On May 28, 2026 Trogenix Ltd ("Trogenix" or the "Company"), a clinical-stage oncology company engineering programmable immunotherapies, reported that the first patient has been dosed in its Phase I/II clinical trial evaluating TGX-007, a dual-payload adeno-associated virus (AAV)-based gene therapy. It will treat patients with newly diagnosed or recurrent glioblastoma (GBM), one of the most common and aggressive forms of brain cancer.

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The trial, named ADePT, is being conducted at two leading clinical sites: NHS Lothian, UK, and Ohio State University Hospital, USA. The seamless trial design will identify the optimal biological dose of TGX-007 and evaluate its safety and efficacy in newly diagnosed and recurrent GBM patients. It will generate clear and early insights into biological activity, tumour selectivity, safety, target engagement, immune activation and overall survival in GBM patients. The initial clinical data will immediately drive the Company’s broader vision, enabling testing of a potentially transformational treatment approach across many different solid tumours.

Ken Macnamara, Chief Executive Officer of Trogenix, commented:

"We’re excited to advance the ADePT clinical trial and bring a potentially transformative "one time" treatment to patients with significant unmet need. With precisely controlled therapeutic delivery, a strong safety profile, and support from US and UK regulators, we are positioned to treat newly diagnosed and recurrent glioblastoma patients ahead of standard-of-care. The trial will provide meaningful clinical endpoints for high-grade gliomas and inform development across our broader solid tumour pipeline. We are grateful to the patients, investigators and clinical teams for making this possible and look forward to reporting data from the trial in due course."

TGX-007 harnesses Trogenix’s proprietary Synthetic Super-Enhancer (SSE) technology to exploit the core cancer cell identity. In doing so, the programmable immunotherapy can switch on combination payloads to precisely kill tumour cells and activate the immune response. The dual mechanism of action, delivered via a single vector, creates synergistic effects that act as an in-situ vaccination to provide long lasting protection from a "one time" treatment.

Faye Robertson, Chief Investigator, Consultant Clinical Oncologist and Honorary Clinical Senior Lecturer University of Edinburgh, added:

"Despite decades of research, outcomes for patients with glioblastoma remain extremely poor, underscoring the urgent need for innovative therapeutic approaches. The start of the Phase I/II ADePT trial is a critical moment for patients facing this challenging and devastating disease. It is the culmination of more than a decade of research in pursuit of a therapy that delivers dual therapeutic payloads with exceptional precision directly to glioblastoma cells, while sparing surrounding healthy tissue. We are delighted to have treated the first patient in Edinburgh and look forward to progressing ADePT to determine whether this approach translates into meaningful clinical benefit for patients."

The first patient dosing in the ADePT trial follows the publication in Nature in April 2026 of a breakthrough pre-clinical study led by Professor Steve Pollard, Chief Scientific Officer of Trogenix, demonstrating that a single dose of SSE-based therapy achieved complete tumour eradication in 83% of treated cases in an aggressive brain cancer model that closely mimics human GBM, with no toxicity over 11 months and no tumour recurrence. The ADePT trial will establish the clinical proof-of-concept that will guide the Company’s broader pipeline development across colorectal, liver, and lung cancers.

Further details of the ADePT trial can be found here: NCT07346144

(Press release, Trogenix, MAY 28, 2026, View Source;utm_medium=rss&utm_campaign=trogenix-doses-first-patient-in-phase-i-ii-clinical-trial-of-tgx-007-gene-therapy-for-glioblastoma [SID1234666105])

On May 28, 2026 QSA Global, Inc., a global leader in specialized radioactive source manufacturing and medical radiochemical services, and NorthStar Medical Radioisotopes, LLC (NorthStar), a leading radiopharmaceutical company, reported the execution of a multi-year strategic services agreement. This partnership is designed to solidify the supply chain for radium-226 (Ra-226) targets, the starting material for Actinium-225 (Ac-225) production, and further supports NorthStar’s commercial-scale production of no carrier added (n.c.a.) Ac-225 used in next-generation Targeted Alpha Therapies (TAT).

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The partnership combines QSA Global’s decades of specialized experience in high-activity source handling, industrial regulatory compliance, and logistics with NorthStar’s innovative approach to commercial-scale radiopharmaceutical production. It features a multi-year purification campaign where QSA Global will process legacy Ra-226 on behalf of NorthStar, transforming the material into high-purity precursors that will directly feed continuous target capsule manufacturing. Following irradiation and processing by NorthStar to produce n.c.a. Ac-225, the recovered radium will be returned to QSA Global for recycling into new targets – establishing a highly efficient, closed-loop supply chain.

"This multi-year agreement with QSA Global strengthens our supply chain with a reliable, high-quality supply of Ra-226 targets critical to our n.c.a. Ac-225 production capabilities," said Dr. Frank Scholz, President & CEO of NorthStar. "By ensuring consistent access to these vital starting materials, we can confidently meet growing demand within the industry."

"By managing the complex, highly regulated lifecycle of radium-226, QSA Global enables partners like NorthStar to focus their resources entirely on commercial Actinium-225 production," said Joe Lapinskas, Innovation Director at QSA Global, Inc. "NorthStar was a foundational partner as we developed our specialized radium services. We are proud to leverage our decades of high-activity radioactive materials expertise to help secure this critical supply chain and support NorthStar’s mission of delivering life-saving TATs to patients."

About Ac-225
NorthStar has been successfully producing n.c.a. Ac-225 using an indirect manufacturing approach that combines electron-accelerator irradiation of a Ra-226 target, followed by purified Ra-225 sources that constantly in-grow n.c.a. Ac-225. Ac-225 is an alpha-emitter, which belongs to a powerful class of radioisotopes that deliver high-energy, highly localized radiation directly to diseased cells. Ac-225 can be attached to a variety of targeting molecules, including antibodies, peptides, and small molecules, enabling precise delivery to cancer cells. This versatility makes isotopes like Ac-225 particularly valuable in supporting the development of next-generation radiopharmaceutical therapies that are highly effective and selective.

(Press release, NorthStar Medical Radiostopes, MAY 27, 2026, View Source [SID1234666185])

On May 27, 2026 Panome Bio, a leading multi-omics contract research organization (CRO) and CLIA-certified laboratory, and TD2 Oncology, a globally recognized oncology-focused CRO specializing in preclinical and clinical drug development, reported an expansion of their strategic partnership. The collaboration establishes a coordinated framework that gives researchers access to translational oncology expertise, clinical development, and comprehensive multi-omics analysis under a connected program.

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The partnership pairs TD2’s deep expertise in translational and clinical oncology with Panome Bio’s capabilities in metabolomics, proteomics, transcriptomics and exposomics. By aligning these strengths, the two organizations provide researchers with a more connected approach to studying cancer biology and therapeutic response, from research models through clinical trials.

TD2 is a widely recognized leader in translational oncology research and clinical development, with platforms designed to evaluate therapeutic candidates in clinically relevant settings. By integrating Panome Bio’s multi-omics technologies into this ecosystem, researchers can now connect therapeutic outcomes with broad molecular measurements spanning metabolism, protein signaling, gene expression, and environmental exposures. This combined approach supports biomarker discovery, mechanisms associated with sensitivity or resistance to treatment and a more detailed understanding of cancer biology during drug development.

"Modern oncology research generates enormous amounts of biological data spanning model development through clinical trials, but translating those findings into a deeper molecular understanding remains a major challenge," said Edward Weinstein, CEO of Panome Bio. "Working with TD2 allows us to pair their expertise across translational and clinical oncology with comprehensive multi-omics profiling. This will help to better characterize therapeutic response and connect biology across every stage of development."

"Our focus has always been optimizing oncology programs in moving efficiently from translational development into the clinic," said Stephen Gately, CEO of TD2 Oncology. "No other oncology CRO can offer this combination of translational and clinical expertise alongside this depth of molecular profiling. This partnership gives drug developers a direct connection between therapeutic outcomes and the molecular data needed to understand them".

The partnership is particularly well-suited to biomarker discovery, mechanism-of-action studies, evaluation of drug resistance and characterization of biological variability in therapeutic response. By integrating molecular data across multiple molecular and biological layers, researchers can identify signatures associated with treatment sensitivity, resistance, toxicity, and patient stratification that may not be apparent through single-modality analysis alone. These capabilities can support clinical development efforts by improving patient selection strategies, informing biomarker-driven trial design, and helping sponsors better understand variability in clinical outcomes. The partnership is available immediately to researchers seeking coordinated multi-omics support spanning translational research through clinical development.

(Press release, TD2, MAY 27, 2026, View Source [SID1234666138])

On May 27, 2026 Ernexa Therapeutics (Nasdaq: ERNA), an industry innovator developing novel cell therapies for the treatment of advanced cancer and autoimmune disease, reported significant progress in the development of ERNA-101, the company’s lead therapeutic candidate, achieving multiple critical milestones that position the program for a planned Investigational New Drug (IND) submission in the third quarter of 2026 and the anticipated initiation of its first-in-human clinical study.

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The company has successfully completed process development activities for the ERNA-101 manufacturing process and has now transitioned into Good Manufacturing Practice (GMP) manufacturing in preparation for clinical development. In parallel, technology transfer activities for ERNA-101 are actively underway, representing another major operational milestone supporting the planned IND submission timeline.

"These achievements represent a defining moment for Ernexa Therapeutics," said Sanjeev Luther, CEO of Ernexa Therapeutics. "Completing process development and advancing into GMP manufacturing are critical steps toward IND clearance and the launch of our first-in-human clinical study for ERNA-101. We are executing against our development strategy with urgency and discipline and remain firmly on track for our planned IND filing in the third quarter of 2026, Most importantly, we believe ERNA-101 has the potential to bring new hope to patients and families in need of better therapeutic options."

The advancement of ERNA-101 reflects continued momentum across the company’s development and manufacturing operations and marks an important evolution in Ernexa’s corporate trajectory toward becoming a clinical-stage biotechnology company.

"With technology transfer now in progress and manufacturing activities advancing as planned, we believe Ernexa is entering a transformational phase," added CEO, Sanjeev Luther. "These milestones will significantly strengthen our operational readiness and reinforce our confidence in the path toward clinical evaluation of ERNA-101."

ERNA-101 is being advanced as part of Ernexa Therapeutics’ broader mission to develop innovative therapies designed to address significant unmet medical needs.

Key Highlights

IND submission for ERNA-101 targeted for Q3 2026
Technology transfer activities currently in progress
Process development for ERNA-101 manufacturing successfully completed
Transition to GMP manufacturing underway in preparation for clinical studies
Company advancing toward anticipated transformation into a clinical-stage biotechnology company
Progress supports planned first-in-human clinical study following IND clearance

(Press release, Ernexa Therapeutics, MAY 27, 2026, View Source [SID1234666137])

On May 27, 2026 Myriad Genetics, Inc., (NASDAQ: MYGN), a leader in molecular diagnostic testing and precision medicine, reported it will share data demonstrating the utility of Myriad’s Precise MRD (molecular residual disease) test across diverse cancer types.

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Myriad will share evidence across six poster presentations showcasing the prognostic power of its ultrasensitive MRD assay. Several of the presentations report interim outcomes from the groundbreaking MONSTAR-SCREEN-3 study, led by Dr. Takayuki Yoshino, National Cancer Center Hospital East, Japan. "MONSTAR-SCREEN-3 has demonstrated exceptional performance of Precise MRD across more than a dozen indications," said Dr. Yoshino. "In our presentation, ’Prognostic Impact of MRD Positivity at Ultra-sensitive ctDNA Levels Using a WGS-based Personalized Assay: A Pan-Cancer Analysis from MONSTAR-SCREEN-3,’ we report 97% baseline detection, with 16% of samples detected in the ultrasensitive range. Importantly, patients who were ctDNA-positive at one month post-surgery had significantly worse disease-free survival compared to those who were ctDNA-negative, suggesting that post-surgical ctDNA positivity, including at ultrasensitive levels, is strongly prognostic for recurrence risk."

Other presentations focused on ovarian cancer, gastric cancer, head and neck cancer, and sarcoma also demonstrate the emerging clinical utility of ctDNA as a biomarker of recurrence and therapy response. "Our findings highlight the clear advantage of a whole-genome, personalized MRD approach in capturing clinically meaningful signals at the lowest ctDNA levels," said Dale Muzzey, PhD, Chief Scientific Officer, Myriad Genetics. "Detecting ctDNA at very low levels consistently across multiple tumor types demonstrates that sensitivity truly matters. Precise MRD may enable a new standard in which ultra-sensitive detection translates directly into earlier, more confident clinical decision-making."

Attendees can meet Dr. Muzzey at the Industry Expert Theater #1 on Sun., May 31 from 9:30 to 10:30 am CDT for an introduction to the Precise MRD Test. The session will cover assay technical details and the clinical evidence across multiple solid tumors, including breast and colorectal cancers, and explore the role of highly sensitive MRD detection in oncology.

Myriad Presentations
Poster 64, abstract 4081: Whole-Genome Sequencing-Based Ultra-sensitive ctDNA Molecular Residual Disease Assessment in Resectable Gastric Cancer: Results from MONSTAR-SCREEN-3
Poster Session: Gastrointestinal Cancer—Gastroesophageal, Pancreatic, and Hepatobiliary
Sat., May 30, 9:00 am–12:00 pm CDT

Poster 181, abstract 3044: Prognostic Impact of Positivity at Ultra-sensitive ctDNA Levels Using a WGS-based Personalized Assay: A Pan-Cancer Analysis from MONSTAR-SCREEN-3
Poster Session: Developmental Therapeutics
Sat., May 30, 1:30-4:30 pm CDT

Poster 523, abstract 6066: Clinical Validation of Ultra-Sensitive WGS-based MRD Detection in Head and Neck Squamous Cell Carcinoma: Results from MONSTAR-SCREEN-3
Poster Session: Head and Neck Cancer
Sat., May 30, 1:30–4:30 pm CDT

Poster 270, abstract 5604: The Use of Circulating Tumor DNA to Stratify the Risk of Recurrence After Surgical Debulking in Epithelial Ovarian Cancer
Poster Session: Gynecologic Cancer
Mon., June 1, 9:00 am–12:00 pm CDT

Poster 334, abstract 11544: Ultra-Sensitive Whole-Genome Sequencing-Based Molecular Residual Disease Detection in Resectable Sarcoma in MONSTAR-SCREEN-3
Poster Session: Sarcoma
Mon., June 1, 1:30 – 4:30 pm CDT

Poster 501, abstract 10540: Association between physical activity and molecular residual disease clearance in postoperative cancer patients: The SCRUM-MONSTAR LIFELOG study
Poster Session: Prevention, Risk Reduction, and Genetics
Mon., June 1, 2026, 1:30pm – 4:30pm CDT

Conference Highlights
Myriad will welcome attendees to its booth (#25081) during exhibition hours. Myriad tests to be highlighted at the booth include:

Precise MRD (Molecular Residual Disease) Test is a tumor-informed assay that uses whole genome sequencing (WGS) to achieve ultra-sensitivity. This unique assay enables the custom selection of up to 1,000 targeted variants for deep analysis. It has impressive limits of detection and sensitivity.1 The test can be used to monitor circulating tumor DNA (ctDNA) levels throughout a patient’s clinical cancer care, starting immediately after diagnosis and continuing through treatment and surveillance.
MyRisk Hereditary Cancer Test with RiskScore combines genetics, clinical factors (Tyrer-Cuzick), and polygenic risk to uncover insights that gene testing alone may not provide, helping offer more information to support patient decisions in breast cancer risk assessment and management.
Prolaris + AI Prostate Cancer Prognostic Test is the first and only prostate cancer biomarker test to unite clinical-pathological features, an independent molecular score, and independent AI-powered digital pathology technology from Myriad’s partnership with PATHOMIQ AI.

The booth will also feature Myriad’s Biopharma services which are utilized for working in conjunction with Biopharma partners to advance drug development programs from biomarker discovery through CTA, CDx development, worldwide regulatory approval and global commercialization, including:

MyChoice CDx is the only FDA-approved homologous recombination deficiency (HRD) test specifically mentioned in ASCO (Free ASCO Whitepaper) guidelines for selecting patients with ovarian cancer who may benefit from PARP inhibitors.1 By determining comprehensive HRD status, the MyChoice CDx Test helps expand access to targeted therapy in both early and late-line settings.
MSK-ACCESS is a comprehensive liquid biopsy test developed by Memorial Sloan Kettering Cancer Center (MSK). The test offers noninvasive cancer genomic profiling and disease monitoring using cell-free DNA (cfDNA) obtained from blood and other body fluids. The test is currently available for use in conjunction with Myriad’s Pharma partnerships for CTA development and CDx utilizing Myriad’s partnership with SOPHiA GENETICS.
MSK-IMPACT is a solid tumor test for comprehensive genomic profiling (CGP) which delivers high-resolution profiling of complex biomarkers from DNA and RNA in a single, end-to-end workflow. The test is currently available for use in conjunction with Pharma partnerships for CTA development and CDx utilizing Myriad’s partnership with SOPHiA GENETICS.

Stop by Myriad booth #25081 to learn more or request a dedicated meeting at the show.

About the MONSTAR-SCREEN-3 Study
The MONSTAR-SCREEN-3 is a prospective multicenter study targeting more than 1,100 patients with solid tumors undergoing curative-intent treatment. Personalized panels were constructed using Precise MRD, incorporating up to 1,000 tumor-specific alterations identified through WGS of matched tumor tissue. Serial plasma samples were collected at baseline, post-neoadjuvant treatment (NAT) (when applicable), 1-month (1M) post-surgery, every 3 months in year 1, and every 6 months thereafter up to 2 years. Assay performance was evaluated across multiple cancer types for ctDNA detection and recurrence monitoring.

About Precise MRD
The Precise MRD test provides molecular insights across the cancer care continuum. After diagnosis, the test can help clinicians determine if adjuvant treatment is needed, or if cancer has recurred. Should cancer metastasize in a patient, Precise MRD can provide molecular insights showing whether treatment is working or if a patient’s ctDNA is increasing. For baseline tests, a personalized panel is developed based on a whole-genome sequencing profile of tumor tissue, and then the panel is used to measure the ctDNA level from an initial blood draw. For ongoing monitoring, the panel measures ctDNA levels from samples collected with a frequency based on where patients are in the treatment process. Clinicians will receive an easy-to-read report that shows whether ctDNA was detected or not. If ctDNA is detected, the concentration of ctDNA is reported, which allows clinicians to see historical results of the patient’s ctDNA concentration over time. Learn more at myriad.com/oncology/precise-mrd-test/.

(Press release, Myriad Genetics, MAY 27, 2026, View Source [SID1234666136])