BOSTON, Oct. 27, 2016 /PRNewswire/ — 4WEB Medical, the industry leader in 3D printed implant technology, announced today at the annual meeting of the North American Spine Society (NASS) that the first surgeries utilizing the company’s Curved Posterior Spine Truss System (PSTS) for TLIF procedures were recently performed.  Cameron Carmody, MD, of Texas Spine Consultants in Dallasstated, “The Curved TLIF device from 4WEB provides yet another viable treatment option that leverages the company’s patented truss implant technology.  I have tried several of the new titanium implant designs on the market produced with additive manufacturing and the 4WEB technology has provided the best clinical outcomes for my patients.  In addition to excellent clinical results, the 4WEB implant portfolio stands above the rest with the widest range of devices for ALIF, TLIF, Cervical, PLIF, and Lateral spine procedures.”

Jeffrey Wise, MD, Blue Ridge Orthopaedic and Spine Center, who also utilized the Curved TLIF PSTS upon its market release said, “With virtually every company now promoting a 3D printed porous titanium implant with stimulative surface roughness, it is refreshing that 4WEB continues to innovate with implants that are uniquely differentiated.  While 4WEB¹s truss implants have at least three times more surface area for cell adhesion and differentiation than competitive products, the most important feature is found in the structural mechanics associated with the truss design. The kinetic load distribution throughout the entire fusion column delivers microstrain to adjacent cellular material which can aid in healing by capitalizing on the concepts described by Wolff’s law.”

The successful launch of the Curved TLIF system adds another important strategic milestone to 4WEB’s string of achievements in 2016.  “New product launches have made a significant contribution to 4WEB’s growth and expansion this year,” said Geoffrey Bigos, 4WEB Medical’s Vice President of Spine Sales. “Year to date growth over the previous year has surpassed 103% in both revenue and unit sales.  The Q4 addition of the Curved TLIF implant and the expected Q1 launch of the Lateral Spine Truss System will certainly set the stage for a repeat performance in 2017.”

4WEB Medical is an orthopedic device company founded in 2008 in Dallas, Texas.  Thirty years of research in topological dimension theory led to the discovery of a novel geometry, the 4WEB, that can be used as a building block to create high-strength, lightweight web structures. The company leveraged this breakthrough along with cutting-edge 3D printing technology to develop 4WEB Medical’s proprietary truss implant platform. The 4WEB Medical product portfolio currently includes the Cervical Spine Truss System, the ALIF Spine Truss System, the Posterior Spine Truss System, the Lateral Spine Truss System, and the Osteotomy Truss System. 4WEB is actively developing truss implant designs for knee, hip, trauma and patient specific orthopedic procedures.

For more information about 4WEB Medical, 4WEB’s Truss Implant Technology, and the Spine Truss Systems, please visit www.4WEBMedical.com.

Photo – http://photos.prnewswire.com/prnh/20161027/433233

SOURCE 4WEB Medical

Related Links

http://www.4webmedical.com

BOSTON – October 27, 2016–Today DePuy Synthes Spine* announced the launch of the ZERO-P NATURAL™ Plate to help maintain stability and support bone growth in spinal fusion procedures in the neck. The ZERO-P NATURAL Plate is designed for use with the CC Natural spacer, an allograft spacer that offers structural support and fusion potential.The announcement was made in Boston at the North American Spine Society (NASS) annual meeting.

The anterior plate and CC Natural allograft spacer are assembled together outside of the operating field, allowing for simultaneous insertion into the disc space during anterior cervical discectomy fusion (ACDF) procedures. The ZERO-P NATURAL Plate is anchored by four locking screws, which form a rigid bone wedge for stability.^a

Allograft interbody spacers are considered a primary choice for ACDF, representing 50 percent of all implanted cervical fusions¹. These spacers, including the CC Natural allograft spacer, work as a bridge to allow the natural bone to grow through the surface to support fusion.

The ZERO-P NATURAL Plate is the newest addition to the DePuy Synthes zero-profile family of products, which do not protrude past the anterior wall of the vertebral body, limiting the risk of damage to vessels and adjacent soft tissue. These plates are designed to prevent contact with adjacent levels. Cervical plates placed near adjacent level discs may contribute to bone formation near or around the adjacent level.²

“Compared to ACDF with a traditional plate and allograft, there is no need to expose the vertebral bodies beyond their endplates, resect anterior osteophytes, or remodel the anterior surface of the vertebral bodies,” said Peyman Pakzaban, MD, FAANS, Houston MicroNeurosurgery.** “The insertion of a pre-fabricated allograft and the zero-profile plate is performed in one combined step.”

Dan Wildman,Platform Leader, DePuy Synthes Spine added, “DePuy Synthes has a strong track record in providing solutions that help improve patient outcomes in cervical spine fusion, and the ZERO-P NATURAL Plate is the latest example of our focus on innovation that serves customers and patients while promoting surgical efficiency.”

The CC Natural allograft spacer is processed by the Musculoskeletal Transplant Foundation, followingstringent standards in tissue quality and safety through their approach to donor selection and allograft processing.

About DePuy Synthes Companies

DePuy Synthes Companies, Part of the Johnson & Johnson Family of Companies, provides one of the most comprehensive portfolios of orthopaedic solutions in the world. DePuy Synthes Companies solutions, in specialties including joint reconstruction, trauma, neurological, craniomaxillofacial, spinal surgery and sports medicine, are designed to advance patient care while delivering clinical and economic value to health care systems worldwide. For more information, visit www.depuysynthes.com.

©DePuy Synthes 2016. All rights reserved.
*A division of DePuy Orthopaedics, Inc.
**Consultant to DePuy Synthes Spine
The third-party trademarks used herein are trademarks of their respective owners.

LEESBURG, Va., Oct. 26, 2016 (GLOBE NEWSWIRE) — K2M Group Holdings, Inc. (NASDAQ:KTWO) (the “Company” or “K2M”), a global medical device company focused on designing, developing and commercializing innovative and proprietary complex spine and minimally invasive spine technologies and techniques, today announced the U.S. launch of its award-winning CASCADIA^™ Interbody Systems, featuring Lamellar 3D Titanium Technology^™, during the 31^st North American Spine Society (NASS) Annual Meeting, Oct. 26-29, 2016, in Boston at Booth #1615.

K2M will present clinical background on its 3D-printed technologies and showcase the Company’s comprehensive CASCADIA product portfolio, which was recognized by Orthopedics This Week with a 2016 Spine Technology Award as one of the best new spine technologies of 2016. K2M will also highlight 3D printing manufacturing techniques by featuring a state-of-the-art 3D printer and a spatially immersive virtual reality experience at its NASS booth. The U.S. launch of K2M’s comprehensive 3D solutions, combined with an enhanced presence at NASS, further reinforces K2M’s standing as the global market-leading innovator and provider of 3D-printed spinal implants.

K2M’s Market-Leading Portfolio of Innovative 3D-Printed CASCADIA Implants

K2M’s comprehensive CASCADIA product portfolio includes the CASCADIA TL, AN, Lateral, AN Lordotic Oblique, and Cervical Interbody Systems. K2M’s CASCADIA Interbody Systems feature the Company’s innovative Lamellar 3D Titanium Technology, which uses an advanced 3D printing method to create structures that are impossible with traditional manufacturing techniques. Starting with a titanium powder, the CASCADIA implants are grown through the selective application of a high-energy laser beam, incorporating complex internal geometries and rough surface architecture that pre-clinical data have associated with bone growth activity. K2M’s CASCADIA implants utilize this technology to create a 70% porous implant with an increased bone graft volume and similar stiffness when compared to equivalent K2M PEEK designs.

“With over a year of usage experience across multiple CASCADIA interbody platforms, I continue to be impressed with the Lamellar 3D Titanium Technology,” stated Tom Morrison, MD, a neurosurgeon at Polaris Spine & Neurosurgery Center in Atlanta, Georgia. “The porosity and surface roughness properties make great biologic sense and the long term follow up I’m seeing with my patients reinforces my good impression. I look forward to continuing use of the CASCADIA Interbody Systems and am excited to further incorporate K2M’s Lamellar 3D Titanium Technology in my practice through future developments in other bone-growth applications.”

The CASCADIA interbodies and instrumentation facilitate intraoperative efficiency in the restoration of proper disc height and sagittal balance in skeletally mature patients. Together, these systems offer comprehensive solutions for both lumbar and cervical interbody fusion procedures used in treating patients for degenerative disc disease, degenerative scoliosis, and other spinal deformities in skeletally mature patients. The CASCADIA Interbody Systems include a full range of implant sizes carefully designed to accommodate the vertebral anatomy.

“We are excited to announce the U.S. launch of our 3D-printed CASCADIA Interbody Systems—featuring Lamellar 3D Titanium Technology—at this year’s NASS annual meeting, furthering our leadership position in offering comprehensive 3D solutions,” stated K2M President and CEO Eric Major. “We believe our success in the 3D-printed spine technology space over the last year represents another strong example of our ability to leverage our differentiated R&D capabilities to introduce new and innovative products. Since debuting Lamellar 3D Titanium Technology and CASCADIA at last year’s NASS meeting, K2M has established a leadership position in this innovative and rapidly growing area of the spinal device industry, as evidenced by our growing portfolio of FDA-cleared, 3D-printed interbodies—the most comprehensive portfolio in the market. We are committed to advancing this leadership position with continued innovation and commercialization of our advanced 3D-printed technologies around the world.”

K2M to Showcase Market-Leading 3D-Printed CASCADIA Portfolio at NASS 2016 through Clinical Presentations, Product & Advanced Printing Demonstrations, & Virtual Reality Experiences

K2M will highlight its 3D-printed technologies at Booth #1615 and in two clinical presentations during NASS.

• K2M Inc.: 3D Printed Lamellar Titanium Interbody
  John P. Kostuik, MD; Thomas J. Morrison III, MD; Jennifer A. Moore; Dave Fiorella
  Innovative Technology Presentation: Wednesday, October 26, 5:25-5:30 p.m.; Room 210ABC
• Lamellar 3D Titanium & Advances in Interbody Fusion Technologies
  Paul Saiz, MD
  Thursday, October 27, 5:30-7:30 p.m.; Morton’s Boston Seaport Winter Garden Atrium

K2M will display a ProX DMP 320 Direct Metal Printer from 3D Systems, a production-level metal printer that is used to manufacture the CASCADIA interbodies. The direct-metal printing method uses a laser beam to selectively fuse titanium powder in a layer-by-layer fashion to create three-dimensional shapes. The 3D printer will showcase how additive manufacturing technology has enabled K2M to create incredibly complex geometries designed specifically for bony integration that would have been highly impractical to create through traditional, subtractive machining methods.

To further highlight 3D printing manufacturing techniques, K2M will offer a virtual reality opportunity for booth attendees to experience a spatially immersive simulation to visualize how the CASCADIA implants are printed using advanced additive manufacturing techniques.

Major added, “We are very excited to participate at NASS, an important event for our industry each year, and even more important for K2M in 2016. This event represents a unique opportunity for our Company to showcase both our innovative Lamellar 3D Titanium Technology, and our comprehensive 3D-printed product portfolio, to provide attendees with a better understanding of what is driving the strong market response to date within the clinician community through clinical presentations, 3D printing demonstrations, and a virtual reality experience.”

For more information on Lamellar 3D Titanium Technology, the CASCADIA Interbody Systems, and K2M’s complete product portfolio, visit www.K2M.com.

About K2M

K2M Group Holdings, Inc. is a global medical device company focused on designing, developing and commercializing innovative complex spine and minimally invasive spine technologies and techniques used by spine surgeons to treat some of the most difficult and challenging spinal pathologies. K2M has leveraged these core competencies to bring to market an increasing number of products for patients suffering from degenerative spinal conditions. These technologies and techniques, in combination with a robust product pipeline, enable the Company to favorably compete in the global spinal surgery market. Additional information is available online at www.K2M.com.

Find K2M on Facebook: https://www.facebook.com/K2MInc

Follow K2M on Twitter: http://twitter.com/K2MInc

Watch K2M on YouTube: http://www.youtube.com/user/K2MInc

Forward-Looking Statements
This press release contains forward-looking statements that reflect current views with respect to, among other things, operations and financial performance. Forward-looking statements include all statements that are not historical facts such as our statements about our expected financial results and guidance and our expectations for future business prospects, including with respect to our international distribution partners in Australia and Japan. In some cases, you can identify these forward-looking statements by the use of words such as “outlook,” “guidance,” “believes,” “expects,” “potential,” “continues,” “may,” “will,” “should,” “could,” “seeks,” “predicts,” “intends,” “plans,” “estimates,” “anticipates” or the negative version of these words or other comparable words. Such forward-looking statements are subject to various risks and uncertainties including, among other things: our ability to achieve or sustain profitability; our ability to successfully demonstrate the merits of our technologies and techniques; pricing pressure from our competitors, hospitals and changes in third-party coverage and reimbursement; competition and our ability to develop and commercialize new products; the greater resources available to some of our competitors; aggregation of hospital purchasing from collaboration and consolidation; hospitals and other healthcare providers may be unable to obtain adequate coverage and reimbursement for procedures performed using our products; the safety and efficacy of our products is not yet supported by long-term clinical data; our dependence on a limited number of third-party suppliers; our ability to maintain and expand our network of direct sales employees, independent sales agencies and international distributors and their level of sales or distribution activity with respect our products; the proliferation of physician-owned distributorships; concentration of sales from a limited number of spinal systems or products that incorporate these technologies; loss of the services of key members of our senior management, consultants or personnel; ability to enhance our product offerings through our research and development efforts; failure to properly manage our anticipated growth; acquisitions of or investments in new or complementary businesses, products or technologies; ability to train surgeons on the safe and appropriate use of our products; requirements to maintain high levels of inventory; impairment of our goodwill or intangible assets; disruptions in our information technology systems; any disruption or delays in operations at our facilities, including our new headquarters facility; our ability to ship a sufficient number of our products to meet demand; ability to strengthen our brand; fluctuations in insurance cost and availability; extensive governmental regulation including by the FDA; in the United States and foreign jurisdictions; failure to obtain or maintain regulatory approvals and FDA clearances; requirements for new 510(k) clearances, premarket approvals or new or amended CE Certificates of Conformity; medical device reporting regulations in the United States and foreign jurisdictions; voluntary corrective actions by us or our distribution or other business partners or agency enforcement actions; a recall of our products; withdrawal or restrictions on our products or the discovery of serious safety issues with our products; possible enforcement action if we engage in improper marketing or promotion of our products; the misuse or off-label use of our products; delays or failures in any future clinical trials; our reliance on the performance of third parties who assist us in clinical trials and pre-clinical development; the results of clinical trials; procurement and use of allograft bone tissue; environmental laws and regulations; compliance by us or our sales representatives with FDA regulations or fraud and abuse laws; U.S. legislative or regulatory healthcare reforms; medical device tax provisions in the healthcare reform laws; our need to generate significant sales to become profitable; potential fluctuations in sales volumes and our results of operations over the course of the year; uncertainty in our future capital needs; failure to comply with restrictions in our revolving credit facility; continuing worldwide economic instability; our inability to protect our intellectual property rights; our reliance on patent rights that we either license from others or have obtained through assignments; our patent litigation; the outcome of potential claims that we, our employees, our independent sales agencies or our distributors have wrongfully used or disclosed alleged trade secrets or are in breach of non-competition or non-solicitation agreements with our competitors; potential product liability lawsuits; operating risks relating to our international operations; foreign currency fluctuations; our ability to comply with the Foreign Corrupt Practices Act and similar laws associated with our activities outside the United States; possible conflicts of interest with our large shareholders; increased costs and additional regulations and requirements as a result of becoming a public company; our ability to implement and maintain effective internal control over financial reporting in the future; volatility in our common stock; our current plans not to pay dividends; potential dilution due to our issuance of common stock under our incentive plans, for acquisitions or otherwise; the amount of common stock held by our pre-IPO owners; the impact of anti-takeover provisions in our organizational documents and under Delaware law; our status as an emerging growth company, our ability to use our net operating loss carryforwards; the potential impact of any future acquisitions, mergers, dispositions, joint ventures, investments or other strategic transactions we may make; and other risks and uncertainties, including those described under the section entitled “Risk Factors” in our most recent Annual Report on Form 10-K filed with the SEC, as such factors may be updated from time to time in our periodic filings with the SEC, which are accessible on the SEC’s website at www.sec.gov. Accordingly, there are or will be important factors that could cause actual outcomes or results to differ materially from those indicated in these statements. These factors should not be construed as exhaustive and should be read in conjunction with the other cautionary statements that are included in this release and our filings with the SEC.

We operate in a very competitive and challenging environment. New risks and uncertainties emerge from time to time, and it is not possible for us to predict all risks and uncertainties that could have an impact on the forward-looking statements contained in this release. We cannot assure you that the results, events and circumstances reflected in the forward-looking statements will be achieved or occur, and actual results, events or circumstances could differ materially from those described in the forward-looking statements.

The forward-looking statements made in this press release relate only to events as of the date on which the statements are made. We undertake no obligation to publicly update or review any forward-looking statement, whether as a result of new information, future developments or otherwise, except as required by law. We may not actually achieve the plans, intentions or expectations disclosed in our forward-looking statements and you should not place undue reliance on our forward-looking statements.

Media Contact:
Zeno Group on behalf of K2M Group Holdings, Inc.
Christian Emering, 212-299-8985
Christian.Emering@ZenoGroup.com  

Investor Contact:
Westwicke Partners on behalf of K2M Group Holdings, Inc.
Mike Piccinino, CFA, 443-213-0500
K2M@westwicke.com

OR AKIVA, Israel, October 27, 2016 /PRNewswire/ —

Expanding Orthopedics Inc. (EOI), a privately held medical device company focused on developing and commercializing innovative expandable devices for spine surgery, is excited to announce that Dr. Kern Singh, of Midwest Orthopaedics at Rush, and his team have started to enroll patients for a clinical study on the FLXfit™ articulating and lordotic expandable cage.

Dr. Kern Singh, Associate Professor, Rush University Medical Center, Co-Director Minimally Invasive Spine Institute, has an international reputation in the area of minimally invasive spinal surgery. He says that “MIS surgery is one of the biggest trends in spine fusion procedures, but still encompasses many challenges, one of them is delivering a large footprint cage into the disc space through a small tube”. Dr. Singh added that “the anatomy of the lower disc spaces, representing 80% of the procedures, adds further challenges of limited access as well as lordosis correction/restoration needs. Achieving that with a single implant through a MI access is a major undertaking”.

Dr. Singh explains “based on my initial experience with the FLXfit™ cage, it is easily inserted through an MIS TLIF technique, as it’s initially delivered as a straight cage and can be articulated inside the disc space creating a ‘banana’ like shape”. He thinks that “this enables the surgeons to reach an optimal midline and anterior position. The unique lordotic expansion enables to dial-in the ‘patient specific’ angle correction”. Dr. Singh concludes “we believe that the clinical study will provide further understanding of the clinical benefits of a lordotic expandable cage and the short and long term impact on the global and lumbar lordosis”.

Ofer Bokobza, CEO of Expanding Orthopedics, says that “we are very excited to have such a renowned international surgeon as Dr. Singh lead a clinical study on the FLXfit™ at one of US’s leading teaching institutions”. Ofer adds “we are confident that this study will demonstrate the FLXfit™ clinical value and the benefits it would provide to both patients and surgeons in the quest for sagittal alignment restoration through a MI approach”.

About Expanding Orthopedics Inc. 

Expanding Orthopedics Inc. (EOI) is medical device company developing and marketing innovative products designed to address unmet clinical needs for spine care and improve long-term patients’ outcome. The Company is spearheaded by seasoned management team, and is backed by prominent spine surgeons. EOI owns a broad patent portfolio around anatomically fit, expandable devices for enhanced stability through a minimally invasive approach.

Contact:
David Elkaim
VP Marketing and Sales
david@xortho.com
Phone: +1-347-3219683

October 26, 2016

BETHLEHEM, Pa., Oct. 26, 2016 /PRNewswire/ — Tyber Medical, a privately held company focused on developing innovative medical devices for private label opportunities and advancing the science of bioengineered surfaces, announces the full commercial launch of their lateral access system, 2^nd Generation lateral PEEK/titanium composite interbody and lateral plating system.

Tyber Medical is excited to announce the launch of a comprehensive and cohesive lateral system. The Tyber Medical lateral access retractor, which is critical to a successful procedure, utilizes a popular 3 blade design and capitalizes on current levels of surgeon training and expertise. The approach and disc preparatory instruments are heavy on surgeon input, were designed for multiple levels including the difficult to access L4/L5, and have been tested against the best in the field. The TyPEEK®, titanium plasma sprayed PEEK, composite interbody fusion devices provide access to the newest and fastest growing interbody segment in fusion technology. Completing the system is a lateral plating system that provides three points of fixation in each vertebral body with only two screws, eliminating some instrumentation required by other systems on the market, minimizing surgical steps, and freeing up real estate normally required by four screw plates.

“Our team has done a tremendous job to deliver a system targeting two of the hottest growth areas in the spine market; exotic material interbodies and the MIS lateral procedure,” commented Jeff Tyber, CEO of Tyber Medical. He added “The Tyber Medical private label model allows our customers to rapidly access this market and growth without spending resources on development and, at the same time, eliminating timeline risk.”

According to multiple market research sources, the global market for minimally invasive surgery is forecast to grow faster than any other segment over the next 3 – 5 years. Visit the Tyber Medical Booth #507 at NASS where the company will showcase the complete lateral system along with a number of other spine products available for private labeling.

About Tyber Medical:

Tyber Medical, LLC, Morristown, New Jersey, a rapid commercialization device company, is creating new pathways to regulatory approved bioengineered implants and instruments for orthopedic companies, large distributors, and hospital organizations. Tyber Medical designs and develops full class II orthopedic systems; verifies and validates those systems using a QSR and ISO 13485 certified quality system; and pursues and maintains both US (FDA 510k) and OUS (CE Mark) regulatory approvals. Current products include the opening osteotomy system, headless and headed compression screws, snap-off screws, cervical plating system, lateral retractor system and spinal interbody spacers featuring both standard sterile and non-sterile PEEK and TyPEEK^®, a proprietary titanium plasma sprayed PEEK. The company is also developing BioTy™, a nanotopography surface modification which limits the adherence of bacteria to implants.  For more information, please visit www.tybermedical.com.

The TyWedge™ System and Spinal Interbody Spacers are made with PEEK-OPTIMA^® from Invibio^® Biomaterial Solutions.

Contact:
Steve Zeiger
83 South Commerce Way, Suite 310
Bethlehem PA 18017
(866) 761-0933
szeiger@tybermed.com

SOURCE Tyber Medical

Related Links

http://www.tybermedical.com

BOSTON – OCTOBER 26, 2016 – Image-guided surgery systems that provide real-time guidance for minimally invasive spine surgery can help improve patient outcomes, but these systems are costly for many hospitals. Surgeons may rely on checking implant placement with multiple static X-ray images that do not provide the real-time guidance of navigation. A new visualization option from DePuy Synthes Spine*, the KICK^® System with FluoroExpress Software Module, being showcased here at the North American Society Spine Meeting (NASS), aims to improve access to affordable advanced imaging technology so that surgeons can confirm proper placement of spinal implants while saving time in the operating room.

Research has shown that only 11 percent of spine surgeons in North America and Europe use advanced imaging technologies, even though image-guided spine surgery helps achieve accurate screw insertion and reduces the likelihood of revision surgery to adjust screw placement.[1][2]  DePuy Synthes Spine, Part of the Johnson & Johnson Family of Companies, has partnered with navigation leader Brainlab to expand access to advanced visualization through the KICK System. This image-guided surgery technology enables real-time intraoperative viewing of instrumentation and implants relative to patient anatomy to permit proper pedicle screw placement. Using a small, portable infrared camera with a computer and monitor, the system moves easily between operating rooms and works together with existing X-ray equipment to support surgical workflow. The monitor displays up to four different X-ray images at one time to make X-ray equipment repositioning to capture different views unnecessary—ultimately reducing radiation exposure and surgery time.[3]

The KICK System is compatible with the VIPER^® System and the EXPEDIUM^® Spine System of implants, enhancing visualization during minimally invasive and open procedures to treat a broad range of spinal disorders.

“Building on our commitment to enabling technologies, the KICK System enhances less invasive surgery for the clinician who may not have access to expensive 3D imaging systems, but recognizes the need for advanced imaging to support a successful fusion procedure and help improve patient outcomes,” said Dan Wildman, Platform Leader, DePuy Synthes Spine. “Through solutions such as the KICK System, we are improving access to care and creating and delivering clinical and economic value to healthcare systems worldwide.”

In recognition of the need to broaden access to image-guided surgery in spine, the AO Foundation’s technical commission (AOTK) approved the use of the KICK System in AO education courses. The KICK System is the first advanced visualization technology in spine to be approved by the AO Foundation, providing an opportunity for more surgeons around the world to be trained on image-guided surgery. DePuy Synthes and the AO Foundation have a longstanding collaboration, which helps deliver world-class education and supports innovation to improve patient outcomes and increase efficiency of care.
About DePuy Synthes Companies

DePuy Synthes Companies, Part of the Johnson & Johnson Family of Companies, provides one of the most comprehensive orthopaedic solutions in the world. DePuy Synthes Companies solutions, in specialties including joint reconstruction, trauma, neurological, craniomaxillofacial, spinal surgery and sports medicine, are designed to advance patient care while delivering clinical and economic value to health care systems worldwide. For more information, visit www.depuysynthes.com.

^©DePuy Synthes 2016. All rights reserved.

*A division of DePuy Orthopaedics, Inc.

The third-party trademarks used herein are trademarks of their respective owners.

KICK is a registered trademark of Brainlab AG in Germany and/or the U.S.

[1] Lam, K, et al. Worldwide Survey on the Use of Navigation in Spine Surgery. World Neurosurgery. 79(1). March 2012.

[2] Tormenti, M.J., et al., Intraoperative computed tomography image-guided navigation for posterior thoracolumbar spinal instrumentation in spinal deformity surgery. Neurosurgical focus, 2010. 28(3): p. E11.

[3] DSUS/SPN/0516/1287

October 26, 2016