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February 2-4, 2017
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BiologicsTop Stories

BONESUPPORT™ Announces First Patient Enrolled in FORTIFY Trial with CERAMENT®|G

May 23, 2017 OrthoSpineNews

Lund, Sweden, 22 May 2017– BONESUPPORT AB, an emerging leader in innovative injectable bioceramic bone substitute products to treat bone voids caused by trauma, infection, disease or related surgery, today announced that the first patient has been enrolled by Dr Ravi Karia at the  University of Texas Health Science Center at San Antonio into the company’s pivotal Investigational Device Exemption (IDE) trial:  A Prospective, Randomized, Multicenter Controlled Trial of CERAMENT G as Part of Surgical Repair of Open Diaphyseal Tibial Fractures (the FORTIFY trial: ClinicalTrials.gov Identifier: NCT02820363).

CERAMENT G is an injectable antibiotic-eluting bone graft substitute that has proven remodeling capabilities and provides local sustained delivery of gentamicin.  The data from the trial will support BONESUPPORT’s PMA (Premarket Approval) filing for CERAMENT G   in the US.

In spite of modern day care of open tibial fractures, bone loss  coupled with wound contamination and soft tissue damage continue to impair healing and recovery, particularly if infection develops. In addition, open tibial fractures result in a general infirmity, long-term disability and reduction in quality of life for patients, and a significant clinical challenge for orthopedic surgeons.

The FORTIFY trial will assess CERAMENT G’s ability to improve on the standard-of-care management of patients with open fractures of the tibial diaphysis. The primary endpoints of the trial will include the absence of deep infection at the fracture site and the lack of secondary procedures intended to promote fracture union.  The trial will also evaluate the safety of CERAMENT G in these patients. The trial will enroll up to 230 patients at up to 30 centers in the US and Europe.

Dr. Douglas Dirschl, the trial’s Principal Investigator, said: “I am excited to take part in the FORTIFY clinical trial. The open tibial fracture remains the most common and one of the most troublesome open fractures managed by orthopedic surgeons. Even with modern treatment protocols, patients suffering this fracture continue to be at substantial risk of infection, fracture non-union, and prolonged disability. A product that could be inserted into the fracture site at the time of definitive treatment that could promote bone formation at the same time as reducing the risk of subsequent infection, would be a major advance in the treatment of these troublesome fractures and would have the potential to provide benefit to thousands of patients each year in the United States.”

Douglas R. Dirschl, MD is the Lowell T. Coggeshall Professor of Orthopedic Surgery and Chairman, Department of Orthopedic Surgery and Rehabilitation Medicine at The University of Chicago Medicine.

“The treatment of the first patient in the FORTIFY trial is another key corporate milestone for BONESUPPORT.  This clinical trial in a complex trauma indication is designed to demonstrate proof-of-concept that CERAMENT G can be used to improve and protect the healing process in open bone fractures in combination with standard procedures, minimizing the risk of deep infections which would result in the need for additional remedial procedures,” added Richard Davies, CEO of BONESUPPORT. “We plan to use the clinical data to support our planned PMA filing for CERAMENT G in the US. We also intend to generate additional clinical data with CERAMENT G to gain a broad US label for this novel, injectable antibiotic-eluting bone graft substitute, which is rapidly being adopted in Europe.”

CERAMENT G combines the bone healing and bone remodeling properties of CERAMENT with the antibiotic, gentamicin. CERAMENT G drug-eluting properties enable it to provide an initial high concentration of gentamicin to the environment of the bone fracture and then a longer sustainable dose above the minimum inhibitory concentration of many of the bacteria that could cause a bone infection at the fracture site. This unique antibiotic-eluting profile helps protect the bone healing process and to promote bone remodeling.

CERAMENT G received the European CE Mark in February 2013 and is now marketed in 19 countries outside the US. 

Notes to Editor

About BONESUPPORT

BONESUPPORT has developed CERAMENT as an innovative range of radiopaque injectable osteoconductive bioceramic products that have a proven ability to heal defects by remodeling to host bone in six to 12 months. Our products are effective in treating patients with fractures and bone voids caused by trauma, infection, disease or related surgery. Our lead product, CERAMENT BONE VOID FILLER (BVF) addresses important issues facing health care providers, such as avoiding hospital readmissions and revision surgery that result from failed bone healing and infection caused by residual bone voids. CERAMENT BVF is commercially available in the U.S., EU, SE Asia and the Middle East.

CERAMENT’s distinctive properties as a drug eluting material have been validated in clinical practice by CERAMENT G and CERAMENT V, the first CE-marked injectable antibiotic eluting bone graft substitutes. These products provide local sustained delivery of gentamicin and vancomycin, respectively. The local delivery feature enables an initial high concentration of antibiotics to the bone defect and then a longer sustainable dose above the minimal inhibitory concentration (MIC) to protect bone healing and promote bone remodeling.

CERAMENTG and CERAMENT V have demonstrated good results in patients with problematic bone infections including osteomyelitis. They are also used prophylactically in patients who are at risk for developing infection. CERAMENT G and CERAMENT V are available in the EU.

BONESUPPORT was founded in 1999 by Prof. Lars Lidgren, an internationally respected scientist who has been the President of various musculoskeletal societies. BONESUPPORT’s mission is to bring people with bone and joint diseases back to an active life. The Company is based in Lund, Sweden. www.bonesupport.com

BONESUPPORT™ is a registered trademark.

 

Contact Information

BONESUPPORT AB

Richard Davies

info@bonesupport.com

+46 (0)46 286 53 24 

Citigate Dewe Rogerson

David Dible, Mark Swallow, Marine Perrier

+44 (0)20 7638 9571

bonesupport@citigatedr.co.uk

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BiologicsTop Stories

CollPlant Signs New Exclusive Distribution Agreement in Turkey for Vergenix®FG Wound Treatment

May 23, 2017 OrthoSpineNews

NES ZIONA, Israel, May 22, 2017 /PRNewswire/ — CollPlant (TASE: CLPT), a regenerative medicine company utilizing its proprietary plant-based rhCollagen (recombinant human “rhCollagen”) technology for tissue repair products announced that the Company has signed a new, exclusive distributor agreement in Turkey to market Vergenix®FG, for the treatment of chronic wounds. The one year agreement includes a two-year extension option. The market potential for the treatment of chronic wounds in Turkey is estimated at in excess of 400,000 procedures annually.

Yehiel Tal, Chief Executive Officer of CollPlant, noted, “We have received excellent feedback from opinion leaders in Europe who have been using the product, and the signing of the agreement with the Turkish distributor represents a further layer in the implementation of the Company’s sales strategy on the continent. Our objective is to build up the sales infrastructure for Vergenix®FG through distributors in various, key territories.”

Below is a link to a video review by Professor Alberto Piaggesi, M.D., Director of the Diabetic Foot Section of the Pisa University Hospital, Italy and a member of the Council of the European Wound Management Association (EWMA). Dr. Piaggesi, who uses Vergenix®FG to treat patients with hard to heal chronic wounds, describes the product’s advantages and its success in closing wounds. (Warning: the video includes pictures from treatment that some viewers might find distressing).

CollPlant Vergenix FG – Prop. Alberto Piaggesi – Youtube

About Vergenix®FG

Vergenix®FG is an injectable gel compound based on the Company’s human collagen, which has shown to treat chronic wounds and operation-based incisions, including diabetic foot ulcer. The gel is injected directly into the wound, thereby filling it and facilitating a healing process through to complete wound closure, without any side effects such as infections or allergies which may occur with other treatment options.

About CollPlant

CollPlant is a regenerative medicine company leveraging its proprietary, plant-based recombinant human collagen (rhCollagen) technology for the development and commercialization of tissue repair products, initially for the orthobiologics, 3D Bio-printing of tissue and organs, and advanced wound care markets. The Company’s cutting-edge technology is designed to generate and process proprietary rhCollagen, among other patent-protected recombinant proteins. Given that CollPlant’s rhCollagen is identical to the type I collagen produced by the human body, it offers significant advantages compared to currently marketed tissue-derived collagen, including improved biofunctionality, superior homogeneity and reduced risk of immune response. The Company’s broad development pipeline includes biomaterials indicated for orthopedics and advanced wound healing. Lead products include: Vergenix®STR (Soft Tissue Repair Matrix), for the treatment of tendinopathy; and Vergenix®FG (Flowable Gel) wound filler, for treatment of acute and chronic wounds. CollPlant’s business strategy includes proprietary development and manufacture of tissue repair products and their commercialization and distribution, together with leading third parties, alongside alliances with leading companies for joint development, manufacture and marketing of additional products.

For more information about CollPlant, visit http://www.collplant.com

Contact at CollPlant:                                   

Eran Rotem
Chief Financial Officer
Tel: + 972-73-2325600/612
Email: Eran@collplant.com

Contact at Rx Communications Group, LLC:

Paula Schwartz (for US Investors)
Managing Director
Tel: 917-322-2216
Email: pschwartz@rxir.com

SOURCE CollPlant

Related Links

http://www.collplant.com

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BiologicsFinancialTop Stories

Organogenesis Closes on a $20 Million Facility from Eastward Capital Partners

May 23, 2017 OrthoSpineNews

CANTON, Mass., May 22, 2017 /PRNewswire/ — Organogenesis Inc., a commercial leader in the field of regenerative medicine focusing on advanced wound care and surgical biologics, today closed a $20 million financing facility with Eastward Capital Partners, a leading provider of venture debt and equity financing to technology companies.

“We were fortunate to have several choices in a financing partner as we continue to build our balance sheet and our product portfolio to provide the most advanced wound care and surgical biologics solutions to our customers,” said Tim Cunningham, Chief Financial Officer of Organogenesis Inc. “We chose Eastward Capital Partners given their impeccable credentials and stellar reputation, which aligns well with Organogenesis’ core values.  Additionally, Eastward Capital Partners has decades of experience financing health technology companies and understands the value our products bring to clinicians and patients.”

“Eastward Capital Partners is committed to partnering with technology-forward companies who are leaders in their industry segments,” said Eastward Partner’s Tim O’Loughlin. “We are excited to partner with Organogenesis to provide the capital to support their growth plans.”

About Organogenesis Inc.
Originally founded as a spin-off from technology developed at MIT in 1985, Massachusetts-based Organogenesis Inc. is a global leader in regenerative medicine, offering a portfolio of bioactive and acellular biomaterials products for advanced wound care, orthopedics, and spine. Organogenesis’ versatile portfolio is designed to treat a variety of patients with repair and regenerative needs. For more information, visit www.organogenesis.com.

About Eastward Capital Partners
Eastward has provided private debt to leading companies in the Information Technology, Communications, New Media and Healthcare sectors since 1994.  As one of the oldest and most respected investors in the market, Eastward has a long history of working with companies to craft funding solutions which allow companies to reach their full potential.  www.eastwardcp.com

CONTACT:
Angelyn Lowe
(781) 830-2353
alowe@organo.com

SOURCE Organogenesis Inc.

Related Links

http://organogenesis.com/

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RegulatoryTop Stories

FDA Clears Iovera Cold Treatment Device for Knee OA Pain

May 19, 2017 OrthoSpineNews

Megan Brooks, Medscape – May 18, 2017

The US Food and Drug Administration (FDA) has cleared the iovera device, from Myoscience, Inc, for the relief of pain and symptoms associated with knee osteoarthritis (OA) for up to 90 days. Myoscience is located in Fremont, California.

“The iovera technology is a nonopioid and nonsystemic treatment for blocking pain signals from peripheral nerves,” the company said in a news release announcing FDA 51(k) clearance of the device.

The device uses the body’s natural response to cold to treat peripheral nerves. It consists of a hand piece equipped with a nitrous oxide cartridge and three closely spaced 27-gauge closed-end needle tips. The nitrous oxide flows from the cartridge to the needle tips, creating a highly localized cold zone. The effect is transient and provides pain relief until the nerve regenerates and its sensory function is restored.

“The iovera technology has the potential to change the current paradigm of pain management for osteoarthritis. The patients that I have treated with this technology have experienced immediate and long-lasting pain relief and are grateful to have an option that is nonnarcotic and nonsystemic,” Vinod Dasa, MD, member of the Myoscience medical advisory board, said in the release.

 

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BiologicsFinancialTop Stories

Florida Institute Funds Alachua-based Amend Surgical

May 19, 2017 OrthoSpineNews

GAINESVILLE, Fla. and BOCA RATON, Fla., May 18, 2017 /PRNewswire-USNewswire/ — The Florida Institute for the Commercialization of Public Research (the Florida Institute) announced today that it has finalized a funding agreement with Amend Surgical, an Alachua-based medical device company with newly licensed technology developed at the University of Florida. The Florida Institute supports new company development and expansion based on publicly-funded research, and bridges early funding gaps for companies licensing technology out of Florida-based universities and research institutions.

Amend Surgical is a specialty medical device company focused on enhancing the healing and regenerative capacity of bone grafts, including allograft, xenograft tissues and synthetic materials. The company’s pipeline includes novel, osteoinductive bone extracts, and will expand in the future to disruptive products based on discovery and development of novel therapeutic additives with tissue-specific regenerative characteristics.

“We are committed to advancing the science of orthobiologics by improving the healing capacity of bone grafts.  The new funding agreement with the Florida Institute will allow Amend to rapidly expand our research and commercialization efforts on Biomimetic Bone which was licensed from the University of Florida in March 2017,” said Robby Lane, Chief Executive Officer of Amend Surgical.

“Amend Surgical provides surgeons and their patients access to innovative bone grafting options,” said Jackson Streeter, MD, Florida Institute Chief Executive Officer. “By developing and advancing bone grafts and other orthobiologics with enhanced regenerative capacity, surgery patients can identify, with guidance from their physicians, new options that can help them achieve the best possible surgical outcomes.”

About the Florida Institute

Formed by the Florida Legislature in 2007, the Florida Institute for the Commercialization of Public Research is a non-profit organization that works collaboratively with the technology licensing and commercialization offices of Florida’s state universities and private research institutions to leverage a $2.5B+ research base and form investable companies that create clean jobs in new industries that are driving the global economy. With funding from the State of Florida through the Department of Economic Opportunity, and through the generosity of mentors, advisors and donors, the Florida Institute provides company building services, and seed funding through the Florida Technology Seed Capital Fund, to promising Florida startups. Sixty-nine companies have been funded to date, and the Florida Institute’s economic impact through June 30, 2016 in the State of Florida was $630 million.

About Amend Surgical

Amend Surgical is a product development company offering differentiated biologic solutions for surgeons, medical device manufacturers and distributors globally.  Amend is targeting the bone graft substitute market with licensed, patented, technology and is focused on spine, orthopedic and dental indications.  The R&D pipeline includes products loaded with antibiotics and natural bone morphogenic proteins. Additionally, Amend is commercializing a novel Biomimetic Bone technology licensed from the University of Florida that offers the hope for a synthetic graft with load bearing capability and osteostimulative properties.  Amend currently manufactures and distributes the only demineralized bone-bioactive glass combination product approved by the FDA. NanoFUSE® Bioactive Matrix uniquely combines the osteoinductive capabilities of demineralized allograft bone with the osteostimulative properties of 45S5 bioactive glass.

CONTACT:
Jane Teague
Chief Operating Officer
Institute for the Commercialization of Public Research
561-368-8889
jane.teague@florida-institute.com

 

SOURCE Florida Institute for the Commercialization of Public Research

Related Links

http://www.florida-institute.com

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RoboticsTop Stories

Zimmer Biomet licenses Intellectual Property from Bonutti Research Inc.

May 19, 2017 OrthoSpineNews

EFFINGHAM, ILLINOIS (PRWEB) MAY 18, 2017

Effingham, Illinois – May 18, 2017 – Bonutti Research Inc. and Zimmer Biomet have entered into a license agreement for Zimmer Biomet’s use of two patent families created by Dr. Peter Bonutti. U.S. Patent No. 9,301,845 adds to the strength of the innovative knee systems, Persona® The Personalized Knee System and the NexGen® Complete Knee Solution. U.S. Patent Nos. 9,269,987 and 9,585,725 support the development of the Rosa® robotic total knee application currently underway at Zimmer Biomet.

About Bonutti Research (BRI)

Founded by Peter Bonutti, MD in 1989, BRI is a medical device incubator with over 550 patents and patent applications involving diagnostics, surgical robotics, minimal invasive surgery, soft tissue fixation, and hip and knee arthroplasty. BRI has entered into over 740 licenses in numerous medical and surgical fields. Bonutti Research is a device incubator with in-house design, engineering, regulatory, manufacturing, and intellectual property teams.  Learn more about innovations from BRI at bonuttiresearch.com

Contact:
Lucas Wenthe
LWenthe(at)bonuttitechnologies(dot)com
(217) 342-3412 x5111

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NeuroSpineTop Stories

Central Connecticut Neurosurgery and Spine is the First in Connecticut to Offer New Treatment Option for Chronic Pain

May 18, 2017 OrthoSpineNews

PLANO, TEXAS (PRWEB) MAY 17, 2017

Dr. Ahmed Khan is the first physician in Connecticut to implant Nuvectra’s Algovita® Spinal Cord Stimulation System, a powerfully versatile, patient-centric spinal cord stimulation system. The Algovita SCS System has been FDA approved as a treatment option for chronic intractable pain since late last year.

Chronic pain affects over 100 million Americans, according to the Institute of Medicine, more than diabetes, cancer, and heart disease combined. Chronic pain is difficult to treat, but one potential treatment option is spinal cord stimulation, or SCS. SCS works by masking or interrupting pain signals as they travel up the spinal cord to the brain. A small, rechargeable battery is implanted under the patient’s skin and connected to thin wires, called leads, which stimulate the nerves sending pain signals. The stimulation “overrides” the pain signals, and instead of feeling pain, patients may feel a tingling sensation known as paresthesia.

The Algovita SCS System is a new offering to the SCS market, featuring 24 current sources and the broadest overall set of parametric ranges offered for tonic SCS. This combination provides flexible coverage and expanded programming options for individualized patient therapy. Algovita also offers the industry’s only stretchable leads, which are designed to reduce the risk of lead fracture and migration. In addition, the system’s percutaneous leads feature up to 12 contacts for wide coverage of potential pain areas. The Algovita system was designed to be patient-centric and easy to use. The wireless Pocket Programmer fits discreetly in a hand, purse, or pocket and allows a patient to conveniently adjust their therapy on the go.

For more information about Nuvectra and the Algovita Spinal Cord Stimulation system, visit http://www.nuvectramed.com.

About Dr. Ahmed Khan

Dr. Ahmed Khan is a neurosurgeon in New Britain, Connecticut and is affiliated with Bristol Hospital. He received his medical degree from University of Connecticut School of Medicine and has been in practice for more than 20 years. He is one of 2 doctors at Bristol Hospital who specialize in Neurological Surgery.

About Nuvectra Corporation

NuvectraTM is a neurostimulation company committed to helping physicians improve the lives of people with chronic neurological conditions. The Algovita® Spinal Cord Stimulation (SCS) System is our first commercial offering and is CE marked and FDA approved for the treatment of chronic pain of the trunk and/or limbs. Our innovative technology platform also has capabilities under development to support other neurological indications such as sacral nerve stimulation (SNS), and deep brain stimulation (DBS). In addition, our NeuroNexus subsidiary designs, manufactures and markets leading-edge neural-interface technologies for the neuroscience clinical research market. Visit the Nuvectra website at http://www.nuvectramed.com.

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RegulatoryTop Stories

XpandOrtho, Inc. Receives FDA 510(k) Clearance for Its Electronic Soft Tissue Balancing Instrument for Total Knee Replacement Surgery

May 18, 2017 OrthoSpineNews

May 17, 2017

LA JOLLA, Calif.–(BUSINESS WIRE)–XpandOrtho, Inc., a designer of soft tissue balancing instruments, received FDA clearance on April 25th of 2017 for their electronic soft tissue balancing instrument for total knee replacement surgery.

The US Food and Drug Administration (FDA) awarded XpandOrtho 510(k) clearance for its sterile-packaged wireless disposable device that utilizes multiple miniaturized sensors and actuators to perform multiplanar balancing of the knee joint during a full range of motion. The device uses a novel constant pressure bellows system which wirelessly communicates with a display to provide dynamic multiaxial balance and selection of optimal thickness of the tibial component. The device can be conveniently used by all surgeons regardless of whether they choose to make the femoral cut first or the tibial cut first. Soft tissues can be released with the device in place enabling real time visual feedback to the surgeon. The “universal” design is compatible with almost all total knee implant systems from major manufacturers. This low-cost disposable device can also preserve an electronic record of the entire 3D balance of the knee at the end of the surgical procedure.

XpandOrtho has initiated a clinical study at Scripps Clinic, La Jolla, CA and will be conducting a limited release of their product to selected surgeons in the US. “We are excited to give large and small volume surgeons the ability to reproducibly and accurately balance the ligaments of the knee over a full range of motion during total knee replacement,” said Clifford Colwell, M.D., President and Chairman of the Board, XpandOrtho, Inc.

About XpandOrtho, Inc.

XpandOrtho, Inc. is developing and commercializing orthopedic devices that provide real time visual feedback to surgeons during their surgical procedure. XpandOrtho is a privately held medical device and technology company that is committed to improving the standard of care in total knee replacement surgeries by providing measurable and consistent results to all surgeons and patients. Our future development plans will leverage this technology to provide solutions for a broader range of orthopedic procedures.

Contacts

XpandOrtho, Inc.
Dr. Cliff Colwell, 858-663-7092
colwell@scripps.edu

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RoboticsTop Stories

Titan Medical Completes Initial Formative Human Factors Studies for SPORT Robotic Surgical System

May 17, 2017 OrthoSpineNews

TORONTO, ON–(Marketwired – May 17, 2017) – Titan Medical Inc. (TSX: TMD) (OTCQB: TITXF), a medical device company focused on the design and development of a robotic surgical system for application in minimally invasive surgery (MIS), announces completion of initial formative human factors studies for its SPORT single port robotic surgical system. Formative human factors studies involve the evaluation of prototypes by expert users that focus on simulated task exercises that are critical to product safety.

David McNally, President and CEO of Titan Medical, said, “The completion of initial formative human factors studies is a key development milestone, and we are pleased to have achieved it on schedule. We are grateful to the independent surgeons and nurses who participated in these studies. Initial formative human factors studies are a foundational step in the development of a safe and effective complex medical device, such as a robotic system. In addition to evaluating the ergonomics of the workstation and patient cart during simulated procedures, clinicians provided insights regarding the setup and maneuverability of the central unit, the positioning of the insertable camera and the loading of instruments. The results of the studies provide valuable perspectives on user interaction and user experience for the development of the SPORT system. This end-user feedback will be integrated with information gained from the ongoing testing and evaluation of certain subsystems, so that appropriate design enhancements can be prioritized and implemented.”

Mr. McNally continued, “Based on our progress and the commitment of our employees and subcontractors, we remain on track to deliver the next of our stated milestones during the second quarter of the year. While our product development team focuses on system design improvements, other members of management are actively engaged in evaluating prospective strategic facilities for preclinical studies in the U.S. and Europe.”

About Titan Medical Inc.

Titan Medical Inc. is focused on the design and development through to the planned commercialization of a robotic surgical system for application in MIS. Titan’s SPORT Surgical System, currently under development, includes a surgeon-controlled robotic platform that features multi-articulating instruments for performing MIS procedures through a single port. The surgical system also includes a workstation that provides a surgeon with an advanced ergonomic interface to the robotic platform for controlling the instruments and provides a 3D high-definition endoscopic view inside a patient’s body. The SPORT system is designed to enable surgeons to perform a broad set of general abdominal, gynecologic, urologic and colorectal procedures. For more information, visit the Company’s website at www.titanmedicalinc.com.

Forward-Looking Statements

This news release contains “forward-looking statements” which reflect the current expectations of management of the Company’s future growth, results of operations, performance and business prospects and opportunities. Wherever possible, words such as “may”, “would”, “could”, “will”, “anticipate”, “believe”, “plan”, “expect”, “intend”, “estimate”, “potential for” and similar expressions have been used to identify these forward-looking statements. These statements reflect management’s current beliefs with respect to future events and are based on information currently available to management. Forward-looking statements involve significant risks, uncertainties and assumptions. Many factors could cause the Company’s actual results, performance or achievements to be materially different from any future results, performance or achievements that may be expressed or implied by such forward-looking statements, including, without limitation, those listed in the “Risk Factors” section of the Company’s Annual Information Form dated March 31, 2017 (which may be viewed at www.sedar.com). Should one or more of these risks or uncertainties materialize, or should assumptions underlying the forward looking statements prove incorrect, actual results, performance or achievements may vary materially from those expressed or implied by the forward-looking statements contained in this news release. These factors should be considered carefully, and prospective investors should not place undue reliance on the forward-looking statements. Although the forward-looking statements contained in the news release are based upon what management currently believes to be reasonable assumptions, the Company cannot assure prospective investors that actual results, performance or achievements will be consistent with these forward-looking statements.

 

CONTACT INFORMATION

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ExtremitiesTop Stories

Knee osteoarthritis: Steroid injections offer no benefit, study suggests

May 17, 2017 OrthoSpineNews

Written by  , Published 5-16-2017

Patients with symptomatic knee osteoarthritis do not benefit from steroid injections, concludes a new study published in JAMA.

Study co-author Timothy E. McAlindon, of Tufts Medical Center in Boston, MA, and colleagues found that steroid injections administered every 3 months were no better than a placebo for alleviating knee pain in patients with knee osteoarthritis (OA).

In fact, the researchers found that steroid injections actually led to a greater loss in the volume of bone cartilage over 2 years.

Based on their findings, McAlindon and colleagues recommend against the use of steroid injections for the treatment of knee OA.

OA, also referred to as degenerative joint disease, is the most common form of arthritis, affecting more than 30 million adults in the United States.

OA is caused by the breakdown of cartilage, the tissue that covers and protects the ends of bones, and it most commonly affects the joints of the knees, hips, hands, and spine. The “wear and tear” of cartilage can lead to pain, inflammation, and movement problems.

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