On October 29, 2018 Epic Sciences, Inc. (Epic) and Genomic Health, Inc. (Nasdaq: GHDX) reported that Palmetto GBA, a Medicare Administrative Contractor that assesses molecular diagnostic technologies, has issued a positive final local coverage determination (LCD) for the Oncotype DX AR-V7 Nucleus Detect test (Press release, Genomic Health, OCT 29, 2018, View Source [SID1234530442]). The final LCD recommends Medicare coverage for use of the test effective December 10, 2018, throughout the United States to help determine which patients with metastatic castrate resistant prostate cancer (mCRPC) may benefit from continued androgen receptor signaling inhibitor (ARSi) therapy, such as enzalutamide, abiraterone and apalutamide, as well as those who are resistant who may benefit from chemotherapy.

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An estimated 50,000 men in the United States with advanced prostate cancer, of which approximately 25,000 have Medicare coverage, could benefit from knowing their AR-V7 status prior to selecting further treatment. The Oncotype DX AR-V7 Nucleus Detect test is a circulating tumor cell-based liquid biopsy test that is commercially available in the United States through Epic’s partnership with Genomic Health. The final LCD is posted to the Medicare Coverage Database on the Centers for Medicare and Medicaid Services (CMS) website.

The test, commercially launched by Genomic Health on February 28, 2018, is supported by three clinical utility studies including two multicenter validation studies. Results from a Memorial Sloan Kettering Cancer Center-led validation study were published online on June 28, 2018, in JAMA Oncology, establishing the predictive benefit of the test. Additionally, new validation data from the PROPHECY study were presented on June 4, 2018, at the American Society of Clinical Oncology (ASCO) (Free ASCO Whitepaper) Annual Meeting.

"For men with advanced prostate cancer, these independent, blinded, multicenter studies demonstrated that the Oncotype DX AR-V7 Nucleus Detect test is a clinically validated and useful test that can predict therapeutic response and, through its use, extend life. Importantly, with this final Medicare LCD, approximately 50 percent of addressable patients in the United States can gain access to the test," said Murali Prahalad, Ph.D., President and CEO of Epic Sciences. "Receiving a positive, final LCD for the test less than a year after commercial launch speaks to the importance and impact that this test has in improving patient survival."

Prior to the Oncotype DX AR-V7 Nucleus Detect test, there was no clear consensus on the therapeutic sequencing after initial exposure to an ARSi therapy. The most challenging clinical decision in mCRPC is whether to start a second ARSi therapy or taxane chemotherapy. Detection of nuclear-specific AR-V7-positive circulating tumor cells as measured by the Epic Sciences approach indicates which patients are resistant to AR-targeted therapies, such as enzalutamide, abiraterone and apalutamide, as well as those who are likely to live longer when placed on chemotherapy rather than on ARSi therapy. Conversely, patients negative for nuclear-localized AR-V7 are likely to live longer with ARSi therapy than with chemotherapy.

The Oncotype DX AR-V7 Nucleus Detect test was developed using Epic’s proprietary No Cell Left Behind technology. Epic is delivering a portfolio of blood-based tests that are predictive of drug response in cancer and are clinically proven, personalized and focused on improving patient survival and healthcare economics worldwide.

About the Oncotype DX AR-V7 Nucleus Detect Test
Designed by Epic Sciences and based on results from multiple studies led by Memorial Sloan Kettering Cancer Center, the Oncotype DX AR-V7 Nucleus Detect test is the first and only liquid biopsy test of its kind that can potentially prolong the lives of men with metastatic castration-resistant prostate cancer (mCRPC) by helping their physician identify the most effective treatment. Through a blood draw, the test detects AR-V7 protein in the nucleus of circulating tumor cells utilizing Epic Sciences’ No Cell Left Behind platform to accurately identify patients who are resistant to androgen receptor (AR)-targeted therapies and who should instead switch to chemotherapy. The Oncotype DX AR-V7 Nucleus Detect test is performed by Epic Sciences at its centralized, CLIA-certified laboratory in San Diego and is offered exclusively by Genomic Health. To learn more about the Oncotype DX AR-V7 Nucleus Detest test, visit www.OncotypeIQ.com and watch this video.

On October 29, 2018 Forbius, a clinical stage company developing biotherapeutics targeting EGFR and TGF-β pathways, reported a poster presentation demonstrating the ability of AVID200, an isoform selective TGF-β inhibitor, to enhance the anti-tumor activity of T-cells (Press release, Forbius, OCT 29, 2018, View Source [SID1234531669]). Notably, AVID200 significantly enhanced the activity of anti-PD-L1 immune checkpoint inhibition in vivo. This presentation highlights the collaborative work done with the laboratory of Dr. James Koropatnick, Director of the Strategic Training Program in Cancer Research and Technology Transfer at the London Health Sciences Centre. This research is sponsored by the previously announced peer-reviewed BioCanRx grant with a total project value of CAD$1,655,297, and BioCanRx contributing CAD$675,000.

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About AVID200
Forbius developed AVID200 to be a highly potent and isoform-selective TGF-β inhibitor. AVID200 neutralizes TGF-β1 and-β3 with pM potency. These isoforms are known to be drivers of fibrosis and tumor immune resistance. In contrast, TGF-β2 is a positive regulator of hematopoiesis and normal cardiac function, and blockade of TGF-β2 is therefore undesirable. The ability of AVID200 to selectively target TGF-β1 and -β3 positions it to be an effective and well-tolerated therapeutic in fibrotic diseases and immuneoncology.

On October 29, 2018 Cellular Biomedicine Group, Inc presented the presentations at the Advanced Cell Therapy Summit 2018 in Shanghai (Presentation, Cellular Biomedicine Group, OCT 29, 2018, View Source [SID1234530281]).

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On October 29, 2018 TESARO, Inc. (NASDAQ: TSRO), an oncology-focused biopharmaceutical company, reported the achievement of development milestones that trigger an $18 million payment from Janssen Biotech Inc. (Janssen) (Press release, TESARO, OCT 29, 2018, View Source [SID1234530297]). The milestones are related to Janssen’s ongoing GALAHAD trial, which is assessing niraparib monotherapy for the treatment of men with metastatic castration-resistant prostate cancer (mCRPC) and DNA-repair anomalies. Data from the trial are anticipated to support global regulatory filings in 2019.

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In addition, data from the Phase 1b BEDIVERE trial were recently presented at the European Society of Clinical Oncology (ESMO) (Free ESMO Whitepaper) and demonstrated the safety and tolerability of combining niraparib with abiraterone acetate + prednisone (AA-P) in men with mCRPC. Data from the BEDIVERE trial will be used to inform the dosing regimen in a future Phase 3 trial that will assess the clinical benefit of niraparib in combination with AA-P in mCRPC patients.

TESARO entered into a global prostate collaboration and license agreement with Janssen in 2016, through which Janssen received rights to develop and commercialize niraparib for patients with prostate cancer worldwide, except Japan. Under the terms of the agreement, TESARO is eligible to receive development, regulatory and commercial milestones, in addition to royalty payments.

About the Janssen GALAHAD Clinical Trial
GALAHAD is an ongoing Phase 2, open-label, single arm trial designed to evaluate the safety and efficacy of niraparib monotherapy (300mg daily) in men with metastatic castration-resistant prostate cancer (mCRPC) and DNA-repair anomalies progressing on/after taxane-based chemotherapy and androgen receptor targeted therapy. Patients are enrolled in the study based on their DNA-repair deficiency status.

About the Janssen BEDIVERE Clinical Trial
BEDIVERE is an ongoing Phase 1b, open-label, dose-selection study with dose expansion designed to evaluate the safety of niraparib in combination with AA-P in men with metastatic castration-resistant prostate cancer (mCRPC) who may or may not have had DNA-repair anomalies.

About ZEJULA (Niraparib)
Niraparib is marketed in the United States and Europe under trade name ZEJULA. ZEJULA (niraparib) is a poly(ADP-ribose) polymerase (PARP) inhibitor indicated for the maintenance treatment of adult patients with recurrent epithelial ovarian, fallopian tube, or primary peritoneal cancer who are in a complete or partial response to platinum-based chemotherapy. In preclinical studies, ZEJULA concentrates in the tumor relative to plasma, delivering greater than 90% durable inhibition of PARP 1/2 and a persistent antitumor effect.

On October 29, 2018 Apexian Pharmaceuticals reported that researchers will continue to explore the impact of Apexian’s target molecule, APX3330, on cancer cachexia with additional grant funding from the National Institutes of Health (NIH) National Cancer Institute(NCI) (Press release, Apexian Pharmaceuticals, OCT 29, 2018, View Source [SID1234530421]). Cancer cachexia is weight loss with chronic inflammation and defective metabolism, which causes roughly one third of all cancer deaths. It is particularly prevalent in pancreatic ductal adenocarcinoma (PDAC), which has a dismal five-year survival rate.

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Dr. Mark R. Kelley, Apexian Chief Scientific Officer and the Betty and Earl Herr Professor of Pediatric Oncology Research at the Indiana University Simon Cancer Center; Dr. Melissa Fishel, Research Associate Professor, Wells Center for Pediatric Research; and Dr. Teresa Zimmers, Associate Professor of Surgery at the Indiana University School of Medicine, have been working to define mechanisms of cachexia stemming from treatment in PDAC, as well as for identifying mechanism-driven, targeted anti-cachexia therapies.

"The goal of this research is to determine the anti-cachexia potential of Ref-1 inhibition, HIF-1a inhibition, or the combination in mouse models of PDAC," said Dr. Kelley. "APX3330 has proven effective at inhibiting Ref-1, and has been safe and well tolerated when taken by patients with advanced cancers in our Phase 1 clinical study."

Previous studies support Ref-1 as a target in PDAC, on-target effects of APX3330, and the use of APX3330 as a clinical agent in cancer. This study will focus on demonstrating improvement in fat/muscle mass and PDAC cachexia symptoms using APX3330. Positive results from this study would lead to immediate clinical trials using APX3330 to prevent or reverse PDAC cachexia.

"Dr. Kelley’s research on APX3330 as a Ref-1 inhibitor continues to offer promise as a treatment for cancer and cancer-related issues like cachexia and cancer chemotherapy-induced neuropathy," said Steve Carchedi, CEO of Apexian Pharmaceuticals. "As we complete our Phase I trial, we continue to aggressively pursue additional therapeutic uses for APX3330 and build on our pipeline of novel, first in class molecules."

The NIH grant of $227,554 pushes Kelley’s grant budget for research on Ref-1 inhibitors to nearly $700,000 just in 2018.