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New Study Outlines Breakthrough in Diagnosing Acute Infections by Reading the Immune System

“When seeing a sick patient with a suspected infection in the emergency room, most physicians are forced to basically make an educated guess about whether the patient has a bacterial or viral infection, and then treat accordingly. Unfortunately, despite best efforts, this guessing game can have terrible outcomes for patients and for our health system,” said Tim Sweeney, M.D., Ph.D., co-founder and chief executive officer of Inflammatix.

“For 20 years, researchers have been looking for a way to use transcriptomics – the study of the body’s gene expression – to classify patients with acute infections. To date, others’ attempts to apply machine learning to this problem have not held up when applied to diverse patient populations. Our new study is the first time that a locked, multi-gene signature has been validated in a blinded, independent clinical cohort. It represents a major technical breakthrough in translating our tests to the clinic.”

For the new publication, Inflammatix and Stanford University scientists applied advanced machine learning to develop a 29-gene classifier (“BVN-1”) that can identify bacterial, viral or no infections across 1,069 blood samples from 18 prior studies of patients diagnosed with acute infections. The patients represented a wide range of geographic regions, clinical care setting, and disease contexts.

The researchers then tested the locked classifier – i.e., without modification or retraining – on an independent cohort of 109 patients from Stanford University’s intensive care unit who underwent evaluation for acute infection and sepsis. They found that the test was highly accurate in diagnosing infections, especially among patients tested within 36 hours of hospital admission – a critical time for determining treatment. Among this subset, the test demonstrated an AUROC of 0.92 (95% CI; 0.83-0.99) for identifying patients with bacterial infections and 0.91 (95% CI; 0.82-0.98) for viral infections.

The molecular classifier also demonstrated higher accuracy than standard biomarkers — procalcitonin (PCT) and C-reactive protein (CRP) – that have been associated with acute infections and sepsis. Among the subset of patients with PCT and CRP results in the Stanford ICU cohort, the Inflammatix test had an AUROC of 0.87 (95% CI; 0.8-0.94) for bacterial infections, compared to 0.83 (95% CI; 0.75-0.92) for PCT and 0.70 (95% CI; 0.6-.081) for CRP. Neither PCT nor CRP could positively identify viral infections.

“To wit, 100 percent of the patients in this cohort were on antibiotics, but many did not have an underlying bacterial infection. Improved diagnostics would benefit patients and have a major impact on the healthcare system,” said Dr. Sweeney.

“Furthermore, our machine learning team has demonstrated the power of our computational platform in a highly heterogeneous and difficult field. We look forward to bringing the same computational tools to bear across multiple other infectious and inflammatory diseases.”

Antibiotic resistance and sepsis lead to more than 700,0001 and 5 million2 respective deaths worldwide each year. Inflammatix’s HostDx Sepsis and HostDx Fever tests use proprietary machine learning algorithms that incorporate the expression of multiple immune genes (host response) to identify the presence of bacterial or viral infections and to determine if a patient has or is likely to develop sepsis. Inflammatix’s simple-to-use, sample-to-answer HostDx system is designed to produce results at or near the point of care in 30 minutes or less. The company plans to advance its HostDx tests through commercial launch in Europe and submission to the United States Food and Drug Administration in 2021.

In January 2020, Inflammatix announced it had received $32 million in Series C financing. Prior to that, in November 2019, the company announced a cost-sharing contract with the Biomedical Advanced Research and Development Authority (BARDA), part of the U.S. Department of Health and Human Services’ Office of the Assistant Secretary for Preparedness and Response, to further develop its HostDx tests. The agreement is worth up to $72 million based on achieving certain milestones.*

Citation and Reference

Mayhew, MB et al. A generalizable 29-mRNA neural-network classifier for acute bacterial and viral infections. Nature Communications, 2020. https://doi.org/10.1038/s41467-020-14975-w

1 Interagency Coordination Group on Antimicrobial Resistance. No Time to Wait: Securing the Future from Drug-Resistant Infections; Report to the United Nations. April 2019.
2 Rudd KE, et al. Global, regional, and national sepsis incidence and mortality, 1990–2017: analysis for the Global Burden of Disease Study. Lancet 2020; 395:200-211.

Zeus Releases StreamLiner OTW

By extruding over wire, Zeus has produced the desired combination of wall thickness, flexibility, and strength. Zeus’ StreamLiner OTW products allow medical device manufacturers to develop safer, smoother and stronger catheters that can navigate deeper into a patient’s vasculature.

With the release of StreamLiner OTW, Zeus offers medical device manufacturers several advantages:

  • A product with a similar wall thickness and the flexibility of film cast PTFE liners but with greater strength.
  • Shorter lead times to speed time-to-market and reduce operational costs. Zeus’ in-house wire drawing capabilities increase wire availability, reduce turnaround times and shorten delivery schedules.
  • Simplified production processes. Zeus supplies straight, cut-to-length liners that allow you to take the product from packaging to production and eliminate multiple timely processes.

Specific catheter applications for the StreamLiner OTW family include occlusion balloon catheters, microcatheters, mechanical and aspiration thrombectomy catheters, intermediate catheters, guiding catheters with and without balloons, and support catheters.

COMMENTS

“Zeus continues to lead with its technological innovations in PTFE liners. Using a state-of-the-art process, our new StreamLiner OTW lineup opens the doors to new possibilities for catheter manufacturers. Currently, no other polymer solution provider can supply an extruded PTFE liner with comparable wall thickness, flexibility and strength. Zeus is the only company in the market capable of delivering flexible PTFE liners extruded over wire with the lowest wall thickness.” Bob Chaney, Senior Vice President, Global Sales & Marketing, Zeus Industrial Products, Inc.

“StreamLiner OTW bridges the gap between film cast liners and free extruded liners by providing extremely thin walls, flexibility, and strength. These features enable more catheter design options, which ultimately translates to better tractability, deliverability and overall performance – all without compromising patient safety.” Matt Allen, Senior Product Line Manager, Zeus Industrial Products, Inc.

QUICK FACTS

  • Zeus has launched StreamLiner OTW, a new product lineup within its StreamLiner™ family of thin, extruded PTFE catheter liners.
  • StreamLiner OTW uses a proprietary process that extrudes PTFE liners over-the-wire in a range of sizes with comparable wall thickness and flexibility to film cast tubing, but with greater strength.
  • The new product lineup offers nominal wall thicknesses as low as 0.0004″.
  • The new liners are provided in discrete straight lengths over silver-plated copper.

SymphonyAI Group Acquires Healthcare Imaging AI Technology Leader TeraRecon

Using newly patented AI and platform technology,  SymphonyAI Group reports TeraRecon will continue to focus on expanding its open platform for advanced visualization and AI-driven solutions. TeraRecon will accelerate the use of AI in other clinical specialties, including neurology and oncology, in addition to its market-leading solutions in radiology, cardiology, and vascular surgery. The news was announced today (March 4, 2020).

SymphonyAI Group will invest in infrastructure and key initiatives to rapidly produce new advancements and offerings through TeraRecon’s industry-leading engineering and product teams. TeraRecon will operate as an independent portfolio company in the SymphonyAI Group. Synergies with TeraRecon technologies will complement the precision oncology offerings of portfolio company Concerto HealthAI.

Used by over 900 health systems globally, TeraRecon solutions provide radiologists and other highly specialized physicians with the software tools they need to quickly visualize and extract critical clinical data from medical images.

Jeff Sorenson, president and CEO of TeraRecon, said, “In just a few years, our company has not only transformed the realm of advanced visualization with artificial intelligence but also our entire industry.  Now with the backing of SymphonyAI Group and the recent recognition of two powerful patents, TeraRecon can think bigger and work faster than ever before. Having been chosen for such an impressive and selective portfolio is truly an honor, and an ideal outcome for our employees, customers, and stockholders.”

Dr. Romesh Wadhwani, founder and CEO of SymphonyAI Group, said, “The SymphonyAI Group mission is to use AI to transform the enterprise. We accelerate high-value AI solutions to market to meet the needs of specific vertical industry use cases. TeraRecon has demonstrated the value AI can play in the medical imaging market. We believe that TeraRecon AI technology can continue to deliver unprecedented benefits to doctors and patients and expand into new areas of the healthcare enterprise.”

Vibhor Rastogi, investment partner at SymphonyAI Group, said, “Artificial intelligence in medical imaging is expected to deliver several breakthroughs spanning a wide range of clinical areas and modalities. With the acquisition of TeraRecon, SymphonyAI Group is bolstering its portfolio of AI-enabled enterprise solutions for the healthcare and life sciences industries. We are committed to leveraging AI to deliver breakthrough therapies and care delivery models.”

TeraRecon CEO Jeff Sorenson will be joined on the company’s board of directors by SymphonyAI Group CEO Romesh Wadhwani and partners Vibhor Rastogi, Leif Pedersen, and Pradyut Shah.

TeraRecon will demonstrate its full suite of AI-driven technologies at the upcoming Health Information and Management Systems Society (HIMSS) 2020 Annual Meeting on March 9-13 in Orlando, Fla. and the European Congress of Radiology (ECR) 2020 Annual Meeting on July 15-19 in Vienna.

Cantor Fitzgerald & Co. acted as exclusive financial advisor to TeraRecon in connection with the transaction.

James Hinrichs Appointed to Board of Directors and Chairman of the Audit Committee of Outset Medical

Outset Medical CEO, Leslie Trigg said, “We are thrilled to have James Hinrichs join our Board of Directors. With a 30-year track record of both private and public company success, his governance and financial operations experience in high-growth environments will be invaluable to Outset.”

James Hinrichs has held the role of Chief Financial Officer at multiple companies including Alere Inc. until its sale to Abbott Labs, and CareFusion Corporation until its sale to Becton Dickinson. James Hinrichs also currently serves as a director of Orthofix Inc., Integer Holdings, Acutus Medical and Cibus. He holds undergraduate and graduate degrees in business from Carnegie Mellon University.

“Outset is poised for significant growth, and I’m incredibly excited to join their board,” said Mr. Hinrichs. “The expanded commercialization of Tablo will give providers much-needed innovation to reduce the cost and complexity of delivering dialysis.”

Dialysis is delivered to more than 550,000 U.S. patients several times per week to remove waste products and excess fluid from patients with kidney failure. Although more than 85 million dialysis treatments take place in the United States each year at an estimated annual cost of ~$75 billion, little meaningful technology or service model innovation has been introduced in decades.

Outset Medical’s Tablo was designed as an enterprise solution to reduce the cost and complexity of dialysis while improving the experience for patients and providers. With real-time water purification and dialysis fluid production integrated into a single, compact system, Tablo functions like a dialysis clinic on wheels. Requiring just an electrical outlet and tap water to operate, Tablo frees providers from having to rely on expensive clinic infrastructure, enabling on-demand, cost-effective dialysis in a range of use environments. Tablo was designed to look and feel like an intuitive consumer product, keeping end-user simplicity in mind. Wireless data, sensor-based automation, and an animated touchscreen make Tablo easy to learn and use for healthcare professionals and patients alike.

Other executives on the move can be found here.

Jupiter Medical Center Named “Best Hospital,” “Best Place to Have a Baby,” and “Best Emergency Room” in Palm Beach County

“We are thrilled that the residents of our Palm Beach County have chosen to show their appreciation for Jupiter Medical Center and the world-class care provided by our team members,” said Dr. Amit Rastogi, president and CEO of Jupiter Medical Center. “Patients and consumers have a lot of choices for health care in Palm Beach County and throughout the Treasure Coast. We are honored to be singled out by them as the ‘Best Hospital,’ ‘Best Place to Have a Baby,’ and ‘Best Emergency Room (ER).’ We appreciate the trust our community has placed in us.”

Best of Palm Beach County Awards – Best Hospital
Equipped with state-of-the-art technology and staffed by an experienced team dedicated to providing clinical excellence and cultivating a culture of compassion, Jupiter Medical Center consistently has the highest patient satisfaction scores in the region. The Best of Palm Beach County awards follow several national recognitions Jupiter Medical Center has recently received. Jupiter Medical Center is the only hospital in Palm Beach County to receive a 4-star quality and safety rating from the Centers for Medicare & Medicaid Services (CMS). The Leapfrog Group has also named Jupiter Medical Center a “Top Hospital,” placing Jupiter Medical Center in the top 6 percent of hospitals nationwide.

Jupiter Medical Center continues to significantly expand treatment options for patients with the recently announced affiliation between the Anderson Family Cancer Institute and Sylvester Comprehensive Cancer Center at the University of Miami Leonard M. Miller School of Medicine, providing residents of Palm Beach County and the Treasure Coast with seamless access to groundbreaking cancer treatments.

Best of Palm Beach County Awards – Best Place to Have a Baby
Each year, more than 1,600 babies are delivered in Jupiter Medical Center’s Florence A. De George Children & Women’s Services Obstetrics Unit. The unit recently added the Level II De George Neonatal Intensive Care Unit (NICU), which is equipped to care for babies born as early as 32 weeks.

“Our obstetrics unit is staffed by experienced neonatal specialists and equipped with the latest technology to ensure mom, baby, and family are thriving before, during and after delivery,” said Pam Canter, interim chief nursing officer. “And with the addition of our new NICU, we now have the ability to care for preemies or seriously ill newborns who require a higher level of specialized attention.”

Best of Palm Beach County Awards – Best Emergency Room
Jupiter Medical Center’s emergency department is ready 24/7 to provide life-saving care to patients with critical conditions and other urgent medical issues. In 2019, Jupiter Medical Center expanded our specialized pediatric emergency capabilities with the opening of the Mastroianni Family Pediatric Emergency Department. This dedicated, child-friendly space has eight beds and is designed to be calming and reassuring to younger patients.

“Last year, we saw nearly 40,000 visits to the emergency department at Jupiter Medical Center,” said Carol Milliken, director of the emergency department. “The addition of the Mastroianni Family Pediatric Emergency Department allows us to provide our young patients with their own waiting area, triage rooms and treatment rooms, where they are cared for by our pediatric emergency teams.”

“2020 is a time of historic growth and development for Jupiter Medical Center,” added Dr. Rastogi. “We are introducing groundbreaking new treatments and capabilities to the residents of Palm Beach County and the Treasure Coast, as we continue our evolution to becoming a regional health care destination. Being recognized by the community we serve for our unwavering commitment to excellence, quality and patient experience is truly gratifying.”

Huron Capital Completes Acquisition of Lab Crafters

Based in Ronkonkoma, New York, Lab Crafters has a strong reputation as a premium brand in a highly specialized market, building close relationships with its loyal, highly respected customer base.

“Lab Crafters offers competitive, differentiated products to its customers,” said Brian Walker, Partner of Strategic Leadership at Huron Capital. “The company has already gained meaningful share in the laboratory furniture market, and its loyal customers include some of the nation’s largest Fortune 500 companies and premier research institutions. Huron has invested in Lab Crafters because we believe the company is capable of accelerated growth and we are focused on pursuing a number of strategic initiatives to diversify and expand this runway.”

Walker, a former CEO of Herman Miller, will serve as a member of Lab Crafters board of directors. Founder Robert DeLuca, Sr. will continue to lead the company as CEO, and Robert DeLuca, Jr. will continue to operate as President.

“We are proud to have built Lab Crafters into one of the leading manufacturers of specialized furniture for laboratories in the U.S.,” DeLuca, Sr. said. “We are confident that our partnership with Huron will provide the necessary capital and industry expertise to further accelerate our national growth while we continue to serve our existing customers.”

Robert DeLuca, Sr. and his management team have developed Lab Crafters into a company that is well respected by its customers, makes products that are increasingly sought after by the market, and is ultimately poised for growth,” said Huron Capital Partner Scott Hauncher. “We are excited about Lab Crafters future and pleased to welcome the company to our firm as its newest platform.”

Valve Durability in TAVR is a Critical Factor for the Future by Bart Meuris, M.D., Ph.D.

Bart Meuris, M.D., Ph.D.

University Leuven Hospital, Belgium

Aortic stenosis continues to be a major global healthcare issue, affecting 62 million people over the age of 65 years worldwide. Driving earlier intervention is a key focus for healthcare providers and policymakers. Consequently, the market for Aortic Valve Replacement (mainly Transcatheter Heart Valves) is expected to grow substantially over the coming years, rising from US $6 billion today to an estimated $US 7 billion by 2025.

Once reserved for high-risk elderly patients, there is growing evidence that the use of Transcatheter Aortic Valve Replacement (TAVR) is also safe and effective for lower-risk younger patients. However, the replacement valves in younger patients will need to endure much longer periods of use than that offered by current first-generation devices.

Admedus, a Minnesota-based company, believes it holds the key to the issue of longer-lasting valves: a single-piece 3D aortic valve that commences first-in-human studies this month. Admedus’ valve combines an innovative design with the company’s scientifically proven ADAPT® tissue technology.

The Admedus valve could significantly alter the TAVR landscape. It is widely accepted that the Transcatheter method of valve replacement (TAVR) is less invasive and less risky than the surgical alternative (SAVR). The ADAPT® treated valve developed by Admedus, offers a viable solution by providing significant anti-calcification properties. In addition, its unique design will deliver a stronger, more durable alternative, providing assurance that patients will be less likely to undergo repeat surgery due to deterioration of the replacement valve.

 

ADAPT® tissue technology offers the most advanced tissue science

The demand for a durable solution to aortic stenosis has led to a search for superior tissue science and valve design.

ADAPT® treated tissue is a completely Acellular Bovine Pericardial tissue with zero DNA and zero glutaraldehyde toxicity.

The ADAPT® tissue technology that forms the basis of Admedus’ single-piece valve has been used clinically in the CardioCel® and VascuCel® bioscaffolds developed and commercialized by Admedus. Based on 10 years of clinical data, the ADAPT® bioscaffold is the only material that does not calcify nor degrade. Approved by the US FDA and CE Mark since 2013, these products have been used in more than 20,000 procedures to date.

In June 2019, the peer-reviewed journal The Annals of Thoracic Surgery published data from an independent, multi-centre study involving 501 implants in pediatric patients. The data showed that the ADAPT® tissue was durable, with no evidence of calcification. Ninety-six percent of patients were free from re-intervention at three and five years after implant.

The ADAPT® single-piece 3D valve design reduces the leaflet stress by 35-40% and increases the coaptation significantly.  In laboratory tests, the Admedus valves were functional after 400 million cycles—equivalent to approximately 10 years of human use.

Pre-clinical sheep study provides confidence for the first-in-human study

The findings of Admedus’ 2019 pre-clinical study of the ADAPT® single-piece 3D valve in six juvenile sheep were presented earlier this year at PCR London Valves.

The sheep study demonstrated that the ADAPT® valve can be safely implanted and can deliver positive outcomes. The tissue on the valve was easy to handle during surgical implantation and there was no material failure or fatigue of the valve. The valve functioned normally following implantation. Echocardiography showed low gradients and no significant regurgitation across the implanted valves. Follow-up assessment six months later showed stable valve function.

It is reasonably expected that the ADAPT® single-piece 3D aortic valve will produce similar positive results in humans.  Consequently, a first-in-human trial with this prosthesis has been designed and is expected to commence in March 2020.

Up to 15 patients will be enrolled in the first-in-human study. The patients will undergo follow-up assessments for up to six months after receiving implantation of the ADAPT® single-piece 3D aortic valve. The results from the study are expected to be available between the first quarter of 2021 and the third quarter of 2021.

With durability remaining a key challenge in treating aortic stenosis patients, Admedus is well-positioned to offer AS patients a viable long-term solution.

Society of Interventional Radiology Issues Position Statement to Guide Use of Life-Saving Endovascular Interventions in Trauma Care

“Endovascular intervention plays a critical role in the care of the trauma patient, improving survival, reducing morbidity and decreasing blood loss,” said SIR President Laura Findeiss, MD, FSIR. “When delivered promptly, it is highly effective in treating bleeds throughout the body, including in the liver, spleen, kidneys and pelvis—saving lives and saving function.”

View the full position statement here.

While traumatic injury is the leading cause of death for people younger than 45, the mortality rates have dropped due to better integration of multidisciplinary care, faster access to advanced imaging and interventions, and use of non-operative management in specific scenarios.

“This position statement sets out important recommendations to ensure that the appropriate level of knowledge and expertise are available among all members of the trauma team to ensure that the right care is delivered as swiftly as possible,” Findeiss said.

Among the recommendations offered in the position statement:

  • Immediate 24-hour access to an interventional angiography facility
  • A multidisciplinary team that includes specialists who can perform larger and small vessel endovascular interventions
  • The ability for an interventional team to be ready to intervene within 60 minutes from the time a multidisciplinary team decides to proceed with an endovascular intervention
  • The development and adherence to evidence-based treatment algorithms for each trauma scenario for both adults and children

World’s First Next-Generation Protein Sequencing Device to Accelerate the Study of Diseases and Pandemics

Protein Sequencing Device: Over the past fifteen years, next-generation DNA sequencing has transformed every aspect of the life sciences. However, genetics is only one component of human disease. New tools are required to understand how genes interact with the environment to improve how we develop drugs, diagnose patients, and combat outbreaks.

Protein-based approaches have always held tremendous promise, but despite massive improvements in DNA sequencing technology, proteomics (the study of proteins on a large scale) has not advanced as rapidly.

“Prior to our team commercializing the first next-generation DNA sequencing system, scientists relied on noisy analog data generated by DNA-hybridization,” said Jonathan M. Rothberg, Ph.D., Founder and Chairman of Quantum-Si. “By advancing to a digital readout in the actual sequencing of DNA in a genome, we unlocked new areas of biology and created what researchers and doctors identified as the greatest advance in healthcare in the last 40 years. Next-generation protein sequencing will be as important and will have an even greater economic impact.”

Sample to Answer Solutions: To maximize the impact on global health, the world needs true end-to-end solutions that are convenient, fast, and affordable. Quantum-Si introduced a complete solution spanning sample preparation, protein sequencing, and data analysis.

Platinum is the first of Quantum-Si’s devices to utilize Time Domain Sequencing™ powered by the world’s first massively parallel single-photon counting semiconductor chip. “Our chip is universal and can be applied to research complex disease, as well as the most exquisite early detection of pathogens, as with the Coronavirus pandemic,” said Dr. Rothberg. With this $100 million dollar development, Quantum-Si is able to drastically reduce the cost and size of sequencing platforms and create next-generation protein sequencing. Quantum-Si’s chip allows a user to read the amino acid sequence (the building blocks of proteins) and post-translational modifications. For the very first time, Platinum allows any lab or clinic to sequence proteins in an affordable, easy-to-use, and massively parallel fashion.

Carbon is designed as a universal sample preparation platform to automate the upfront work needed for sequencing. In addition to automating protein preparation for Platinum, Carbon also automates sample preparation from whole-blood and cell cultures for existing third-party DNA sequencing technologies.

The Quantum-Si Cloud provides a secure platform for users to manage samples, libraries, runs, and analyses. The Cloud also enables developers to test and run custom workflows, then share the workflows with the broader community if desired.

Quantum-Si’s end-to-end solution is designed to create a new proteomics market and usher in the age of protein sequencing, but the company has a larger vision. “The ability to detect light is central to modern diagnostics. There are additional markets and applications where our single-molecule sensor and ecosystem of products can be applied, “said Dr. Rothberg. “We are just getting started.”

FDA Designation of Basal-IQ Technology as an Interoperable Automated Glycemic Controller Announced by Tandem Diabetes Care

The FDA has classified three categories for the interoperability of devices as a complete automated insulin dosing (AID) system, which include an alternate controller-enabled insulin pump (ACE pump), an integrated continuous glucose monitor (iCGM) and an iAGC.

The t:slim X2 insulin pump was also the first to receive an ACE infusion pump classification in February 2019, and the first insulin pump designated as compatible with iCGM devices in June 2018.

“Aligning Basal-IQ technology with Control-IQ technology under the FDA’s new regulatory path helps streamline our internal processes and provides us with a consistent approach to making future product enhancements,” said John Sheridan, president and chief executive officer. “Customer choice is a core tenet of our Company and this clearance supports our commitment to the interoperability of our AID technologies with our current and future insulin pump offerings.”

About Basal-IQ Predictive Low Glucose Suspend Technology

The simple-to-use t:slim X2 insulin pump with Basal-IQ predictive low glucose suspend technology uses glucose values from an integrated Dexcom G6 continuous glucose monitor to predict and help prevent lows with zero fingersticks.1,2,3 Basal-IQ technology uses CGM values to help reduce the frequency and duration of low-glucose events by predicting glucose levels 30 minutes ahead and suspending insulin if they are expected to drop below 80 mg/dL or if a CGM reading falls below 70 mg/dL. Insulin delivery resumes as soon as sensor glucose values begin to rise.

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