The NBX Non-Bridging External Fixator A Non-Bridging External Fixator/Locking Plate capturing a series of.062mm K-wires and 3mm half-pins that are

Similar documents
Visualize, stabilize, mobilize. Wristore * Distal Radius Fracture Fixator Abbreviated Surgical Technique

AcUMEDr. FoREARM ROD SYSTEM

Distal Radius Plate Instrument and Implant Set. Discontinued December 2017 DSUS/TRM/0916/1063(1)

Technique Guide. Adjustable Distal Radius Fixator. Part of the Synthes External Fixation Systems.

WINSTA-R. Distal Radius System

Surgical Technique Guide

Acu-Loc Wrist Spanning Plate System. Surgical Technique

QUICK REFERENCE GUIDE. The Pennig Dynamic Wrist Fixator. Part A: Trans-articular application

Surgical Technique. Forearm Fracture Solutions

System. Humeral Nail. Surgical Technique

3. PATIENT POSITIONING & FRACTURE REDUCTION 3 8. DISTAL GUIDED LOCKING FOR PROXIMAL NAIL PROXIMAL LOCKING FOR LONG NAIL 13

MICRONAIL. Intramedullary Distal Radius System SURGICAL TECHNIQUE

Zimmer MIS Periarticular 3.5mm Proximal Tibial Locking Plate

AcUMEDr. Arc Wrist Tower. For Wrist Arthroscopy And Fracture Reduction

Percutaneous Scaphoid Fixation: A Volar Approach

Distal Radius Plate 2.4/2.7 dorsal and volar

Wrist Fixation System

3.5 MM VA-LCP PROXIMAL TIBIA PLATE SYSTEM

Mini External Fixator.

Acu-Loc Wrist Plating System. Surgical Technique

Hoffmann II Compact External Fixation System. Modular System for

Distal Radius and Distal Ulna Plates System Self-Tapping Spherical Locking Screw Self-Tapping Conical Locking Screw Cortex Screw

QUICK REFERENCE GUIDE. The PreFix Fixator (92000 Series) ALWAYS INNOVATING

Technique Guide. 3.5 mm LCP Low Bend Medial Distal Tibia Plate Aiming Instruments. Part of the 3.5 mm LCP Percutaneous Instrument System.

Technique Guide. 2.4 mm Variable Angle LCP Distal Radius System. For fragment-specific fracture fixation with variable angle locking technology.

Surgical Technique. Distal Radius and Foot

QUICK REFERENCE GUIDE. MiniRail System. Part B: Foot Applications. By Dr. B. Magnan, Dr. E. Rodriguez and Dr. G. Vito ALWAYS INNOVATING

Surgical Technique. CONQUEST FN Femoral Neck Fracture System

AcUMEDr. Locking Proximal Humeral Plate. PoLARUSr PHPt

Distal Ulnar Locking Plate

Modular Ulnar Head surgical technique. Transforming Extremities

Surgical Technique. Olecranon Locking Plate

WINSTA-C. Clavicle Plating System

Low-Profile Wrist Fixator. For stabilization of fractures of the distal radius.

Olecranon Locking Plate II

Surgical Technique. Targeter Systems Overview

Angle Stable Distal Radial Plate System WINSTA-R

Zimmer MIS Periarticular Distal Femoral Locking Plate

Orthopedic Bone Nail System - Distal Femoral Nail Surgical Technique Manual

Forearm Fracture Solutions. Surgical Technique

2.4 mm Variable Angle LCP Volar Extra-Articular Distal Radius System. For fragment-specific fracture fixation with variable angle locking technology.

MiniRail System. Part B: Foot Applications. By Dr. B. Magnan, Dr. E. Rodriguez and Dr. G. Vito

Surgical Technique. 3.5mm and 4.5mm Lateral Proximal Tibia Locking Plates

Zimmer Small Fragment Universal Locking System. Surgical Technique

Acu-Loc 2 Wrist Plating System

Surgical Technique. Wrist Plating System

LCP Anterolateral Distal Tibia Plate 3.5. The low profile anatomic fixation system with optimal plate placement and angular stability.

Double Engine Orthopedic Bone Nail System Universal Humeral Nail

Technique Guide. 3.5 mm LCP Olecranon Plates. Part of the Synthes locking compression plate (LCP) system.

Locking Radial Head Plates

Periarticular Aiming Arm Instruments for LCP Proximal Tibial Plate 4.5/5.0. Part of the LCP Periarticular Aiming Arm Instrument System (large).

LCP Anterolateral Distal Tibia Plate 3.5. The low profile anatomic fixation system with optimal plate placement and angular stability.

Conventus CAGE PH Surgical Techniques

LCP Medial Distal Tibia Plate, without Tab. The Low Profile Anatomic Fixation System with Angular Stability and Optimal Screw Orientation.

PROXIMAL TIBIAL PLATE

External Distal Radius Fixator. Supplement to the 8 mm rod fixator system

A Patient s Guide to Adult Distal Radius (Wrist) Fractures

TABLE OF CONTENTS. 2 (8144 Rev 2)

Acu-Loc 2 Wrist Plating System. Surgical Technique

DFS Hip Distractor. Surgical Technique

Technique Guide. LCP Proximal Femoral Hook Plate 4.5/5.0. Part of the LCP Periarticular Plating System.

Mark VanDer Kaag 1, Ajmal Ikram 2. Hand Unit, Tygerberg Hospital University of Stellenbosch

Polarus 3 Solution Plates and Nails

Small External Fixator Nonspanning Wrist Frame. For the treatment of wrist fractures.

SURGICAL TECHNIQUE GUIDE

Zimmer Trabecular Metal Ankle Interpositional Spacer and Trabecular Metal Ankle Fusion Spacer

M.I.S. MAKE IT SMART IN ONE SYSTEM. Surgical Technique. Hip Knee Spine Navigation

LCP Proximal Radius Plates 2.4. Plates for radial head rim and for radial head neck address individual fracture patterns of the proximal radius.

Pre-Operative Planning. Positioning of the Patient

Long Volar Plates for Diaphyseal-Metaphyseal Radius Fractures LCP. Dia-Meta Volar Distal Radius Plates. Surgical Technique

Surgical Technique. Proximal Humerus Locking Plate

Surgical Technique. Clavicle Locking Plate

Surgical Technique Carpal Fusion

Olecranon Osteotomy Nail. For simple fractures and osteotomies of the olecranon.

Early Elbow Motion Protocol Ligament Repair of the elbow

Instrument and Implant for wrist fracture

VariAx TM Distal Radius Locking Plate System

Small External Fixator

Polarus 3 Solution Plates and Nails. Surgical Technique 4.3. Screws

OPERATIVE TECHNIQUE GALAXY FIXATION SHOULDER

3. Insert Tocar Sleeves Insert the NCB tissue protection sleeve assembly 1.6 to 10mm through a skin incision (Fig. 38).

Choice, Simplicity, Transition. TransFx External Fixation System Small and Mini Surgical Technique

AcUMEDr. LoCKING CLAVICLE PLATE SYSTEM

Agee WristJack Multiplanar Ligamentotaxis

Zimmer Natural Nail System

SURGICAL TECHNIQUE GUIDE

Technique Guide. *smith&nephew SPEEDSCREW Fully Threaded Knotless Implant

Surgical Technique. Calcaneal Locking Plate

Surgical Technique. Distal Humerus Locking Plate

Humerus Block. Discontinued December 2016 DSEM/TRM/0115/0296(1) Surgical Technique. This publication is not intended for distribution in the USA.

Surgical Technique International Version. Clavicle Locking Plate

A N D R E W I R W I N, F R C S E D ( O R T H ) C O N S U L T A N T O R T H O P A E D I C S U R G E O N W E S T H E R T S N H S T R U S T, U K

Imola Lateral IBF System Surgical Technique

Technique Guide. 3.5 mm LCP Periarticular Proximal Humerus Plate. Part of the Synthes locking compression plate (LCP) system.

Complications of Distal Radius Fractures. How to Treat a Distal Radius Fx 11/13/2017. Michael S. Bednar, M.D. Loyola University Chicago

Extron External Fixator

2.7 mm/3.5 mm Variable Angle LCP Elbow System DJ9257-B 1

Elbow Hinge Fixator. Guided Flexion/Extension for Unstable Elbow Fractures.

Surgical Technique. Anterolateral and Medial Distal Tibia Locking Plates

DFS STANDARD FIXATOR DFS ANKLE CLAMP DFS T-CLAMP

Transcription:

The NBX Non-Bridging External Fixator A Non-Bridging External Fixator/Locking Plate capturing a series of.062mm K-wires and 3mm half-pins that are inserted in a multiplanar and multi-directional fashion providing an interlocking matrix securing ALL fracture fragments.

The First Assistant Wrist Reduction Device Two radiolucent plastic paddles or arms (A) that articulate at the wrist joint and allow for ulnar deviation and ligamentotaxis of the wrist, coupled with an ulnar buttress post (B) and volar lift arm (C) that helps recreate and maintain anatomic reduction of the wrist fracture.

Patient Positioning The patient can be positioned one of two ways: lateral with the operative arm up and extended off the table or in a beach chair position with the operative side and arm at/over the edge of the table The key is make sure that the forearm is in a neutral position The surgeon can then simply place a sterile drape over the c-arm and use it as the table or use a hand table and bring the c-arm in as needed.

Assemble the First Assistant fracture reduction device by threading the center post through the hinge, leaving the connection loose enough to manipulate both paddles. The teeth on the underside and top side of the paddles should engage loosely.

Position the hand on the First Assistant with the radial side away from the center post and lift arm beneath the shaft of the distal radius (A) proximal to the fracture for a Colles Fracture and underneath the fracture for a Smith s fracture. Secure the forearm and hand to the two arms of the reduction device with Coban, making sure to capture the base of the thumb (B).

Smith s Fracture Colle s Fracture

Reduce the fracture by ligamentotaxis, pulling the hand into ulnar deviation to re-establish radial height (9mm +/- 2mm) and inclination (22-24 degrees).

Secure the reduction in ulnar deviation by tightening the TOP knob to lock the arms of the First Assistant in place.

Turn the lower knob on the center post clockwise to elevate the distal end of the radial shaft proximal to the fracture for a Colles fracture, and the distal portion of the radius in a Smith s fracture, to restore volar tilt.

Full Reduction AP View

Full Reduction Lateral View

X-Ray Tips Remember the anatomy and orient the fluoroscopy accordingly: Volar tilt averages 11-12 degrees Radial inclination averages 22-24 degrees Radial height averages 9mm +/- 2mm

Position the NBX fixator body over the distal radius to act as a template for the insertion of all K-wires and half-pins, with the distal row of holes over the radial styloid and parallel to the joint covering the fracture site (A), making sure that the proximal arm is centered over the shaft of the radius (B),

Place the first.062 k-wire into the ulnar side of the distal radius, taking care not to over penetrate the volar cortex. With the distal row of holes over the radial styloid, this first k-wire will go into either the second or third row of holes.

It is critical to ensure that the proximal arm of the fixator is centered over the shaft of the radius (A) before placing the second.062 k-wire into the radial styloid (B). Some surgeons may elect to place the proximal most 3mm halfpin (C) at this point to secure the arm of the fixator to the shaft of the radius, and this is strongly recommended.

Place additional.062 k-wires into remaining fracture fragments as desired.

Raise the NBX fixator ½ to ¾ off of the skin to allow clearance for wound and pin site care.

Tighten both locking screws on either side of the fixator body to secure the dorsal pins to the NBX fixator. In tightening these 2 screws, the surgeon is pushing the internal plate forward within the fixator.

(A) Slide the side clamp onto the radial side of the NBX fixator. The side clamp can be moved proximally or distally before final locking to the fixator once the radial pins are placed and captured by the pin clamps (B) Insert two or three.062 k-wires from radial to ulnar, with the first parallel to the distal articular surface and the others into fracture fragments as desired to interlock with the dorsal pins and secure the fracture in 3 dimensions. TAKE CARE TO AVOID THE RADIAL NERVE

(A) Loosen each of the appropriate locking screws on the side of the side clamp to allow the pin clamps to slide easily into the side clamp. (B) Slide each pin clamp into the slot on the side clamp from volar to dorsal and drop it down onto the k-wire. (C) Secure each radial k-wire to a pin clamp with the pin clamp nut and wrench, making sure that the shaft of the pin clamp is in either the proximal or distal slot of the side clamp and that the shaft of the pin clamp is not bent in any plane.

Secure the pin clamps to the side clamp with the wrench by tightening each locking screw, making sure that the shaft of the pin clamp is in either the proximal or distal portion of the hole in the side clamp and not bent in any plane.

Secure the side clamp to the NBX fixator body by tightening the dorsal locking screw in the radial side.

Remove the foam piece holding the proximal collet in place and insert the proximal 3mm half-pin into the distraction pin collet, with the pin collet in the distal end of the slot (A) to allow for final distraction of the fracture, and through the radial shaft taking care not to over penetrate the volar cortex (B). DO NOT USE POWER UNTIL THE THREADED PORTION OF THE HALF-PIN IS FULLY THROUGH THE COLLET AND ON BONE AS IT MAY CATCH ON THE COLLET (A small stab incision is normally made and blunt dissection with a small clamp down to bone for all 3mm hal-pins to protect neuro-vascular structures, with a suture on either side of each pin.)

Apply the distraction device to the proximal 3mm half-pin, with both arms around the pin above and below the arm of the fixator and distraction screw at the distal end of the fixator (A). Turn the distraction screw clockwise (B) to force the fixator body and secured fracture complex distally (C) to restore normal length.

With the final distraction held in place by the distraction device, insert a second 3mm half-pin into the distal radius through one of the two remaining holes on the shaft of the NBX fixator arm. DO NOT USE POWER UNTIL THE THREADED PORTION OF THE HALF- PIN IS FULLY THROUGH THE COLLET AND ON BONE AS IT MAY CATCH ON THE COLLET

Tighten the pin collet for the distal 3mm half-pin clockwise to secure the distraction.

Remove the distraction device and secure the proximal 3mm halfpin by tightening the pin collet clockwise.

Cut the radial k-wires and apply pin covers, then cut the dorsal pins and secure the pin cover by tightening the locking screw on the ulnar dorsal side of the NBX fixator.

Installation of the NBX fixator is complete.

Prior to waking the patient up, and after removing the arm from the First Assistant, the surgeon MUST place the wrist through a full range of motion: Volar and dorsal felxion Radial and Ulnar Deviation Pronation and Supination Have the surgeon save and print copies like the 2 below to show to the patient in Recovery to implant the idea that they can move their hand, fingers and wrist!

By placing the hand, wrist and fingers through the entire range of motion, the surgeon will free up any extensor tendons that may have been speared by a K-wire. The fibers of the tendons run longitudinally and the range of motion creates a split in line with the fibers that allows full range of motion and heals following removal of the NBX fixator. In well over 140 cases done to date, there has not been a single report of tendon rupture or tenosynovitis.

Post-Operative Care Normal closure and dressing will usually consist of a stitch on either side of the proximal half-pins and sterile dressing wrapped under the fixator around all pins and K-wires, with cast padding wrapped around the arm, finally covered with an Ace bandage. Patient is advised to move the fingers and wrist as tolerated. The first post-operative visit usually occurs from 3 to 5 days after surgery, at which time the above dressing and stitches are removed. Patient is instructed in pin tract cleaning and care ( from soap and water to peroxide, etc., based on surgeon preference) and is informed they can shower with the device and resume activities of daily living, with NO heavy lifting or undue stress to be placed on the wrist. Depending on radiographic evidence of healing, the NBX fixator is removed from 6-8 weeks after surgery.

2024 © healthdocbox.com Privacy Policy | Terms of Service | Feedback