UK firm sold spinal implants that disintegrated

Posted On November 27, 2018 By OrthoSpineNews In Regulatory, Spine /

26 Nov 2018 / Hilary Osborne

A UK company’s spinal implants that allegedly moved and eroded in patients, and which are at the centre of legal action, have highlighted potential weaknesses in the way in which some medical devices enter the market, an investigation has revealed.

Documents seen by the Guardian show the plastic discs were approved for sale by the British Standards Institution (BSI) after tests on 30 people over six months.

A customised version was also implanted in nine baboons, according to a paper by members of the company’s own scientific advisory board.

The devices, made by the now-defunct Ranier Technology, which was based in Cambridge, are the focus of legal action brought by prosecutors in Germany against a doctor who implanted them, allegedly without first obtaining fully informed patient consent.

Many of the patients who received them are undergoing surgery to have them removed, with doctors finding some had completely disintegrated, according to an investigation coordinated by the International Consortium of Investigative Journalists, involving the Guardian and BBC’s Panorama.

Ranier Technology was granted CE (Conformité Européenne) safety marks for two implants, Cadisc-L and Cadisc-C. The devices were certified by the BSI in 2010 and 2011 respectively, and once approved were marketed to hospitals across Europe.

The firm gained millions of pounds in backing from investors impressed by its work in developing artificial spinal discs, which it said would bring relief and a normal quality of life to patients suffering degenerative disc disease.

Instead, about half of the patients given the Cadisc-L implants have had to undergo further surgery after the discs apparently disintegrated or moved in their backs, the Implant Files investigation has discovered.

The implants were seemingly beset by problems from the start, according to scientific analysis. The documents seen by the Guardian show that in trials on baboons using a custom-sized version of Cadisc-L the discs had all been put in the wrong place.

A 2009 review of some of the animals noted that “overall six months is a relatively short time to follow an implant up”, but even after that time there appeared “to be worrying changes between the implant and the bone in all but one subject”.

Details of the tests on humans have not been published, but it is known they only ran for six months before the CE mark application, even though the implants were aimed at young patients.

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Medicrea Announces $30 Million Senior Secured Notes Issue and a Warrants Issue wholly subscribed by Perceptive Advisors

Posted On November 27, 2018 By OrthoSpineNews In Financial /

November 27, 2018

LYON, France & NEW YORK–(BUSINESS WIRE)–The Medicrea Group (Euronext Growth Paris: FR0004178572- ALMED ; OTCQX Best Market – MRNTY & MRNTF), pioneering the transformation of spinal surgery through Artificial Intelligence, predictive modeling and patient specific implants with its UNiD™ ASI (Adaptive Spine Intelligence) proprietary software platform, services and technologies, today announced the closing of a $30 million senior secured notes issue by Medicrea and wholly subscribed by Perceptive Advisors, a leading multi-strategy healthcare investment firm. In conjunction with the senior secured notes, Medicrea has issued to Perceptive Advisors warrants for the Company’s new ordinary shares.

Denys Sournac, Chairman of the Board of Directors and Chief Executive Officer, states “We are glad to execute this financing with Perceptive Advisors. The new secured notes will give us the necessary capital to continue to fuel our UNiD™ ASI growth strategy in the United States and will give us the required funds to continue the development of other proprietary products. We look forward to working with Perceptive, one of the leading healthcare focused investment firms in the world. We believe this refinancing is another validation of our proprietary, patient specific technology focused on restoring sagittal and coronal alignment.”

Sam Chawla, Portfolio Manager at Perceptive Advisors states, “We are excited about this investment in Medicrea. This refinancing retires most of the Company’s existing debt, and gives the company the financial flexibility to accelerate UNID™ ASI adoption. The company has a unique service and product offering in the Spine market and has delivered superior patient outcomes. With a clean capitalization, simplified balance sheet, and excess cash, Medicrea has a significant opportunity to grow over the coming years.”

Key Terms of the Notes

The refinancing facility will consist of $30 million senior secured and guaranteed notes, governed by New-York law with coupon based on the greater of Three-Month LIBOR or 2.5% plus a margin of 8.5%. The notes will be issued at par value on the 27^th of November 2018, the expected date for the settlement and delivery, and will mature on the 27^th of November 2022. The notes will be guaranteed by Medicrea USA Corp, a 100 % fully owned subsidiary of Medicrea and will be secured by pledges on certain assets and receivables of the Group.

This refinancing will help Medicrea fund its UNiD ASI growth strategy in the United States as well as continue to focus on new product development. Five years after its initial launch in September 2013, over 3,000 patients have benefited from UNiD™ ASI 100% proprietary pre-operative planning technologies and services associated with patient-specific spinal realignment rods. UNiD products have seen a strong acceleration in adoption rate in 2018 especially in the USA (+62% cases year-to-date 2018 and +90% in Q3 2018).

Medicrea has also retired all of its outstanding €15 million convertible debt with Athyrium Capital Management and will use the proceeds to pay down portions of other secured outstanding debt for a total amount of €1.55 million.

Medicrea believes this refinancing (excluding the exercise of the warrants) should support the development of the Company until it reaches operational profitability.

Key Terms of the Warrants

Perceptive Credit Holdings II,LP subscribed to 1,000,000 warrants. The settlement and delivery of the warrants should take place on the 27^th of November, 2018. These warrants will not be subject to a request for admission to trading on the Euronext Growth market in Paris and will therefore not be listed.

One warrant entitles its holder to subscribe to one new Medicrea International ordinary share, at an exercise price of € 2.19, corresponding to the volume-weighted average of the share prices of the last 10 trading days prior to the fixing of the subscription price, decreased by a 10 % discount pursuant to the 14^th resolution of the General Meeting of May 17, 2018. The warrants will be exercisable for a period of seven years after their issuance.

The new shares to be issued upon exercise of the warrants will carry current dividend rights and will be tradable on Euronext Growth and will be listed on the same line as the existing shares (ISIN : FR0004178572).

The shares that would be issued in the event of the exercise of all the warrants represent 4.93% of the Company’s share capital as of today (on a fully diluted basis).

For illustrative purposes, the interest of a shareholder holding 1% of the share capital of Medicrea would be brought to 0.94% if all the warrants were to be exercised.

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Viseon, Inc. Announces First US Clinical Use of the Voyant System for Minimally Invasive Spine Surgery Access, Illumination and Visualization

Posted On November 27, 2018 By OrthoSpineNews In Spine /

November 27, 2018

IRVINE, Calif.–(BUSINESS WIRE)–Viseon, Inc. today announced the first U.S. clinical human use of the Voyant System for Minimally Invasive Spine Surgery access, illumination and visualization. The case was performed by Neurosurgeon John J. Knightly, MD of the Atlantic NeuroSurgical Specialists in Morristown, New Jersey. The Voyant System is composed of a sterile single-use, disposable retractor device with integrated state-of-the-art visualization technology. The system utilizes a reusable controller enabling digital intraoperative manipulation of the surgical site image, which is displayed on operating room HD flat-panel display monitors. The sterile device also allows the surgeon to adjust intraoperative depth of focus.

Dr. John J. Knightly, Vice Chair of Neurosciences and Medical Director of the NeuroSpine Program at Overlook Medical Center’s Atlantic Neuroscience Institute in Summit, NJ, stated, “The Viseon technology has the potential to significantly change how I perform minimally invasive spinal surgery procedures. The technology represents a compelling alternative for using a surgical microscope, with sufficient anatomical distinction and depth perception to safely perform these cases, in an easy to use, disposable system.”

Viseon President and CEO Jeffrey Valko stated, “We are grateful that Dr. Knightly has pioneered our first U.S. human case, demonstrating the procedural transition from surgical microscopes. Further, he confirmed the ergonomic and efficiency advantages of this innovative system.”

Viseon previously announced FDA 510k clearance of the Voyant System in October 2018 and is currently available in the U.S. on a limited basis.

About Viseon, Inc.

Viseon has developed a platform technology that has multiple opportunities for technological expansion, including wireless, neuro-monitoring and navigation, fluorescence, sensor integration and complementary robotic applications. The company has demonstrated clinical utility in posterior lumbar decompression and interbody fusion procedures and is expanding into lumbar lateral access and anterior cervical decompression fusion applications. The privately held medical device company is located in Irvine, California, founded in 2017, and recently completed an oversubscribed follow-on financing in October 2018.

For further information, please visit www.viseon-spine.com.

Contacts

Viseon, Inc.
Jeffrey J. Valko, (949) 662-3959

Astura Medical Receives FDA 510(k) Clearance For OLYMPIC MIS Posterior Spinal Fixation System

Posted On November 27, 2018 By OrthoSpineNews In Regulatory, Spine /

CARLSBAD, CA – November 26, 2018 – Astura Medical, a high-growth, innovative spine technology company, today announced that it has received 510(k) clearance from the U.S. Food and Drug Administration (FDA) for its Olympic Minimally Invasive Surgery (MIS) Posterior Spinal Fixation System.

The Olympic MIS system delivers a new level of intraoperative flexibility and efficiency by allowing surgeons to customize to their preferred workflow through the utilization of either a traditional jamshidi/guide wire technique, awl-tap wireless technique, or single-step wireless technique for the placement of MIS pedicle screws. The system features an extensive offering of pedicle screw options, including iliac fixation, in either an extended tab (no assembly) or tower/screw (single step assembly) option. Designed to address even the most complex pathologies, Olympic MIS provides the versatility to accommodate multiple rod diameters in either titanium or cobalt chrome in pre-bent lordotic, straight, or pre-bent kyphotic options. The instrumentation further supports a streamlined and reproducible procedural sequence by providing up to 50mm of reduction, along with multiple options for compression or distraction, including the ability to span multiple levels simultaneously.

“With the increasing rates of MIS adoption and further complexity of pathologies being treated, it was paramount that we addressed the wide range of techniques that surgeons are currently utilizing,” said Joel Gambrell, President and CEO of Astura. “I’m proud of the system that our team of engineers and surgeon designers developed. Olympic MIS once again accomplishes our goal of continuing to bring technology to the market that further enhances the ability of our surgeon partners to provide the best in patient care.”

The full commercial release for Olympic MIS in December represents the fourth differentiated technology delivered to the market by the company in 2018.

About Astura Medical

Astura Medical was formed in 2014 with the objective of creating a disciplined, multi-phased approach to developing, manufacturing, and distributing medical devices. With surgeon input and feedback at every stage of development, Astura has created an extensive line of devices of the highest quality and sleekest design.

The two essential pillars that contribute to Astura Medical’s success are high quality products and robust distribution channels. These pillars, combined with passion and innovation, are what drive the Astura team to achieve great success with developing devices and entering them into the marketplace.

For more information, please visit www.asturamedical.com or find us on LinkedIn.

Media Contact:

Steve Haayen

Astura Medical

858.472.8825 steve@asturamedical.com

Verrix Completes Initial Close on $8 Million Funding Round to Advance Sterility Assurance Technology for Hospitals

Posted On November 27, 2018 By OrthoSpineNews In Financial /

November 27, 2018

SAN CLEMENTE, Calif.–(BUSINESS WIRE)–Verrix, a medical device company developing solutions for rapid and accurate sterilization confirmation, has completed an initial close on a Series B funding round for $8 million, which will bring the company’s total funds raised to $17.5 million. The Series B funding will allow the company to finalize development, regulatory submission, and commercialization of its Verrix EVA™ Biological Indicator (BI) System.

“We are excited to see the rapid advancement of Verrix with strong support from our investors,” said Cameron Rouns, CEO of Verrix. “The company has achieved significant progress in the development of the Verrix EVA™ BI System and is well positioned to successfully transition to commercialization as it prepares to introduce new technology for the fight against hospital acquired infections.”

Biological indicator systems are used to verify the success of sterilization cycles and detect failures, as inadequately sterilized surgical instruments and implants are a major contributor to infection outbreaks in hospitals. Despite a strong focus on improvements in infection control practices and advancements in technology, 1.7 million hospital acquired infections (HAIs) occur every year in the U.S.,¹ resulting in a $28-45 billion impact to the healthcare system.² Recognizing that up to 70 percent of HAIs are preventable,² Verrix technology is taking a new approach to sterilization monitoring to deliver BI results with unprecedented speed and accuracy.

Verrix was founded as a standalone company in 2013 to develop sterility assurance products and technologies based on planetary protection technology developed at NASA’s Jet Propulsion Laboratory for the Mars Rover program. In 2016, Verrix closed a Series A round of funding to develop the technology from patented concept to prototype. Verrix is now transitioning from research and development to commercialization of its unique method of spore detection. The first BI system developed based on Verrix’s technology advances is expected to be introduced in 2019.

To learn more about the history of Verrix, click here.

About Verrix

Verrix is a San Clemente, Calif.-based medical device company that is using the most advanced technologies to help protect patients from healthcare-associated infections. The foundational sterility assurance technology, originally discovered at NASA’s Jet Propulsion Laboratory, integrates cutting-edge optical physics, chemistry spectroscopy, and molecular biology. Based on scientific expertise and close partnerships with healthcare professionals, Verrix is developing market-changing solutions for sterility assurance, environmental monitoring, and infection control. Visit www.verrix.com for more information.

References

Klevens RM, Edwards JR, Richards CL, et al. Estimating health care-associated infections and deaths in U.S. hospitals, 2002. Public Health Rep. 2007;122(2):160-166.
Stone P.W. Economic burden of healthcare-associated infections: an American perspective. Expert Rev Pharmacoecon Outcomes Res. 2009;9:417-422.

Contacts

Media Contact
Andrea Sampson, Sullivan & Associates
asampson@sullivanpr.com
714/374-6174

Erin Manning, Vice President, Marketing, Verrix
erin.manning@verrix.com
949/668-1229

TRIA Orthopedics First in Minnesota to Test Breakthrough GelrinC™ Implant to Regenerate Knee Cartilage

Posted On November 27, 2018 By OrthoSpineNews In Biologics, Top Stories /

November 27, 2018

MINNEAPOLIS–(BUSINESS WIRE)–Regentis Biomaterials today announced that Twin Cities-based TRIA Orthopedics is the first in Minnesota to perform a procedure using the GelrinC™ implant to treat damaged articular cartilage causing knee pain. GelrinC (pronounced “gel-rin-cee”) is an investigational device being evaluated as a treatment to help the body regrow cartilage in the knee. TRIA is the only site in Minnesota – and just one of 17 sites nationwide – enrolling patients with knee pain caused by damaged knee cartilage in the SAGE clinical trial.

Articular cartilage is the smooth, white tissue covering the ends of bones where they come together to form joints. Damage to the cartilage layer can be extremely painful for patients and is generally associated with sudden trauma. Surgical intervention is often required because of the limited capacity for cartilage to repair itself. The current standard of care is a procedure called microfracture, which involves making tiny holes in the bone underneath the damaged cartilage to stimulate the growth of new cartilage. However, the cartilage is more like scar tissue than the original hyaline cartilage; as a result, microfracture often provides only short-term relief and may require repeat surgeries.

“There are limited options for patients who continue to experience knee pain caused by damage to their articular cartilage,” said Dr. Brad Nelson, orthopedic surgeon. “The hope is that GelrinC, which requires only a single minimally invasive procedure, will promote repair of the cartilage and alleviate pain.”

People 18-50 years old with pain in one knee caused by damaged articular cartilage can inquire about the study by visiting www.MyKneeStudy.com or by calling (833) 430-8686.

About GelrinC™

In the U.S., GelrinC™ from Regentis Biomaterials is an investigational device for patients with articular cartilage damage in their knee. GelrinC’s unique mode of action allows it to be implanted as a liquid so that it completely fills the cartilage defect in the knee, and then be cured into a gel that enables the body’s own stem cells to settle on its surface. Six to 12 months after surgery, the GelrinC is gradually resorbed by the body and replaced by new cartilage tissue. Preliminary clinical trials in Europe have indicated that this regenerated tissue provides excellent improvement in pain and function. To learn more about GelrinC, please visit www.GelrinC.com.

About the SAGE Clinical Trial

The SAGE study is a Food and Drug Administration (FDA) Investigational Device Exemption (IDE) clinical study comparing GelrinC to microfracture, the current standard of care treatment for damaged knee cartilage. The multi-center Phase III pivotal study will enroll 120 patients. All patients who meet study requirements and agree to enter the trial are provided GelrinC as treatment.

About Regentis Biomaterials

With offices in Princeton, New Jersey, and Or Akiva, Israel, Regentis Biomaterials is a privately held company focused on developing and commercializing proprietary hydrogels for tissue regeneration. The technology was originally developed at the Technion-Israel Institute of Technology by Dr. Dror Seliktar. For more information, please visit www.regentis.co.il.

CAUTION Investigational device. Limited by United States law to investigational use.

Contacts

For media inquiries, please contact:
Joni Ramirez
Merryman Communications
323.532.0746
joni@merrymancommunications.com

Annelise Heitkamp
TRIA Orthopedics
952.977.3540
annelise.m.heitkamp@healthpartners.com

Osiris Therapeutics, Inc. Appoints Samson Tom, PhD, MBA to Serve as President and Chief Executive Officer

Posted On November 26, 2018 By OrthoSpineNews In Biologics /

COLUMBIA, Md., Nov. 26, 2018 (GLOBE NEWSWIRE) — Osiris Therapeutics, Inc. (NASDAQ: OSIR), a regenerative medicine company focused on developing and marketing products for wound care, orthopedics, and sports medicine, is pleased to announce that its Board of Directors appointed Samson Tom, PhD, MBA to serve as President and Chief Executive Officer, effective November 26, 2018. Dr. Tom was at Osiris from 2003 to 2011, where he held several leadership positions spanning multiple functional areas including Quality, Operations, Clinical Development, and Product Development. Subsequently, he served as Group Director, Biosurgery Research & Development at Ethicon, Inc. (a Johnson & Johnson company). Prior to rejoining Osiris, he served as Vice President, Research & Development for Surgical Orthobiologics at Bioventus, LLC. Dr. Tom brings a strong combination of scientific and commercial experience in the regenerative medicine space. He earned a BA in Biology and Chemistry from Cornell University, a MS and PhD in Biochemistry from the University of Rochester School of Medicine and Dentistry, and a MBA in General Management from the Johns Hopkins University Carey Business School.

“Returning to Osiris definitely feels like coming home,” said Dr. Tom. “Developing and launching novel solutions to address unmet needs for patients and the medical community have always been at the core of Osiris. I am truly energized to continue this legacy and look forward to working with the entire team during the next phase in the evolution of this innovative company.”

“I am pleased to welcome Dr. Tom back to Osiris as President and CEO,” said Peter Friedli, Chairman of the Board. “At this important juncture for the company, Dr. Tom is a great fit due to his familiarity with our technologies and our culture of innovation. I look forward to working with him to achieve greater operational efficiency and future growth.”

Jason Keefer, who previously served as Interim President and Chief Executive Officer, will transition to lead the commercial functions of the organization and serve on the management team as Chief Commercial Officer.

About Osiris Therapeutics

Osiris Therapeutics, Inc., based in Columbia, Maryland, researches, develops, manufactures and commercializes regenerative medicine products intended to improve the health and lives of patients and lower overall healthcare costs. We have achieved commercial success with products in orthopedics, sports medicine and wound care, including the Grafix product line, Stravix^®, BIO^4® and Cartiform^®. We continue to advance our research and development by focusing on innovation in regenerative medicine, including the development of bioengineered stem cell and tissue‑based products. Osiris^®, Grafix^®, GrafixPL^®, GrafixPL PRIME^™ Cartiform^®, and Prestige Lyotechnology^sm are our trademarks. BIO^4® is a trademark of Howmedica Osteonics Corp., a subsidiary of Stryker Corporation. More information can be found on the Company’s website, www.Osiris.com. (OSIR-G)

Forward-Looking Statements

Statements herein relating to the future of Osiris Therapeutics, Inc. and the ongoing research and development of our products are forward-looking statements. Osiris Therapeutics, Inc. cautions that these forward looking statements are subject to numerous risks and uncertainties, which could cause actual results to differ materially from those expressed or implied by such statements. These risks and uncertainties include those identified under the heading “Risk Factors” in the Osiris Therapeutics Inc. Annual Report on Form 10-K for the years ended December 31, 2017, 2016 and 2015 and Quarterly Report on Form 10-Q for the quarters ended March 31, 2018, June 30, 2018 and September 30, 2018 as filed with the Securities and Exchange Commission (SEC). We caution investors not to place considerable reliance on the forward-looking statements contained in this press release. Examples of forward-looking statements may include, without limitation, statements regarding the anticipated efficiencies and advantages of products and the likelihood of customer clinical adoption of any new products. Although well characterized in scientific literature and studies, preservation of tissue integrity, including cells, may not be indicative of clinical outcome. Accordingly, you should not unduly rely on these forward-looking statements. You are encouraged to read our filings with the SEC, available at sec.gov, for a discussion of these and other risks and uncertainties. The forward-looking statements in this press release speak only as of the date of this document, and we undertake no obligation to update or revise any of the statements. Our business is subject to substantial risks and uncertainties, including those referenced above. Investors, potential investors, and others should give careful consideration to these risks and uncertainties.

For additional information, please contact:
Diane Savoie
Osiris Therapeutics, Inc.
(443) 545-1834
OsirisPR@Osiris.com

FDA Commissioner Scott Gottlieb, M.D. and Jeff Shuren, M.D., Director of the Center for Devices and Radiological Health, on new steps to modernize FDA’s 510(k) program

Posted On November 26, 2018 By OrthoSpineNews In Regulatory /

November 26, 2018 / FDA Statement

Forty-two years ago, Congress passed the law establishing the framework for evaluating the safety and effectiveness of medical devices. Today, we’re announcing changes to modernize the FDA’s 510(k) clearance pathway, which accounts for the majority of devices that the FDA reviews. We’re pursuing these changes to help keep pace with the increasing complexity of rapidly evolving technology. The new technology that we’re seeing holds tremendous public health promise for patients. But with the advances also come new complexities that can make the review of safety and effectiveness more challenging. The framework we propose is aimed at efficiently advancing beneficial technology to patients, while solidifying FDA’s gold standard for safety.

We believe that where appropriate, new medical devices that come to market under the 510(k) pathway should either account for advances in technology or demonstrate that they meet more modern safety and performance criteria. We want to make sure that new devices are evaluated against advances in technology that can improve patient safety and performance. In making these reviews, where appropriate, we want to rely on modern safety and performance criteria. At the same time, we’re going to pursue additional actions that will allow the FDA to retire outdated predicates, especially in cases where we’ve seen safer or more effective technology emerge.

We believe firmly in the merits of the 510(k) process. But we also believe that framework needs to be modernized to reflect advances in technology, safety and the capabilities of a new generation of medical devices. In short, we believe that it’s time to fundamentally modernize an approach first adopted in 1976, when Congress considered the vast diversity of devices that would become subject to the FDA’s regulatory oversight and established many of the predicate devices that served as the basis for 510(k) clearances during the last 40 years.

The 510(k) process allows the FDA to recognize that medical devices exist across a continuum of complexity and risk and that the scope of premarket review should reflect this risk continuum. This is a contemporary approach to regulation. A one-size-fits-all regulatory approach wouldn’t optimize public health outcomes, wouldn’t be efficient in advancing beneficial new technologies to patients, and wouldn’t allow the FDA to effectively prioritize its scientific resources.

Congress’s creation of the 510(k) process was a paradigm shift from the FDA’s regulation of drugs. It recognized the distinct challenges of regulating such a broad, diverse group of medical products. Today, the FDA regulates more than 190,000 distinct devices. Although the regulatory approach to devices is different than for drugs, the public health objective – assuring that all medical products meet the FDA’s standards for safety and effectiveness – is the same.

The 510(k) pathway represents a more contemporary approach to the risk-based regulation of medical products, but this doesn’t mean the pathway is perfect or not in need of change.

The staff of the FDA’s Center for Devices and Radiological Health (CDRH) has leveraged this risk-based paradigm to develop innovative and forward-leaning regulatory policy that meets our gold standard for safety and effectiveness. In recent months, we’ve taken many new steps to advance these goals. Many of these efforts aim at adopting a more modern process that allows the FDA to more readily incorporate new technologies that improve the safety and performance of medical devices into new predicates to serve as benchmarks for future clearances.

Some of the recent innovative policies include efforts to promote the use of real world evidence in regulatory decision-making; to modernize the De-Novo pathway for low to moderate risk novel devices; to enable the use of rigorous, consensus objective criteria to serve as a predicate for future clearances; to build a national patient safety net; to re-envision a regulatory paradigm for digital health products and in vitro diagnostics; and to chart a premarket review path for breakthrough products. At the same time, we’ve also advanced pathways that can help enable timely patient access to new, innovative and potentially transformative medical devices to help safely treat devastating diseases. For instance, we’ve promoted new ways to safely advance medical devices to diagnose cancer, repair damaged hearts and manage diabetes.

Advances in material science, digital health, 3D printing and other technologies continue to drive an unparalleled period of invention in medical devices. It’s vital that the FDA’s regulatory approach continue to evolve and modernize to safely and efficiently advance these opportunities. Not only must we keep pace with this complexity and innovation, but we must also stay ahead of the new and evolving risks that sometimes accompany this progress.

That’s why, this past April, FDA issued its Medical Device Safety Action Plan: Protecting Patients, Promoting Public Health. We recognized that there were opportunities for us to continue to enhance our programs to help improve device safety. Our policy ideas spanned the life cycle for devices, including ways to drive innovation of safer devices premarket, and enhance post market patient safety. We’ve made significant progress to advance that plan.

Modernizing the 510(k) Pathway

As part of the Safety Action Plan, we committed to strengthen and modernize the 510(k) program. This is a pathway used for clearance of low- to moderate-risk devices that are substantially equivalent to a device already on the market – otherwise known as a predicate device.

FDA’s 510(k) program is the most commonly used device premarket review pathway. In 2017, CDRH cleared 3,173 devices through the 510(k) pathway, representing 82 percent of the total devices cleared or approved. The 510(k) program has been strengthened and refined in many ways. This has been especially true in recent years, as CDRH made a systematic, concerted effort to improve the program’s performance, predictability, efficiency and safety.

Today, following the close of the public comment period and our review of the feedback on the Safety Action Plan, we’re announcing new steps and proposed actions to substantially build on these efforts. We’re focusing on new policy efforts that we plan to advance to help the 510(k) program keep pace with innovation, promote modern patient care and match our evolving understanding of benefits and risks. Our new plans are aimed at continuing to ensure that new and existing devices meet our gold standard for safety and effectiveness as technology rapidly advances.

The most impactful way that we can promote innovation and improved safety in the 510(k) program is to drive innovators toward reliance on more modern predicate devices or objective performance criteria when they seek to bring new devices to patients.

In the 510(k) pathway, manufacturers generally rely on comparative testing against predicate devices to show that a new device is as safe and effective as the predicate device. Older predicates might not closely reflect the modern technology embedded in new devices, or our more current understanding of device benefits and risks. In some cases, the predicate could be decades old. Data show that nearly 20 percent of current 510(k)s are cleared based on a predicate that’s more than 10 years old. That doesn’t mean the products are unsafe. But it does mean that some devices may not be continually improving, which is the hallmark of health technologies.

We believe that newer devices should be compared to the benefits and risks of more modern technology; that is why we’re looking at ways to promote the use of more recent predicates. To advance these goals, in the next few months CDRH is considering making public on its website those cleared devices that demonstrated substantial equivalence to older predicate devices. We’re considering focusing on predicates that are more than 10 years old as a starting point, so that the public is aware of those technologies. Our goal in focusing on older predicates is to drive sponsors to continually offer patients devices with the latest improvements and advances.

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A hydrogel that adheres firmly to cartilage and meniscus

Posted On November 21, 2018 By OrthoSpineNews In Biologics /

November 21, 2018, Ecole Polytechnique Federale de Lausanne

EPFL researchers have developed a hydrogel – made up of nearly 90% water – that naturally adheres to soft tissue like cartilage and the meniscus. If the hydrogel carries repair cells, it could help damaged tissue to heal.

Some types of body tissue, like cartilage and meniscus, have little or no blood supply and are unable to heal if damaged. One promising approach to this problem is to inject a hydrogel loaded with repair cells or drugs into the damaged area in the hope of stimulating tissue regeneration.

However, commercial hydrogels do not stay put after being applied to the treatment area because of pressure from the body’s movements and the flow of bodily fluids. Doctors therefore use special membranes to keep the hydrogel in place, yet those membranes are attached with sutures that perforate the very tissue the hydrogel is supposed to heal.

Two EPFL research groups, led by Dominique Pioletti and Pierre-Etienne Bourban, have created a biocompatible hydrogel that naturally adheres to soft tissues like cartilage and the meniscus. Their hydrogel, which is almost 90% water, can withstand mechanical stresses and extensive deformation and therefore eliminates the need for a separate binding process. Their research has been published in ACS Applied Materials & Interfaces.

“Our hydrogel is ten times more adhesive than currently available bioadhesives on the market such as fibrin,” says Pioletti, head of the Laboratory of Biomechanical Orthopedics in EPFL’s School of Engineering. “And thanks to its high water content, our hydrogel is very similar in nature to the natural tissue it’s designed to heal.”

READ THE REST HERE

Photo Credit: Ecole Polytechnique Federale de Lausanne

Vertiflex® Announces Publication of Data Analysis Showing 85% Reduction in Patients Using Opioids After Treatment With Superion® Indirect Decompression System

Posted On November 21, 2018 By OrthoSpineNews In Spine /

November 20, 2018

CARLSBAD, Calif.–(BUSINESS WIRE)–Vertiflex® Inc., a leading innovator of advanced, minimally invasive interventions for spinal stenosis, announced additional results from a randomized, controlled trial of its Superion® Indirect Decompression System in patients with lumbar spinal stenosis (LSS). The results, published in the Journal of Pain Research (https://www.dovepress.com/articles.php?article_id=42435), showed an 85 percent decrease in the proportion of patients who were using opioids five years after being treated with interspinous process decompression (IPD) using the Superion device. The study was conducted under an Investigational Device Exemption with the U.S. Food and Drug Administration (FDA).

Superion received Premarket Approval (PMA) from the FDA in 2015 for the treatment of LSS, a common degenerative condition where the spinal cord narrows, compressing nerves that travel through the lower back into the legs. LSS causes significant pain, disability, functional impairment and diminished quality of life. It is the most common indication for spine surgery in older adults. In the United States, LSS affects more than 14 million patients.

“These findings demonstrate that treatment with IPD, a minimally-invasive treatment option for LSS, can provide effective pain relief while markedly decreasing the need for prescription opioid medications,” said Pierce D. Nunley, M.D., lead author of the publication and Director of the Spine Institute of Louisiana.

Study Design and Results

The trial estimated the type, dosage and duration of opioid medications through five years of post-operative follow-up after IPD with the Superion device. Data were obtained from the Superion treatment arm of a randomized, controlled, noninferiority trial. The prevalence of patients using opiates was determined at baseline, 6 weeks, and at 3, 6, 12, 18, 24, 36, 48 and 60 months. The primary analysis included all 190 randomized patients receiving the Superion device.

At baseline, nearly 50 percent (94 of 190) of patients were using opioid medications. Results of the data analysis showed a marked year-over-year decrease in the proportion of patients taking opioid medication to manage LSS symptoms after Superion implantation. After five years, there was an 85 percent decrease in the proportion of patients using opioids.

“We are pleased by these published results demonstrating that use of the Superion device provides effective relief from back and leg pain in patients with LSS without the need for continuing opioid therapy. These results extend previous research showing that Superion results in long-term sustained clinical improvement in patients with LSS,” said Earl Fender, President and CEO of Vertiflex. “Finding non-opioid approaches to treating pain is critical, and we are pleased to share these published findings and discuss their implications with the clinical community.”

“With growing concerns over prescription opioid overuse and misuse, which can lead to addiction, any effective strategies that can decrease or even eliminate the need for opioid therapy in patients with LSS are welcome,” said Tim Deer, M.D., an author on the publication and President and CEO, The Spine and Nerve Center of the Virginias.

In the United States, the opioid epidemic was responsible for more than 42,000 deaths in 2016, or 116 people a day.¹ About 40 percent of all opioid overdose deaths involve a prescription opioid.²

About Superion

Superion is an indirect decompression device for the treatment of moderate LSS. Superion prevents compression of the nerves and vasculature in the spine while walking and standing, when symptoms most commonly manifest, and does not require the removal of any bone or tissue to implant. Superion received approval from the FDA through a Premarket Approval process based on the largest, most extensive body of device clinical evidence related to LSS.

About Vertiflex®, Inc.

Vertiflex is a privately held medical device company dedicated to the advancement of minimally invasive solutions for the treatment of lumbar spinal stenosis, which is the leading cause of spinal surgery in the elderly. Founded in 2005 and headquartered in Carlsbad, California, Vertiflex has developed a proprietary, minimally invasive technology for performing indirect decompressions of the lumbar spine. The procedure fills a gap in the stenosis treatment continuum. To date, Vertiflex has compiled the largest, most rigorous body of device clinical evidence related to lumbar spinal stenosis. For more information, visit www.vertiflex.com.

References

1. HHS: https://www.hhs.gov/opioids/about-the-epidemic/index.html

2. CDC: http://www.cdc.gov/drugoverdose/data/index.html

Contacts

Vertiflex®, Inc.
Kathryn Larson, Sr. Director, Strategic Marketing
klarson@vertiflex.com
+1.442.325.5941

Author: OrthoSpineNews

Contacts

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