Synthes maxframe

Author: w | 2025-04-24

Synthes GmbH MAXFRAME. MAXFRAME(TM) LINEAR STRUT/MEDIUM. Out of Stock. Orthopedic. . Synthes GmbH MAXFRAME. MAXFRAME(TM) LINEAR STRUT/SHORT. Out of Stock. Orthopedic. . Synthes GmbH MAXFRAME. MAXFRAME(TM) LINEAR STRUT/LONG. Synthes GmbH MAXFRAME. MAXFRAME(TM) LINEAR STRUT/SHORT. Out of Stock. Orthopedic. . Synthes GmbH MAXFRAME. MAXFRAME(TM) LINEAR STRUT/LONG. Out of Stock. Orthopedic. . Synthes GmbH MAXFRAME. MAXFRAME(TM) LINEAR STRUT BOLT.

DePuy Synthes on LinkedIn: Our MAXFRAME and MAXFRAME

Strut adjustments.” MAXFRAME Patient Care ProgramTo support patients, DePuy Synthes has developed the MAXFRAME Patient Care Program, which includes a patient app featuring a character named “MAX,” and additional online content is available at www.maxframepatients.com. The program helps patients and their caregivers prepare for surgery, manage treatment and share their experiences through social media channels at the end of their treatment journey.“There is a significant unmet need for treatment options that reduce both the burden to patients with limb deformities as well as surgical complexity,” said I.V. Hall, worldwide platform leader, trauma, cmf, biomaterials and veterinary portfolios, DePuy Synthes. “With the launch of the MAXFRAME System, we are building on our long history of innovation, excellence in service and support for surgeons with unique 3D planning software and digital tools that help address these needs and enhance patient and surgeon satisfaction.” Product IndicationsThe MAXFRAME System is indicated for the following treatments in adults and in both children (3-12) and adolescents (12-21) in which the growth plates have fused or will not be crossed with hardware: fracture fixation (open and closed), pseudoarthrosis of long bones, limb lengthening (epiphyseal or metaphyseal distraction), joint arthrodesis, infected fractures or nonunions, correction of bony or soft tissue deformities, and correction of segmental defects. References1MacKenzie EJ, Jones AS, Bosse MJ, et al. Health-care costs associated with amputation or reconstruction of a limb-threatening injury. The Journal of bone and joint surgery. American volume. Aug 2007;89(8):1685-1692.2Lerner J, Holy CE, Menzie A. Cost of post-operative care after implantation of multiplanar stereotactic-assisted external fixation systems. Poster presented at: 21st Annual International Society for Pharmacoeconomics and Outcomes Research (ISPOR) Meeting, May 21-25, 2016; Washington, DC, USA.3Fenton P, Bose D. Patient-reported outcomes following treatment of tibial non-union with circular frames. Strat Traum Limb Recon. 2014;9(1):33-5.4Kucukkaya M, Karakoyun O, Armagan R, Kuzgun U. Calculating the mounting parameters for Taylor Spatial Frame correction using computed tomography. Journal of orthopaedic trauma. Jul 2011;25(7):449-452 Keep Up With Our Content. Subscribe To Orthopedic Design & Technology Newsletters DePuy Synthes is launching the MAXFRAME Multi-Axial Correction System, an external circular fixation device used to gradually correct bone or soft tissue deformities in the arm, leg, foot, or ankle. The MAXFRAME System’s unique 3D planning software helps improve accuracy of the deformity correction plan, which may reduce overall treatment time while potentially improving procedural efficiency and reducing costs. The device represents DePuy Synthes’ commitment to improving patient satisfaction, procedure efficiency and clinical outcomes in deformity correction. Limb deformities can be congenital, developmental or acquired as the result of fracture, infection, arthritis, or tumor. Left uncorrected, these deformities may lead to amputation and could have a potential cost burden of $500,0001 per patient to the healthcare system. External circular fixation products currently on the market require precise X-rays and manual measurements by surgeons, and any inaccuracies can prolong treatment. Patients suffering from limb deformities may require an average of 37 outpatient visits over 12 months,2,3and one in three patients will experience a residual deformity.4 Unlike other computer-assisted external circular fixation systems, the MAXFRAME System’s 3D planning software creates accurate patient treatment plans using advanced algorithms, which eliminates the need for manual measurements and requires fewer inputs than any other system on the market. This can potentially lead to a reduction in the number of patient X-rays required, thus reducing procedural complexity, radiation exposure for both the patient and surgeon, and overall costs, while reducing treatment time for the patient. Patients undergoing treatment with the MAXFRAME System are responsible for adjusting the struts on the device as per their custom treatment plan. These adjustments have been made easier with the system’s newly introduced ASSURE-STRUT Technology, wherein each time the patient adjusts the device, there is an audible click as the strut correctly locks into place. “The MAXFRAME System incorporates three clinically important advantages that help provide great accuracy of correction for the patient and streamline the surgical phase of care,” said Dr. J. Spence Reid, M.D., Professor and Chief of Trauma Division, Department of Orthopaedics and Rehabilitation. “The software eliminates significant sources of error inherent in earlier methods by removing the need to determine reference ring mounting parameters, as well as the requirement of ring orthogonality. The system also allows maximum flexibility in the location of strut attachment points on the ring which makes frame application easier, particularly in complex cases, and the ASSURE-STRUT Technology allows the patient to confidently make

DePuy Synthes auf LinkedIn: Our MAXFRAME and MAXFRAME

When met with a crossroads—that is, Memphis, Tennessee-based CrossRoads Extremity Systems—DePuy Synthes, the orthopedics and neurosurgery division of Johnson & Johnson, opted for a familiar path.DePuy acquired the foot and ankle surgical devicemaker for an undisclosed amount, the company announced Thursday. The deal saw CrossRoads trade hands from its majority investor, private equity firm HealthpointCapital, to the J&J franchise. Under the DePuy umbrella, CrossRoads’ surgical tools will join a broad portfolio of devices targeting joint reconstruction and replacement, sports medicine injuries, spinal surgery and more. The acquisition is already complete, allowing J&J to begin offering the new additions alongside its existing slate to customers in the U.S. RELATED: J&J's DePuy Synthes launches shoulder replacement system geared toward smaller surgical centersCrossRoads’ more than two dozen devices focus on tools for foot and ankle surgeries; its flagship products comprising implant systems to treat bunion deformities of all severity levels. The miniBunion system, for example, is designed to be a minimally invasive alternative to other traditional metatarsal bone osteotomy techniques, while the dynaBunion 4D system acts as an extra pair of hands for surgeons during Lapidus bunionectomies.According to DePuy, the acquisition will help it meet a growing demand for elective surgeries to treat foot conditions like hammertoes and bunions, the latter of which affects approximately 1 in 4 people in the U.S. alone.RELATED: FDA clears J&J's robotic surgery system for total knee replacementsThe CrossRoads buy comes only about a month after DePuy’s last acquisition. In that deal, announced at the beginning of December, the J&J devicemaker—acting through its Synthes GmbH affiliate—scooped up OrthoSpin.The Israeli-based company has developed an automated strut system that’s already used with DePuy’s Maxframe circular ring fixation system, which is used to stabilize a leg, foot or arm after an orthopedic procedure. Before acquiring the company, J&J had served as the lead investor in OrthoSpin’s series A and B funding rounds in 2018 and 2020, respectively.. Synthes GmbH MAXFRAME. MAXFRAME(TM) LINEAR STRUT/MEDIUM. Out of Stock. Orthopedic. . Synthes GmbH MAXFRAME. MAXFRAME(TM) LINEAR STRUT/SHORT. Out of Stock. Orthopedic. . Synthes GmbH MAXFRAME. MAXFRAME(TM) LINEAR STRUT/LONG. Synthes GmbH MAXFRAME. MAXFRAME(TM) LINEAR STRUT/SHORT. Out of Stock. Orthopedic. . Synthes GmbH MAXFRAME. MAXFRAME(TM) LINEAR STRUT/LONG. Out of Stock. Orthopedic. . Synthes GmbH MAXFRAME. MAXFRAME(TM) LINEAR STRUT BOLT.

DePuy Synthes en LinkedIn: Our MAXFRAME and MAXFRAME

To catch the retrieval loop on the tip of the leader. Gently pull the cable through until the leader is completely exposed. Cut the leader tip Instrument 391.905.99 Cable Cutter Using the Cable Cutter, remove only the tip of the leader. Synthes Spine... Page 14 Pass the cable end through the spool at the end of the Tensioner/Crimper handle and pull any excess slack out of the cable. Note: The holes in the spool must be aligned with the line etched on the spool. Synthes Spine Spine Cable System... Page 15 Tension the cable Attach the Torque Limiting Handle to the Tensioner/Crimper. Apply tension by rotating the Torque Limiting Handle in a clockwise direction until it slips. Remove the Torque Limiting Handle. Synthes Spine... Page 16 Secure the crimp by squeezing the handles until they automatically release. Remove the Tensioner/Crimper. Remove excess cable Instrument 391.905.99 Cable Cutter Cut the cable flush with the tip of the crimp sleeve using the Cable Cutter. Synthes Spine Spine Cable System... Page 17 Torque Limiting Handle Tension level can be set using the adjustable Torque Limiting Handle 321.744 Pretensioner Holds cable tension prior to crimping 321.745 Cable Retriever Facilitates sublaminar cable passage 391.905.99 Cable Cutter, standard Cuts cable flush with head of crimp Synthes Spine... Page 18 For detailed cleaning and sterilization instructions, please refer to or to the below listed inserts, which will be included in the shipping container: —Processing Synthes Reusable Medical Devices—Instruments, Instrument Trays and Graphic Cases—DJ1305 —Processing Non-sterile Synthes Implants—DJ1304 Bookmarks Quick Links Technique GuideSpine Cable System.instruments for use when stabilizingand reconstructing spinal structures.Implants andInstruments and implantsapproved by the AO Foundation Need help? Do you have a question about the Spine Cable System and is the answer not in the manual? Questions and answers Related Manuals for Synthes Spine Cable System Summary of Contents for Synthes Spine Cable System Page 1 Spine Cable System. Implants and instruments for use when stabilizing and reconstructing spinal structures. Technique Guide Instruments and implants approved by the AO Foundation... Page 3 Table of Contents Introduction Spine Cable System AO Principles Indications Surgical Technique Double-Lead Cable Single-Lead Cable Product Information Instruments Set List Synthes Spine... Page 4 – Retrieval loop at the end of the cable facilitates passing the cable sublaminarly One central – Available in single- and double-lead configurations bundle of 19 strands Cross-sectional view of cable Double-lead cable Single-lead cable Cable retrieval loops Crimp integral to the cable Synthes Spine Spine Cable System... Page 5 1. M.E. Müller, M. Allgöwer, R. Schneider, H. Willenegger: Manual of Internal Fixation, 3rd Edition. Berlin; Springer-Verlag. 1991. 2. Ibid. 3. M. Aebi, J.S. Thalgott, J.K. Webb. AO ASIF Principles in Spine Surgery. Berlin; Springer-Verlag. 1998. Synthes Spine... Page 6 Indications As with monofilament wire, the Spine Cable System is indicated for the following spinal applications: – Spinal trauma for sublaminar, interspinous, or facet wiring; – Spinal reconstruction to correct spinal deformities, scoliosis, kyphosis, and spondylolisthesis; and – Spinal degenerative surgery as an adjunct to spinal fusions. Page

Maxframe by Synthes, Inc. - AppAdvice

7 Technique — Double-Lead Cable Required Set 105.803 Spine Cable System Instrument Set Pass the leader Instrument 321.745 Cable Retriever Pass the leader of the double-lead cable under the lamina and use the Cable Retriever to catch the retrieval loop on the tip of the leader. Page 8 321.744 Pretensioner Gently pull each cable sequentially for provisional tightening. Next, depress the button on the side of the Pretensioner and pass the cable in the indicated direction. Releasing the button automatically locks the cable. Synthes Spine Spine Cable System... Page 9 Pass the cable end through the spool at the end of the Tensioner/Crimper handle and pull any excess slack out of the cable. Note: The holes in the spool must be aligned with the line etched on the spool. Synthes Spine... Page 10 Slide the Pretensioner forward to maintain tension if the Tensioner/Crimper is to be removed. Note: Rotate the handle in the direction noted on the shaft of the Torque Limiting Handle. Synthes Spine Spine Cable System... Page 11 Secure each crimp by grasping the crimp sleeve in the jaws of the Tensioner/Crimper and squeezing the handles until they automatically release. Note: This is a safety mechanism to ensure the sleeve is fully crimped. Remove the Tensioner/Crimper and Pretensioners. Synthes Spine... Page 12 Technique — Double-Lead Cable continued Remove excess cable Instrument 391.905.99 Cable Cutter Cut the cables flush with the tip of the crimp sleeves using the Cable Cutter. Synthes Spine Spine Cable System... Page 13 Cable Retriever

Synthes Maxframe - manuallinnetajiw.z21.web.core.windows.net

Login Login EmailPassword Forgot your password? Join VuMedi Select specialtyFirst nameLast nameEmailChoose Password About Us Careers Partner with us F.A.Q Contact us Terms & conditions Privacy policy MAXFRAME AUTOSTRUT™ System Case Studies By Johnson & Johnson MedTech FEATURING J. Spence Reid By Johnson & Johnson MedTech FEATURING J. Spence Reid 3,728 views November 8, 2022 Join Dr. J Spence Reid, of the Penn State University College of Medicine, as he provides in-depth, case-based examples of his use of the MAXFRAME AUTOSTRUT™ System. Comments 0 Login to view comments. Click here to Login Related Videos 62:56 Johnson & Johnson MedTech Clinical Deep Dive: MTP Staple Compression Plates, Featuring Hammert… Feat. T. Bar-David, D. Yeager, S. Shawen 10:05 Johnson & Johnson MedTech miniBunion™ 3D MIS Bunion - 360° Virtual Reality(VR) Cadaveric Demo Feat. B. Lamm, M. Campbell 71:07 Johnson & Johnson MedTech FootInnovate Panel Discussion - Be Bunion Ready With DynaBunion 4D +… Feat. B. Lamm, D. Oji, S. Miller, E. Young 56:29 Johnson & Johnson MedTech What's The Latest with DynaBunion4D? Feat. J. Early, A. Perler, S. Shawen, L. Butler 06:23 Johnson & Johnson MedTech dynaMet™ Lesser TMT Fusion System Surgical Technique 01:42 Johnson & Johnson MedTech Slice & Vise™ Technology - Part of the dynaBunion® 4D Lapidus an… 01:28 Johnson & Johnson MedTech Comprehensive Nitinol System 32:59 Johnson & Johnson MedTech DynaMet Infomercial 01:38 Johnson & Johnson MedTech The Power of dynaBunion® 4D + dynaMet™ for Any TMT Fusion 72:00 Johnson & Johnson MedTech FootInnovate Panel Discussion - Your One-Two Punch for Hallux Valgus… Feat. B. Lamm, T. Philbin, M. Campbell, C. Breslauer 34:30 Johnson & Johnson MedTech Introducing DynaBunion™ - FOOTInnovate Webinar with Michael Campbell… Feat. M. Campbell 03:25 Johnson & Johnson MedTech DynaBunion™ 4D Minimal-Incision Lapidus System - Narrated Animation 04:52 Johnson & Johnson MedTech Keel-Lock Sales Training. Synthes GmbH MAXFRAME. MAXFRAME(TM) LINEAR STRUT/MEDIUM. Out of Stock. Orthopedic. . Synthes GmbH MAXFRAME. MAXFRAME(TM) LINEAR STRUT/SHORT. Out of Stock. Orthopedic. . Synthes GmbH MAXFRAME. MAXFRAME(TM) LINEAR STRUT/LONG.

DePuy Synthes 2025 DePuy Synthes MAXFRAME Multi

Technical TrickOptimizing Bone Defect Reconstruction—Balanced Cable Transport With Circular External Fixation Department of Orthopaedic Surgery, Jackson Memorial Hospital, University of Miami Miller School of Medicine, Miami, FL. Reprints: Stephen Matthew Quinnan, MD, Department of Orthopaedic Surgery, Jackson Memorial Hospital, University of Miami Miller School of Medicine, 1400 NW 12th Avenue, Suite 2. Miami, FL 33136 (e-mail: [email protected]). S. M. Quinnan is a consultant for Smith and Nephew, DePuy Synthes, and Globus Medical. S. M. Quinnan has received honorarium from the AO Foundation and is on the Research Safety Advisory board for Microbion. He is also on the board of the Florida Orthopaedic Society. The remaining author reports no conflict of interest. Supplemental digital content is available for this article. Direct URL citations appear in the printed text and are provided in the HTML and PDF versions of this article on the journal's Web site (www.jorthotrauma.com). Buy SDC Abstract Summary: Distraction osteogenesis has proven effective in the management of tibial bone loss from severe trauma and infection. Unfortunately, pain and scarring from wires and half pins dragging through the skin and the required prolonged time in the external fixator make treatment difficult. Cable bone transport has been shown to improve cosmesis and decrease pain during transport. However, the published methods have limitations in that they have poor control of transport segment alignment, do not allow for lengthening of the limb, and do not permit weight bearing during the treatment process. We describe a novel method of cable bone transport that addresses each of these limitations with excellent control of alignment including the transport segment, easy conversion to allow limb lengthening, and full weight bearing throughout the treatment process. In addition, the method facilitates multifocal transport and safe conversion to intramedullary nail fixation, both of which can be used to substantially shorten the time of reconstruction. Copyright © 2017 Wolters Kluwer Health, Inc. All rights reserved.