On March 30, 2023 Checkpoint Therapeutics, Inc. ("Checkpoint") (Nasdaq: CKPT), a clinical-stage immunotherapy and targeted oncology company, reported financial results for the full-year ended December 31, 2022, and recent corporate highlights (Press release, Checkpoint Therapeutics, MAR 30, 2023, View Source [SID1234629653]).

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James F. Oliviero, President and Chief Executive Officer of Checkpoint, said, "The past year was a momentous one for Checkpoint, and we began 2023 with the submission of our Biologics License Application ("BLA") to the U.S. Food and Drug Administration ("FDA") seeking approval of cosibelimab, our investigational anti-PD-L1 antibody, as a treatment for patients with metastatic or locally advanced cutaneous squamous cell carcinoma ("cSCC") who are not candidates for curative surgery or radiation. Our BLA submission was subsequently accepted for filing and is under active review with a Prescription Drug User Fee Act ("PDUFA") goal date of January 3, 2024."

"This initial indication for cosibelimab represents a potential $1.6 billion U.S. market opportunity," continued Oliviero. "With its unique mechanism of action and compelling safety profile, we believe cosibelimab, if approved, would be uniquely positioned to provide an important new treatment option for cSCC patients who are currently underserved by available therapies."

2022 and Recent Corporate Highlights:

Checkpoint submitted a BLA to the FDA seeking approval of cosibelimab in January 2023. In March 2023, the FDA accepted for filing the BLA for cosibelimab and set a PDUFA goal date of January 3, 2024. In its BLA filing acceptance letter, the FDA indicated that no potential filing review issues have been identified, and that an advisory committee meeting to discuss the application is not currently planned.
In January 2022, Checkpoint announced positive top-line results from its registration-enabling clinical trial evaluating the safety and efficacy of cosibelimab, administered as a fixed dose of 800 mg every two weeks in patients with metastatic cSCC. The study met its primary endpoint, with cosibelimab demonstrating a confirmed objective response rate ("ORR") of 47.4% (95% CI: 36.0, 59.1) based on independent central review of 78 patients enrolled in the metastatic cSCC cohort using Response Evaluation Criteria in Solid Tumors version 1.1 criteria.
In May 2022, Checkpoint announced that it received Pediatric Investigation Plan product-specific waivers from the European Medicines Agency and the U.K. Medicines & Healthcare products Regulatory Agency for cosibelimab in cSCC. The waivers remove the requirement to conduct pediatric clinical studies to support cosibelimab marketing authorization applications in Europe.

In June 2022, Checkpoint announced that the top-line results of its pivotal trial of cosibelimab in metastatic cSCC were presented at the 2022 American Society of Clinical Oncology (ASCO) (Free ASCO Whitepaper) Annual Meeting. Data highlights presented included confirmed ORR by independent central review in the modified intent-to-treat population of 48.7% (95% CI, 37.0-60.4), and 13.2% of patients achieved a complete response in target lesions. Cosibelimab was generally well tolerated with no unexpected safety signals.

Also in June 2022, Checkpoint announced positive interim results from its pivotal trial of cosibelimab in locally advanced cSCC. As of the March 2022 data cutoff, the confirmed ORR by independent central review in 31 patients was 54.8% (95% CI: 36.0, 72.7).

In July 2022, Checkpoint successfully completed two pre-BLA meetings with the FDA (chemistry, manufacturing and controls and clinical/non-clinical). Based upon favorable interactions with the agency, the January 2023 BLA submission included both the metastatic and locally advanced cSCC indications. Checkpoint also reached agreement with the FDA on all key aspects discussed regarding the content of the BLA submission.
In December 2022, Checkpoint completed a registered direct offering priced At-the-Market under Nasdaq rules, for total gross proceeds of approximately $7.5 million.
In February 2023, Checkpoint completed another registered direct offering priced At-the-Market under Nasdaq rules and a concurrent private placement of two series of warrants to purchase Checkpoint common stock, for total gross proceeds of approximately $7.5 million.
Financial Results:

Cash Position: As of December 31, 2022, Checkpoint’s cash and cash equivalents totaled $12.1 million, compared to $54.7 million at December 31, 2021, a decrease of $42.6 million. This cash position is not reflective of the registered direct offering closed in February 2023 for total gross proceeds of approximately $7.5 million.
R&D Expenses: Research and development expenses for the year ended December 31, 2022, were $49.8 million, compared to $48.5 million for the year ended December 31, 2021, an increase of $1.3 million. Research and development expenses for the year ended December 31, 2022 included $2.8 million of non-cash stock expenses, compared to $7.3 million in non-cash stock expenses for the year ended December 31, 2021.
G&A Expenses: General and administrative expenses for the year ended December 31, 2022, were $8.7 million, compared to $8.5 million for the year ended December 31, 2021, an increase of $0.2 million. General and administrative expenses for the year ended December 31, 2022 included $2.5 million of non-cash stock expenses, compared to $3.5 million in non-cash stock expenses for the year ended December 31, 2021.
Net Loss: Net loss attributable to common stockholders for the year ended December 31, 2022 was $62.6 million, or $7.09 per share, compared to a net loss of $56.7 million, or $7.45 per share, for the year ended December 31, 2021.

On March 30, 2023 Lisata Therapeutics, Inc. (Nasdaq: LSTA) ("Lisata" or the "Company"), a clinical-stage pharmaceutical company developing innovative therapies for the treatment of advanced solid tumors and other serious diseases, provided a business update and reports financial results for the three and twelve months ended December 31, 2022 (Press release, Caladrius Biosciences, MAR 30, 2023, View Source [SID1234629652]).

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"Last year (2022) was a year of major transformation, excitement and renewed energy for Lisata, allowing us to enter 2023 with growing momentum as we continue to build an enduring pharmaceutical company," stated David J. Mazzo, Ph.D., Chief Executive Officer of Lisata. "We believe in the potential of our new development pipeline and take pride in the advancement of our clinical studies in oncology and other serious diseases. LSTA1, our lead investigational product candidate from the CendR Platform, is the subject of multiple planned and ongoing clinical trials being conducted globally in a variety of solid tumor types and in combination with several anti-cancer agents. Based on substantial preclinical and, importantly, early human clinical data, we believe that LSTA1 has the potential to become an integral part of a revised standard-of-care therapy for many difficult to treat cancers.
Dr. Mazzo continued, "We are dedicated to continued efficient execution of our studies and, eventually, to producing definitive data hopefully confirming the promise of our clinical development pipeline. We anticipate that such execution and those data will result in increased shareholder value while prompting additional attractive partnering opportunities. I look forward to providing further updates on our progress in the coming weeks and months."
Development Portfolio Update

LSTA1 (formerly CEND-1) as a treatment for solid tumor cancers in combination with other anti-cancer agents

LSTA1 is an investigational drug designed to activate a novel uptake pathway that allows co-administered or tethered anti-cancer drugs to penetrate solid tumors more effectively. LSTA1 actuates this active transport system in a tumor-specific manner, resulting in systemically co-administered anti-cancer drugs more efficiently penetrating and accumulating in the tumor, while normal tissues are not affected. LSTA1 also has the potential to modify the tumor microenvironment, with the objective of making tumors more susceptible to immunotherapies. We and our collaborators have amassed significant non-clinical data demonstrating enhanced delivery of a range of emerging anti-cancer therapies, including immunotherapies and RNA-based therapeutics. To date, LSTA1 has also demonstrated favorable safety, tolerability and activity in completed and ongoing clinical trials designed to test its ability to enhance delivery of standard-of-care chemotherapy for pancreatic cancer. Currently, LSTA1 is the subject of Phase 1b/2a and 2b clinical studies being conducted globally in various solid tumors, including metastatic pancreatic ductal adenocarcinoma, in combination with a variety of anti-cancer regimens. The combination of LSTA1 with corresponding standards-of-care in other solid tumor indications is planned for clinical study in the first half of 2023.

HONEDRA (LSTA12, formerly CLBS12) for the treatment of critical limb ischemia ("CLI")

HONEDRA is the Company’s SAKIGAKE-designated product candidate for the treatment of CLI and Buerger’s disease in Japan, which is now in the pre-consultation phase of the registration process with the Pharmaceuticals and Medical Devices Agency ("PMDA") in Japan. Data from the follow-up of all patients completed in the registration-eligible clinical trial in Japan have been compiled and are being reviewed by the PMDA, after which the PMDA is expected to provide important perspective to be considered in preparation for the formal consultation meetings which precede the Japanese new drug application. If successful in the pre-consultation process, Lisata expects formal clinical consultation to occur during 2023. Concomitantly, the Company has reinforced its efforts to secure a Japanese partner to complete the remaining steps of registration as well as eventual commercialization in Japan.

XOWNA (LSTA16, formerly CLBS16) for the treatment of coronary microvascular dysfunction ("CMD")

XOWNA is an experimental regenerative therapy for the treatment of CMD. It was the subject of a positive Phase 2a study (the "ESCaPE-CMD trial") reported in 2020 as well as the FREEDOM Trial, a Phase 2b study conducted in the U.S. The FREEDOM Trial was originally designed as a 105-patient double-blind, randomized, placebo-controlled trial to further evaluate the efficacy and safety of intracoronary delivery of autologous CD34+ cells (XOWNA) in subjects with CMD and without obstructive coronary artery disease and was expected to complete enrollment in approximately 12 months. As previously disclosed, enrollment in the FREEDOM Trial initially proceeded as planned with the first patient treated in January 2021; however, the impact of the COVID-19 pandemic in the U.S., coupled with supply chain issues associated with the catheters used for diagnosis of CMD and/or administration of XOWNA, as well as with a contrast agent typically used in many catheter laboratories, have made and continue to make enrollment much slower than originally predicted and challenging to accelerate. As a result, the Company announced that enrollment in the FREEDOM Trial had been suspended and that it intended to conduct an interim analysis of the data from not less than the first 20 patients enrolled using the 6-month follow-up data to evaluate the efficacy and safety of XOWNA in subjects with CMD. Based on that and the input of Key Opinion Leaders, the Company determined that execution of a redesigned FREEDOM-like trial would be the appropriate next step, but the cost of such a trial would be prohibitively expensive to undergo alone. Accordingly, the Company’s board of directors concluded that XOWNA development will only be continued if a strategic partner that can contribute the necessary capital for a redesigned trial is identified and secured.

LSTA201 (formerly CLBS201) for the treatment of diabetic kidney disease ("DKD")

Progressive kidney failure is associated with attrition of the microcirculation of the kidney. Preclinical studies in kidney disease and injury models have demonstrated that protection or replenishment of the microcirculation results in improved kidney function. Based on these observations, the Company initiated a Phase 1b, open-label, proof-of-concept trial evaluating LSTA201, a CD34+ regenerative cell therapy investigational product for intra-renal artery administration in patients with DKD. Patients selected for the study were in the pre-dialysis stage of kidney disease and exhibited rapidly progressing stage 3b disease. The protocol provided for a cohort of six patients overseen by an independent Data Safety Monitoring Board with the objective of determining the tolerance of intra-renal cell therapy injection in DKD patients as well as the ability of LSTA201 to regenerate kidney function. The principal read-out of data was based on the 6-month follow-up visit for all patients. A key criterion for continued development of LSTA201 was determined, a priori, to be the ability of LSTA201 to demonstrate a therapeutic effect that will make it competitive in the field of DKD treatment, i.e., kidney function regeneration, as indicated by increased Glomerular Filtration Rate ("GFR"). The Company treated the first patient in the LSTA201 proof-of-concept study in April 2022 and completed treatment for all six subjects during the third quarter of 2022. Top line results, which were reported on February 6, 2023, showed that LSTA201 was safe and well-tolerated by patients with no serious adverse events related to the therapy. However, the study did not demonstrate a consistent improvement in kidney function among patients. Nevertheless, the Company, based on the encouragement of the study’s principal investigator/key opinion leader, believes there may still be potential for use of CD34+ cell therapy for the treatment of DKD. However, it is expected that further development of LSTA201 would require significantly larger studies and capital investment. Thus, LSTA201 development will only be continued if a strategic partner that can contribute the necessary capital for future development is identified.

Fourth Quarter and Full Year 2022 Financial Highlights

Research and development expenses for the fourth quarter of 2022 were $3.2 million, a 22% decrease compared with $4.1 million for the fourth quarter of 2021, and $13.1 million for the year ended December 31, 2022 compared to $17.6 million for the year ended December 31, 2021, representing a decrease of approximately 26%. This was primarily due to a decrease in expenses associated with our XOWNA Phase 2b study (the FREEDOM Trial) as a result of the suspension in enrollment which commenced in the second quarter of 2022 and study close out activities in the third quarter of 2022, a decrease in expenses associated with HONEDRA in Japan related to study close out costs and one off recruiting expenses and interim chief medical officer consulting expenses in the prior year partially offset by the addition of manufacturing activities for LSTA1 and enrollment activities for the AGITG ASCEND study.

Research and development in both periods related to:

•Expenses associated with our XOWNA Phase 2b study (the FREEDOM Trial);
•Expenses associated with our registration-eligible study for HONEDRA in critical limb ischemia in Japan as well as corresponding regulatory discussions support expenses;
•Expenses associated with the preparation of our filing of an Investigational New Drug Application, as well as study execution expenses for the clinical study of LSTA201 for treatment of DKD; and
•Expenses associated with the addition of manufacturing activities for LSTA1, enrollment activities for the LSTA1 Phase 2b ASCEND study and preparatory activities associated with the design of a planned LSTA1 proof-of-concept basket trial in various solid tumors and in combination with the corresponding standards of care.
General and administrative expenses, which focus on general corporate related activities, were $3.3 million for the three months ended December 31, 2022, representing an increase of 22% compared to $2.7 million for the three months ended December 31, 2021, and $14.1 million for the year ended December 31, 2022, representing an increase of 23% compared to $11.5 million for the year ended December 31, 2021. This was primarily due to a one-time increase in fees associated with the review of potential strategic transactions and merger related costs, an increase in equity expense as a result of performance stock unit vesting, merger option assumption expense and departing board member restricted stock unit vesting in addition to an increase in expenses associated with our annual stockholder meeting. Our general and administrative expenses are comprised of general corporate-related activities.

Overall, net losses were $54.2 million (includes non-routine merger related in-process research and development expense of $30.4 million) and $27.5 million for the years ended December 31, 2022 and 2021, respectively.

Balance Sheet Highlights

As of December 31, 2022, the Company had cash, cash equivalents and marketable securities of approximately $69.2 million. Current projections predict operating cash through the first half of 2025, encompassing anticipated data milestones from several ongoing and/or planned clinical studies.

Conference Call Information

Lisata will hold a live conference call today, March 30, 2023, at 4:30 p.m. Eastern time to discuss financial results, provide a business update and answer questions.

The Company is utilizing a new conference call service. Those wishing to participate must register for the conference call by way of the following link: CLICK HERE TO REGISTER. Registered participants will receive an email containing conference call details for dial-in options. To avoid delays, we encourage participants to dial into the conference call fifteen minutes ahead of the scheduled start time.
A live webcast of the call will also be accessible under the Investors & News section of Lisata’s website and will be available for replay beginning two hours after the conclusion of the call for 12 months.

On March 30, 2023 ThirtyFiveBio, a biotechnology company developing first-in-class small molecule inhibitors of G protein-coupled receptor 35 (GPR35) for the treatment of gastrointestinal (GI) disease, emerged from stealth and reported that it will present the first data from its GPR35 antagonist program at the upcoming American Association for Cancer Research (AACR) (Free AACR Whitepaper) Annual Meeting 2023 (Press release, ThirtyFiveBio, MAR 30, 2023, View Source [SID1234629633]). The presentation will include a suite of preclinical data highlighting the biological role of GPR35 in GI disease and cancers, outlining the hypothesis that GPR35 activity has the potential to drive pro-oncogenic growth biology in digestive tract cancers, and spotlighting the company’s discovery of potent GPR35 inhibitors that demonstrate the ability to prevent GPR35 signaling and tumour growth in a patient-derived cancer model. The AACR (Free AACR Whitepaper) conference is being held April 14-19, 2023, in Orlando, Florida.

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ThirtyFiveBio, which has raised $20 million in seed financing to date, was created in 2021 by M:M Bio Limited (M:M Bio) in partnership with Canaan Partners. The company was formed to advance foundational research on the biology of GPR35 and the role that the target plays in a range of GI diseases, including cancers of the digestive tract. In less than two years since its founding, ThirtyFiveBio has built a fully enabled drug discovery platform and is advancing multiple unique families of first-in-class small-molecule inhibitors of GPR35 through lead optimization activities.

"We are excited to unveil ThirtyFiveBio, the third innovative biotechnology company that we have created in collaboration with Canaan Partners, a group with who we share the goal of supporting efficient development of first-in-class medicines with clear benefit to patients and payers," said Tom McCarthy, Ph.D., chairman of M:M Bio and co-founder and executive chair of ThirtyFiveBio. "ThirtyFiveBio has the key elements that we look for when starting a company, namely thought leadership on the biology of a genetically validated target in an area of high unmet clinical need, paired with the drug discovery know-how required for the creation of first-in-class small molecules. As with Grey Wolf Therapeutics and Pathios Therapeutics, our other ecosystem companies, ThirtyFiveBio benefits from M:M Bio’s hubs of excellence, which span a wide range of drug discovery and development services, as well as complete and agile operational support."

The role of GPR35 in GI diseases is genetically validated with several drug developers advancing programs designed to address the target. To date, virtually all these efforts have been focused on increasing the activity of GPR35 with targeted agonists. However, important recent scientific findings, including key insights from the ThirtyFiveBio team, support the hypothesis that GPR35 antagonism may represent a more appropriate therapeutic approach by blocking unwanted GPR35 signaling. Based on this evolved scientific perspective, supported by the company’s work with several world-leading, academic GPR35 specialists, ThirtyFiveBio is uniquely pursuing antagonism of the target with first-in-class small molecule GPR35 inhibitors.

Supporting the company’s focus on GPR35 inhibition is a collection of pre-clinical data generated by its scientists that highlights the association between GPR35 mutations and GI diseases. This includes research showing that GPR35 variants are linked to irritable bowel disease, and that GPR35 expression is upregulated in GI cancers. The company has also shown that pathogenic mutations of GPR35 drive its increased expression and function. Furthermore, study results have demonstrated that commonly dysregulated GI-cancer genes can be reversed by knocking out GPR35 in cancer cells. Taken together, these findings provide compelling evidence that hyperactive genetic mutations within GPR35 contribute to a range of GI disease processes, and that inhibiting GPR35 activity may have therapeutic utility in these diseases.

"Our evolving understanding of GPR35 biology and its relevance to GI diseases has guided our unique focus on target antagonism and positioned the company with the unique opportunity to discover and advance multiple families of first-in-class small molecule inhibitors," said James Westcott, Ph.D., chief executive officer of ThirtyFiveBio. "We’re excited to unveil the first data from our GPR35 inhibition program, which will spotlight the extensive work our scientists and bioinformaticians have undertaken illuminating the way GPR35 impacts digestive tract cancers, how these findings support our rationale of pursuing GPR35 inhibition as a potential anti-tumour therapy, and our identification of various novel GPR35 antagonists suitable for advancement."

The AACR (Free AACR Whitepaper) presentation (#454/18), entitled "Validation of GPR35 as a Novel Cancer Target in Digestive Tract Cancers and Discovery of Potent, Selective GPR35 Inverse Agonists," will take place on Sunday, April 16, 2023, at 1:30 p.m. Eastern in the "New Drug Targets" poster session (PO.ET02.08) located in Section 16 within the Orange County Convention Center. The abstract for the poster presentation can be found here: View Source!/10828/presentation/2492

On March 30, 2023 DXVX reported that its affiliated company Oxford Vacmedix (OVM) has completed Phase 1a trial of cancer vaccine and plans to proceed Phase 1b trial of OVM-200 (Press release, Oxford Vacmedix, MAR 30, 2023, View Source [SID1234629632]).

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DxVx Co., Ltd. is the Korean Stock market (KOSDAQ) listed company and is the largest shareholder (42%) of OVM.

Oxford Vacmedix, the UK-based biopharma company focused on the development of vaccines to treat cancer announced today the successful completion of a Phase 1 trial of OVM-200 (OVM-200 is a cancer vaccine developed using OVM’s novel recombinant overlapping peptide (ROP) platform).

It targets survivin, a protein overexpressed by cancer cells that allow unregulated growth, and stimulates an immune response. This trial is both the first time OVM-200 has been used in people and also the first time any ROP based vaccine has been tested in the clinic.

The Phase I trial of OVM-200 is focused on safety and on establishing an immune response in patients with three tumor types – non small cell lung cancer (NSCLC), prostate cancer and ovarian cancer. Patients have been treated at four sites in the UK; University College London Hospital (UCLH), the cancer hospital of the Oxford University Hospitals Foundation Trust (OUHFT), the Christie NHS Foundation Trust in Manchester and the Sarah Cannon Research Institute in London. The Chief Investigator for the trial is Professor Martin Forster, based at UCLH. To date twelve patients have been treated at four dose levels in Phase 1a, the dose escalation part of the trial. A further 24 patients will be treated in Phase 1b.

A company official said, "We have a new advanced antigen platform technology which can utilize new cancer vaccine and apply to various anti-cancer areas. It will be able to provide more option to treat cancer for homo-hundred era."

The future production after all clinical and commercial studies is being considered to proceed in KHUB facilitates in Pohang, Southeast city of South Korea. KHUB is a bio-medical industrial complex, designed and led by Chong-Yoon Lim, the largest shareholder of DxVx and president of Hanmi Pharm.Co., Ltd.

On March 30, 2023 Exai Bio reported a collaboration agreement with Quantum Leap Healthcare Collaborative (QLHC) to broaden the use of Exai’s novel, RNA-based liquid biopsy platform to monitor patients’ treatment response and disease burden in the I-SPY 2 TRIAL (Press release, QuantumLeap, MAR 30, 2023, View Source [SID1234629631]). The expanded agreement is based on positive initial data using Exai’s platform in the trial, which demonstrated that oncRNAs were a significant predictor of patient outcomes. I-SPY 2 is the largest and longest-running ‘platform’ trial that provides a regulatory framework to study multiple novel therapeutic treatment arms for women with newly diagnosed, locally advanced breast cancer.

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Exai’s liquid biopsy platform is based on the discovery of orphan non-coding RNAs (oncRNAs), a novel class of small RNA biomarkers with high sensitivity and specificity. This next phase of the collaboration is expected to increase the evidence for oncRNAs as a predictor of clinical outcomes and measurement of treatment response in a larger cohort of patients and across more therapies within I-SPY 2.

"Breast cancer patients are in need of simple, accessible and more effective tools to monitor treatment response," said Dr. Laura Esserman, co-principal investigator of the I-SPY TRIALs and founder of QLHC. "Liquid biopsy has the potential to enable clinicians to act and change course during treatment. Based on the initial findings using Exai’s RNA-based approach, we are excited to investigate the impact that this novel platform could have. Their technology fits into our strategy of testing new approaches and tools to predict response early in the course of care. We are broadening our collaboration to include more patients and therapies, and we are thrilled to have this opportunity."

"At the heart of I-SPY 2, we are changing the way new treatments are developed for breast cancer, expanding indications and expediting these personalized options for patients in need," said Dr. Laura van ‘t Veer, who leads the Biomarker Working Group for the I-SPY TRIALs. "The success of the trial depends on partnering with advanced diagnostics companies like Exai that are bringing forth the next generation of predictive and prognostic biomarkers. The role of oncRNAs in predicting clinical outcomes and informing treatment decisions for breast cancer patients is very promising."

OncRNAs are abundant, stable, and actively secreted from cancer cells into the blood, making them a valuable class of biomarkers. Exai combines this underlying cancer biology with artificial intelligence (AI) to identify cancer-specific patterns based on its proprietary catalog of hundreds of thousands of oncRNAs. This approach results in a universal platform for test development that is efficient, accessible, and can be used across multiple products and cancer care settings such as screening and early detection, monitoring, molecular residual disease and therapy selection.

In the monitoring and neoadjuvant setting, Exai’s unique and reliable method to determine disease burden in the blood of cancer patients does not require prior tumor sequencing or individualization of a test for each patient, can be rapidly generated, and could prove complementary and more sensitive than tests that rely on ctDNA. In addition to using oncRNAs in the therapy selection and monitoring settings, Exai has presented data supporting use in screening and early detection at the 2022 San Antonio Breast Cancer Symposium demonstrating that its RNA-based technology accurately detected breast cancer at the earliest stages and smallest tumor sizes.

"We are delighted to extend our participation in such a groundbreaking trial, and to continue to demonstrate that our RNA-based approach can more effectively inform care decisions in a larger cohort of patients and across multiple therapies," said Pat Arensdorf, Chief Executive Officer at Exai. "Our goal is to provide a novel tool for biopharmaceutical companies to include in clinical trials to monitor early therapy response and efficacy, predict end-points, and enrich patient populations in an effective manner."

About the I-SPY TRIALS

The I-SPY TRIAL (Investigation of Serial Studies to Predict Your Therapeutic Response with Imaging And moLecular Analysis) was designed to rapidly screen promising experimental treatments and identify those most effective in specific patient subgroups based on molecular characteristics (biomarker signatures). The trial is a unique collaborative effort by a consortium that includes the Food and Drug Administration (FDA), industry, patient advocates, philanthropic sponsors, and clinicians from 16 major U.S. cancer research centers. Under the terms of the collaboration agreement, Quantum Leap Healthcare Collaborative is the trial sponsor and manages all study operations. For more information, visit ispytrials.org.