On January 5, 2022 NANOBIOTIX (Euronext: NANO – NASDAQ: NBTX – the "Company"), a late-stage clinical biotechnology company pioneering physics-based approaches to expand treatment possibilities for patients with cancer, reported that the first patient has been enrolled in NANORAY-312, a global, open-label, two-arm, randomized, Investigator’s Choice phase III registration study that is designed to investigate the efficacy and safety of radiotherapy-activated NBTXR3 with or without cetuximab versus radiotherapy with or without cetuximab in high-risk, chemotherapy-ineligible elderly patients with locally-advanced head and neck squamous cell carcinoma (LA-HNSCC) (Press release, Nanobiotix, JAN 5, 2022, View Source [SID1234598285]). The study is co-led by principal investigators Sue Yom, MD, PhD, Professor and Vice Chair, Strategic Advisory Department of Radiation Oncology; Professor, Otolaryngology-Head and Neck Surgery at The University of California, San Francisco, and Christophe Le Tourneau, MD, PhD, senior medical oncologist and head of the Department of Drug Development and Innovation (D3i) at Institut Curie (Paris).

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"Elderly patients with locally advanced head and neck cancer need new therapeutic options to improve treatment outcomes," said Dr. Yom. "I look forward to working with patients and colleagues around the world through the NANORAY-312 study as we evaluate the opportunity for radiotherapy-activated NBTXR3 in this indication."

Eligible participants for NANORAY-312 will be treated with NBTXR3 at a 1:1 ratio after an Investigator’s Choice of radiotherapy alone or radiotherapy in combination with cetuximab. NANORAY-312 aims to enroll 500 patients across sites in the United States, Europe, and Asia. To date, 128 sites have been qualified in 29 countries. The primary endpoint of the pivotal study is Progression-free Survival (PFS) and key secondary endpoints include Overall Survival (OS), response rates, and quality of life. Nanobiotix expects a futility analysis at 18 months and an interim readout 30 months after the first patient is randomized.

"Bringing potentially practice-changing innovation to the patients who need it most is the aim of the NANORAY-312 study," said Professor Le Tourneau. "After leading the phase I study of NBTXR3 in locally advanced head neck cancer, I am encouraged by the opportunity to further evaluate the impact this new product candidate could have for elderly patients with this disease."

NANORAY-312 builds on Nanobiotix Study 102, a phase I trial evaluating safety and early signs of efficacy for radiotherapy-activated NBTXR3 in high-risk elderly LA-HNSCC patients who are chemotherapy-ineligible and intolerant to cetuximab. Preliminary data presented at the 2021 Annual Meeting of the American Society for Radiation Oncology (ASTRO) showed that the treatment was feasible and well tolerated at all dose levels. Exploratory efficacy data showed a high target lesion objective response rate of 85.4% and a target lesion complete response rate of 63.4%, along with a median PFS of 10.6 months and median OS of 18.1 months in the evaluable patient population, which has a poorer prognosis than those patients eligible for the phase III study.

"The first patient enrolled in our global phase III study is a testament to the tireless commitment of our team, investigators, and strategic collaborators," said Laurent Levy, co-founder and chairman of the executive board at Nanobiotix. "Together, we strive to bring innovation to patients with cancer and our belief is that NANORAY-312 will represent another critical step in making our vision a reality."

The U.S. Food and Drug Administration (FDA) has granted Fast Track designation for the investigation of radiotherapy-activated NBTXR3 in the NANORAY-312 population, which includes the opportunity for Priority Review and Accelerated Approval.

About NBTXR3

NBTXR3 is a novel, potentially first-in-class oncology product composed of functionalized hafnium oxide nanoparticles that is administered via one-time intratumoral injection and activated by radiotherapy. The product candidate’s physical mechanism of action (MoA) is designed to induce significant tumor cell death in the injected tumor when activated by radiotherapy, subsequently triggering adaptive immune response and long-term anti-cancer memory. Given the physical MoA, Nanobiotix believes that NBTXR3 could be scalable across any solid tumor that can be treated with radiotherapy and across any therapeutic combination, particularly immune checkpoint inhibitors.

NBTXR3 is being evaluated in locally advanced head and neck squamous cell carcinoma (HNSCC) as the primary development pathway. The company-sponsored phase I dose escalation and dose expansion study has produced favorable safety data and early signs of efficacy. In February 2020, the United States Food and Drug Administration granted regulatory Fast Track designation for the investigation of NBTXR3 activated by radiation therapy, with or without cetuximab, for the treatment of patients with locally advanced HNSCC who are not eligible for platinum-based chemotherapy.

Nanobiotix has also prioritized an Immuno-Oncology development program—beginning with a Company sponsored phase I clinical study evaluating NBTXR3 activated by radiotherapy in combination with anti-PD-1 checkpoint inhibitors for patients with locoregional recurrent or recurrent/metastatic HNSCC and lung or liver metastases from any primary cancer eligible for anti-PD-1 therapy either naïve or resistant to prior PD-1 (either primary or secondary as per SITC (Free SITC Whitepaper) criteria).

Given the Company’s focus areas, and balanced against the scalable potential of NBTXR3, Nanobiotix has engaged in strategic collaborations with world class partners to expand development of the product candidate in parallel with its priority development pathways. Pursuant to this strategy, in 2019 Nanobiotix entered into a broad, comprehensive clinical research collaboration with The University of Texas MD Anderson Cancer Center to sponsor several phase I and phase II studies to evaluate NBTXR3 across tumor types and therapeutic combinations. In 2021, the Company entered into an additional strategic collaboration agreement with LianBio to support its global phase III study in Asia along with four future registrational studies.

On January 5, 2022 Zymeworks Inc. (NYSE: ZYME), a clinical-stage biopharmaceutical company developing multifunctional biotherapeutics, reported the appointment of Mr. Kenneth Galbraith as Chair and Chief Executive Officer (CEO) of Zymeworks, effective on or before February 1, 2022 (Press release, Zymeworks, JAN 5, 2022, View Source [SID1234598283]). Mr. Galbraith will succeed Zymeworks co-founder Ali Tehrani, Ph.D., who has served as President and CEO since 2003. Dr. Tehrani will remain as an advisor to the Company to assist with the transition.

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"Ken Galbraith is an outstanding global leader who brings more than 30 years of life science industry, venture capital and commercialization experience to Zymeworks, along with a proven track record of strong leadership and operational skills," said Lota Zoth, Zymeworks’ current Board Chair. "The Board unanimously believes that Ken is the ideal leader to implement our next phase of development as we continue late-stage clinical trials for zanidatamab and expand our R&D pipeline. We thank and recognize Ali for his outstanding service in creating a solid foundation and advancing Zymeworks to a late-stage clinical company with valuable R&D programs, numerous productive pharmaceutical partnerships, and a high-quality management team."

A former Zymeworks Board member from 2009 to 2013, Ken Galbraith has been working since 1987 as a life sciences executive, director, investor and advisor in the growth of both private and public companies from early-stage through regulatory approval and commercialization. Most recently, he served as executive-in-residence with Syncona (LSE:SYNC), a large British closed-ended healthcare investment trust dedicated to life science investments. He began his biotechnology career in Vancouver as CFO at QLT, where he was instrumental in growing the company to over 500 employees while gaining market approvals for several new medicines prior to his departure in 2000. During his lengthy career, Ken has played a pivotal role in the development of several successful biotechnology companies throughout North America, including AnorMED, Macrogenics, Alder Pharmaceuticals, Celator Pharmaceuticals, Novadaq and Angiotech, among others. He holds a Bachelor of Commerce degree with honors from the University of British Columbia.

"I have long believed in the potential of innovative technology platforms to generate novel multispecific antibodies and antibody-drug conjugates and transform the treatment of cancer. Zymeworks’ innovative approach, technology platforms and emerging product pipeline represent a tremendous opportunity, and I look forward to leading the Company during this exciting period of innovation in cancer therapies," said Ken Galbraith. "This year, we expect to progress our two ongoing pivotal clinical studies for zanidatamab, present important new data for zanidatamab and ZW49 to inform additional clinical development opportunities, further advance our preclinical product pipeline and gain insights from our pharmaceutical partners’ programs as they advance into and through clinical development."

The Company also announced that CFO Neil Klompas was promoted to the dual position of COO and CFO, effective immediately.

Ken Galbraith added, "Neil has been instrumental to the growth and financing of Zymeworks for 15 years, and I look forward to working closely with him, our employees, our partners and our Board of Directors to develop the next generation of biotherapeutics with the potential to improve outcomes for patients around the world with difficult-to-treat cancers."

On January 5, 2022 Median Technologies (ALMDT:PA) reported outstanding performance for its iBiopsy Lung Cancer Screening (LCS) CADe algorithm in detecting potentially cancerous lung nodules (Press release, MEDIAN Technologies, JAN 5, 2022, View Source [SID1234598282]).

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When screening for lung cancer, the entire lung must be scanned, which can generate hundreds of images for each patient to detect very small lung nodules. Time constraints and the very large numbers of images to review render it difficult for radiologists to exhaustively detect lung nodules without an automation tool. Without such automation tools, diagnostic errors may result when radiologists are dealing with fatigue. Automated detection tools can help radiologists read images and must offer high sensitivity to minimize false negatives and avoid missing nodules. These tools should also minimize the number of false positives to ensure that radiologists do not focus their attention and time on regions that are not clinically relevant, and will help to avoid lung biopsies as well as unnecessary follow up procedures for the patients.

iBiopsy LCS offers an integrated detection/diagnosis approach (CADe/CADx). The first step is detecting, as thoroughly as possible, all lung nodules in the CT scan images with minimal false negatives and false positives per scan. After automated detection, the diagnostic component (CADx) of iBiopsy LCS aims to reach high levels of sensitivity and specificity, accurately characterizing the presence of cancer while minimizing the false positive rate. False positives are one of the major barriers to adopting screening programs globally. It bears recalling that the outstanding characterization results of iBiopsy CADx were published on September 6, 2021 (performance characterizing cancerous nodules at all stages) and on November 23, 2021 (focus on stage 1 cancers).

The results released today by Median Technologies specifically focus on the lung nodule detection function, which applies Median’s proprietary deep learning algorithms to low-dose computed tomography (LDCT). They are based on a cohort of 888 patients from the LIDC/IDRI2 public database. The 10-fold cross-validation method was used for training (800 train/88 test patients). The overall result, obtained by aggregating the ten test fold results, showed a sensitivity of 94.9% for a false positive rate of 1 per CT scan.

According to publicly available data on the performance of lung CADe devices currently on the market, iBiopsy detection algorithms show the best combination of sensitivity/false positives per CT scan.

"After announcing iBiopsy’s first outstanding results for malignant vs. benign lung nodule characterization in 2021, we are proud to announce our detection algorithm’s performance," highlights Fredrik Brag, CEO and founder of Median. "These results give us reason to be optimistic as we enter the final phase of iBiopsy Lung Cancer Screening’s technological risk mitigation. We are now working on combining detection and diagnosis modules to determine integrated performance. We believe it is only by integrating these two functions in the same software as a medical device (SaMD) that we can remove the current barriers to implementing lung cancer screening programs. Large international trials have already shown the major impact of LDCT lung screening programs on mortality. In parallel, as demonstrated by studies such as the IASLC staging project and an I-ELCAP cohort study respectively, detecting and diagnosing the disease at its earlier stage, when lung nodules are still very small and manageable is key to drastically increasing the patient 5-year and 15-year overall survival rates, saving the lives of patients suffering from lung cancer," Brag added.

On January 5, 2022 Phase Genomics, Inc., a biotech company leading advancements in next-generation sequencing (NGS) solutions for genome assembly and analysis, reported the launch of its new platform for precision oncology (Press release, Phase Genomics, JAN 5, 2022, View Source [SID1234598281]).

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The OncoTerra platform implements a rapid, cost-effective alternative to current cytogenomic analysis tools while unlocking information in even the most challenging of sample types. The platform offers genome-wide detection of a wide range of chromosomal abnormalities without the need for actively dividing cells, high molecular weight DNA extraction, or a high starting cell volume—all in a single assay. Furthermore, it is most uniquely effective on formalin-fixed paraffin-embedded (FFPE) samples, enabling a host of new oncology applications.

"Capturing structural genomic information in previously inaccessible sample types and transforming it into actionable insights relevant to human health is an immensely powerful capability of our technology," said Ivan Liachko, Founder and CEO of Phase Genomics. "Accessing the vast amounts of clinical information that has been locked away in FFPE samples will be of great use to translational researchers in the oncology space."

FFPE samples currently make up >90% of samples from biopsies, or over 2 billion samples. The OncoTerra platform offers the unique capacity to unlock cytogenomic information stored in these samples, allowing researchers to collect more data than ever before, potentially leading to advancements in clinical care and diagnostics.

The platform is powered by Phase Genomics’ ultra-long-range sequencing technology that captures physical proximity data from DNA sequences in the genome. These data are then analyzed via proprietary machine learning tools to detect diverse chromosomal aberrations and rearrangements, including tumorigenic rearrangements, that cause and characterize diseases.

The Phase Genomics platform is for research use only and is not for use in diagnostic procedures. More information on the platform is available here.

View a webinar, hosted by Phase Genomics to learn more about this technology and follow Phase Genomics on Twitter for the latest news and information.

On January 5, 2022 Gennao Bio, a privately held genetic medicines company developing first-in-class, targeted nucleic acid therapeutics, reported that Stephen Squinto, Ph.D., chief executive officer and chair of the board, will present virtually at the 40th Annual J.P. Morgan Healthcare Conference on Monday, January 10, 2022 at 7:30 a.m. ET (Press release, Gennao Bio, JAN 5, 2022, View Source [SID1234598280]).

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