination of an androgen receptor signaling inhibitor (ARSi) and poly (ADP-ribose) polymerase (PARP) inhibition is hypothesized to improve PARP inhibitor efficacy in tumors without HRR gene alterations.2 It is thought that ARSi alters HRR gene expression patterns, inducing BRCAness.3,4 A number of trials are investigating combining PARP inhibitors with an ARSi.
TALAPRO-2: Talazoparib Plus Enzalutamide for Newly Diagnosed mCRPC
Daniel P. Petrylak, MD:
The first study we will discuss is the TALAPRO‑2 trial evaluating the combination of enzalutamide and talazoparib for mCRPC unselected for HRR status.5 These results were reported by Dr Neeraj Agarwal and colleagues at ASCO GU 2023.
TALAPRO-2 is a double‑blind phase III trial that randomized 805 patients with newly diagnosed mCRPC.5 HRR gene alterations including BRCA1, BRCA2, PALB2, ATM, ATR, CHEK2, FANCA, RAD51C, NBM, MHR1, MRE11A and CDK12 were prospectively assessed. It is important to note that most of the patients enrolled on the study did not previously receive next-generation antiandrogens.
Patients were randomized to receive a combination of talazoparib 0.5 mg once daily (0.35 mg if moderate renal impairment) plus enzalutamide 160 mg once daily vs placebo plus enzalutamide. Stratification was by prior abiraterone or docetaxel for castration-sensitive prostate cancer (CSPC) and HRR mutation status.
The primary endpoint is rPFS by blinded independent central review (BICR) and a key secondary endpoint is OS. Other secondary endpoints include time to cytotoxic chemotherapy, PFS2 (by investigator), ORR, patient reported outcomes (PROs), and safety.
TALAPRO-2: Baseline Characteristics
Daniel P. Petrylak, MD:
The arms were well balanced for age, median prostate-specific antigen (PSA), and sites of disease.5 Approximately 27% of patients in each arm had received abiraterone or docetaxel for CSPC, and 2 patients in each arm had received prior orteronel. Specifically, 5.2% to 6.2% of patients had received abiraterone and 21.4% to 23.1% had received docetaxel. This is a lower frequency than we have seen in other clinical trials. Approximately 20% of patients were HRR deficient.
TALAPRO-2: Survival Outcomes
Daniel P. Petrylak, MD:
The median rPFS by BICR was not reached in the talazoparib arm and was 21.9 months in the control arm (HR: 0.63; 95% CI: 0.51-0.78).5
Patients with HRR deficient disease had a median rPFS of 27.9 months with talazoparib vs 16.4 months with placebo (HR: 0.46; 95% CI: 0.30-0.70). In patients with HRR-nondeficient disease or unknown status, median rPFS was not reached with talazoparib and was 22.5 months in the control arm (HR: 0.70; 95% CI: 0.54-0.89). In patients with HRR-nondeficient disease by prospective tumor profiling, the median rPFS was not reached with talazoparib vs 22.1 months with placebo (HR: 0.66; 95% CI: 0.49-0.91).
There was a consistent rPFS benefit with talazoparib across all prespecified groups, including age, ECOG PS, Gleason score, stage at diagnosis, and sites of metastases.
The median OS was 36.4 months with talazoparib and was not reached in the placebo arm (HR: 0.89; 95% CI: 0.69-1.14).
TALAPRO-2: Other Efficacy Outcomes and Patient-Reported QoL
Daniel P. Petrylak, MD:
The time to PSA progression, time to cytotoxic chemotherapy, and time to PFS2 were all improved with the addition of talazoparib.5
Objective response rates were better with the addition of talazoparib (61.7% vs 43.9%) as were CR rates (37.5% vs 18.2%) vs enzalutamide alone. There were similar levels of PR and SD.
TALAPRO-2: Safety
Daniel P. Petrylak, MD:
Treatment‑emergent adverse events (TEAEs) affected 98.5% of the talazoparib arm vs 94.5% of the placebo arm, with 89.7% and 69.6% ruled treatment related, respectively.5 The rate of serious treatment related TEAEs was higher with talazoparib (19.6% vs 3.0%), but there were no treatment related grade 5 TEAEs compared with 2 (0.5%) in the placebo arm.
Among patients receiving talazoparib, 75% had a dose interruption, 56% had dose reductions, and 19% discontinued therapy vs 23%, 7%, and 12%, respectively among those receiving enzalutamide alone.
TALAPRO-2: Most Common All-Cause TEAEs
Daniel P. Petrylak, MD:
The most common all-cause TEAEs with talazoparib were anemia (65.8% any grade, 46.5% grade ≥3), neutropenia, fatigue, thrombocytopenia, leukopenia, back pain, and decreased appetite.5 The rate of TEAEs was consistent with individual agent profiles.
I think it is interesting that the talazoparib arm had 1 case of myelodysplastic syndromes (MDS) and 1 case of acute myeloid leukemia (AML). Pulmonary embolism also affected 10 patients (2.5%) in the talazoparib arm and 3 patients (0.7%) in the placebo arm, mostly grade 3. This is a theme we are seeing with other PARP inhibitors.
TALAPRO-2: Summary
Daniel P. Petrylak, MD:
Talazoparib plus enzalutamide significantly improved rPFS compared with placebo plus enzalutamide in the first-line mCRPC setting.5 The rPFS improvement was clinically meaningful in both the all-comer population and in prespecified subgroups. Talazoparib benefitted patients with and without HRR gene alterations. The safety profile was manageable through dose modifications and supportive care. The investigators concluded that the primary analysis supports the use of talazoparib in combination with enzalutamide as first-line therapy for patients with mCRPC regardless of HRR gene mutation status.
PROpel: First-line Abiraterone Plus Olaparib in mCRPC
Daniel P. Petrylak, MD:
The phase III PROpel trial evaluated abiraterone plus olaparib vs abiraterone plus placebo as first‑line treatment of biomarker‑unselected mCRPC. In the primary analysis, abiraterone plus olaparib improved rPFS (24.8 vs 16.6 months; HR: 0.66; P <.001).6 The current presentation is the final prespecified OS analysis and was reported by Dr Noel Clarke and colleagues at ASCO GU 2023.7
PROpel enrolled 796 patients with mCRPC who had no previous therapy for mCRPC, although previous docetaxel for metastatic hormone sensitive prostate cancer (mHSPC) was allowed. No screening for HRR mutations was required.
The study randomized patients to receive olaparib 300 mg twice daily plus abiraterone 1000 mg once daily with prednisone or placebo plus abiraterone with prednisone. Stratification was by metastatic disease sites (bone only vs visceral vs other) and previous taxane for mHSPC. Treatment continued until radiographic progression or unacceptable toxicity and crossover was not permitted.
The primary endpoint was rPFS by investigator assessment with a sensitivity analysis by BICR. The key secondary endpoint was OS and other preplanned analyses were time to first subsequent therapy or death, PFS2, HRR status, safety, and tolerability.
PROpel: Baseline Characteristics
Daniel P. Petrylak, MD:
The study arms were well balanced.6,7 Approximately 28% of patients had HRR-mutated disease with HRR status unknown in only 2.3%. The prevalence of BRCA mutations was 11.8% in the olaparib arm vs 9.6% in the placebo arm. This rate of BRCA mutation is consistent with what we know about this patient population.
PROpel: OS at Final Prespecified Analysis
Daniel P. Petrylak, MD:
The median OS at the final prespecified analysis was 42.1 months with olaparib vs 34.7 months with placebo (HR: 0.81; 95% CI: 0.67-1.00; P = .0544). Currently, the data are 47.9% mature and the OS across subgroups was generally consistent with the intention-to-treat (ITT) population.7
PROpel: OS by HRR Status
Daniel P. Petrylak, MD:
The median OS in patients with HRR mutations was not reached with olaparib and 28.5 months with placebo (HR: 0.66; 95% CI: 0.45-0.95).7 No OS benefit was observed in patients with HRR-nonmutated disease (HR:0.89, 95% CI: 0.70-1.14).
PROpel: TFST and PFS2
Daniel P. Petrylak, MD:
The HR for the time to first subsequent therapy was 0.76. For PFS2, the HR was also 0.76.7
PROpel: Safety
Daniel P. Petrylak, MD:
Two patients developed MDS/AML in the olaparib arm but the incidence of new primary malignancies and pneumonitis was balanced between the arms.7 Patient quality of life was similar across the study arms.
PROpel: AEs in >10% of Patients
Daniel P. Petrylak, MD:
The toxicity profile was not surprising, with anemia the most common adverse event (AE) in the olaparib arm.7 The frequency of all-grade anemia was 49.7% with olaparib compared with 17.7% with placebo; grade ≥3 anemia affected 16.1% vs 3.3% of patients, respectively. The rate of pulmonary embolism was 7.3% with olaparib vs 2.3% with placebo and cardiac events occurred at 1.8% in both arms.
PROpel: Clinical Implications
Daniel P. Petrylak, MD:
This final prespecified analysis of the PROpel trial showed a sustained trend toward improved OS with first-line treatment with abiraterone plus olaparib vs abiraterone plus placebo for mCRPC, although not significant per the study design.7 The median OS in the ITT population is the longest median OS reported to date in a phase III trial in the first-line mCRPC setting. The safety profile of the combination was consistent with individual drug profiles and consistent over time, with no new safety signals observed.
MAGNITUDE: First-line Niraparib Plus Abiraterone Acetate and Prednisone in HRR-Mutant mCRPC
Daniel P. Petrylak, MD:
The phase III MAGNITUDE trial evaluated the addition of niraparib to first-line abiraterone acetate plus prednisone (AAP) vs placebo plus AAP. In the first interim analysis of MAGNITUDE, the addition of niraparib was associated was significant improvement in median rPFS in patients with HRR alterations vs the AAP alone arm.8 However, a futility analysis showed no benefit in patients without HRR alterations. This second interim analysis was reported by Dr Eleni Efstathiou and colleagues at ASCO GU 2023 and focuses on the HRR‑positive cohort after a median follow-up of 26.8 months.9
This study design is similar to PROpel and enrolled 670 patients with mCRPC who received no previous systemic therapy (AAP allowed if ≤4 months).9 The Brief Pain Inventory–Short Form worst pain score had to be ≤3. Patients were prescreened for HRR status before randomization using tissue and/or plasma assays for ATM, BRCA1, BRCA2, BRIP1, CDK12, CHEK2, FANCA, HDAC2, and PALB2.
Randomization was to niraparib plus AAP or placebo plus AAP. Stratification was based on previous taxane-based chemotherapy for mCSPC, prior androgen receptor inhibitor for nonmetastatic CRPC or mCSPC, prior AAP for first-line mCRPC, and the presence of BRCA1/2 vs other HRR alterations.
The primary endpoint is rPFS by central review and secondary endpoints include OS, time to symptomatic progression, and time to cytotoxic chemotherapy.
MAGNITUDE: Baseline Characteristics (HRR+ Cohort)
Daniel P. Petrylak, MD:
BRCA1/2 alterations made up a little over 50% of the HRR alterations.9 The rate of visceral metastases was 24.1% in the niraparib arm vs 18.5% in the placebo arm, with the incidence of liver metastases 8.5% vs 6.2% and lung metastases 12.7% vs 8.5%. Median PSAs were similar, as was the rate of prior taxane‑based chemotherapy.
MAGNITUDE: rPFS and Secondary Outcomes (BRCA Subgroup)
Daniel P. Petrylak, MD:
There was a large difference in rPFS and secondary outcomes in the BRCA subgroup.9 rPFS was 19.5 months with niraparib vs 10.9 months with placebo (HR: 0.55; 95% CI: 0.39-0.78). Median time to symptomatic progression was not reached vs 23.6 months with placebo (HR: 0.54; 95% CI: 0.35-0.85). Median time to the initiation of cytotoxic chemotherapy was not reached vs 27.3 months in the placebo arm (HR: 0.56; 95% CI: 0.35-0.90).
MAGNITUDE: Safety Outcomes in HRR+ Subgroup
Daniel P. Petrylak, MD:
Safety was consistent with the previous analysis, and the most frequent AEs with niraparib were anemia (50.0%), hypertension (33.0%), and constipation (33.0%).9
MAGNITUDE: Summary HRR+ Subgroup
At a median follow-up of 26.8 months, patients with BRCA-altered mCRPC who received niraparib with AAP had significant improvement in median rPFS compared with AAP alone.9 These findings highlight the poor prognosis in this subgroup, as the historical median rPFS with AAP alone in unselected patients is 16.5 months.10 These outcomes show the importance of genetic testing for HRR alterations in mCRPC.
PARP Inhibitor Plus AR Inhibitor Combinations: Clinical Implications
Daniel P. Petrylak, MD:
I want to discuss the clinical implications of these 3 similar studies with PARP inhibitors and AR-directed therapies. The question is whether these combinations are effective in HRR-negative (wild-type) populations and are they effective in HRR-positive (mutant) populations? I think the hypothesis of combining PARP inhibitors with antiandrogens is scientifically justified preclinically, and we are seeing signals which confirm this concept in the aforementioned trials. I think the data appear to be more robust in BRCA-altered mCRPC based on what we are seeing across the board in these clinical trials. In terms of HRR-positive mCRPC, I think there are intriguing trends, but it is unclear if BRCA2 is driving those results or if improvements are also seen among those with ATM, CHEK2, or CDK12 mutations. These subgroups within these trials are too small to draw any conclusions. But I do believe patients with BRCA2 mutations are benefiting.
Of interest, TALAPRO‑2 also showed a rPFS benefit in patients without HRR alterations. Is it because this study used a different PARP inhibitor and a different antiandrogen than MAGNITUDE? Is it because of some other factors? It is unclear. PROpel also demonstrated improved rPFS. At this time, I would not use the combination of olaparib plus abiraterone in HRR-negative mCRPC because there is not a significant survival benefit. We will need to see the final analysis of OS inTALAPRO-2 to come to more consensus about that regimen.
Another question is whether these combinations will be applicable to the general population. My feeling is “no” because we are moving next-generation antiandrogens into earlier disease such as mCSPC and it does not make sense to give a second antiandrogen. A small percentage of patients in TALAPRO‑2 had previously received next-generation antiandrogens, but it was less than 30%, which may not be enough patients for a subgroup analysis.
Another question is should a patient with BRCA-positive disease who is receiving a next-generation antiandrogen stop it at progression to receive a PARP inhibitor, or can the PARP inhibitor be added on? Right now, we do not have an answer to that, but I think the combinations potentially could add toxicity, so the options need to be discussed with each patient. We need a randomized trial or real‑world data to tell us what to do in this situation. We need to be aware that these trials were designed in an era where we were not commonly using next-generation antiandrogens in hormone sensitive disease.
Elizabeth R. Plimack, MD, MS:
Dr Petrylak, it is nice to see all these trials reported together so we can look at them in aggregate. Looking across the trials, do you see any difference between the PARP inhibitors talazoparib, olaparib, or niraparib, that would differentiate one over the other?
Daniel P. Petrylak, MD:
Theoretically talazoparib has PARP complex trapping abilities. From a basic science standpoint, that is the only thing that differentiates them.
Elizabeth R. Plimack, MD, MS:
The rate of grade 3/4 anemia was 46% with talazoparib in TALAPRO-2 and 16% with olaparib in PROpel. Although not exactly the same design, that is still a major difference.
Daniel P. Petrylak, MD:
The thing most concerning to me is the increased rates of pulmonary embolism with these combinations and the cases of MDS and AML that occur.
Another consideration that will affect the sequencing of these agents is that the phase III TALAPRO‑3 trial (NCT04821622) is evaluating talazoparib earlier in the course of disease in the mCSPC setting. Could that lead to more anemia down the line, or higher rates of MDS, or higher rates of initial pulmonary embolism? So, that is a concern.
Elizabeth R. Plimack, MD, MS:
Do you think all HRR alterations are equal? Several HRR genes were evaluated in these trials, but it looks like we are homing in on BRCA. Do you agree?
Daniel P. Petrylak, MD:
Yes, we are homing in on BRCA. We were initially excited by a randomized phase II trial of olaparib plus cediranib vs olaparib alone in CRPC performed by our group.11 The concept was that inhibiting angiogenesis and causing hypoxia could induce BRCAness based on laboratory data. At the first analysis, there was a rPFS improvement that was driven by BRCA. Disease that is ATM mutated does not respond well as we see in TRITON-3, even though there are FDA approvals for PARP inhibitors in that space.
I think we all want to see subgroup analysis comparing the different HRR mutations to see if antiandrogen/PARP inhibitor combinations are valid treatments for patients with non-BRCA mutations. If I see improved PSA response rates with the combination therapy and improved rPFS, I will probably use these combinations in patients without BRCA-mutated tumors.
TRITON3: Rucaparib vs Physician’s Choice in mCRPC with BRCA or ATM Alterations
Daniel P. Petrylak, MD:
The PARP inhibitor rucaparib has FDA accelerated approval for patients with deleterious BRCA mutation (germline and/or somatic)-associated mCRPC who have been treated with AR-directed therapy and a taxane-based chemotherapy.12
TRITON3 is the confirmatory phase III trial of rucaparib vs physician’s choice of docetaxel or second-generation androgen receptor pathway inhibitor (ARPi) in patients with mCRPC and a BRCA or ATM alteration.13 The current interim analysis, presented by Dr Alan Bryce and colleagues at ASCO GU 2023, reports primary endpoints of rPFS, preliminary OS data, and subgroup analyses.
TRITON3 enrolled 405 patients with BRCA1/2 or ATM mutations who progressed on a next-generation antiandrogen in any setting.13,14 Patients could not have received prior PARP inhibitor or chemotherapy for CRPC. Randomization was 2:1 to rucaparib 600 mg twice daily in 28-day cycles or physician’s choice of docetaxel 75 mg/m2 in 21-day cycles (max 10 cycles), abiraterone 1000 mg once daily, or enzalutamide 160 mg once daily, with prednisone coadministered with docetaxel and abiraterone. Stratification was by ECOG PS, the presence/absence of hepatic metastases, and genetic alteration. Treatment continued until radiographic progression or discontinuation for other reasons. Crossover from physician’s choice to rucaparib was optional following disease progression.
The primary endpoint is rPFS by independent radiology review (IRR) and key secondary endpoints are OS and ORR by IRR.
TRITON3: Baseline Characteristics
Daniel P. Petrylak, MD:
The study arms were well balanced. BRCA2 was the most common molecular alteration, at 58% to 68% across therapy groups. BRCA1 alterations occurred in approximately 11% of patients and ATM alterations in 20% to 32%.13,14 Baseline PSAs, Gleason scores, and measurable disease were similar between arms.
TRITON3: rPFS (BRCA-Altered Subgroup)
Daniel P. Petrylak, MD:
The median rPFS in the BRCA‑altered subgroup at the time of this interim analysis was 11.2 months with rucaparib vs 6.4 months with physician’s choice (HR: 0.50; 95% CI: 0.36-0.69).13,14
TRITON3: rPFS (ITT Population)
Daniel P. Petrylak, MD:
The median rPFS in the ITT population was 10.2 months with rucaparib and 6.4 months with physician’s choice (HR: 0.61; 95% CI: 0.47-0.80).13,14
TRITON3: rPFS (ATM-Altered Subgroup)
Daniel P. Petrylak, MD:
There was no rPFS benefit in the ATM-mutated subgroup, with a median rPFS of 8.1 months with rucaparib vs 6.8 months with physician’s choice (HR: 0.95; 95% CI: 0.59-1.52).13,14
TRITON3: rPFS (BRCA Subgroup) by Physician’s Choice Treatment
Daniel P. Petrylak, MD:
There was a rPFS benefit in the BRCA subgroup with rucaparib vs either docetaxel or second-generation ARPi therapy in the physician’s choice arm.13,14 The rPFS with rucaparib was 11.2 months, 8.3 months with docetaxel, and 4.5 months with second-generation ARPi.
TRITON3: OS (BRCA-Altered Subgroup and ITT Population)
Daniel P. Petrylak, MD:
The median OS in the BRCA1/2 subgroup was 24.3 months with rucaparib vs 20.8 months with physician’s choice of therapy, but these data are immature.13,14
TRITON3: Safety and Most Common TEAEs
Daniel P. Petrylak, MD:
Among patients receiving rucaparib, 60% had 1 or more grade ≥3 TEAE vs 61% with docetaxel and 44% with second-generation ARPi.13,14 The most common TEAEs were anemia, asthenia/fatigue, nausea, and neuropathy. The incidence of nausea and anemia were much higher in the rucaparib arm, but neuropathy was more common with docetaxel. No cases of MDS or AML were reported. Blood transfusions were required in 29% of patients receiving rucaparib.
TRITON3: Clinical Implications
Daniel P. Petrylak, MD:
Rucaparib was associated with significantly improved median rPFS vs physician’s choice of therapy among patients with mCRPC and progression following a second-generation ARPi.13,14 The risk of radiographic progression or death was reduced by half in patients with BRCA-altered disease but a rPFS benefit was not observed in the ATM-altered subgroup.
Even though this was a highly selected group of patients, it shows that we should use PARP inhibitors in patients with BRCA1/BRCA2 mutations in this setting rather than give chemotherapy with docetaxel. The data were disappointing for ATM-mutated disease, however, as rucaparib did not improve rPFS compared to physician’s choice.
Dr Plimack, what are your thoughts about TRITON3?
Elizabeth R. Plimack, MD, MS:
I think these results make it clear that we should somatically test for these molecular alterations early so that we have information to act on at the time of disease progression. For patients with BRCA mutations, rucaparib is better than chemotherapy in this setting. Do you agree?
Daniel P. Petrylak, MD:
Yes, it was a very well-done trial and answered a very relevant clinical question. The ATM picture is somewhat bleak, but we need to wait for the final survival data. It confirms the observation that using another next-generation antiandrogen after one has failed is not usually the right choice in sequencing.
Elizabeth R. Plimack, MD, MS:
I will say that I sequence them pretty often in practice because quality of life is dramatically better with antiandrogens than with PARP inhibitors or docetaxel. Sometimes a short interval for those few patients who benefit is worthwhile, but again that is for patients with the best performance status who are most active where we do that.
Daniel P. Petrylak, MD:
I will also use another antiandrogen in a patient who has had a long response to a next-generation antiandrogen because those patients tend to respond again. They are likely to be biologically different, and perhaps these are patients that are either ARV7-negative or do not have AR mutations or amplification. But if somebody progresses on abiraterone or enzalutamide within 1 year, they are not likely to benefit from another antiandrogen, so I usually suggest chemotherapy because they tend to have more aggressive disease.
Elizabeth R. Plimack, MD, MS:
Based on the data from TRITON3, it seems like the best place for a PARP inhibitor in a patient with BRCA‑mutated disease is after first‑line therapy and before chemotherapy. That is where I think I will focus their use in my clinical practice.
Daniel P. Petrylak, MD:
Exactly. If a patient has received abiraterone plus ADT and docetaxel according to the PEACE‑1 trial,15 the next treatment I would give patients with BRCA2-mutated disease is a PARP inhibitor. Similarly, if the patient has received abiraterone plus ADT without docetaxel, I would also administer a PARP inhibitor over docetaxel.
Elizabeth R. Plimack, MD, MS:
Right, that gives you some time to do the genetic testing. You start ADT, abiraterone, and prednisone, test their tissue, and then you are armed with information when it comes time to decide about a PARP inhibitor.
ARASENS: Darolutamide Plus ADT Plus Docetaxel vs ADT Plus Docetaxel in Newly Diagnosed mHSPC
Daniel P. Petrylak, MD:
ARASENS was a randomized phase III trial of darolutamide plus ADT and docetaxel vs placebo plus ADT and docetaxel in patients with newly diagnosed mHSPC. In the primary analysis, the addition of darolutamide was associated with a significant reduction in the risk of death vs placebo.16
ARASENS enrolled 1305 patients with newly diagnosed mHSPC.16,17 Patients were randomized to receive darolutamide 600 mg orally twice daily in combination with ADT and docetaxel 75 mg/m2 on Day 1 of six 28-day cycles or placebo with ADT and docetaxel. The usual way to administer docetaxel is 21-day cycles. Stratification was based on the extent of disease and alkaline phosphatase level. Treatment continued until symptomatic disease progression, change in neoplastic treatment, unacceptable toxicity, withdrawal, or nonadherence.
The primary endpoint was OS. Secondary endpoints were tested hierarchically in the following order: time to CRPC, time to pain progression, symptomatic skeletal event (SSE)-free survival, time to first SSE, time to initiation of subsequent anticancer therapy, time to worsening of physical symptoms, time to first opioid use, and safety.
ARASENS: Disease Volume and Risk Definitions and Frequencies
Daniel P. Petrylak, MD:
The initial analysis of ARASENS did not define high‑volume and high‑risk disease, so they retrospectively looked at the data using the criteria from the CHAARTED and LATITUDE trials.17,18 The CHAARTED criteria for high volume disease are visceral metastases or ≥4 bone metastases with ≥1 beyond the vertebral column/pelvis.19 The LATITUDE criteria for high-risk require ≥2 of the following risk factors: Gleason score ≥8, ≥3 bone metastases, and/or visceral metastasis.20
ARASENS: Baseline Characteristics by Disease Volume and Risk
Daniel P. Petrylak, MD:
The darolutamide arm had 497 patients with high-volume disease vs 508 patients in the placebo arm.17,18 Low-volume disease was less common, with 154 and 146 patients, respectively.
A similar number of patients had high-risk disease in both the darolutamide and placebo arms, 452 vs 460, respectively.
ARASENS: OS by Disease Volume
Daniel P. Petrylak, MD:
For high‑volume disease the median OS was 42.4 months with placebo and not reached for the darolutamide arm (HR: 0.69; 95% CI: 0.57-0.82).17,18 For low‑volume disease, the median OS was not reached in either arm (HR: 0.68; 95% CI: 0.41-1.13) and the curves separated a little later than the high‑volume disease.
ARASENS: OS by Disease Risk
Daniel P. Petrylak, MD:
For patients with high‑risk disease, the median OS was 43.2 months with placebo and not reached with darolutamide (HR: 0.71; 95% CI: 0.58-0.86).17,18 For low-risk disease, median OS was not reached in either arm (HR: 0.62; 95% CI: 0.42-0.90).
ARASENS: Time to CRPC by Disease Volume
Daniel P. Petrylak, MD:
The time to progression to CRPC was significantly prolonged with the addition of darolutamide. The HR for high-volume disease is 0.41 (95% CI: 0.34-0.49) and for low-volume disease is 0.21 (95% CI: 0.14-0.33).17,18 The median time to CRPC was not reached with darolutamide in either high- or low-volume disease.
ARASENS: Time to CRPC by Disease Risk
Daniel P. Petrylak, MD:
The median time to CRPC was also not reached with darolutamide in either low- or high-risk disease.17,18
ARASENS: Other Endpoints by Disease Volume and Risk
Daniel P. Petrylak, MD:
Examining other endpoints such as pain progression, first symptomatic skeletal event, next therapy, and worsening symptoms by disease volume and risk found similar benefit irrespective of risk or volume.17,18
ARASENS: TEAEs by Disease Volume and Risk
Daniel P. Petrylak, MD:
TEAEs were also similar across disease volume and risk status.17,18
ARASENS: Clinical Implications
Daniel P. Petrylak, MD:
The addition of darolutamide to ADT and docetaxel in patients with mHSPC provided a significant OS benefit across disease volume and risk subgroups.17,18 Significant improvements were observed with darolutamide across all subgroups examined and safety outcomes were consistent with the overall ARASENS population.
One analysis that was not performed was a comparison of patients with de novo metastatic disease to patients whose disease progressed from localized to metastatic. These populations are clearly different as patients diagnosed with de novo metastases have more aggressive disease.
So how do we use this triplet regimen in clinical practice? I think it has to be based on a patient’s performance status, age, and their expectations of therapy. I generally would not treat a patient with poor performance status due to other factors than prostate cancer or a patient who I do not expect to outlive the duration of their HSPC with chemotherapy. While this trial provided useful information, I think we remain in the dark on how to stratify our patients in this situation.
Dr Plimack, what are your thoughts?
Elizabeth R. Plimack, MD, MS:
Yes, this is not the study we wish they had done. We wish the study was darolutamide plus ADT with and without chemotherapy because that triplet is what we hesitate to use the most. We are always going to use an antiandrogen, abiraterone or one of the AR inhibitors, because that is the standard now. It is not really a question of triplet vs placebo. Although these results obviously confirm triplet over placebo, it is still unclear when to use chemotherapy upfront per CHAARTED, and we have to extrapolate.
Daniel P. Petrylak, MD:
Exactly. I prefer darolutamide to abiraterone because there is less fatigue and none of the cardiovascular AEs previously identified with abiraterone. Further, one of the most annoying side effects with abiraterone and with long‑term prednisone is skin toxicity with patients having easy bruising and very friable skin. I tend to shy a little bit away from abiraterone because of some of the long‑term toxicity issues.
Elizabeth R. Plimack, MD, MS:
That is interesting. I think we tilt in the other direction and use methylprednisolone for similar perceived side effect issues. The profound fatigue and longer‑term cognitive issues are a concern for us with AR inhibitors. But again, it is pretty patient-specific, because some people do really well.
PACE-A: Stereotactic Body Radiotherapy vs Surgery for Localized Prostate Cancer
Daniel P. Petrylak, MD:
Patients with localized prostate cancer may live for many years either with or without disease; therefore, toxicity plays an important role in treatment selection.21 For patients with localized prostate cancer, the assumption has been that stereotactic body radiotherapy (SBRT) and surgery have similar anticancer efficacy and safety, but they have not been formally compared.
The phase III PACE trial is comparing SBRT vs surgery for localized prostate cancer according to risk level.22 The current report compares SBRT and surgery in cohort A of the trial and was presented by Dr Nicholas John van As and colleagues at ASCO GU 2023. Cohort A of the PACE trial enrolled 123 patients with low or intermediate‑risk localized prostate cancer considered candidates for surgery. Other requirements included T1c-T2c disease, Gleason score ≤3+4, PSA ≤20 ng/mL, and no prior ADT. Patients were randomized to receive SBRT at 36.25 Gy in 5 fractions or surgery.
Coprimary endpoints were urinary incontinence (number of absorbent pads required per day) and Expanded Prostate Cancer Index (EPIC) bowel bother subdomain score, both measured using EPIC‑26. Secondary endpoints were patient‑reported outcomes (PROs), clinician‑assessed toxicity, biochemical/clinical failure, disease-free survival (DFS), and OS.
PACE-A: Baseline Characteristics
Daniel P. Petrylak, MD:
Overall, baseline characteristics were well balanced. Within the overall patient population, 92% had intermediate‑risk disease, 79% had a 3+4 Gleason score, and 65% of patients had PSA <10 ng/mL.22
PACE-A: Coprimary Endpoints (Urinary Incontinence and EPIC Bowel Bother Subdomain score)
Daniel P. Petrylak, MD:
The coprimary endpoints were urinary incontinence and EPIC bowel bother score.22 There was a higher rate of urinary incontinence following surgery, with 15 out of 32 patients (46.8%) using any number of urinary pads compared with only 2 out of 44 patients (4.5%) who received SBRT. There was more bowel bother following SBRT, with a mean EPIC subdomain score of 88.7 vs 97.3 with surgery.
PACE-A: EPIC-26 Subdomain Scores Through 2 Years
Daniel P. Petrylak, MD:
Interestingly, surgery was associated with significantly worse sexual subdomain scores at 2 years, at 29.3 vs 57.7 (P ≤.001).22 Urinary incontinence, urinary obstructive, and bowel subdomain scores were similar in both groups.
PACE-A: Safety Outcomes
Daniel P. Petrylak, MD:
Examining safety outcomes by grade, 100% of patients experienced gastrointestinal toxicity within 2 years with no cases of grade ≥2 toxicity recorded in either group.22 GU toxicity was also very similar in both groups, with 90.7% of patients developing grade 0/1 toxicity and 9.3% developing grade ≥2 toxicity.
PACE-A: Clinical Implications
Daniel P. Petrylak, MD:
In patients with localized prostate cancer, SBRT and surgery were associated with different treatment-related toxicity profiles at 2 years.22 SBRT was associated with better urinary continence and less sexual bother, but worse bowel bother compared with surgery. Grade ≥2 AEs were rare in both arms. Follow-up will continue to 5 years, including a report of efficacy.
I think we can use the data from this trial in counseling our patients. They often ask which treatment choice is better, so it will help them to know that bowel symptoms are clearly worse with SBRT and urinary continence and sexual bother are worse with surgery.