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ASCO 2011: Maintenance Therapy With PARP Inhibitors Could Play Important Role in Treatment of Recurrent Ovarian Cancer

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A randomized phase II clinical trial showed that the oral PARP inhibitor drug olaparib (AZD2281), given after chemotherapy, improved progression-free survival in women with the most common type of recurrent ovarian cancer.

ASCO Releases Studies From Upcoming Annual Meeting – Important Advances in Targeted Therapies, Screening, and Personalized Medicine

The American Society of Clinical Oncology (ASCO) today highlighted several studies in a press briefing from among more than 4,000 abstracts publicly posted online at http://www.asco.org in advance of ASCO’s 47th Annual Meeting. An additional 17 plenary, late-breaking and other major studies will be released in on-site press conferences at the Annual Meeting.

The meeting, which is expected to draw approximately 30,000 cancer specialists, will be held June 3-7, 2011, at McCormick Place in Chicago, Illinois. The theme of this year’s meeting is “Patients. Pathways. Progress.”

“This year marks the 40th anniversary of the signing of the National Cancer Act, a law that led to major new investments in cancer research. Every day in our offices, and every year at the ASCO meeting, we see the results of those investments. People with cancer are living longer, with a better quality of life, than ever before,” said George W. Sledge Jr., M.D., President of ASCO, Ballve-Lantero Professor of Oncology and professor of pathology and laboratory medicine at the Indiana University School of Medicine.

“With our growing understanding of the nature of cancer development and behavior, cancer is becoming a chronic disease that a growing number of patients can live with for many years,” said Dr. Sledge. “The studies released today are the latest examples of progress against the disease, from new personalized treatments, to new approaches to screening and prevention.”

The study results from a phase II clinical trial involving maintenance therapy with the PARP (poly (ADP-ribose) polymerase) inhibitor olaparib were highlighted today in the ASCO press briefing, as summarized below.

Randomized Study Shows that Maintenance Therapy With PARP Inhibitors Could Play Important Role in Treatment of Recurrent Ovarian Cancer

A phase II randomized trial showed that maintenance treatment with the oral PARP inhibitor drug olaparib (AZD2281) improved progression-free survival by about four months in women with the most common type of relapsed ovarian cancer. This is the first randomized trial to demonstrate a benefit for maintenance therapy for recurrent ovarian cancer, and the first randomized trial in ovarian cancer of a PARP inhibitor– a novel class of molecularly targeted drugs.

The results of this study, if confirmed in larger trials, could lead to a new treatment approach for recurrent ovarian cancer in which drugs like olaparib are given over a long period of time to prevent recurrences or prolong remissions. This somewhat novel approach, called maintenance therapy, has already proven useful in lung cancer. Standard treatment for ovarian cancer includes platinum-based chemotherapy. After this regimen, patients are observed until recurrence, and then treated with another course of chemotherapy. While some tumors respond well to chemotherapy, the regimens are too toxic for patients to take continuously, and clinical trials have not shown any benefit for extended courses of chemotherapy.

Jonathan A. Ledermann, M.D., Lead Author & Principal Investigator of PARP Maintenance Study; Professor, Medical Oncology, UCL Cancer Institute, University College London

“A well-tolerated antitumor agent that could be used for months or perhaps years as maintenance therapy after standard chemotherapy could be a big step forward and ultimately extend survival,” said lead author Jonathan A. Ledermann, M.D., principal investigator of the study and Professor of Medical Oncology at UCL Cancer Institute, University College London. “This study demonstrates proof of principle for the concept of maintenance therapy in ovarian cancer using a PARP inhibitor. Our progression-free survival difference was very impressive and better than we anticipated.”

The multicenter, international study randomized 265 women with high-grade serous ovarian cancer to either olaparib or placebo. Patients were enrolled in the trial within 8 weeks of having achieved either a complete or partial response to platinum-based treatment. PARP inhibitors have been shown to work better in patients whose tumors have responded to platinum.

In the study, the progression-free survival (PFS) – the amount of time during and after treatment in which the cancer does not return – was significantly longer in the group receiving olaparib than the placebo group, with a median of 8.4 months versus 4.8 months. At the time of data analysis, half the patients randomized to olaparib (68 patients) had not relapsed and were still receiving the drug, while only 16 percent (21 patients) remained on placebo – so overall survival data were not yet available for analysis.

Adverse events were more commonly reported in the group receiving olaparib than placebo, including nausea, fatigue, vomiting, and anemia, but the majority of these were not severe. Dose reductions to manage side effects were allowed in the study and were more prevalent in the olaparib group (23 percent) compared to the placebo group (7 percent).

Olaparib inhibits the enzyme poly (ADP-ribose) polymerase — abbreviated “PARP” — which is involved in DNA (deoxyribonucleic acid) repair. Up to half of women with high-grade serous ovarian cancer – the most common type of ovarian cancer – may have a DNA repair deficiency that makes them more susceptible to treatment with PARP inhibitors.

A number of PARP inhibitors are being studied in phase II and phase III clinical trials, as single agents and in combination with standard chemotherapies and radiation, in some types of breast and ovarian cancers believed to have DNA repair defects.

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PARP Clinical Trials:
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Related Libby’s H*O*P*E*™ Postings:
Related Libby’s H*O*P*E*™ Videos Re PARP Inhibitors


2011 NCCN Conference: New Treatment Options Lead to Steady Progress Against Ovarian Cancer

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Recommendations stemming from recent clinical trials highlight notable updates to the NCCN Clinical Practice Guidelines in Oncology (NCCN Guidelines™) for Ovarian Cancer at the National Comprehensive Cancer Network® (NCCN®) 16th Annual Conference.

Robert J. Morgan, Jr., M.D., Professor of Medical Oncology, City of Hope Comprehensive Cancer Center; Chair, NCCN Guidelines Panel for Ovarian Cancer

Although finding effective screening tools remains a priority, new treatment options for women with ovarian cancer, such as the ones outlined in the updated NCCN Guidelines for Ovarian Cancer,[1] are vital to making steady progress against the disease according to Robert J. Morgan, Jr., M.D., of City of Hope Comprehensive Cancer Center and chair of the NCCN Guidelines Panel for Ovarian Cancer. Dr. Morgan outlined significant updates to the NCCN Guidelines during a recent presentation at the NCCN 16th Annual Conference.

The NCCN Guidelines address epithelial ovarian cancer (including borderline or low malignant potential) and less common histopathologies, including malignant germ neoplasms, carcinosarcomas, and sex cord-stromal tumors. They also discuss fallopian tube cancer and primary peritoneal cancer, which are less common neoplasms that are managed in a similar manner to epithelial ovarian cancer.

“Regardless of the type of cancer, the NCCN Guidelines for Ovarian Cancer reflect the importance of stage and grade of disease on prognosis and treatment recommendations,” said Dr. Morgan.

The NCCN Guidelines continue to recommend that women with borderline epithelial ovarian cancer of low malignant potential be primarily surgically managed. In contrast to patients with frankly invasive ovarian carcinoma, women with borderline disease tend to be younger and are often diagnosed with stage I disease.

“The benefits of postoperative chemotherapy has not been demonstrated for patients who have no microscopically demonstrable invasive implants, said Dr. Morgan. “Even patients with advanced stage disease at presentation have an excellent prognosis and chemotherapy should be avoided.”

The NCCN Guidelines recommend surgery limited to a unilateral salpingo-oophorectomy (USO) (preserving the uterus and contralateral ovary) for women who wish to maintain their fertility, and standard ovarian cancer debulking surgery is recommended for those not concerned about fertility preservation.

On the contrary, in women diagnosed with stage II, III, or IV epithelial ovarian cancer, the NCCN Guidelines recommend intraperitoneal chemotherapy for first-line therapy and have been updated to include dose-dense paclitaxel (Taxol®:, Bristol-Myers Squibb) as a possible treatment option.

Dr. Morgan noted that in a recent clinical trial, dose-dense weekly paclitaxel with carboplatin (Paraplatin®:, Bristol-Myers Squibb) showed an increase in both progression-free survival and overall survival when compared with conventional intraperitoneal chemotherapy of weekly carboplatin/paclitaxel.[2]

“However, the dose-dense regimen is more toxic, and patients discontinued dose-dense paclitaxel therapy more often than those receiving standard therapy,” stated Dr. Morgan. “As with all treatment decisions, the patient needs to weigh the potential benefits and risks and discuss them thoroughly with their physician.”

Dr. Morgan discussed two additional phase 3 trials assessing bevacizumab (Avastin®:, Genentech/Roche) combined with carboplatin/paclitaxel in the upfront setting compared to carboplatin/paclitaxel alone.[3-4] Although data regarding overall survival and quality of life have not been reported yet, the studies did indicate that the median progression-free survival increased in patients receiving bevacizumab as a first line and maintenance therapy.

“Only modest improvements in progression-free survival were observed in both of these trials. The NCCN Guidelines Panel prefers to await mature results of these trials prior to recommending the routine addition of bevacizumab to carboplatin/paclitaxel,” said Dr. Morgan.

As such, the updated NCCN Guidelines includes new language detailing the Panel’s view on bevacizumab encouraging participation in ongoing clinical trials that are further investigating the role of anti-angiogenesis agents in the treatment of ovarian cancer, both in the upfront and recurrence settings.

Biomarkers continue to emerge as an area of interest in predicting future patterns of the disease. In patients with ovarian cancer, Dr. Morgan discussed the value of monitoring CA-125 levels in regards to a recent study[5] comparing early versus delayed treatment of relapsed ovarian cancer.

“Often, levels of CA-125 have been shown to rise prior to a clinical or symptomatic relapse in women with ovarian cancer. This trial looked at whether there was a benefit of early treatment on the basis of increased CA-125 concentrations compared with delayed treatment on the basis of clinical recurrence,” said Dr. Morgan.

The study, which was published in The Lancet, found that there was no survival benefit to early institution of treatment based on increased CA-125 levels and that the quality of life was superior in patients in the late treatment arm.

“The results of the trial suggest that the utility of the routine monitoring of CA-125 levels in limited,” said Dr. Morgan. “The NCCN Guidelines Panel encourages patients and their physicians to actively discuss the pros and cons of CA-125 monitoring based upon these findings and have updated the NCCN Guidelines to include language supporting this recommendation.”

Virtually all drugs used in oncology have the potential to cause adverse drug reactions while being infused, which can be classified as either infusion or allergic reactions. Recently, hypersensitivity to platinum compounds has been recognized as a potential issue for patients being administered these compounds.

“Platinum compounds remain very important in the treatment of ovarian cancer in both the upfront and recurrence settings, so it was important to design strategies to allow for the safe desensitization of these agents in patients who develop allergies,” said Dr. Morgan.

Standard desensitization regimens include slowly increasing infusion concentrations over several hours. However, Dr. Morgan noted that these procedures must be done in a specific manner in order to be safely administered and pointed to the recommendations within the updated NCCN Guidelines discussing the management of drug reactions.

In conclusion, Dr. Morgan emphasized that although steady progress is being made in the treatment of ovarian cancer, further trials are necessary to investigate the role of targeted agents alone and in combination in newly diagnosed and recurrent ovarian cancer. In addition, enrollment of patients with ovarian cancer must be encouraged.

The NCCN Guidelines are developed and updated through an evidence-based process with explicit review of the scientific evidence integrated with expert judgment by multidisciplinary panels of expert physicians from NCCN Member Institutions. The most recent version of this and all NCCN Guidelines are available free of charge at NCCN.org. The NCCN Guidelines for Patients™: Ovarian Cancer is available at NCCN.com.

About the National Comprehensive Cancer Network

The National Comprehensive Cancer Network® (NCCN®), a not-for-profit alliance of 21 of the world’s leading cancer centers, is dedicated to improving the quality and effectiveness of care provided to patients with cancer. Through the leadership and expertise of clinical professionals at NCCN Member Institutions, NCCN develops resources that present valuable information to the numerous stakeholders in the health care delivery system. As the arbiter of high-quality cancer care, NCCN promotes the importance of continuous quality improvement and recognizes the significance of creating clinical practice guidelines appropriate for use by patients, clinicians, and other health care decision-makers. The primary goal of all NCCN initiatives is to improve the quality, effectiveness, and efficiency of oncology practice so patients can live better lives. For more information, visit NCCN.org.

The NCCN Member Institutions are:

  • City of Hope Comprehensive Cancer Center
  • Dana-Farber/Brigham and Women’s Cancer Center
  • Massachusetts General Hospital Cancer Center
  • Duke Cancer Institute
  • Fox Chase Cancer Center
  • Huntsman Cancer Institute at the University of Utah
  • Fred Hutchinson Cancer Research Center / Seattle Cancer Care Alliance
  • The Sidney Kimmel Comprehensive Cancer Center at Johns Hopkins
  • Robert H. Lurie Comprehensive Cancer Center of Northwestern University
  • Memorial Sloan-Kettering Cancer Center
  • H. Lee Moffitt Cancer Center & Research Institute
  • The Ohio State University Comprehensive Cancer Center – James Cancer Hospital and Solove Research Institute
  • Roswell Park Cancer Institute
  • Siteman Cancer Center at Barnes-Jewish Hospital and Washington University School of Medicine
  • St. Jude Children’s Research Hospital / University of Tennessee Cancer Institute
  • Stanford Comprehensive Cancer Center
  • University of Alabama at Birmingham Comprehensive Cancer Center
  • UCSF Helen Diller Family Comprehensive Cancer Center
  • University of Michigan Comprehensive Cancer Center
  • UNMC Eppley Cancer Center at The Nebraska Medical Center
  • The University of Texas MD Anderson Cancer Center
  • Vanderbilt-Ingram Cancer Center

References:

1/ Ovarian Cancer Including Fallopian Tube Cancer & Primary Peritoneal Cancer, Version 2.2011, NCCN Clinical Practice Guidelines in Oncology (NCCN Guidelines™), National Comprehensive Cancer Network. [PDF Adobe Reader Document – requires free registration and log-in at NCCN.org]

2/ Katsumata N, Yasuda M, Takahashi F, et. alJapanese Gynecologic Oncology Group. Dose-dense paclitaxel once a week in combination with carboplatin every 3 weeks for advanced ovarian cancer: a phase 3, open-label, randomised controlled trialLancet. 2009 Oct 17;374(9698):1331-8. Epub 2009 Sep 18. PubMed PMID: 19767092.

3/ Burger RA, Brady MF, Bookman MA, et. al.  Phase III trial of bevacizumab in the primary treatment of advanced epithelial ovarian cancer (EOC), primary peritoneal cancer (PPC), or fallopian tube cancer (FTC):  a Gynecologic Oncology Group study.  J Clin Oncol 28:18s, 2010 (suppl; abstr LBA1).

4/ Perren T, Swart AM, Pfisterer J, et. alICON7: A phase III randomized gynecologic cancer intergroup trial of concurrent bevacizumab and chemotherapy followed by maintenance bevacizumab, versus chemotherapy alone in women with newly diagnosed epithelial ovarian (EOC), primary peritoneal (PPC), or fallopian tube cancer (FTC).Ann Oncol 21;viii2, 2010 (suppl 8; abstr LBA4).

5/Rustin G, van der Burg M, Griffin C, et. al. Early versus delayed treatment of relapsed ovarian cancer. Lancet. 2011 Jan 29;377(9763):380-1. PubMed PMID: 21277438.

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Additional 2011 NCCN Annual Meeting Information

Ohio State University Reports That Ovarian Cancer Drug Bevacizumab Is Not Cost-Effective

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An analysis conducted by Ohio State University cancer researchers found that adding the targeted therapy bevacizumab to the first-line treatment of patients with advanced ovarian cancer is not cost effective.

An analysis conducted by Ohio State University cancer researchers found that adding the targeted therapy bevacizumab [Avastin®] to the first-line treatment of patients with advanced ovarian cancer is not cost-effective.

The findings comparing the relative value of various clinical strategies were published online March 7 in the Journal of Clinical Oncology (JCO).

Dr. David E. Cohn is a gynecologic oncologist & researcher at The Ohio State University Comprehensive Cancer Center – Arthur G. James Cancer Hospital & Richard J. Solove Research Institute. He is also the lead author of the bevacizumab cost-effectiveness study.

The researchers performed a cost-effectiveness analysis looking at a clinical trial conducted by the Gynecologic Oncology Group (GOG) studying the use of bevacizumab along with standard chemotherapy for patients with advanced ovarian cancer, said first author Dr. David E. Cohn, a gynecologic surgical oncologist and researcher at The Ohio State University Comprehensive Cancer Center – Arthur G. James Cancer Hospital and Richard J. Solove Research Institute (OSUCCC – James).

Bevacizumab is a novel targeted therapy designed to inhibit angiogenesis, the process by which new blood vessels develop and carry vital nutrients to a tumor.

Although a discussion regarding cost-effectiveness of a potentially life-extending intervention invariably suggests the rationing of limited health care resources, the intent of this study was to provide a framework with which to evaluate the pending results of a clinical trial of three different interventions for ovarian cancer, said Cohn.

“We do not suggest that bevacizumab, also known by the brand name Avastin, should be withheld from a patient with ovarian cancer, but rather argue that studies evaluating the effectiveness of new treatments should also be interpreted with consideration of the expense,” says Cohn, who collaborated with Dr. J. Michael Straughn Jr., an associate professor of obstetrics and gynecology at the University of Alabama at Birmingham.

The results of the randomized phase III [GOG 218] clinical trial demonstrated an additional 3.8 months of progression-free survival (PFS) when maintenance bevacizumab was added for about one year following treatment with standard chemotherapy drugs carboplatin and paclitaxel along with bevacizumab.

“We put together a model looking at the variety of treatment arms on this clinical trial, each of which included 600 patients,” said Cohn. “Given the fact that the addition of the drug was associated with 3.8 months of additional survival without cancer, we set out to determine whether or not that benefit of survival was justified by the expense of the drug.”

The model showed that standard chemotherapy for patients in the clinical trial would cost $2.5 million, compared to $78.3 million for patients who were treated with standard chemotherapy and bevacizumab, plus additional maintenance treatments of bevacizumab for almost one year.

Bevacizumab has been used in the treatment of recurrent ovarian cancer, and the U.S. Food and Drug Administration has approved it for the treatment of colorectal, lung, breast, brain (glioblastoma) and renal cell [kidney] cancers.

Typically each treatment with bevacizumab costs $5,000, with most of those costs directly attributable to the cost of the drug, Cohn said.

Effectiveness was defined as months of progression-free survival, and costs were calculated as total costs per strategy. Cost-effectiveness strategies were defined as the cost per year of progression-free survival. Incremental cost-effectiveness ratio was defined as the costs per progression-free year of life saved.

“Ultimately, we found that if you reduced the drug cost to 25 percent of the baseline, it does become cost effective to treat patients with bevacizumab,” said Cohn. “Or, if the survival could be substantially increased above the 3.8 months of progression-free survival, that could lead to cost-effective treatment for patients with advanced ovarian cancer.”

Ovarian cancer is the most lethal gynecologic cancer, with almost 14,000 women expected to die from the disease this year, according to the American Cancer Society.

“It is anticipated that in the future, there will be increased scrutiny regarding the individual and societal costs of an effective medication,” said Cohn. “We hope that future clinical trials will incorporate the prospective collection of cost, toxicity and quality-of-life data to allow for a fully informed interpretation of the results.”

Other Ohio State researchers involved in the study are Kenneth H. Kim, Kimberly E. Resnick and David O’Malley.

Big Cost For Little Gain in Ovarian Cancer – JCO Editorial

Results of the cost-effectiveness model reported above by Cohen et. al. reveal that paclitaxel plus carboplatin plus bevacizumab, followed by bevacizumab maintenance (PCB-B), as tested in the GOG 218 phase III clinical trial, costs $78.3 million ($1,305,000 per patient) with an incremental cost-effectiveness ratio of $401,088 per progression-free year of life saved. It is important to note that traditional cost-effectiveness study models utilize the costs of improvements in overall survival, as compared to the traditional cost-effective standard of $50,000 per year of life saved, or more recently, $100,000 per year of life saved.  Cohen et. al. found that the traditional standard of $100,000 per progression free year of life saved can be achieved in calculating the incremental cost-effectiveness ratio, but only at a bevacizumab drug price point that is 25% below the actual drug cost.

Martee L. Hensley, M.D., Gynecologic Medical Oncology Service, Memorial Sloan-Kettering Cancer Center

In an accompanying JCO editorial, Martee L. Hensley, M.D., a board-certified medical oncologist who treats women with gynecologic cancers at the Memorial Sloan-Kettering Cancer Center in New York city, raises several important considerations with respect to the Ohio State University study.

First, Dr. Hensley notes that the “costs” accounted for by the Ohio State University researchers only refer to the additional monies incurred by adding bevacizumab to the standard of care paclitaxel-carboplatin treatment.  Specifically, the researchers used a standard cost metholodolgy based upon estimates of drug costs using Medicare reimbursement rates.  The model used does not include indirect costs (e.g., patient out-of-pocket expenses, time lost from work associated with 51 weeks of bevacizumab maintenance, etc.). The only costs related to toxicity of treatment included by researchers were those associated with management of intestinal perforations. Dr. Hensley highlights the fact that the cost model does not include management of grade 2 or worse hypertension or other potential problems that may be caused by bevacizumab or the other chemotherapy drugs.  To the extent that additional costs are added to the model, the cost-effectiveness ratio generated by the researchers would worsen.

Second, Dr. Hensley explains that out of necessity, the researchers’ cost-effectiveness model used PFS data due to the unavailability of overall survival or quality adjusted overall survival data in connection with the three most recent bevacizumab phase III clinical trials. This model construct assumes that the 3.8 month improvement in PFS (as reported by the GOG 218 trial investigators)  provides an improvement in the patient’s experience. Dr. Hensley emphasizes that most ovarian cancer recurrences are identified while the patient is still asymptomatic, with the help of CA-125 blood testing and computed tomography imaging (i.e., CT scan).  Stated differently, it may not be correct to assume that remaining radiographically progression-free for an addtional 3.8 months would improve a patient’s quality of life.  If GOG 218 ultimately finds that PCB-B does not improve overall survival, then the drug’s cost-effectiveness will drift farther away from an acceptable level, says Hensley.

Third, Dr. Hensley points out that only when PFS associated with PCB-B use was hypothetically extended to 32.1 months (observed PFS in GOG 218 was 14.1 months) by the researchers did the incremental cost-effectiveness ratio approach $100,000 per progression-free year of life saved.  Hensley believes that the bevacizumab data accrued to date suggests that a 32.1 month PFS is unlikely. Notably, median PFS is only 24 months among lower-risk patients with optimally debulked stage III ovarian cancer treated with intraperitoneal-based platinum drug/taxane drug therapy.

Fourth, Dr. Hensley explains that it may be possible to achieve a better incremental cost-effectiveness ratio based upon preliminary data derived from the Gynaecologic Cancer Intergroup (GCIG) phase III randomized clinical trail of paclitaxel plus carboplatin, with or without bevacizumab and bevacizumab maintenace therapy (ICON7 trial). The bevacizumab dose tested in ICON7 was only half of that used in GOG 218 (7.5 mg/kg versus 15 mg/kg), and the duration of maintenance therapy in ICON7 was only 36 weeks of continued treatment as compared to 51 weeks in GOG 218. Preliminary results reported by the GCIG in ICON7 indicate that bevacizumab creates a PFS advantage in line with that produced in GOG 218, but at half the dose. Based on these facts, Hensley states that potential use of lower-dose and shorter-duration bevacizumab would improve the incremental cost-effectiveness ratio. Moreover, if lower dose/shorter duration bevacizumab use is also found to reduce the frequency of grade 2 or worse hypertension, the overall costs associated with the drug would also be lower, says Hensley.

Dr. Hensley believes that there are additional steps to be taken (and questions to be answered) which could improve an evaluation of the role and costs of bevacizumab:

  • Is there a clinically meaningful overall survival advantage to PCB-B over paclitaxel plus carboplatin? If PCB-B is not effective, then by definition, it is not cost-effective.
  • Is the data from ICON7 sufficient to permit treatment at half the dose for 9 months instead of 12 months? If so, total bevacizumab costs would be lower.
  • Is there a subset of patients who benefit dramatically from PCB-B?
  • If there is a subset of patients who benefit dramatically from PCB-B, it is necessary to study this group of women to determine if potential biomarkers can identify which patients will or will not benefit from the addition of bevacizumab. Identifying biomarkers that can predict response means commitment to correlative studies as part of large clinical trials.

In sum, Dr. Hensley believes that buying bevacizumab at $78.3 million for 3.8 months of progression-free survival on behalf of approximately 600 women is not sustainable in today’s health care delivery system. Moreover, the incurrence of such costs may hinder basic clinical research to find better compounds that improve PFS by a more meaningful magnitude, says Dr. Hensley.  From Hensley’s perspective, it appears that the stage is set for a potential collision between medicine and policy with respect to where and how a finite number of health care dollars will be spent.

About the Ohio State University Comprehensive Cancer Center – Arthur G. James Cancer Hospital and Richard J. Solove Research Institute

The Ohio State University Comprehensive Cancer Center – Arthur G. James Cancer Hospital and Richard J. Solove Research Institute (cancer.osu.edu) is one of only 40 Comprehensive Cancer Centers in the United States designated by the National Cancer Institute. Ranked by U.S. News & World Report among the top cancer hospitals in the nation, The Arthur G. James Hospital is the 205-bed adult patient-care component of the cancer program at The Ohio State University. The OSUCCC – James is one of only seven funded programs in the country approved by the NCI to conduct both phase I and II clinical trials.

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GOG Says Continuation of Pivotal OPAXIO Maintenance Therapy Trial (GOG-212) Remains High Priority

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Gynecologic Oncology Group (GOG) Notifies CTI That Continuation of GOG-212 Pivotal Trial of OPAXIO Maintenance Therapy in Front Line Ovarian Cancer Remains High Priority.  GOG-218 Bevacizumab Results Do Not Influence Importance of GOG-212

Cell Therapeutics, Inc. (“CTI”) announced today that the company received a statement on March 1, 2010 from the Gynecologic Oncology Group (GOG) leadership that the phase III GOG-212 clinical trial of CTI’s OPAXIO™ (formerly known as Xyotax or CT-2103) used as maintenance therapy for ovarian cancer remains a high priority and enrollment will continue. The GOG made the statement to clarify that the recent results of the GOG-218 clinical trial bevacizumab in maintenance therapy for ovarian cancer has not influenced the importance of completing the GOG-212 clinical trial. The Gynecologic Oncology Group (GOG) is one of the National Cancer Institute’s (NCI) funded cooperative cancer research groups. The GOG is a multidisciplinary cooperative clinical trial research group focused on the study of gynecologic malignancies. The GOG is conducting phase III trials in ovarian cancer and other gynecologic cancers and has established standard treatments for these diseases in the U.S.

GOG leadership noted the following:

GOG-218 and GOG-212 differ in the type of patients under study. It is important to note that some of the patients who completed the initial 6 cycles of chemotherapy in GOG-218 had clinical evidence of persistent tumor and were randomized to either placebo (no treatment) or bevacizumab [Avastin®]. Thus a subset of GOG-218 patients received no therapy, despite the presence of persistent tumor. This is not the typical setting of using maintenance or consolidation therapy and it is not the setting for patients enrolled in GOG-212. In GOG-212, only patients who have achieved a complete clinical response are considered candidates for enrollment in the trial.

Reliance upon the data from GOG-218 to establish the “standard of care” must take into consideration the actual treatment effect (i.e., duration of benefit), the cost of the treatment, and the associated toxicity… [in GOG-212] the toxicity of the intervention may have less associated mortality and the incremental cost-effectiveness ratio may be more acceptable to patients and the health care economists. Thus the GOG has no intention to discontinue enrollment in GOG 212 as they feel that the study is addressing a different scientific question and the primary outcome study goal is survival, not progression free survival, an outcome of greater importance to both physicians and patients.

The Data Monitoring Committee is scheduled to conduct an interim analysis of overall survival when 130 events are recorded among patients in the no maintenance treatment arm. The statistical analysis plan utilizes pre-specified boundaries for early stopping for success. Based on current enrollment and study duration, the interim analysis could be conducted as early as 2011. If successful, CTI could utilize those results to form the basis of its New Drug Application for OPAXIO.

About Cell Therapeutics, Inc.

Headquartered in Seattle, CTI is a biopharmaceutical company committed to developing an integrated portfolio of oncology products aimed at making cancer more treatable. For additional information, please visit http://www.celltherapeutics.com/.

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Genentech Announces Positive Results of Avastin Phase III Study in Women with Advanced Ovarian Cancer

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Genentech announces positive results of Avastin Phase III study (GOG 218) in women with advanced ovarian cancer. The study showed that women who continued maintenance use of Avastin alone, after receiving Avastin in combination with chemotherapy, lived longer without the disease worsening compared to those who received chemotherapy alone. This is the first Phase III study of an anti-angiogenic therapy in advanced ovarian cancer to meet its primary endpoint.

Tumor angiogenesis is the proliferation of a network of blood vessels that penetrates into cancerous growths, supplying nutrients and oxygen and removing waste products. Tumor angiogenesis actually starts with cancerous tumor cells releasing molecules that send signals to surrounding normal host tissue. This signaling activates certain genes in the host tissue that, in turn, make proteins to encourage growth of new blood vessels. Photo credit: NCI

Genentech, Inc., a wholly owned member of the Roche Group , today announced that a Phase III study showed the combination of Avastin® (bevacizumab) and chemotherapy followed by maintenance use of Avastin alone increased the time women with previously untreated advanced ovarian cancer lived without the disease worsening (progression-free survival or PFS), compared to chemotherapy alone. A preliminary assessment of safety noted adverse events previously observed in pivotal trials of Avastin. Data from the study will be submitted for presentation at the American Society of Clinical Oncology (ASCO) annual meeting, June 4 – 8, 2010.

In the three-arm study, known as Gynecologic Oncology Group (GOG) 0218, women with newly diagnosed advanced ovarian cancer who already had surgery to remove as much of the tumor as possible were randomized to receive one of the following:

  • Arm 1: Placebo in combination with carboplatin and paclitaxel chemotherapy followed by placebo alone, for a total of up to 15 months of therapy
  • Arm 2: Avastin in combination with carboplatin and paclitaxel chemotherapy followed by placebo alone, for a total of up to 15 months of therapy
  • Arm 3: Avastin in combination with carboplatin and paclitaxel chemotherapy followed by the maintenance use of Avastin alone, for a total of up to 15 months of therapy.

The study showed that women who continued maintenance use of Avastin alone, after receiving Avastin in combination with chemotherapy (Arm 3), lived longer without the disease worsening compared to those who received chemotherapy alone. Women who received Avastin in combination with chemotherapy, but did not continue maintenance use of Avastin alone (Arm 2), did not live longer without the disease worsening compared to chemotherapy alone.

“Additional medicines are urgently needed for women with newly diagnosed advanced ovarian cancer, as most women’s cancer will worsen after their initial treatment,” said Hal Barron, M.D., F.A.C.C., Executive Vice President, Global Development and Chief Medical Officer. “We are encouraged by the positive findings of this study, which highlight the importance of continuing maintenance Avastin after combining Avastin with chemotherapy in this setting. We will discuss these results with the U.S. Food and Drug Administration.”

Robert Allen Burger, MD, FACOG, FACS, Fox Chase Cancer Center, Philadelphia, Pennsylvania

“This is good news for women with ovarian, primary peritoneal or fallopian tube cancers,” said GOG 0218 study chair Robert Burger, M.D., Fox-Chase Cancer Center in Philadelphia. “This study showed that after initial surgery, the combination of Avastin and chemotherapy followed by extended treatment with Avastin improves progression-free survival in women with newly diagnosed advanced tumors.”

The trial is sponsored by the National Cancer Institute (NCI) under a Cooperative Research and Development Agreement between the NCI and Genentech, and is being conducted by a network of researchers led by the GOG.

Avastin is being studied worldwide in more than 450 clinical trials for multiple types of cancer, including approximately 25 ongoing clinical trials in the United States for women with various stages of ovarian cancer.

About Ovarian Cancer

According to the American Cancer Society, ovarian cancer is the fifth leading cause of cancer death among American women. In 2009 an estimated 21,500 women were diagnosed with ovarian cancer and approximately 14,500 died from the disease in the U.S. The disease causes more deaths than any other gynecologic cancer, and the American Cancer Society estimates that nearly 70 percent of women with advanced disease will die from it within five years.

Ovarian cancer is associated with high levels of vascular endothelial growth factor (VEGF), a protein associated with tumor growth and spread. Studies have shown a correlation between a high level of VEGF and a poorer prognosis in women with ovarian cancer. Currently, treatment options for women with this disease are limited to surgery and chemotherapy.

About the GOG 0218 Study

GOG 0218 is an international, multicenter, randomized, double-blind, placebo-controlled Phase III study in 1,873 women with previously untreated advanced epithelial ovarian, primary peritoneal or fallopian tube carcinoma. The study evaluates Avastin (5 cycles) in combination with carboplatin and paclitaxel chemotherapy (6 cycles) compared to carboplatin and paclitaxel chemotherapy alone (6 cycles). The trial is also designed to assess the maintenance use of Avastin alone following the initial combined regimen of Avastin and chemotherapy (for a total of up to 15 months of therapy), compared to carboplatin and paclitaxel chemotherapy alone (6 cycles).

The primary endpoint of the study is PFS as assessed by trial investigators. Secondary and exploratory endpoints of the study include overall survival, PFS by independent review, objective response rate, safety, quality of life measures and analysis of patient tumor and blood samples.

Detailed safety assessments are ongoing. A preliminary assessment of safety performed by the GOG identified Avastin-related serious adverse events noted in previous pivotal studies, including fatal neutropenic infection and gastrointestinal perforation. The full study results, including safety information, will be presented at a future medical meeting.

About Avastin

Avastin is a solution for intravenous infusion and is a biologic antibody designed to specifically bind to a protein called VEGF. VEGF plays an important role throughout the lifecycle of the tumor to develop and maintain blood vessels, a process known as angiogenesis. Avastin interferes with the tumor blood supply by directly binding to the VEGF protein to prevent interactions with receptors on blood vessel cells. Avastin does not bind to receptors on normal or cancer cells. The tumor blood supply is thought to be critical to a tumor’s ability to grow and spread in the body (metastasize). For more information about angiogenesis, visit http://www.gene.com.

Boxed WARNINGS and Additional Important Safety Information

People treated with Avastin may experience side effects. In clinical trials, some people treated with Avastin experienced serious and sometimes fatal side effects, including:

Gastrointestinal (GI) perforation: Treatment with Avastin can result in the development of a potentially serious side effect called GI perforation, which is the development of a hole in the stomach, small intestine or large intestine. In clinical trials, this side effect occurred in more people who received Avastin than in the comparison group (0.3 percent to 2.4 percent). In some cases, GI perforation resulted in fatality.

Surgery and wound healing problems: Treatment with Avastin can lead to slow or incomplete wound healing (for example, when a surgical incision has trouble healing or staying closed). In some cases, this event resulted in fatality. Surgery and wound healing problems occurred more often in people who received Avastin than in the comparison group. Avastin therapy should not be started for at least 28 days after surgery and until the surgical wound is fully healed. The length of time between stopping Avastin and having voluntary surgery without the risk of having surgery and wound healing problems following surgery has not been determined.

Severe bleeding: Treatment with Avastin can result in serious bleeding, including coughing up blood, bleeding in the stomach, vomiting of blood, bleeding in the brain, nosebleeds and vaginal bleeding. These events occurred up to five times more often in people who received Avastin. Across cancer types, 1.2 percent to 4.6 percent of people who received Avastin experienced severe to fatal bleeding. People who have recently coughed up blood (greater than or equal to a half teaspoon of red blood) or have serious bleeding should not receive Avastin.

In clinical trials for different cancer types, there were additional serious and sometimes fatal side effects that occurred in more people who received Avastin than in those in the comparison group. The formation of an abnormal passage from parts of the body to another part (non-GI fistula formation) was seen in 0.3 percent or less of people. Severe to life-threatening stroke or heart problems were seen in 2.4 percent of people. Too much protein in the urine, which led to kidney problems, was seen in less than 1 percent of people. Additional serious side effects that occurred in more people who received Avastin than those in the comparison group included severe to life-threatening high blood pressure, which was seen in 5 percent to 18 percent of people, and nervous system and vision disturbances (reversible posterior leukoencephalopathy syndrome), which was seen in less than 0.1 percent of people. Infusion reactions with the first dose of Avastin were uncommon and occurred in less than 3 percent of people and severe reactions occurred in 0.2 percent of people.

Common side effects that occurred in more than 10 percent of people who received Avastin for different cancer types, and at least twice the rate of the comparison group, were nosebleeds, headache, high blood pressure, inflammation of the nose, too much protein in the urine, taste change, dry skin, rectal bleeding, tear production disorder, back pain and inflammation of the skin (exfoliative dermatitis). Across all trials, treatment with Avastin was permanently stopped in 8.4 percent to 21 percent of people because of side effects.

Avastin may impair fertility. Patients who are pregnant or thinking of becoming pregnant should talk with their doctor about the potential risk of loss of the pregnancy or the potential risk of Avastin to the fetus during and following Avastin therapy, and the need to continue an effective birth control method for at least six months following the last dose of Avastin.

For full Prescribing Information and Boxed WARNINGS on Avastin please visit http://www.avastin.com.

About Genentech

Founded more than 30 years ago, Genentech is a leading biotechnology company that discovers, develops, manufactures and commercializes medicines to treat patients with serious or life-threatening medical conditions. The company, a wholly owned member of the Roche Group, has headquarters in South San Francisco, California. For additional information about the company, please visit http://www.gene.com.

About The Gynecologic Oncology Group (GOG)

The Gynecologic Oncology Group is a non-profit organization of more than 300 member institutions with the purpose of promoting excellence in the quality and integrity of clinical and basic scientific research in the field of Gynecologic malignancies. The Group is committed to maintaining the highest standards in the clinical trial development, execution, analysis and distribution of results. Continuous evaluation of our processes is utilized in order to constantly improve the quality of patient care.

GOG receives support from the National Cancer Institute (NCI) of the National Institutes for Health (NIH).

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