Elotuzumab – A Closer Look At The ELOQUENT-2 Clinical Trial Results
Earlier this week, Bristol-Myers Squibb announced that it had filed an application to have elotuzumab approved in Europe as a new treatment for multiple myeloma patients who have received one or more prior therapies (see related Bristol-Myers press release).
An important part of elotuzumab’s European approval application will be efficacy and safety data from a Phase 3 clinical trial known as ELOQUENT-2. These results drew significant attention when they were presented at this summer’s American Society of Clinical Oncology (ASCO) and European Hematology Association (EHA) annual meetings. The trial results also were published in a leading medical journal.
Given the attention the ELOQUENT-2 trial results have received and the role they will play in the drug’s recent approval application, now seems a good time to take a closer look at the trial results.
The results show that adding elotuzumab to Revlimid (lenalidomide) and dexamethasone (Decadron) increases treatment response rates and prolongs progression-free survival in patients with relapsed / refractory multiple myeloma.
Patients in the trial who received elotuzumab in combination with Revlimid and dexamethasone had a median progression-free survival of 19.4 months, compared to 14.5 months for patients who received treatment with just Revlimid and dexamethasone alone.
Moreover, differences in progression-free survival seemed to persist over time in the trial. This is unusual. Often in trials comparing one myeloma treatment regimen to another, differences in survival rates decrease as one looks at longer and longer times from the start of treatment. There might be, for example, a 15 percent difference in survival rates at one year after the start of treatment, but only a 10 percent difference at two years, and then a 5 percent difference at three years.
This was not the case in the ELOQUENT-2 trial. Differences in progression-free survival were actually greater two years after the start of treatment than after one year.
It is possible that the persistence in elotuzumab’s survival benefit may be a peculiarity of this particular trial – a point explored later in this article. Nevertheless, it raises the possibility that some relapsed myeloma patients may achieve particularly long remissions when treated with elotuzumab.
“Based on this randomized Phase 3 trial, we hope that we will soon have a new treatment option for patients with relapsed or refractory myeloma where an immune therapy-based approach can be added with lenalidomide and dexamethasone for the management of these patients,” said the lead investigator of the trial, Dr. Sagar Lonial from the Winship Cancer Institute of Emory University, during the press briefing prior to the ASCO meeting.
Background
Elotuzumab is being developed jointly by the pharmaceutical companies Bristol-Myers Squibb (NYSE: BMY) and AbbVie (NYSE:ABBV). The drug, which the companies intend to market under the brand name “Empliciti,” belongs to a class of therapies known as monoclonal antibodies. These drugs identify cancer cells through specific proteins on the surface of those cells. Once they have identified the cancer cells, monoclonal antibodies either signal the immune system to attack the cancer cells, or they attack the cells themselves, or they do both (signal and attack on their own).
In the case of elotuzumab, a protein known as SLAMF7 is targeted by the drug. SLAMF7, also known as CS1, is commonly found on the surface of myeloma cells.
Elotuzumab has shown encouraging activity in combination with Revlimid and dexamethasone in a Phase 1b/2 study in relapsed / refractory multiple myeloma patients (see related Beacon news).
The agent received a breakthrough therapy designation from the U.S. Food and Drug Administration (FDA) in May 2014 for use in combination with Revlimid and dexamethasone for patients with multiple myeloma following one or more prior therapies (see related Beacon news).
There are currently no FDA-approved monoclonal antibodies for the treatment of multiple myeloma, although there are several such agents being investigated for the treatment of the disease, including daratumumab, SAR650984, and MOR202.
Design of the ELOQUENT-2 Study
The open-label Phase 3 ELOQUENT-2 trial included 646 patients with relapsed / refractory multiple myeloma with a median age of 66 years.
Patients had received a median of two prior therapies, including Velcade (bortezomib) (70 percent), thalidomide (48 percent), and Revlimid (6 percent). Overall, 35 percent of patients were resistant (refractory) to their most recent therapy. No patients, however, were refractory to Revlimid, and only 6 percent of the patients in the study were previously treated with Revlimid.
Overall, 32 percent of patients had a 17p deletion and 9 percent had a t(4;14) translocation, which are considered high-risk chromosomal abnormalities.
Patients were randomized to receive either Revlimid and dexamethasone alone, or Revlimid and dexamethasone in combination with elotuzumab.
Elotuzumab was administered intravenously at 10 mg/kg weekly for the first two cycles and then biweekly thereafter. In addition, patients received 25 mg of Revlimid on days 1 to 21 of each 28-day treatment cycle plus 40 mg of oral dexamethasone weekly. For patients who received elotuzumab, dexamethasone was dosed at 28 mg orally plus 8 mg intravenously in weeks that elotuzumab was administered, and 40 mg per week otherwise. Treatment in both groups of patients was administered until disease progression or unacceptable toxicity.
The primary outcome measures for the study were overall response rate and progression-free survival. Overall survival was a secondary endpoint.
The median follow-up time was two years.
Study Results
Efficacy: Response Rates and Survival
The results show that 79 percent of patients responded to the elotuzumab-Revlimid-dexamethasone combination, compared to 66 percent of patients who received Revlimid and dexamethasone alone.
The median progression-free survival was 19.4 months for patients who received the elotuzumab regimen versus 14.9 months for patients who received Revlimid and dexamethasone alone.
The difference in progression-free survival rates between the two groups of patients increased with time after the start of treatment.
At one year after the start of treatment, the difference in the progression-free survival rate was 11 percent (68 percent for patients receiving the elotuzumab combination, compared to 57 percent for patients receiving Revlimid and dexamethasone alone).
At two years after the start of treatment, the difference in survival rates was 14 percent (41 percent for patients receiving the elotuzumab combination, compared to 27 percent for patients on Revlimid and dexamethasone alone).
The progression-free survival benefit observed with elotuzumab in the overall study population was also observed for patients with high-risk chromosomal abnormalities.
The trial has not yet been ongoing long enough to permit an accurate analysis of overall survival results. At this time, however, 70 percent of the patients in the elotuzumab group are still alive, and 63 percent of the patients treated with Revlimid and dexamethasone are still alive.
Safety and Tolerability
According to trial investigators, the elotuzumab treatment regimen was well tolerated.
The most common severe side effects were blood cell count-related. They included neutropenia (25 percent of patients receiving elotuzumab-Revlimid-dexamethasone versus 33 percent of patients receiving Revlimid-dexamethasone alone) and anemia (15 percent versus 16 percent).
Ten percent of patients receiving elotuzumab had infusion site reactions, the majority of which were mild in nature.
Five patients treated with the elotuzumab combination, and six patients treated with Revlimid and dexamethasone, died during the study for reasons that could be the result of the treatment they received.
Among the patients treated with elotuzumab, Revlimid, and dexamethasone, the five deaths were due to infections (2 patients) and single-patient instances of pulmonary embolism, gastrointestinal cancer, and myelodysplastic syndromes. Among the patients treated with Revlimid and dexamethasone alone, the six deaths were due to infection (5 patients) and pulmonary embolism.
At the time the results were analyzed, 35 percent of patients receiving the elotuzumab combination and 21 percent of patients receiving Revlimid and dexamethasone alone remained on therapy.
Disease progression was the primary cause of treatment discontinuation. There was no significant difference between the two groups of patients in the share of patients who halted treatment due to side effects or patient preference.
Persistence of Survival Benefit: A Comparison
As mentioned earlier, a key aspect of the ELOQUENT-2 trial results that has attracted attention is the persistence of elotuzumab’s survival benefit over time.
This raises the question: Is the persistence “real,” in the sense that it is likely to be seen again and again whenever elotuzumab is used to treat patients like those in the ELOQUENT-2 trial?
Or is the persistence something of a fluke – something that is specific to the sample of patients in this trial, and not really representative of how elotuzumab is likely to perform in widespread clinical practice?
Addressing these questions requires some analyses that may be overly technical for some Beacon readers, who may wish to skip the rest of this article. Readers, on the other hand, who are particularly interested in the persistence issue, and are comfortable with the finer details of trial results, will probably wish to forge ahead.
To shed some light on the potential persistence of an elotuzumab survival benefit, The Beacon constructed a comparison between the results of the ELOQUENT-2 trial and those of a very similar trial – the ASPIRE study, which compared treatment of relapsed myeloma with Kyprolis (carfilzomib), Revlimid, and dexamethasone to treatment with Revlimid and dexamethasone alone.
Both the ELOQUENT-2 and ASPIRE trials were large Phase 3 international trials. There were nearly 800 patients, for example, enrolled in the ASPIRE trial. Both trials included relapsed myeloma patients who had received one to three prior treatments, and the median number of prior therapies – in both patient groups in both trials – was two.
In addition, the dosing of Revlimid in both trials was the same, and the dosing of dexamethasone was nearly identical.
Thus, although tremendous caution is always in order when comparing results from different clinical trials, the ELOQUENT-2 and ASPIRE trials were designed so similarly that certain high-level comparisons can be justified.
Figure 1 combines the progression-free survival results from the ELOQUENT-2 trial with those from the ASPIRE trial. The figure was constructed by re-scaling graphs of the progression-free survival results from both trials so that they have the same time and survival scales.
Figure 1 - Progression-Free Survival - ASPIRE and ELOQUENT-2 Clinical Trials
(click on image to view a larger version of it)
In Figure 1, the survival benefit of adding elotuzumab to Revlimid and dexamethasone is reflected in the gap at each point in time between the “EloRd” curve and the “Rd” (ELOQUENT-2) curve. The gap is larger at 24 months, for example, than it is at 12 months.
More specifically, the gap initially grows until about 8 months after the start of treatment, is then constant until about 18 months, and after 18 months begins to widen further over time.
A comparison of the ELOQUENT-2 results with those from the ASPIRE trial suggests, however, that the widening of the survival gap in the elotuzumab trial may not be due to elotuzumab’s impact on patient progression-free survival. Instead, it may be due to something unusual having happened among the patients in the trial who were treated with just Revlimid and dexamethasone.
Note how the Rd curves from the two different trials move over time. The two curves either overlap or closely parallel one another up until about 18 months. After 18 months, the survival curve for the Rd patients in the ELOQUENT-2 trial dips down in comparison to the Rd curve from the ASPIRE trial. The curves then grow further and further apart, almost until each curve ends.
If the Rd curve from the ELOQUENT trial had looked more like the Rd curve from the ASPIRE trial, there would have been less of a persistent gap between the EloRd and Rd curves from the ELOQUENT-2 trial.
In other words, elotuzumab would have much less of a persistent progression-free survival benefit compared to what one sees in the published ELOQUENT-2 results.
The kind of exercise just described is worth carrying out not just because the ASPIRE trial is very similar to the ELOQUENT-2 trial. It is also useful because the ASPIRE results are based on data from a larger number of patients, and were calculated after a longer median follow-up time. Larger numbers of trial participants, and longer follow-up times, both lead to more precise survival estimates. (The median follow-up for the ASPIRE data was about 32 months, versus 24 months for the ELOQUENT-2 results).
Still, the comparison sketched in Figure 1 is just a first step to better understanding how much one can generalize from the ELOQUENT-2 results to what will happen if elotuzumab is used regularly in clinical practice. Myeloma researchers will have to analyze and compare the trial results more thoroughly to reach more definitive conclusions on that issue.
Additional Information
The results of the ELOQUENT-2 trial were published in Lonial, S. et al., “Elotuzumab Therapy for Relapsed or Refractory Multiple Myeloma,” The New England Journal of Medicine, June 2, 2015 (full text of article and supplements). Slides from the ASCO presentation summarizing the ELOQUENT-2 results can be viewed here (PDF, courtesy of Dr. Lonial).
The results of the ASPIRE trial were published in Stewart, A.K. et al., “Carfilzomib, Lenalidomide, and Dexamethasone for Relapsed Multiple Myeloma,” The New England Journal of Medicine, January 8, 2015 (full text of article and supplements). Slides from a presentation summarizing the ASPIRE results, given by Dr. A. Keith Stewart of the Mayo Clinic at the 2014 American Society of Hematology annual meeting, can be viewed here (PDF, courtesy of Dr. Stewart).
Related Articles:
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I enjoyed your analysis of the ASPIRE versus the ELOQUENT-2 data. Particularly comparing the Rd data for both studies. As an engineer looking at the data, I would say the Rd curve for the ASPIRE study looks more persistent over time, and that could be due to the larger sample size (more participants) than the ELOQUENT-2 study. They should essentially be the same, since the protocol was essentially the same.
This shows the variability in treatment results and that the progression free survival number is not a " hard number" that can be directly compared to the PFS obtained from another study. This gives us, as myeloma patients, significant insight every time we look at the PFS numbers from trials. One cannot directly compare PFS numbers from different trials as a sole basis for accepting or rejecting a treatment regimen.
Like most statistical analyses, the calculation of standard deviation of the numerical results improves with increased sample size. We get closer to the "truth" when more data is available for analysis.
This was a great comparison that you made, and it is very valuable for those of us on the Rd regimen. We get to have insight into what we can expect from our treatment as far as PFS goes.
Thanks for the data presentation.
Thank you for the informative article. While there should be caution when making cross-study comparisons, it is important to factor in the patient populations for each study. While patients enrolled in both ELOQUENT-2 and ASPIRE had a median of 2 prior lines of therapy, ASPIRE only included patients with relapsed disease, while 35% of the ELOQUENT-2 population was refractory to their most recent line of therapy. The studies also differ in their percentage of patients who had "high-risk disease" (>30% in ELOQUENT-2 vs ~12% in ASPIRE).
Though your analysis found that something unusual may have happened in the Rd arm of ELOQUENT-2, it is also entirely possible that this arm did not fair as well as in ASPIRE because, while both received Rd, the patients in ELOQUENT-2 were a more difficult to treat population. Also, randomization should have accounted for differences that could have caused such a discrepancy between the Rd vs EloRd arms.
I look forward to seeing the data for both ASPIRE and ELOQUENT-2 mature over time because both seem like truly significant advances in treating myeloma.
Loved this. Thanks. Thanks also to Eric and Justin for their comments.
Justin's comment about the cytogenetics of the patients in the two studies got me wondering, so I looked it up. Let's just say it's complicated. TL;DR: The risk status of the patients in the two studies doesn't look like it was that different.
In the ELOQUENT-2 study:
Del(17p) - 32% of participants
T(4;14) - 9% of participants
Also, there's this important note: "There was no cutoff for del(17p) positivity; if any cell in the analyzed sample was positive for the mutation, the patient was considered to be del(17p) positive."
ASPIRE
High-risk - 12.6% participants
Standard-risk - 40.0% participants
Unknown - 47.3%
High-risk was defined as "t(4;14), t(14;16), or deletion 17p in 60% or more of the plasma cells."
If you re-do the calculation of the percentage of patients in ASPIRE who were high-risk using just the patients for whom risk status is known (52.6% of the patients), you get:
ASPIRE
High-risk - 24.0% of patients with known cytogenetics
Standard-risk - 76.0% of patients with known cytogenetics
So, given that ASPIRE also had a more restrictive definition for classifying people as having a high-risk abnormality (abnormality has to be present in >=60% of the plasma cells), it's not clear that there was much difference in the cytogenetics of the patients in the two studies.
What is the likely timescale for this treatment to be approved in Europe / UK?
How do I find out more about the clinical trials once they start here?
I am currently taking part in a clinical trial with pomalidomide.
Thank you.
Gerry Moore, diagnosed in July 2007
Thanks, Beacon Staff, for the report on this important trial. Your report was clear and understandable for us "regular folks."
Your ASPIRE Rd vs. ELOQUENT Rd analysis was very interesting. It does seem like there is something strange going on around 18 months to make those two curves diverge.
Based on only these data, it seems like there might be a completely different possible interpretation about that divergence than your postulation that the something "strange" occurred in the ELOQUENT-2 trial. Couldn't it be the case that something strange happened for the Rd patients in the ASPIRE trial around 18 months, rather than the ELOQUENT-2 Rd patients? Maybe the ASPIRE Rd PFS curve should have dropped down to the level of the ELOQUENT-2 Rd curve after 18 months, rather than the ELOQUENT-2 Rd curve staying up to match the ASPIRE Rd curve. In that case, both Kyprolis and elotuzumab would show an increasing benefit in PFS compared to Rd over time.
Either way, though, your main point about the need to more fully analyze trial results and compare across trials when reasonable is a good one.
(I expect there are data from other trials that could be plotted to answer the question of which of these two Rd curves is closest to "reality," but I haven't tried to dig up the data.)
At any rate, thanks for the fine report!
Mike
Regarding background: I am interested to know why a monoclonal anti-body is tested in combination with other drugs. Is it because what is targeted on the surface of the myeloma cells is not on all of the cells? Why is it not thought that this drug would work alone or with decadron only?
Thanks for this very interesting article. The graph with results from both trials is particularly intriguing.
The ELO patients seem to be at least slightly harder-to-treat patients, given how the Rd curve from the trial looks between 0 and 12 months compared to the Rd curve from the ASPIRE trial.
Here's something weird, though. The article mentions that 6% of the patients in the ELO trial were previously treated with Revlimid. I checked the ASPIRE results, and, in that trial, 20% of the patients had previously been treated with Revlimid. Even with the greater prior Revlimid exposure, patients in both arms of the ASPIRE trial had better PFS results than in the comparable arms in the ELO trial.
MikeB - Your point about which Rd curve should be taken as a benchmark is absolutely correct. As far as I can tell (and I checked a bit), I don't think there is another trial with published results that can provide yet another comparison. As the Beacon points out, though, the ASPIRE results are based on a larger sample and a longer follow-up. In the ELO trial, for example, half the patients haven't even been observed for more than 24 months.
Thanks Beacon Staff for this very interesting article. Thanks to the posters for the interesting/intelligent discussion above.
Hi Vicki - When elotuzumab was used as a single agent in the initial Phase 1 trial there was no objective response for the patients, so it needs to be used in combination with other agents.
"No objective myeloma responses were seen in this heavily pretreated patient population, despite plasma cell target saturation at the higher elotuzumab doses studied. In preclinical models, elotuzumab exerted its anti-myeloma effect primarily via NK cell–mediated ADCC.17 It is conceivable that less-heavily pretreated patients would have better NK cell function, possibly resulting in a more robust ADCC response.37
Both bortezomib and lenalidomide have been shown to enhance elotuzumab-mediated antimyeloma activity in preclinical models.18,19,38 Given this effect and the nonoverlapping toxicity of elotuzumab with either of these agents, there is a strong rationale for exploring combination therapy. Clinical trials combining elotuzumab at doses of 10 mg/kg and 20 mg/kg with each of these drugs are being conducted and have shown evidence of activity.39–41"
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4467882/
I will never understand any of these trials or PFS -- from Feb. to June I was on the KRd regimen and then my IgA went up twice, despite not having high risk markers and being extremely healthy, except for anemia at dx. I just don't understand myeloma. I was taken off KRd and am now on Pom/dex & considering a second transplant. I just don't understand.
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