Innate Pharma | September 06, 2022
Innate Pharma SA announced that the following presentations will be presented at the ESMO Annual Meeting 2022 taking place from 9 to 13 September 2022, in Paris, France.
Lacutamab is a first-in-class anti-KIR3DL2 humanized cytotoxicity-inducing antibody that is currently in clinical trials for treatment of cutaneous T-cell lymphoma an orphan disease, and peripheral T cell lymphoma. Rare cutaneous lymphomas of T lymphocytes has a poor prognosis with few efficacious and safe therapeutic options at advanced stages.
KIR3DL2 is an inhibitory receptor of the KIR family, expressed by approximately 65% of patients across all CTCL subtypes and expressed by up 90% of patients with certain aggressive CTCL subtypes, in particular, Sézary syndrome. It is expressed by up to 50% of patients with mycosis fungoides and peripheral T-cell lymphoma. It has a restricted expression on normal tissues.
ANKET™ is Innate's proprietary platform for developing next-generation, multi-specific natural killer cell engagers to treat certain types of cancer.
This versatile, fit-for-purpose technology is creating an entirely new class of molecules to induce synthetic immunity against cancer. It leverages the advantages of harnessing NK cell effector functions against cancer cells and also provides proliferation and activation signals targeted to NK cells.
Our latest innovation, the tetra-specific ANKET molecule, is the first NK cell engager technology to engage activating receptors via a single molecule.
Monalizumab is a potentially first-in-class immune checkpoint inhibitor targeting NKG2A receptors expressed on tumor infiltrating cytotoxic CD8+ T cells and NK cells.
NKG2A is an inhibitory checkpoint receptor for HLA-E. By expressing HLA-E, cancer cells can protect themselves from killing by NKG2A+ immune cells. HLA-E is frequently overexpressed in the cancer cells of many solid tumors and hematological malignancies. Monalizumab may reestablish a broad anti-tumor response mediated by NK and T cells, and may enhance the cytotoxic potential of other therapeutic antibodies1.
The ongoing development for monalizumab is focused on investigating monalizumab in various combination strategies in different malignancies, including, in early lung cancer, the Phase 3 PACIFIC-9 study in adults with locally advanced (Stage III), unresectable NSCLC, who have not progressed following platinum-based concurrent chemoradiotherapy, and the Phase 2 NeoCOAST-2 study in the neoadjuvant early-stage setting of NSCLC.
About Innate Pharma
Innate Pharma S.A. is a global, clinical-stage oncology-focused biotech company dedicated to improving treatment and clinical outcomes for patients through therapeutic antibodies that harness the immune system to fight cancer.
Innate Pharma’s broad pipeline of antibodies includes several potentially first-in-class clinical and preclinical candidates in cancers with high unmet medical need.
Innate is a pioneer in the understanding of Natural Killer cell biology and has expanded its expertise in the tumor microenvironment and tumor-antigens, as well as antibody engineering. This innovative approach has resulted in a diversified proprietary portfolio and major alliances with leaders in the biopharmaceutical industry including Bristol-Myers Squibb, Novo Nordisk A/S, Sanofi, and a multi-products collaboration with AstraZeneca.
Iterative Scopes | September 23, 2022
Iterative Scopes, a pioneer in precision medicine technologies for gastroenterology, and Provation, the premier software and SaaS provider of clinical productivity and workflow automation solutions, announced that SKOUT™ has received 510(k) clearance from the U.S. Food and Drug Administration (FDA) for adults undergoing colorectal cancer screening or surveillance. SKOUT, a real-time computer-aided polyp detection device developed by Iterative Scopes, uses advanced computer vision technology designed to recognize suspicious tissue and provide real-time feedback to gastroenterologists. The device was evaluated in the largest U.S.-based multicenter clinical study for a computer aided polyp detection (CADe) device completed to date, which determined that SKOUT significantly improved overall adenoma detection in screening and surveillance colonoscopy compared to standard colonoscopy.1
In March 2021, Provation and Iterative Scopes entered a partnership focused on delivering artificial intelligence-based solutions to healthcare providers and researchers. Provation is a market leader in gastrointestinal (GI) documentation, with more than 3,500 customer facilities including 80% of the top academic and large health systems, and the company will act as an exclusive distributor of SKOUT to help broaden the technology’s reach among the country’s top GI-focused organizations.
Colorectal cancer is the second leading cause of cancer-related deaths in the United States and Europe,2 3 due in part to the high volumes of adenomas – approximately 26%4 – that endoscopists miss when conducting a colonoscopy. In its registration trial, SKOUT was found to improve adenoma detection, as measured by adenomas per colonoscopy (APC). Furthermore, increased detection was not limited to diminutive polyps. Higher APC rates have been shown to lead to improved patient outcomes; a recent study showed that the incidence of colorectal cancer within three years of examination decreases with higher APC rates.5
“Even among the best endoscopists, there is room for improvement in adenoma detection, which can impact patient outcomes. We are enthusiastic about the fact that even gastroenterologists with an already high baseline rate of adenoma detection demonstrated an improvement with SKOUT. Now that SKOUT is FDA-cleared, clinicians will be able to better detect adenomas with more efficiency, and ultimately change the standard of gastrointestinal care.”
Sloane Allebes Phillips, VP of Clinical Operations at Iterative Scopes
SKOUT is indicated as a computer-aided detection tool to assist qualified and trained endoscopists in identifying potential colorectal polyps during colonoscopy examinations in adult patients undergoing colorectal cancer screening or surveillance. SKOUT demonstrated a 27% relative increase in the detection of adenomas per colonoscopy, with an average of one additional adenoma resected for every 4.5 patients examined. Importantly, in the proximal colon, SKOUT demonstrated a 44% relative increase in 5-9 mm polyp detection, and a 29% relative increase in 5-9 mm polyp detection overall.1 These results validate the need for technological advancements that can help improve colonoscopies, and SKOUT’s artificial intelligence capabilities position it to do so.
“Knowing that patients can walk away from their appointment with the confidence that they received a high quality and detailed colonoscopy is what excites us most about SKOUT’s FDA clearance,” said Aasma Shaukat, MD, MPH, Robert M. and Mary H. Glickman Professor of Medicine and Gastroenterology at NYU Grossman School of Medicine, and a primary investigator on the SKOUT registration study. “Confidence and peace-of-mind on behalf of providers and patients alike will allow clinicians to provide stronger recommendations and solutions for their patients.”
“We are thrilled that our partner Iterative Scopes has received FDA clearance for their AI-Assisted Polyp Detection device, SKOUT. We have been very impressed with its study results and are eager to share our vision for integrating this technology into our solutions,” said Daniel Hamburger, CEO at Provation. “SKOUT is a true game-changer for the field of gastroenterology, and we can’t wait to start seeing its impact on patient care.”
SKOUT’s intuitive user interface seamlessly integrates with existing clinical workflows and does not increase total procedure or withdrawal time.1 When a potential polyp is detected, the system calls attention to the polyp on the procedure monitor by drawing a blue bounding box around it and tracking the polyp as it moves on the screen. If a medical tool enters the frame, the bounding box automatically disappears to avoid obstructing the physician’s view during polyp removal.
About Iterative Scopes
Iterative Scopes is a pioneer in the application of artificial intelligence-based precision medicine for gastroenterology with the aim of helping to optimize clinical trials investigating treatment of inflammatory bowel disease (IBD). The technology is also designed to potentially enhance colorectal cancer screenings. Its powerful, proprietary artificial intelligence and computer vision technologies have the potential to improve the accuracy and consistency of endoscopy readings. Iterative Scopes is initially applying these advances to impact polyp detection for colorectal cancer screenings and working to standardize disease severity characterization for inflammatory bowel disease. Longer term, the company plans to establish more meaningful endpoints for GI diseases, which may be better predictors of therapeutic response and disease outcomes. Spun out of MIT in 2017, the company is based in Cambridge, Massachusetts.
Provation is a leading provider of healthcare software and SaaS solutions for clinical productivity, care coordination, quality reporting, and billing. Our purpose is to empower providers to deliver quality healthcare for all. Provation’s comprehensive portfolio spans the entire patient encounter, from pre-procedure through post-procedure, with solutions for physician and nursing documentation anesthesia documentation patient engagement, surgical care coordination, quality reporting, and billing capture order set and care plan management and EHR embedded clinical documentation. Provation has a loyal customer base, serving more than 5,000 hospitals, surgery centers, and medical offices, and 700 physician groups globally, including 19 of the top 20 U.S. hospitals. In 2021, Provation was acquired by Fortive Corporation, a Fortune 1000 company that builds essential technology and accelerates transformation in high-impact fields like workplace safety, engineering, and healthcare.
PHARMACY MARKET, PHARMA TECH
GoodRx | October 21, 2022
To circumvent overpriced prescription drugs and grow its robust pharmacy services platform, GoodRx finalized its vitaCare acquisition. Based on a transaction that started in the first quarter of 2022, GoodRx agreed to secure vitaCare for $150 million in cash. Based on vitaCare’s financial performance through 2023, an additional $7 million consideration is also possible. A report cited by Globe Newswire showed that the global pharmacy market size has a forecasted value of $1,627.74 billion by 2030. Pharmaceutical platforms, with accessible clinical programs and digital adoptions, have a positive impact on today’s healthcare system, with vitaCare as one of the promising brands.
vitaCare, a healthcare service platform, offers cost-effective solutions to patients. More precisely, the platform helps individuals navigate insurance coverage and its optimized benefits to attain lower-priced medications. Rising investments in pharmacy services have sparked interest in vitaCare, including that of GoodRx.
The acquisition of vitaCare is in line with GoodRx’s mission, though. Co-CEO Doug Hirsch states that the company seeks to relieve the financial burden that comes with securing medication. Pharma manufacturers have constantly observed barriers to proper patient care, especially for affordable medicine and complicated reimbursement processes. With vitaCare at the helm, new tools are utilized to ensure more patients are linked to relevant savings programs and transparent pricing information. Hirsch hopes that the acquisition will facilitate a smoother brand prescription process overall. Profit-wise, GoodRx predicts the deal will contribute under 1% of its total revenue in 2022, though there is no substantial long-term discern.
This acquisition is the latest in GoodRx’s commitment to delivering consumer-focused healthcare services. The company has a history of connecting individuals to accessible, research-based health information. One of the most notable ones is its partnership with Wheel in 2021, which generated better outcomes for patient care.
Telemedicine software provider Wheel offers flexible clinical services to a broad patient base. Wheel’s platform equips clinics with the capability of synchronous and asynchronous consults. It utilizes network virtualization to create a seamless experience for healthcare providers and patients. Our post ‘Network Virtualization: The Future of Businesses and Networks’ previously discussed how virtualization empowers a software’s scalability — and this certainly manifests in Wheel’s platform. Providers can choose from a range of services that enhance patient care. One of the services is ePrescription medications, which remotely administers prescriptions.
Following the integration of GoodRx’s technology into Wheel’s platform, health providers and patients alike can meet reduced costs of care. As it stands, GoodRx’s coupon price API operates with over 200 billion pricing data points daily. Consumers use these to identify lower-priced medications. With the integration, Wheel-mobilized clinics can offer their patients a GoodRx coupon. GoodRx can also adapt its services to remote healthcare activities through the partnership. After all, GoodRx is essentially a marketplace.
Ultimately, GoodRx champions solutions that provide consumers with affordable healthcare access and medication. With vitaCare among its ranks today, the company can focus on promoting better patient adherence to treatment plans.
Bluestar Genomics | October 11, 2022
Bluestar Genomics, Inc., an early cancer detection company leading the development and commercialization of next-generation liquid biopsy tests focused on non-invasive detection of high-mortality cancers in high-risk patient populations, today announced it received accreditation for its clinical laboratory from the College of American Pathologists (CAP). The certification enables the company to serve physicians and patients globally as it works towards broad commercialization of its first test for the detection of pancreatic cancer.
CAP Accreditation is an internationally recognized program that awards laboratories that meet stringent requirements of quality, accuracy, and consistency. This milestone further solidifies Bluestar Genomics’ commitment to providing the highest standards of testing results. The company’s proprietary approach to detecting cancer early is anchored in epigenomic process of tracking dynamic changes in cells in the body by measuring levels of the biomarker 5-hydroxymethylcytosine (5hmC) in a person’s blood.
“This accreditation—on the heels of our CLIA certification and combined with our growing body of scientific evidence supporting the utility of our 5hmC-based epigenomic testing—positions us to become the first cancer detection company to offer non-invasive epigenomic blood-based testing for early pancreatic cancer detection. These milestones are a testament to our focus on preparing our company to serve customers around the world, helping millions of patients avoid late-stage, untreatable cancer diagnosis.”
David Mullarkey, chief executive officer of Bluestar Genomics
Bluestar Genomics’ pancreatic cancer early detection test has been analytically validated and previously received FDA Breakthrough Device Designation. It is designed to analyze a person’s changing biology and uses novel 5hmC-based epigenomic analysis to detect when cells become cancerous. The company has a prospective, large clinical validation study underway to further study its test.
About Bluestar Genomics
Bluestar Genomics is an early cancer detection company focused on the development and commercialization of non-invasive epigenomic tests to detect cancer through a standard blood draw, earlier than existing methods and when the disease is still treatable. The company uses its one-of-a-kind epigenomic platform that combines best-in-class bioinformatics and genomic technologies to analyze individuals’ changing biology that is yet to produce symptoms. Leveraging its novel liquid biopsy technology, Bluestar Genomics is initially focused on high-mortality cancers with the greatest need for early detection, starting with pancreatic and women’s cancers. With locations in San Diego and the San Francisco Bay Area, Bluestar Genomics collaborates with top research institutions and is supported by multiple global healthcare and technology investors and pharmaceutical collaborations.