On April 9, 2019 Oncoceutics reported the publication of an article entitled "First clinical experience with DRD2/3 antagonist ONC201 in H3 K27M–mutant pediatric diffuse intrinsic pontine glioma: a case report" in the Journal of Neurosurgery (authored by Matthew D. Hall, M.D., MBA) (Press release, Oncoceutics, APR 9, 2019, View Source [SID1234558359]). The article summarizes the medical history of a 10-year-old girl with a diffuse intrinsic pontine glioma (DIPG) brain tumor. Following radiation therapy and treatment with ONC201 on a compassionate use basis, she developed near complete resolution of her presenting neurological symptoms for almost one year, enabling her return to school and participation in many normal activities.

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DIPG is a serious and rare disease with a dismal prognosis and no viable treatment options. It predominantly affects children and young adults, and it is the most common form of brainstem glioma in this age group. DIPG.org, a resource network for the disease, summarizes the disease characteristics as follows: "Currently, outcomes for most patients are poor, with a median survival of less than 1 year from diagnosis. Radiation therapy can shrink tumors, temporarily improving some symptoms and delaying the progression of the disease, but in almost all cases, the tumor continues to grow. So far, clinical trials have not shown that currently available chemotherapy drugs, radiosensitizing drugs (drugs that make tumor cells more likely to be killed by radiation therapy), or biologics (medical products created by biological processes, such as vaccines or gene therapy) benefit patients. Because of their location in the brainstem, DIPGs cannot be removed surgically. New approaches to treating DIPG are urgently needed."

ONC201 is an investigational drug developed by Oncoceutics that is being studied in several clinical trials for use against DIPG and other brain tumors. The underlying mechanism of the drug involves the interception of a specific receptor for dopamine, called DRD2. DRD2 is a neurotransmitter that is misused by malignant glioma cells to boost their growth. Tumors that harbor a certain mutation of a highly conserved histone protein, i.e. H3 K27M, are particularly sensitive to ONC201 in spite of the otherwise aggressive growth that this mutation confers. DIPG is one of the tumor types that exhibit a high prevalence of this mutation.

The patient described in the article has shown prolonged clinical benefits and is approaching almost two years from diagnosis, although ONC201 was administered only when symptoms progressed after radiation was completed. This supports further investigation of ONC201 in H3 K27M-mutant gliomas, including DIPG. As a result, Oncoceutics has significantly expanded its pediatric clinical program for ONC201. The company’s ongoing pediatric trial for ONC201 in H3 K27M-mutant high-grade gliomas including DIPG (NCT03416530) was extended with additional treatment arms, a pediatric oral solution formulation was introduced, and ONC201 treatment was extended to newly diagnosed DIPG patients with concomitant radiation.

The company further implemented an intermediate size Expanded Access Protocol (EAP) to provide access to ONC201 for patients that might benefit from the drug but are not eligible for participation in the ongoing clinical trials. The EAP was made possible by the support of the Food and Drug Administration and their high priority effort to facilitate access to promising medicines for patients with serious or immediately life-threatening diseases or conditions when no comparable or satisfactory alternative therapy options are available (see recent FDA statement). The program is also supported by The Musella Foundation, The Cure Starts Now Foundation, The Michael Mosier Defeat DIPG Foundation, Cancer Commons and xCures.

"We are delighted to see a novel concept to treat this horrible disease emerge and show traction in clinical settings," said Keith Desserich, Chairman of the Board and Co-Founder of The Cure Starts Now. "We have followed the development of ONC201 for some time and are excited about the emerging data in both, children as well as young adults that are expected to become public later in this year.

On April 9, 2019 Bio-Techne Corporation (NASDAQ:TECH) reported that management will host a conference call on Tuesday, April 30, 2019 at 8:00 a.m. CDT to review third quarter 2019 financial results (Press release, Bio-Techne, APR 9, 2019, https://investors.bio-techne.com/news/detail/133/bio-techne-to-host-conference-call-on-april-30-2019-to-announce-third-quarter-2019-financial-results [SID1234536923]).

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Access to the discussion may be obtained as follows:

Time:

8:00 a.m. CDT

Date:

April 30, 2019

Dial-in:

1-866-548-4713 or 1-323-794-2093 (for international callers)

Conference ID:

9482573

A recorded rebroadcast will be available for interested parties unable to participate in the live conference call. To access the recording, U.S. callers should dial 1-844-512-2921 or international callers should dial 1-412-317-6671 and enter the replay access code 9482573. The recording can also be accessed by going to:

View Source

The replay will be available from 11:00 a.m. CDT on Tuesday, April 30, 2019 until 11:00 p.m. CDT on Thursday, May 30, 2019.

On April 9, 2019 Horizon Pharma plc (Nasdaq: HZNP) reported that its first-quarter 2019 financial results will be released on Wednesday, May 8, 2019. Following the announcement, Horizon’s management will host a live webcast at 8 a.m. Eastern Time to review the Company’s financial and operating results (Press release, Horizon Pharma, APR 9, 2019, View Source [SID1234535313]).

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The live webcast and replay may be accessed at View Source Please connect to the Company’s website at least 15 minutes before the live webcast to ensure adequate time for any software download that may be needed to access the webcast.

On April 9, 2019 Forbius, a clinical-stage company that develops novel biologics for the treatment of cancer and fibrosis, reported that Dr. Maureen O’Connor-McCourt, Chief Scientific Officer of Forbius, will be presenting an overview of AVID100, a novel, tumor-selective, anti-EGFR antibody-drug conjugate (ADC), at PEGS Boston’s 9th Annual Clinical Progress of Antibody-Drug Conjugates (Press release, Forbius, APR 9, 2019, View Source [SID1234535091]).

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Details and highlights of Dr. O’Connor-McCourt’s presentation:

Discovery of Next-Generation ADCs: Preclinical and Clinical Development of AVID100, an EGFR-Targeting ADC

Presentation Friday, April 12th at 11:35 AM ET, Harborview 1 & 2

AVID100 is highly potent and selectively cytotoxic against EGFR-expressing cancer cells, while sparing normal EGFR-positive keratinocytes
AVID100 was well-tolerated in a Phase 1 dose-escalation study in patients with advanced solid tumors of epithelial origin (any EGFR status)
Only modest skin toxicity observed, in line with preclinical findings
Phase 2 trial (AVID100-01; NCT03094169) ongoing to evaluate AVID100 efficacy, safety, and tolerability in patients with EGFR-overexpressing (IHC 3+) SCCHN and sqNSCLC
About AVID100 and the AVID100-01 Trial
AVID100 is a highly potent EGFR-targeting antibody-drug conjugate (ADC) that was engineered to achieve enhanced anti-tumor efficacy without a corresponding increase in toxicity against skin and other EGFR-expressing normal tissues. In preclinical studies, AVID100 demonstrated significant anti-cancer activity, including in EGFR-overexpressing tumor models that are resistant to marketed EGFR inhibitors. AVID100 is the only anti-EGFR ADC in clinical development that targets both wild-type and mutant forms of EGFR.

In a successfully completed Phase 1 study, AVID100 reported a recommended Phase 2 dose (RP2D) of 220 mg/m2 (~6mg/kg), which is expected to be in the therapeutically active range based on preclinical efficacy studies. Treatment was generally well-tolerated, with the majority of treatment-related adverse events in the Phase 1 trial at the RP2D being grade 1 or 2 in severity.

AVID100-01 (NCT03094169) is an open label, multicenter study to evaluate the efficacy, safety, and tolerability of AVID100 in patients with confirmed EGFR-overexpressing tumors (more than 50% of cells with EGFR 3+ or more than 75% of cells with EGFR 2+ staining by a validated immunohistochemistry assay).

On April 9, 2019 Foundation Medicine and Flatiron Health reported the publication of study results in the Journal of the American Medical Association validating that real-world clinico-genomic data obtained during the course of routine patient care can yield scientifically and clinically meaningful insights (Press release, Foundation Medicine, APR 9, 2019, View Source [SID1234535090]). These insights can serve as real-world evidence to advance research and discovery in oncology, and may also ultimately inform clinical guidelines. The continuously-updated, de-identified clinico-genomic database includes patient outcomes data processed from patients in Flatiron Health’s network of oncology clinics, linked with comprehensive genomic profiling (CGP) results from Foundation Medicine’s FoundationCORE database.

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The findings demonstrate the feasibility of creating a de-identified clinico-genomic database (CGDB) and validate the potential of such real-world data for understanding and optimizing personalized cancer care, including, for example, biomarkers of response to immunotherapy treatment. The study linked clinical data from the electronic health records (EHRs) of 28,998 patients from 275 oncology practices in Flatiron Health’s network across the United States with genomic data from Foundation Medicine CGP testing. Among 4,064 patients with non-small cell lung cancer (NSCLC), exploratory analyses recapitulated previously described associations between clinical and genomic characteristics, between driver mutations and response to targeted therapy, and between tumor mutation burden (TMB) and response to immunotherapy.

"The publication of our validation study in a high-profile journal not only validates the ability of a real-world clinico-genomic database to yield scientifically and clinically-relevant findings, but also the potential for this novel approach to significantly impact our understanding of personalized medicine. This represents a major milestone in our mission to leverage regulatory-grade, real-world data to advance cancer care," stated Gaurav Singal, MD, chief data officer at Foundation Medicine. "As the dataset continues to grow, we expect it will advance therapeutics development, optimize clinical trial design and execution, and ultimately even support clinical decision making, enabling a more efficient way to evaluate new medicines and accelerate their availability for patients who need them."

In addition to demonstrating the scientific validity of the database for rigorous research, the study findings confirmed and extended several biomarker hypotheses in oncology. Corroborating recent clinical trial data, high TMB was shown to be associated with both longer duration on anti-PD-1/PD-L1 therapy and improved overall survival (OS) from treatment initiation. In addition, this retrospective real-world analysis re-demonstrated the importance of genomic biomarker-guided targeted treatment in NSCLC: among patients with genomic alterations known to drive tumor growth, treatment with agents targeted to these mutations was associated with prolonged survival. These findings may be extended in the future to identify additional factors associated with response to targeted therapies and immunotherapies.

"Our proof-of-principle study validated the importance of marrying tumor genomic data with clinical outcomes recorded during routine care, which represents a huge stream of data that is being generated and recorded every day, but has not yet been used meaningfully outside of patient care," said Vineeta Agarwala, MD, PhD, director of product management at Flatiron Health. "These data can inform treatment guidelines, clinical trial design, and precision drug development."

Since launching in November 2016, the CGDB now includes linked, de-identified data for more than 50,000 patients (over 6,000 with non-small cell lung cancer) and helps researchers and biopharmaceutical partners accelerate the development of targeted therapeutics and immunotherapies to treat cancer. The CGDB includes de-identified clinical data (demographic data, medication history, laboratory testing, and outcomes including survival) from Flatiron Health linked to genomic data (comprehensive genomic profiling of tumors, including genomic findings, variant annotations, and computational biomarkers such as tumor mutational burden [TMB], microsatellite instability [MSI], and loss of heterozygosity [LOH]) from Foundation Medicine across a variety of tumor types, allowing for a continuously updated, longitudinal view of a patient’s clinical, diagnostic and therapeutic journey.