Ruxolitinib Outperforms Standard Therapy in Polycythemia Vera

Publication
Article
Oncology Live®July 2014
Volume 15
Issue 7

In the first pivotal phase III study of a Janus-associated kinase (JAK) inhibitor for the treatment of polycythemia vera (PV), ruxolitinib (Jakafi) was superior to best available therapy (BAT) in maintaining control of hematocrit without the need for phlebotomy and in reducing spleen size in patients with an inadequate response to or intolerance of hydroxyurea.

Srdan Verstovsek, MD, PhD

Professor, Department of Leukemia

The University of Texas MD Anderson Cancer Center

Houston, TX

In the first pivotal phase III study of a Janus-associated kinase (JAK) inhibitor for the treatment of polycythemia vera (PV), ruxolitinib (Jakafi) was superior to best available therapy (BAT) in maintaining control of hematocrit without the need for phlebotomy and in reducing spleen size in patients with an inadequate response to or intolerance of hydroxyurea.

The responses to ruxolitinib were durable in the open-label randomized trial, announced Srdan Verstovsek, MD, PhD, at the 2014 American Society of Clinical Oncology Annual Meeting in June. Ruxolitinib was also associated with superior symptom management compared with BAT. “An interesting observation…is that the rate of thromboembolic events appears to be lower in the ruxolitinib group so far,” said Verstovsek.

Ruxolitinib, which inhibits JAK1 and 2, was approved in 2011 for the treatment of patients with intermediate or high-risk myelofibrosis, including post-PV myelofibrosis. The oral agent is being evaluated in several tumor types, including uncontrolled PV, according to Incyte Corporation, which is developing ruxolitinib.

The JAK/STAT pathway is known to be overactivated in PV. The disease is characterized by erythrocytosis, debilitating symptoms, and cardiovascular complications due to thrombosis or hemorrhage. “Hematocrit control is a key therapeutic goal,” said Verstovsek, a professor at The University of Texas MD Anderson Cancer Center, Houston. “It has been shown before in many studies that maintaining hematocrit to below 45% significantly decreases the risk of cardiovascular death and major thrombotic events.”

In a phase II trial, ruxolitinib was well tolerated, effectively controlled hematocrit, reduced spleen size, and improved the symptom burden in patients with PV.

RESPONSE Study Shows Benefit

The phase III trial, known as RESPONSE, evaluated ruxolitinib versus BAT in 222 patients with PV and splenomegaly who were resistant to or intolerant of hydroxyurea. Patients randomized to ruxolitinib were started at 10 mg twice daily and titrated up to a maximum of 25 mg twice daily. BAT was at the investigator’s discretion, and could include hydroxyurea, interferon/pegylated interferon, anagrelide, pipobroman, immunomodulators, or observation. If patients did not respond to BAT or experienced toxicity, their therapy could be changed.

BAT patients were allowed to cross over to ruxolitinib at week 32 if they failed to meet the primary endpoint (achievement of hematocrit control at week 32 and a ≥35% reduction from baseline in spleen volume), or later if they required phlebotomy or had progression of splenomegaly. All patients received low-dose aspirin unless contraindicated.

RESPONSE Trial Results at Week 32

Clinical Outcomes

Ruxolitinib

(n = 110)

BAT

(n = 112)

Patients who achieved both spleen response and Hct control

21% (P <.0001)

1%

≥35% reduction in spleen volume

38%

1%

Hct controla

60%

20

CHRb

23.6%

8.9%

aNo phlebotomy eligibility from week 8-32 with no more than 1 postrandomization eligibility up to week 8; eligibility defined as Hct >45% and ≥3% higher than baseline or >48%.

bCHR consists of Hct control, platelet count ≤400 x 109/L, and white blood count ≤10 x 109/L.

BAT indicates best available therapy; CHR, complete hematologic remission; Hct, hematocrit.

At baseline, 35.5% in the ruxolitinib arm and 29.5% in the BAT group had a prior thromboembolic event, and their mean hematocrit was 43.6% and 43.9%, respectively. Some 30.9% of ruxolitinib recipients and 42.0% of the BAT group had ≥3 phlebotomies in the 24 weeks prior to study entry.

Spleen volume was a median of 1195 cm3 in the ruxolitinib arm and 1322 cm3 in the BAT arm. About two-thirds of patients assigned to BAT had some exposure to hydroxyurea.

Ninety-four BAT patients crossed over to ruxolitinib between weeks 32 and 48. Some 93% randomized to ruxolitinib and 3% randomized to BAT continued on their randomized treatment at the time of data cutoff.

At week 32, two-thirds of patients randomized to ruxolitinib were receiving 10 mg or 15 mg twice daily. Most dose adjustments occurred within the first 8 weeks of treatment. Among the patients randomized to the ruxolitinib arm, the median exposure to ruxolitinib was 81 weeks. Ruxolitinib was well tolerated. “At a median follow-up of 81 weeks, 85% of patients randomized to ruxolitinib were still receiving treatment,” said Verstovsek.

Because of crossovers from BAT to ruxolitinib at week 32, adverse events (AEs) were evaluated up to week 32 (when exposure between groups was similar). The rates of AEs and AEs of grade 3/4 severity over the entire course of treatment were lower in patients randomized to ruxolitinib compared with BAT. The exposure-adjusted rate of serious AEs was similar at 15.3% with ruxolitinib versus 13.7% with BAT.

The primary endpoint was achieved by 21% in the ruxolitinib arm and 1% in the BAT arm (P <.0001). Thirty-eight percent in the ruxolitinib arm and 1% in the BAT group achieved a ≥35% reduction in spleen volume. Sixty percent of ruxolitinib- treated patients and 20% receiving BAT had hematocrit control.

Some 91% of patients who achieved the primary endpoint had a confirmed response at week 48, said Verstovsek. “There is high likelihood of having response maintained for a very long time. At the data cutoff, only one patient lost primary response so that the probability of maintaining primary response at 1 year’s time was 94%,” he said.

The rate of phlebotomy between weeks 8 and 32 was more than three times greater in the BAT arm versus the ruxolitinib arm. Only 2.8% of the ruxolitinib group compared with 20.2% in the BAT group required ≥3 phlebotomies between weeks 8 and 32.

Almost one-fourth (23.6%) of patients randomly assigned to ruxolitinib attained a complete hematologic remission at week 32, compared with 8.9% of those assigned to BAT (P = .0034). In the ruxolitinib arm, 88.5% who achieved a complete hematologic remission at week 32 maintained it at week 48.

One-half (49%) in the ruxolitinib arm compared with 5% treated with BAT had a ≥50% improvement in symptom score at week 32 as measured by the 14-item Myeloproliferative Neoplasm Symptom Assessment Form. At week 32, one patient randomized to ruxolitinib and six randomized to BAT had a thromboembolic event.

Verstovsek S, Kiladjian J-J, Griesshammer M, et al. Results of a prospective, randomized, open-label phase 3 study of ruxolitinib in polycythemia vera patients resistant to or intolerant of hydroxyurea: the RESPONSE trial. Presented at: the 50th Annual Meeting of the American Society of Clinical Oncology; May 30-June 2, 2014; Chicago, Illinois. Abstract 7026.

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