On December 27, 2017 Kazia Therapeutics Limited (ASX: KZA, NASDAQ: KZIA) and Noxopharm Limited (ASX: NOX) reported the creation of a collaboration to support the future development of the Noxopharm lead program, NOX66 (Press release, Kazia Therapeutics, DEC 27, 2017, View Source [SID1234538107]).

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Under the terms of the collaboration, Kazia will provide certain technical information and related proprietary information that is expected to assist and expedite the successful development of NOX66. In return, Kazia has agreed to take a small equity interest in Noxopharm, which will help to align the future interests of both companies.

Kazia CEO, Dr James Garner, commented, "we are delighted to facilitate the future success of NOX66, and we look forward to assisting and following the progress of the program with keen interest."

Noxopharm CEO, Dr Graham Kelly, commented, "the collaboration with Kazia helps to ensure that the major clinical program planned in 2018 for NOX66 will proceed smoothly and with certainty. We look forward to providing our shareholders with data as the various clinical studies progress."

On December 27, 2017 Oncolytics Biotech Inc. (TSX: ONC) (OTCQX: ONCYF) (Oncolytics or the Company), a biotech company developing REOLYSIN, also known as pelareorep, an intravenously delivered immuno-oncolytic virus that activates the innate and adaptive immune systems to turn ‘cold’ tumors ‘hot’, reported that data from REO 024 will be presented at the 2018 Gastrointestinal Cancers Symposium sponsored by ASCO (Free ASCO Whitepaper), January 18 – 20, 2018, in San Francisco (Press release, Oncolytics Biotech, DEC 27, 2017, View Source [SID1234522782]). The poster presentation by Dr. Devalingam Mahalingam, M.D. Ph.D., Associate Professor of Medicine (Hematology and Oncology) at the Feinberg School of Medicine, Northwestern University, will present clinical data evaluating intravenous administration of pelareorep in combination with pembrolizumab (KEYTRUDA) and chemotherapy in patients with advanced or metastatic pancreatic adenocarcinoma.

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"I’m thrilled that Dr. Mahalingam will have the opportunity to present data from the REO 024 study combining pelareorep with Merck’s Keytruda and chemotherapy," said Dr. Matt Coffey, President and CEO of Oncolytics Biotech. "While our focus remains on metastatic breast cancer, we continue to be very interested in the potential to treat pancreatic cancer patients. Our NCI-8601 study demonstrated an increase in landmark survival at two years in pancreatic patients from nine percent to twenty percent, when comparing pelareorep plus carboplatin to carboplatin alone. Our REO 017 study improved overall two-year survival in pancreatic patients from historical measures of four to five percent to twenty-four percent, when comparing pelareorep plus gemcitabine to gemcitabine alone. We believe there is an obvious therapeutic effect in pancreatic cancer and look forward to this presentation in January."

Abstract number: 283
Title: A study of pelareorep in combination with pembrolizumab and chemotherapy in patients (pts) with relapsed metastatic adenocarcinoma of the pancreas (MAP)

Poster Session: Session B: Cancers of the Pancreas, Small Bowel, and Hepatobiliary Tract

Date/Time: January 19, 11:30 AM-1:00 PM; 5:30 PM-6:30

About REOLYSIN/Pelareorep
REOLYSIN, also known as pelareorep, is a non-pathogenic, proprietary isolate of the unmodified reovirus: a first-in-class intravenously delivered immuno-oncolytic virus for the treatment of solid tumors and hematological malignancies. The compound induces selective tumor lysis and promotes an inflamed tumor phenotype through innate and adaptive immune responses to treat a variety of cancers.

On December 27, 2017 Actinium Pharmaceuticals, Inc. (NYSE American:ATNM) ("Actinium" or "the Company") reported that the Independent Data Monitoring Committee (DMC) for the Pivotal Phase 3 SIERRA Trial (Study of Iomab-B for Elderly Relapsed or Refractory AML) of Iomab-B (131I apamistamab) completed its review of the data available from the trial at time of analysis (Press release, Actinium Pharmaceuticals, DEC 27, 2017, View Source [SID1234522781]). The DMC recommended that the trial continue to enroll patients as planned. The SIERRA Trial is a 150 patient, controlled, multi-center pivotal study that is comparing Iomab-B followed by a bone marrow transplant (BMT) to physician’s choice of salvage chemotherapy in patients with relapsed or refractory acute myeloid leukemia (AML) that are age 55 and above. The primary endpoint of the trial is durable Complete Remission (dCR) at 6 months.

Dr. Mark Berger, Actinium’s Chief Medical Officer said, "The DMC’s review and recommendations for Iomab-B are in line with our expectations at this stage of the trial and are important given the high unmet need of these patients with current therapies. A bone marrow transplant is the only potential cure for these patients and safer myeloablation could have a major impact on patient outcomes. We believe that Iomab-B will provide safer myeloablation for AML patients seeking a bone marrow transplant, which will expand patient access to transplant, improve rates of transplant engraftment, and improve survival outcomes. We are encouraged that the DMC reviewed initial safety data from the first 20 patients enrolled in the trial at its regularly scheduled late November meeting. We remain confident that we will be able to complete patient enrollment by the end of 2018 due to the significant progress we have made this year setting up the foundations for the trial and also due to certain other factors which are detailed below."

Enrollment activity for the SIERRA trial has continued to build as a function of site activation, familiarity of the site with the patient protocols for using Iomab-B and investigator experience with the drug candidate versus the control. Actinium announced that the fifteenth SIERRA clinical trial site had been activated at the end of October 2017. The SIERRA clinical trial sites are some of the leading and highest volume BMT centers in the US including the MD Anderson Cancer Center, Memorial Sloan Kettering Cancer Center, the Mayo Clinical, the Fred Hutchinson Cancer Research Center and many others. Together, these active sites account for approximately one third of bone marrow transplant related volume. Actinium previously commented that once a site has treated its initial patient with Iomab-B, recruitment and enrollment accelerates at that site. In addition, to continuing to devote attention to activated sites in order to meet enrollment objectives, Actinium intends to continue to also focus on activating additional clinical trial sites and educating site staff in order to build on the strong foundation for patient enrollment. In 2018, Actinium expects to open the SIERRA trial at 5-7 additional clinical trial sites including sites in Canada where the company received clearance to initiate the trial from Health Canada in 2017.

In addition, Actinium announced that it will amend the protocol of the SIERRA trial to expand the salvage chemotherapy regimens available in the control arm of the study, following the feedback from investigators at trial sites and the advice of its Scientific Advisory Board that was convened during the recent ASH (Free ASH Whitepaper) meeting. The Company expects that being responsive to investigator suggestions and amending the protocol removes a hindrance to enrollment at some of the major sites as it provides investigators with the ability to better enroll patients. In addition to the SAB meeting, Iomab-B was featured at a PeerView CME-Certified event on Friday, December 8, 2017 titled "A Master Class on Building Better Therapy for AML: Making the Most of an Increasing Number of Innovative Options" where it was highlighted by Dr. Amir Fathi of Mass General Hospital Cancer Center to several hundred physician attendees. The Company expects to follow-up on the interest generated from this event in order to support the objectives of the SIERRA trial and also to prepare Iomab-B for commercialization.

Actinium also reported that it has successfully supplied dosimetric and therapeutic doses as needed to all patients in the study arm and to all of the patients that have crossed over to the Iomab-B arm from the control arm thus far. Patients that cross over from the control arm are counted as failures for the primary endpoint of durable Complete Remission of at least 6 months. The Company has stated that in 2017 it manufactured additional antibody at commercial scale, and has sufficient quantities to account for the current trial and the planned potential label expansion initiatives in 2018.

Sandesh Seth, Actinium’s Chairman and CEO said, "Iomab-B is a drug candidate that is not only first in class with no visible competition in clinical development but it also has the potential to establish a new treatment paradigm for bone marrow conditioning. The SIERRA trial is the first multi-center, company sponsored trial for Iomab-B and it is supported by data generated at the Fred Hutchinson Cancer Research Center in several hundred patients in multiple hematologic indications, including the patient population of the SIERRA trial. Actinium has achieved significant progress this year not only by opening the trial at some of the highest volume transplant centers but conducting educational efforts to raise the profile of this important therapeutic and potentially life saving therapeutic option. The progress made in enrollment and the validation of our assumptions regarding the trial safety and efficacy makes this initial DMC report incredibly exciting for us. We look forward to continuing to progress Iomab-B concurrent with our ever-growing focus, as exemplified by the latest initiative of Actimab-MDS, on developing treatments for superior myeloablation in multiple indications, which we believe to be a significant value creation opportunity. We are incredibly proud that our supply chain team has successfully delivered doses to all patients in the SIERRA trial including crossover patients while simultaneously supplying drug to all patients in the Actimab-A trial and Actimab-M trials and that our clinical team has opened up nearly 30 trial sites across our clinical trials. We note also that the strengthened clinical development team has enrolled more patients since June of 2017 than had been enrolled in the past five years. This combination of the ability to successfully enroll patients and establish a reliable supply chain into a network of leading hospitals that represent over a third of bone marrow transplant procedure volume is proving to be an invaluable clinical asset that we hope to leverage into a value enhancing asset as we look ahead to our next phase of growth."

The SIERRA trial is expected to complete patient enrollment by the end of 2018 which is in line with prior guidance from the Company. The trial will have safety analyses by an independent Data Monitoring Committee when 25%, 50% and 75% patient enrollment has been reached. Also, two ad-hoc efficacy analyses may be requested by Actinium after 70 and/or 110 patients have engrafted and given enough time to achieve the primary endpoint of durable complete remission at six months post treatment.

About Iomab-B

Iomab-B (131I apamistamab) is Actinium’s lead product candidate that is currently being studied in a 150-patient, multicenter pivotal Phase 3 clinical trial in patients with relapsed or refractory acute myeloid leukemia who are age 55 and above. Upon approval, Iomab-B is intended to prepare and condition patients for a bone marrow transplant, also referred to as a hematopoietic stem cell transplant, which is often considered the only potential cure for patients with certain blood-borne cancers and blood disorders. Iomab-B targets cells that express CD45, a pan-leukocytic antigen widely expressed on white blood cells with the monoclonal antibody, BC8, labeled with the radioisotope, iodine-131. By carrying iodine-131 directly to the bone marrow in a targeted manner, Actinium believes Iomab-B will avoid the side effects of radiation on most healthy tissues while effectively killing the patient’s cancer and marrow cells. In a Phase 2 clinical study in 68 patients with advanced AML or high-risk myelodysplastic syndrome (MDS) age 50 and older, Iomab-B produced complete remissions in 100% of patients and patients experienced transplant engraftment at day 28. Iomab-B was developed at the Fred Hutchinson Cancer Research Center where it has been studied in almost 300 patients in a number of blood cancer indications, including acute myeloid leukemia (AML), chronic myeloid leukemia (CML), acute lymphoblastic leukemia (ALL), chronic lymphocytic leukemia (CLL), Hodgkin’s disease (HD), Non-Hodgkin lymphomas (NHL) and multiple myeloma (MM). Iomab-B has been granted Orphan Drug Designation for relapsed or refractory AML in patients 55 and above by the U.S. Food and Drug Administration and the European Medicines Agency.

On December 27, 2017 Innovation Pharmaceuticals Inc., (OTCQB:IPIX) ("the Company"), a clinical stage biopharmaceutical company, reported highly encouraging preliminary data from the first patients treated in the Company’s Phase 2a clinical trial (see NCT03042702) of Kevetrin for ovarian cancer (Press release, Innovation Pharmaceuticals, DEC 27, 2017, View Source [SID1234522779]).

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Modulation of the p53 protein was observed in response to administration of Kevetrin. Pathways analyses also point to concomitant cell cycle modulation at the level of gene expression. Importantly, these data are the first to directly support, in ovarian cancer patient tumors, Kevetrin’s ability to affect p53 and associated molecular pathways—a central gene signaling network involved in regulating cell growth and the cell cycle, helping to prevent cancer.

In more detail, preliminary analyses used Western Blots to assess relative levels of key proteins extracted from tumor biopsies before and after a series of nine Kevetrin infusions administered over three weeks. The level of phospho-p53, the activated form of the protein, in addition to the noted p53 modulation, was also seen to change in response to Kevetrin administration. These findings confirm in patient tumors Kevetrin-induced anti-cancer effects similar to those demonstrated (pdf) preclinically in ovarian cancer cell-lines. These new data reinforce prior clinical data, from the earlier concluded Phase 1 study of Kevetrin in advanced solid tumors (see NCT01664000), in which observations of p21 expression in peripheral blood monocytes supported p53 involvement in Kevetrin’s mechanism of action.

Data from RNAseq analyses of expressed mRNAs and sRNAs in tumors, before and after treatment with Kevetrin, are being further analyzed to assess the nature and scope of molecular pathways modulations. The strongest signal so far detected concerns the cell cycle and a variety of transcription factors.

Running in parallel, the Company is making plans to develop Kevetrin as an oral agent (tablet or capsule) that could be dosed multiple times per day, leveraging its short half-life and pharmacokinetic profile. Bioavailability and other lab studies have been encouraging. Last, linked below is a blog post, published on the Company’s website, further elaborating on Kevetrin’s treatment potential as a novel, p53-modulating anti-cancer drug candidate.

"Kevetrin’s Effect on the p53 Signaling Pathway in a Broader Scientific Context"

Management Comments

"In a majority of cancers, p53 is mutated, preventing the body from performing its anti-tumor functions," said Leo Ehrlich, Chief Executive Officer at Innovation Pharmaceuticals. "As a result, therapies targeting p53 have long been pursued, highly sought-after by Big Pharma, but have largely been met with limited success due to the inherent complexity of p53. So, to see Kevetrin modulate p53 in a clinical setting in tumor biopsies from patients is an exciting moment for the Company, positioning us at the forefront of developing a potentially transformative anti-cancer therapy."

"Our science team has been working on Kevetrin for over a decade now, studying its unique anti-cancer profile across multiple cancer types, from solid tumors to leukemias—a function of Kevetrin’s ability to induce apoptosis in both wild type p53 and mutant p53 tumors," said Arthur P. Bertolino, MD, PhD, MBA, President and Chief Medical Officer at Innovation Pharmaceuticals. "It’s rewarding to think—after so many years of research in the lab and in the clinical setting—that we now have more direct evidence of how Kevetrin’s multiple mechanisms of action modulate p53, helping to restore the body’s natural ability to fight cancer. Such mechanistic insights of the kind we’re observing will prove invaluable as we continue to advance Kevetrin into later-stage clinical development."

About Ovarian Cancer

Ovarian Cancer is a common type of cancer that commonly begins in women’s ovaries and associated tissues. Malignant ovarian tumor cells metastasize either directly through the organs of the pelvis region, or through the bloodstream, or the lymphatic system. The causes of ovarian cancer are still not known, though women over the age of 63 represent more than 50 percent of newly diagnosed cases, with the cancer more frequently found in white women than other ethnicities. Ovarian cancer ranks fifth in cancer deaths among women worldwide. It is estimated that in 2016, in the United States, over 22,000 women will be diagnosed with ovarian cancer, with approximately 14,000 women dying from the disease. A $1.6 billion market, current treatment is often limited to surgery and chemotherapy and there is no cure.

About Kevetrin and p53

Kevetrin is a small molecule that has demonstrated the potential of becoming a breakthrough cancer treatment by modulating p53, a protein frequently referred to as the "Guardian of the Genome" due to its critical role in controlling cell mutations. In the majority of cancers, and regardless of origin, type, and location, the p53 pathway is mutated, preventing the body from performing its natural anti-tumor functions. Conducted at Dana-Farber Cancer Institute and Beth Israel Deaconess Medical Center, a Phase 1 clinical trial (see NCT01664000) of Kevetrin in treating advanced solid tumors has been successfully completed, with patients showing good toleration and encouraging signs of potential therapeutic response (see ASCO (Free ASCO Whitepaper) 2015, ASCO (Free ASCO Whitepaper) 2013). Additional pre-clinical work supporting Kevetrin’s anti-cancer activity has recently been presented at scientific conferences (see EHA (Free EHA Whitepaper) 2017, AACR (Free AACR Whitepaper) 2017). The Company has initiated a Phase 2a trial of Kevetrin (see NCT03042702) in late stage, platinum-resistant/refractory ovarian cancer. Patients will receive more frequent dosing (3 times per week) at higher levels and then receive standard of care treatment after trial conclusion. Efforts also are underway to develop Kevetrin as an oral anti-cancer agent that can be administered daily, potentially multiple times per day. The FDA has awarded Kevetrin Orphan Drug status for ovarian cancer, pancreatic cancer, and retinoblastoma, qualifying it for developmental incentives and a potential extra 7 years of market exclusivity upon drug approval. The FDA also has granted Kevetrin Rare Pediatric Disease designation for childhood retinoblastoma.

On December 27, 2017 Diffusion Pharmaceuticals Inc. (NASDAQ:DFFN) ("Diffusion" or "the Company"), a clinical-stage biotechnology company focused on extending the life expectancy of cancer patients, reported that a Phase 3 clinical trial using its lead small molecule trans sodium crocetinate ("TSC") in patients with newly-diagnosed inoperable glioblastoma multiforme ("GBM") brain cancer, is now open for enrollment (Press release, Oncolytics Biotech, DEC 27, 2017, View Source [SID1234522778]). The trial, which has been named INTACT (INvestigating Tsc Against Cancerous Tumors), follows a previous Phase 2 GBM study in which the inoperable patient subgroup showed a nearly four-fold increase in survival compared with historical controls when TSC was added to their treatment regimen (40% alive at two years vs. 10.4%). TSC’s innovative mechanism of action affects the tumor micro-environment, making treatment-resistant cancer cells more susceptible to the tumor-killing power of conventional radiation therapy ("RT") and chemotherapy (temozolomide) by re-oxygenation of the hypoxic portion of the tumor. The Company believes that a largely intact GBM tumor vasculature with limited surgical resection is conducive to TSC’s tumor re-oxygenation properties, and that this contributed to the survival increase in the Phase 2 GBM inoperable patient subgroup.

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The trial will screen 300 patients and enroll 264 in an effort to ensure that results from 236 patients will be available for analysis. Enrolled patients will be randomized in a 1:1 ratio into treatment and control groups. Patients in the treatment group will receive standard of care ("SOC") temozolomide and RT plus an intravenous bolus of TSC administered shortly before their SOC treatments. Patients in the control group will receive SOC alone. The study will compare overall survival at two years between patients in the two groups. Up to 100 clinical sites in the U.S. and Europe are expected to participate. The Company projects that enrollment will be completed by early 2019, with interim safety and efficacy data possible in 2020 and trial completion in 2021. Further site initiation is on-going, with first patient enrollment targeted for January 2018.

"Given the dire prognosis of inoperable GBM brain cancer, we are especially gratified to have the INTACT clinical trial open for enrollment. We believe that TSC can provide new hope for these patients, whose treatment options are so limited," said David Kalergis, Chief Executive Officer of Diffusion Pharmaceuticals. "The four-fold increase in inoperable GBM patients alive at two years in our Phase 2 trial is a particularly strong efficacy signal, and informs the design of our Phase 3 trial."

About the GBM Phase 3 INTACT Trial

The INTACT clinical trial is an open-label, randomized, controlled, Phase 3 safety and efficacy registration trial. Subjects will be randomized at baseline to SOC for first-line treatment of GBM plus TSC, or to SOC alone. The SOC for GBM is temozolomide plus RT for 6 weeks followed by 28 days of rest, followed by 6 cycles of post-radiation temozolomide treatment.

TSC will be administered during both the RT and post-radiation temozolomide treatment periods to those subjects so randomized.

During the RT treatment period subjects will receive:

Focal RT delivered as 60Gy/30 fractions scheduled at 2Gy/day for 5 days each week (Monday through Friday) for 6 weeks.
Temozolomide 75 mg/m2 orally once daily (usually administered the night preceding each RT session) starting the evening before the first RT session over a period of 42 calendar days with a maximum of 49 days.
TSC 0.25 mg/kg IV for 3 days each week (e.g., Monday, Wednesday, Friday, or other schedule that supplies a minimum 3 TSC doses per week) administered between 45 to 60 minutes prior to each RT session.
During the 28-day rest period all subjects will receive no treatment.

During the post-radiation 6-cycle temozolomide treatment period:

All subjects will receive 28-day oral temozolomide (150 mg/m2 first cycle and 200 mg/m2 all subsequent cycles as tolerated) administered on Day 1-5 (Monday through Friday) of each 28-day cycle.
Controls will receive oral temozolomide at night at home per the SOC and are not required to attend clinic visits during this period.
Subjects randomized to TSC will receive TSC 1.5 mg/kg (or another dose if recommended by the DSMB) 1.5 to 2 hours before their temozolomide dose during the daytime for 3 days during the first week of each 28-day cycle (Days 1, 3, and 5; e.g., Monday, Wednesday, Friday or other schedule that supplies at minimum 3 TSC doses per week). The Tuesday, Thursday doses will be given at night at home. Long-acting antiemetics may be administered prior to daytime temozolomide dosing on Days 1, 3, 5.
The safety, tolerability and pharmacokinetics ("PK") of TSC at higher doses than 0.25 mg/kg with temozolomide will be assessed during adjuvant therapy. TSC at doses between 0.25 mg/kg and up to 1.5 mg/kg in combination with concomitant temozolomide will be assigned (not randomized) in the first 8 subjects enrolled in the INTACT trial. These patients will undergo RT plus temozolomide plus TSC treatment (0.25 mg/kg) for 6 weekly cycles followed by 4 weeks of rest in standard fashion. At the Week 10 clinic visit the same 8 subjects will be assigned to treatment, with 2 subjects each assigned to TSC at doses of 0.25, 0.50, 1.0, and 1.5 mg/kg. These subjects will be studied in parallel for 2 28-day cycles with inclusion of appropriate blood sampling collection for TSC and temozolomide PK. The Data Safety Monitoring Board ("DSMB") will examine the resultant safety data after 2 cycles (Weeks 11 through 18 of post-radiation temozolomide treatment period; Days 1 to 56). The DSMB may recommend continued use of the 1.5 mg/kg TSC dose for the post-radiation temozolomide treatment period, or may prescribe another dose based on their observations. Subjects then entering into the INTACT trial will be randomized at baseline between TSC plus SOC, or SOC alone.

Further details about the trial protocol will be available shortly at www.clinicaltrials.gov.

The baseline assessment for determining progression-free survival ("PFS"), overall response rate ("ORR") and to rule out pseudo-progression, will be at 10 weeks via MRI using the "modified Response Assessment in Neuro-Oncology" ("mRANO") scale. The hazard ratio for the trial will be 0.67, which corresponds to 22% two-year survival in the TSC arm, the lower limit of the 95% confidence interval for the biopsy-only subjects in Diffusion’s Phase 2 trial, and 10% survival in the SOC arm. The estimated median survival is therefore 10 months for the SOC arm vs. 14.9 months for the TSC plus SOC arm. In order to achieve 80% power, the trial requires 118 subjects in each arm.

The study will achieve the designed 80% statistical power at 198 events, where an event is defined as death. The first analysis will occur at the earlier of two years follow-up for all subjects or 198 events. If the first analysis is at 198 events, the analysis will be a standard 2-sided stratified log-rank test at the α=0.05 significance level. If the first analysis is at two years, the Company will perform the analysis using the O’Brien-Fleming Method.

About Treatment-Resistant Cancers and TSC

Oxygen deprivation at the cellular level (hypoxia) is the result of rapid tumor growth, causing the tumor to outgrow its blood supply. Cancerous tumor cells thrive with hypoxia and the resultant changes in the tumor microenvironment cause the tumor to become resistant to RT and chemotherapy. Using a novel, proprietary mechanism of action, Diffusion’s lead drug TSC appears to counteract tumor hypoxia – and therefore treatment resistance – by safely re-oxygenating tumor tissue, thus enhancing tumor kill and potentially prolonging patient life expectancy. Oxygen levels of normal tissue appear to remain unaffected upon administration of TSC.