On December 2, 2021 Paige, the global leader in AI-based diagnostic software in pathology, reported that the United Kingdom’s National Institute for Health and Care Excellence (NICE) published a Medtech Innovation Briefing (MIB) on Paige Prostate, a clinical-grade artificial intelligence (AI)-based diagnostic software system that aids pathologists in detecting, grading and measuring prostate tumors in biopsies obtained from patients at risk of prostate cancer (Press release, Paige AI, DEC 2, 2021, View Source [SID1234596414]).* This marks the first-ever MIB for a digital pathology product.

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NICE conducted a systematic literature review and thoroughly evaluated five peer-reviewed clinical utility studies that included a total of 3,444 prostate needle biopsies. Based on the evidence evaluated, Paige Prostate may be an effective addition to standard care to increase sensitivity in detecting prostate cancer, and it may also help more efficient analysis to support the demands of high caseloads in the field.

"We are pleased that NICE has conducted a fastidious review of the available clinical literature on Paige Prostate, guided by neutrality and the strictest criteria," said David Klimstra, M.D., Co-Founder and Chief Medical Officer at Paige. "This MIB will help decision makers in the NHS and beyond to assess the value and potential of Paige Prostate."

MIBs are commissioned by the National Health Service (NHS) in England and are designed to support NHS and social care commissioners and staff who are considering using new medical devices. The briefing includes a description of Paige Prostate technology, how it is used, clinical and technical evidence and perspectives from expert pathologists consulted in the development of the MIB.

"Ultimately, we aim to measurably improve outcomes and experiences for patients, which is why we developed Paige Prostate to have the highest standards of performance and robustness. This first-ever digital pathology NICE advice for clinicians will further help bring these systems into real-world clinical use to fully realize their potential," said Thomas J. Fuchs, Dr.Sc., Co-Founder and Chief Scientist at Paige, and Dean of Artificial Intelligence and Human Health at Mount Sinai. "We are pleased to see that the UK is leading the way in the adoption of digital pathology tools. This NICE advice provides important information to clinicians so that they access essential information on this system was developed, and its potential to further impact routine clinical practice."

Additionally, Paige is currently working with Oxford University and regional NHS partners to study Paige Prostate prospectively in a real-world pathology laboratory setting and generate new health economics evidence as part of a successful Phase 4 NHSx Artificial Intelligence Health and Care Award.

Read the full MIB here: View Source

* In the U.S., Paige received FDA market authorization to assist pathologists in the detection of foci that are suspicious for prostate cancer. Outside of the U.S., Paige Prostate is CE-marked for the detection, grading and quantification of prostate tumors for use in laboratories and hospitals in the European Economic Area, Switzerland and the UK. FullFocus is FDA cleared and CE-marked. The products are otherwise available for research use only in other territories.

On December 2, 2021 SQZ Biotechnologies Company (NYSE: SQZ), a cell therapy company developing novel treatments for multiple therapeutic areas, reported interim results from the highest-dose monotherapy cohort of its ongoing Phase 1/2 clinical trial of SQZ-PBMC-HPV, an investigational cell therapy being evaluated in certain patients with advanced or metastatic Human Papillomavirus positive (HPV16+) solid tumors (Press release, SQZ Biotech, DEC 2, 2021, View Source [SID1234596397]). In an abstract published today by the European Society for Medical Oncology Immuno-Oncology (ESMO-IO) Congress, taking place December 8-11, the company reported that a highly treatment experienced patient in the highest-dose cohort demonstrated a radiographic response in conjunction with substantial increases in CD8 T cell tumor infiltration and PD-L1 expression – both markers of tumor inflammation. The cell therapy was generally well tolerated and no dose limiting toxicities were observed in the final monotherapy stage of the trial.

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"We are excited to present detailed interim clinical findings from the highest dose monotherapy cohort of our ongoing SQZ-PBMC-HPV Phase 1/2 study at ESMO (Free ESMO Whitepaper)-IO," said Armon Sharei, Ph.D., Chief Executive Officer and Founder of SQZ Biotechnologies. "These data build upon the initial readout in lower dose cohorts presented at the American Society of Clinical Oncology (ASCO) (Free ASCO Whitepaper) annual conference earlier this year. The latest clinical response data and biomarker findings further increase our enthusiasm for the SQZ APC program as we advance into the combination stage with checkpoint inhibitors."

Data on the highest dose cohort of SQZ-PBMC-HPV-101, including biomarker and tumor response findings, will be shared as an oral presentation at ESMO (Free ESMO Whitepaper)-IO on December 9. See presentation information below.

The combination stage of the trial is enrolling with checkpoint inhibitors targeting the PD-(L)1 and CTLA-4 pathways. Available clinical trial data and scientific literature suggest that SQZ APCs could work synergistically with checkpoint inhibitors due to their CD8 tumor infiltrating lymphocytes (TIL) driving mechanism.

Trial Highlights from ESMO (Free ESMO Whitepaper) IO Abstract 565

SQZ-PBMC-HPV-101 Phase 1/2 trial has four dose-escalating monotherapy cohorts ranging from 0.5 to 5.0 x10e6 cells per kg
A total of 18 patients were treated across four cohorts and patients had an average of 3.5 prior lines of systemic cancer therapy
Across all cohorts the investigational therapy was generally well-tolerated, and no dose-limiting toxicities were observed
No grade 2 or higher treatment-related severe adverse events, or grade 3 adverse events, were observed in the highest-dose cohort
In the highest-dose cohort with five patients evaluable, one patient who had been heavily treated with PD-1 inhibitors before entering the trial demonstrated radiographic response as well as substantial increases in CD8 T cell tumor infiltration and PD-L1 expression
The highest-dose monotherapy stage continues enrollment to further characterize the investigational therapy in single agent settings.

ESMO-IO Presentation Details

Oral Presentation: Thursday, December 9 at 12:10 pm CET
Presentation Number: 48MO
Abstract Title: SQZ-PBMC-HPV-101: Preliminary results of a first-in-human, dose-escalation study of a cell-based vaccine in HLA-A*02+ patients with recurrent, locally advanced, or metastatic HPV16+ solid tumors

Lead Author: Jong Chul Park, MD, Medical Oncologist and Investigator, Massachusetts General Hospital Cancer Center

The ESMO (Free ESMO Whitepaper)-IO presentation will be on the Events & Presentations section of the company’s website on December 9 at 12:10 pm CET.

Conference Call
The company will host a conference call and webcast at 8:00 a.m. ET on Thursday, December 9 to discuss the ESMO (Free ESMO Whitepaper)-IO presentation. Participants can join via webcast link or by dialing 1-877-805-7920 (domestic) or 1-629-228-0702 (international) five minutes prior to the start of the call. An archived webcast will be accessible for 90 days after the event.

SQZ-PBMC-HPV-101 Trial Design
SQZ-PBMC-HPV is being evaluated in a Phase 1/2 clinical trial for the treatment of HPV16+ advanced or metastatic solid tumors. Patients must be positive for the human leukocyte antigen serotype HLA-A*02. The investigational candidate, which targets E6 and E7 oncoproteins, is being studied as a monotherapy and in combination with immuno-oncology agents. The study’s primary outcome measures in the monotherapy and combination phases of the trial include safety and tolerability. Antitumor activity is a secondary outcome measure in both the monotherapy and combination stages of the trial, and manufacturing feasibility is a secondary outcome measure in the monotherapy phase of the trial. The monotherapy phase of the study includes escalating dose cohorts with a dose-limiting toxicity (DLT) window of 28 days and is designed to identify a recommended phase 2 dose. The planned combination phase of the study will include SQZ-PBMC-HPV and checkpoint inhibitors. DLT will be measured over 42 days.

About Human Papillomavirus Positive Cancers
Human papillomavirus (HPV) is one of the most common viruses worldwide and certain strains persist for many years leading to cancer. According to the Centers for Disease Control (CDC), in the United States HPV+ tumors represent 3% of all cancers in women and 2% of all cancers in men, resulting in over 39,000 new cases of HPV+ tumors every year. HPV infection is larger outside of the U.S., and according to the International Journal of Cancer HPV+ tumors account for 4.5% of all cancers worldwide, resulting in approximately 630,000 new cases every year. According to the CDC, HPV infection plays a significant role in the formation of more than 90% of anal and cervical cancers, and most cases of vaginal (75%), oropharyngeal (70%), vulval (70%) and penile (60%) cancers.

On December 2, 2021 Munich Reinsurance Company’s Canadian life branch (Munich Re) reported that partnership with the McGill University Health Centre (MUHC) Foundation to advance cutting-edge cardiovascular disease research (Press release, McGill University, DEC 2, 2021, View Source [SID1234596415]). As part of this partnership, Munch Re will help fund an innovative research project at the cutting-edge of science, MyHeart Counts Canada. In addition, Munich Re will collaborate with the project’s lead investigator, Abhinav Sharma MD, PhD., to incorporate an insurance cohort into the study to help fuel better outcomes for insured populations.

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MyHeart Counts is a revolutionary smartphone app created at Stanford University in the United States as part of a research study to understand better how to keep hearts healthy. It allows users to see how their physical activity and lifestyle affect their cardiovascular health by tracking their movement using their phone or wearable fitness tracker. The app then provides assessments that measure risk and teaches users how to improve their heart health.

Dr. Sharma, a cardiologist at the McGill University Health Centre (MUHC) in Montreal, was part of the Stanford team that created MyHeart Counts, and now he is bringing the app to Canadians. MyHeart Counts Canada will improve the heart health of Canadians from coast to coast while allowing Dr., Sharma and his team to gain a deeper understanding of the factors that lead to cardiovascular disease – one of the leading causes of death in Canada.

"Munich Re is proud to partner with the MUHC Foundation and support this innovative research project spearheaded by Dr. Sharma," said Bernard Naumann, President and CEO, Munich Re, Canada (Life). "The utilization of digital health technologies to improve cardiovascular health is an important area of interest for us. As one of the world’s leading life reinsurers, we constantly strive to improve our knowledge of cardiovascular disease in its myriad manifestations, and apply these advances in our risk assessment paradigm. We look forward to understanding how digital technologies will improve cardiovascular outcomes and ultimately both the quality of life and life expectancy"

Dr Sharma added, "I am grateful to Munich Re for supporting the development of MyHeart Counts Canada. Cardiovascular disease kills millions of people worldwide each year, and their generous support will help us better understand why heart disease develops and what we can do to prevent it."

"Munich Re’s investment in and support of MyHeart Counts Canada has the potential to change the lives of millions. While the app will benefit its users in the short term, the new insights into cardiovascular disease prevention will benefit everyone, now and in the future," commented Julie Quenneville, President, and CEO, McGill University Health Centre Foundation.

On December 2, 2021 Bolt Biotherapeutics, Inc. (Nasdaq: BOLT), a clinical-stage biotechnology company pioneering a new class of immuno-oncology agents that combine the targeting precision of antibodies with the power of both the innate and adaptive immune systems, reported that the company will be presenting interim clinical data in a virtual poster on BDC-1001, starting on December 6, 2021 in conjunction with the European Society for Medical Oncology Immuno-Oncology (ESMO I-O) Congress 2021 taking place on December 8 – 11, 2021 (Press release, Bolt Biotherapeutics, DEC 2, 2021, View Source [SID1234618692]). BDC-1001 is an immune-stimulating antibody conjugate (ISAC) comprising a HER2-targeting biosimilar of trastuzumab conjugated to a TLR7/8 agonist with a non-cleavable linker.

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"The data we will be presenting at ESMO (Free ESMO Whitepaper) I-O includes more than 50 patients at increasing exposures and builds upon the data presented at ASCO (Free ASCO Whitepaper) 2021. We will be presenting additional insights into BDC-1001’s safety and tolerability profile, pharmacokinetics, tumor and serum biomarkers, and early signs of clinical activity. These interim results support continued investigation towards an optimal dosing regimen, as well as the initiation of a combination dose-escalation study with Opdivo by year-end," said Edith A. Perez, M.D, Chief Medical Officer of Bolt Biotherapeutics.

The poster will be available in the e-Posters section of the conference virtual platform as of December 6 at 12 p.m. CET:

Abstract Title: Preliminary results from a phase 1/2 study of BDC-1001, a novel HER2 targeting TLR7/8 immune-stimulating antibody conjugate (ISAC), in patients (pts) with advanced HER2-expressing solid tumors
Presenter: Manish R. Sharma, M.D., Associate Director of Clinical Research, START Midwest
Presentation Number: 164P
Timing: On-Demand Access

Bolt Biotherapeutics management will host a conference call for the investment community, in conjunction with the now virtual ESMO (Free ESMO Whitepaper) Immuno-Oncology Congress 2021, to discuss emerging clinical data and insights from the ongoing Phase 1/2 study at 8:00 a.m. ET/5 a.m. PT on Monday, December 6, 2021.

A live webcast, including slides, will be available on the Events & Presentations page of Bolt Biotherapeutic’s website at www.boltbio.com. An archived replay can be accessed for 30 days following the webcast.

Opdivo is a trademark of Bristol-Myers Squibb Company.

On December 2, 2021 Tune Therapeutics, a biotechnology company pioneering the creation of epi-therapeutic medicines, reported it launched with its powerful and precise genetic tuning platform, TEMPO (Press release, Tune Therapeutics, DEC 2, 2021, View Source [SID1234630692]). This cutting-edge technology dials gene expression up or down to desired levels – with the potential to reverse pathways of cancer, genetic disease, and aging by changing cell fate and function at will.

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"Genetic medicine is at a tipping point," said Matt Kane, CEO of Tune Therapeutics. "We now understand that the driving force of human health and disease is not our genes, but the epigenomic elements that shape and control them. Until now, scientists and bioengineers lacked the combined understanding, clinical expertise, and technology needed to make epigenomic therapies a practical reality. Now, we have all three."

TEMPO Platform

Tune’s proprietary TEMPO platform can rapidly target and adjust the epigenomic machinery of the cell, which shapes DNA and controls gene expression. By varying specific control modules in an iterative process, TEMPO can fine-tune expression toward healthy levels – even in diseases involving multiplex or polygenic interactions.

Unlike genome editing, the tuning process does not generate double- or single-strand breaks in DNA and makes no permanent changes to the DNA sequence. This de-risks the precise targeting of entire gene networks, allowing Tune to simultaneously turn silenced genes on and dial over-expressed genes down, in a practical, therapeutic context.

Tune has already shown that TEMPO can locate epigenomic elements involved in several intractable genetic conditions – revealing targets and networks that would be invisible or inaccessible to gene editing approaches. Moreover, Tune can optimize TEMPO to command expression of individual genes or networks with remarkable specificity and precision. This opens the door to an entirely new class of epi-therapeutics.

"The exciting challenge in front of us is taking these transformative advances in technology and extending their potential for our greater society," said Charlie Gersbach, PhD, Acting Chief Scientific Officer, Tune Therapeutics. "From proof of concept in rare, single-gene disorders to common conditions that aren’t linked to a single gene mutation – but are treatable through epigenomic control and constitute the vast majority of human diseases."

Veteran Genomic Medicine Leadership Team

Tune is launching with a veteran leadership team, endowed with deep expertise in gene and cell therapy, genome editing, and epigenetics.

Matt Kane, Chief Executive Officer
Akira Matsuno, Co-Founder, President and Chief Financial Officer
Charlie Gersbach, Ph.D., Co-Founder, Acting Chief Scientific Officer
Fyodor Urnov, Ph.D., Co-Founder, Scientific Advisory Board
Heidi Zhang, Ph.D., Executive Vice President, Head of Technical Operations
Blythe Sather, Ph.D., Vice President, Head of Research
In addition, Tune’s Board of Directors includes Mr. Kane, Dr. Gersbach, Ali Behbahani, M.D., (New Enterprise Associates), and co-founder Dan McHugh (Emerson Collective).

Drawing upon deep, local talent pools in Durham and Seattle, Tune has assembled two highly seasoned discovery and development teams, secured foundational intellectual property from Duke University, and raised $40 million from top-tier investors – including co-leads New Enterprise Associates and Emerson Collective, with Hatteras Venture Partners, Mission BioCapital, and others joining the round. This financing will enable Tune to rapidly advance its preclinical research, attract top-tier talent, and further develop its therapeutic platform.

"Tune is effectively pioneering a brand-new therapeutic modality," said Dr. Behbahani. "With the unbound potential of this approach, and their collective successes in the field, Tune is primed to become a transformative presence in modern biomedicine."