On May 30, 2023 Personalis, Inc. (Nasdaq: PSNL) reported that it will present new clinical data as scientific posters at the American Society of Clinical Oncology (ASCO) (Free ASCO Whitepaper) Annual Meeting 2023, which convenes from June 2-6, 2023, in Chicago, Ill (Press release, Personalis, MAY 30, 2023, View Source [SID1234632237]).

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Among many applications, clinicians and researchers are increasingly interested in the use of ctDNA to monitor immune checkpoint inhibitor (ICI) therapy response. Though ICIs can be extremely effective at treating certain forms of cancer, only a subset of patients will respond. Even when there’s an initial response, the development of resistance can lead to relapse.

"Monitoring patient response to ICI therapy using current technologies is often limited in scope and resolution," explains Christopher Hall, Chief Executive Officer and President at Personalis. "Ultra-sensitive ctDNA detection may allow near-real-time data on tumor therapeutic response and evolution, ultimately with the hope of guiding treatment decisions at critical timepoints."

Progress in the field has thus far been limited due to the significant technical challenge of detecting the low levels of ctDNA that may exist during and after curative treatment.

At ASCO (Free ASCO Whitepaper), Personalis will present data from two retrospective clinical studies that demonstrate a breakthrough in ctDNA detection sensitivity. "We’ve developed NeXT Personal with the express goal of ultra-sensitive detection of ctDNA during and after treatment, as well as enabling personalized care throughout the patient’s journey," says Hall.

NeXT Personal’s industry-leading sensitivity is recognized by leading experts in the oncology domain—such as Andy Nixon, Ph.D., from Duke Cancer Institute and Klaus Pantel, MD, Ph.D., from the University Medical Centre Hamburg-Eppendorf—who have begun to adopt this technology. Data from these collaborations will be presented at ASCO (Free ASCO Whitepaper), demonstrating the ultra-high sensitivity of NeXT Personal and its potential utility in monitoring tumor response to ICI. Specifically, the studies demonstrate that:

ctDNA levels during treatment correlate with therapy response, as defined by RECIST v1.1
ctDNA clearance, as determined by NeXT Personal, is predictive of patient survival in both melanoma and gastric cancer cohorts
Across both gastric and melanoma cohorts, NeXT Personal detected ctDNA fragments in quantities ranging from >300,000 down to as low as 2.3 PPM; with a median LOD of 1.97 PPM
Nearly a third of melanoma patients presented with ctDNA levels below 100 parts per million (PPM), which likely would have been missed by other available minimal residual disease (MRD) assays
NeXT Personal successfully detected the evolution of therapeutically relevant variants during treatment.
Collectively, these posters represent the latest in a growing body of evidence indicating that ultra-sensitive ctDNA detection is needed to bring higher resolution, and more personalized care to patients with cancer, both during treatment and after.

Details of the Personalis abstracts are outlined below, and further details about the poster presentations can be found here.

Poster details

Title: Ultra-sensitive, tumor-informed ctDNA profiling in patients with gastroesophageal cancer and treated with pembrolizumab and longitudinal ctDNA kinetics.
Overview: In collaboration with Duke Cancer Institute and the University of North Carolina, samples from a phase II clinical trial (NCT03342937) involving patients with metastatic esophagogastric cancer were tested using Personalis’ NeXT Personal platform to assess ctDNA levels and their utility for longitudinal disease monitoring and surveillance of dynamic tumor evolution. We found that ctDNA levels dynamically varied from 5.3 to 302,000 PPM, with NeXT Personal showing an ultra-sensitive limit of detection between 1.5 and 4.6 PPM. Results showed that a reduction in ctDNA during treatment corresponded with better outcomes. And, ctDNA analysis revealed the evolution of a potentially therapeutically relevant variant in one patient during treatment.

Title: Association of ultra-sensitive ctDNA assay to identify actionable variants and response to immune checkpoint inhibitor (ICI) therapy in metastatic melanoma.

Overview: Detection of MRD via ctDNA can identify therapeutic response/resistance months in advance of imaging, and monitoring clinically actionable variant dynamics in ctDNA may be important for guiding treatment. However, efforts to use ctDNA have been hindered by low sensitivity, with most assays having a limit of detection of ~100 PPM. In this study, we collaborated with the University Medical Centre Hamburg-Eppendorf. Samples collected from melanoma patients receiving ICI were collected over several years and, using NeXT Personal, ctDNA findings were correlated with clinical outcomes. Levels of ctDNA ranged from 2.3-100,000 PPM, with NeXT Personal showing an ultra-sensitive limit of detection of 1.97 PPM. Importantly, 37% of detections were below 100 PPM. In response to ICI, average ctDNA levels fell more than 3-fold and the frequency of multiple therapeutically relevant variants changed, such that tumors appeared less sensitive to ICI.

On May 30, 2023 AstraZeneca and Kiyatec, the leader in clinically correlated functional precision oncology, reported to have entered into a multifaceted research agreement to assess therapeutic efficacy of undisclosed preclinical assets using Kiyatec’s 3D spheroid screening platform, KIYA-PredictTM (Press release, AstraZeneca, MAY 30, 2023, View Source [SID1234632236]). The agreement to utilize Kiyatec’s spheroid platform aligns with AstraZeneca’s leadership and track record of successfully implementing novel, cutting edge oncology solutions with outside partners to productively develop and commercialize novel cancer therapeutics.

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Kiyatec’s proprietary spheroid platform successfully utilizes primary human tumor tissues, enabling a research strategy that takes advantage of the company’s ability to properly dissociate and characterize primary patient tissues and accurately determine therapeutic efficacy across multiple downstream assays. Importantly, a strong correlation between platform generated results and clinical outcomes has been demonstrated and published. With established clinical correlation, functional precision medicine platforms such as Kiyatec’s can help to provide crucial translational oncology data that supports clinical candidate selection, and ultimately helps to avoid efficacy failures later in the clinic.

This type of research agreement is a model for the entire oncology community by coupling crucial programs to reduce or avoid failures within the clinic due to lack of accurate translational models. Platforms such as Kiyatec’s KIYA-PredictTM that can offer a high degree of clinical correlations are powerful tools for all modalities of therapeutics to ensure accurate translational efficacy. Entering into this agreement with AstraZeneca continues to strengthen Kiyatec’s commitment to supporting biopharma’s oncology programs, and ultimately provide further validation as a global leader in functional precision medicine within the translational oncology drug discovery space.

On May 30, 2023 A2 Biotherapeutics, Inc. (A2 Bio), a clinical-stage cell therapy company developing first-in-class logic-gated cell therapies for solid tumors, reported that the first patient has been dosed in the Phase 1 clinical trial of A2B530. The multi-center Phase 1 dose escalation clinical trial, EVEREST-1 (NCT05736731), will enroll patients with colorectal, pancreatic and non-small cell lung cancers (Press release, A2 Biotherapeutics, MAY 30, 2023, View Source [SID1234632235]). EVEREST-1 will evaluate safety and determine the recommended dose of A2B530.

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A2B530 is the first autologous cell therapy developed from A2 Bio’s proprietary Tmod platform. The Tmod platform utilizes a dual-receptor design consisting of an activator that targets tumor cells and a blocker that protects normal cells. This novel design is aimed to tackle the fundamental challenge in solid tumor cancer medicines – the ability to selectively kill tumor cells and protect normal cells.

"We believe the selectivity of the Tmod platform forms the foundation for a new class of therapeutics for solid tumor cancers, with the goal of killing tumors while avoiding the dose-limiting toxicities associated with well-known cancer targets. Dosing our first patient is a significant milestone for A2 Bio and for patients seeking novel treatment options. This is the first medicine of an innovative pipeline that leverages the selectivity provided by the blocker to provide potentially safer and more efficacious therapeutics for cancer patients," said Scott Foraker, chief executive officer of A2 Bio.

A2B530 consists of an activator that targets carcinoembryonic antigen (CEA) and a blocker that targets HLA-A*02. CEA is a tumor-associated antigen expressed at high levels in colorectal, pancreatic and non-small cell lung cancers, but also in healthy gut tissues. HLA-A*02 is expressed in normal tissues and permanently lost via genetic deletion in tumor tissues in the patient population eligible for EVEREST-1. A2B530’s dual-receptor design is intended to provide selective killing of tumor tissues that express CEA and have lost the HLA-A*02 gene permanently.

"Dosing our first patient in EVEREST-1 is a key step to provide a precise, novel CAR T therapy to solid tumor patients with colorectal, pancreatic and non-small cell lung cancers. Tmod CAR T is designed to address the fundamental challenge of selectivity in solid tumor targeted therapy: to avoid on-target, off-tumor dose-limiting toxicity. We would like to thank our multiple investigators, clinical sites, patients and their families for their courage and commitment," said Dr. William Go, chief medical officer of A2 Bio.

Patients for EVEREST-1 are identified through BASECAMP-1 (NCT04981119), the master pre-screening protocol using a next-generation sequencing diagnostic from Tempus to identify patients whose tumors have lost HLA-A*02. Ten sites are open and currently screening patients. BASECAMP-1 is also screening patients who may benefit from future Tmod therapies.

On May 30, 2023 Adcendo ApS ("Adcendo"), a biotech company focused on the development of breakthrough antibody-drug conjugates (ADCs) for the treatment of cancers with high unmet medical need, reported the expansion of its current collaboration with Duality Biologics ("Duality"), a clinical-stage biotech company focusing on the discovery and development of next generation antibody-drug conjugate therapeutics (Press release, ADCendo, MAY 30, 2023, View Source [SID1234632234]).

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In January 2023, Adcendo announced an agreement to license Duality’s proprietary, industry leading DITAC (Duality Immune Toxin Antibody Conjugates) linker-payload platform for its lead uPARAP-ADC program in mesenchymal cancers. Under the new MTA and Option License Agreement, Adcendo has the opportunity to nominate ADCs against two novel ADC targets.

The new agreement further broadens and expands the existing collaboration between Adcendo and Duality. Based on the agreement, new targets will be evaluated under MTA with Duality’s linker-payload platform, designed to generate ADCs with superior safety profiles, sustainable payload delivery and release in tumors, and efficient bystander killing of antigen low and negative cells. Following evaluation, Adcendo has the option to gain access to Duality’s next generation ADC platform.

Michael Pehl, Chief Executive Officer of Adcendo, said "We are delighted to deepen our strategic collaboration with Duality, allowing us to progress with our aim to develop highly differentiated novel ADCs for the therapy of hard-to-treat cancers. Duality’s unique and clinically validated DITAC platform is becoming a cornerstone as we further build on our novel pipeline and continue on our way to becoming a leader in the field of ADC cancer therapy."

John Zhu, Chief Executive Officer of Duality Biologics, said "Duality is dedicated to becoming a leading next-generation ADC company. We are very glad to expand our collaboration with Adcendo on breakthrough ADC medicines and apply our platform. We believe the collaboration reflects the mutual recognition of each party’s unique strengths in ADC discovery and development and look forward to supporting the development of innovative ADC drugs."

On May 30, 2023 Lunit (KRX:328130.KQ), a global provider of AI-powered cancer diagnostic solutions, reported collaboration with the National Cancer Center Hospital East (NCCHE) to evaluate and validate its AI pathology solution for tissue data analysis (Press release, National Cancer Center of Japan, MAY 30, 2023, View Source [SID1234632233]).

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This partnership aims to leverage the capabilities of Lunit SCOPE, an AI-biomarker platform, in analyzing Immunohistochemistry and H&E tissue slide data from various clinical trials, including NCCHE’s molecular profiling projects such as SCRUM-Japan MONSTAR-SCREEN. The primary objective is to assess AI’s ability to accurately read known biomarkers such as HER2 and PD-L1, as well as to evaluate the performance of emerging biomarkers like immune phenotype, as read by Lunit SCOPE IO, in predicting clinical outcomes in multiple treatment settings.

"Our collaborative research using Lunit’s outstanding AI analysis technology has demonstrated that in addition to assisting in pathological diagnosis, a single slide can predict a response based on biological mechanisms. Working with Lunit and the SCRUM project will bring a new approach to cancer treatment," said the principal investigator of SCRUM-Japan MONSTAR-SCREEN project, Dr. Takayuki Yoshino of the National Cancer Center Hospital East (Kashiwa City, Chiba Prefecture). "We are pleased to collaborate with Lunit and look forward to working towards our goal of leading to further personalized medicine for cancer patients around the world."

This collaboration’s first set of findings will be unveiled at the American Society of Clinical Oncology (ASCO) (Free ASCO Whitepaper) annual meeting. The finding includes the analysis of AI-assessed tumor-infiltrating lymphocyte (TIL) density in the tumor microenvironment of microsatellite stable (MSS) locally advanced rectal cancer (LARC) samples. The study shows a strong correlation between changes in TIL density during preoperative chemoradiotherapy (CRT) and pathologic complete response (pCR) rate of MSS LARC patients. This finding underscores the potential of tumor microenvironment (TME) analysis by Lunit SCOPE IO to predict favorable outcomes.

Lunit and NCCHE remain committed to conducting studies to further validate the findings and to explore AI analysis in additional treatment settings. Additional results and validations from ongoing studies will be shared at future congresses, ensuring transparency and driving further AI-powered tissue data analysis advancements.

"We are delighted to partner with the National Cancer Center Hospital East in the validation of our Lunit SCOPE suite, marking a significant step towards advancing precision oncology and improving optimized patient treatment," said Brandon Suh, CEO of Lunit. "Through this collaboration, we aim to unlock the full potential of Lunit SCOPE to provide an accurate and efficient analysis of tissue slide data. Our goal is to equip clinicians and researchers with powerful tools that can transform oncology practices, drive more informed clinical decision-making and ultimately improve patient outcomes."