A New Technique for Repair of Comminuted Diaphyseal Fractures

The broad lengthening plate (BLP) was used to repair eleven comminuted diaphyseal fractures. It offers the advantage of increased implant strength over the area of comminution where bending forces are greatest. The BLP also provides an additional screw hole on each end of the implant as compared to a conventional plate of similar size. Application of the BLP in the proposed fashion improves operating efficiency by reducing operating time and tissue handling which minimizes complications to bone healing.     

Biomechanical Analysis of Stacked Plating Techniques to Stabilize Distal Radial Fractures in Small Dogs

Objective— To evaluate the fatigue life of partially stacked and fully stacked (1.5/2.0 and 2.0/2.7 mm) veterinary cuttable plates (VCP) in a fracture gap model of the distal aspect of the radius. Study Design— In vitro biomechanical study. Methods— Constructs (n=4/group) were assembled for each of 8 groups using 8‐hole plates (1.5/2.0 and 2.0/2.7 mm VCP) in the following configurations: unstacked; 2‐hole stacked centered over the gap (COG); 4‐hole stacked COG; and fully stacked. Plate(s) were secured to 2 separate polyvinylchloride pipe lengths, mounted to a mechanical testing system with a custom jig, and were loaded in axial compression for 10⁶ cycles at 10 Hz or until failure at 6–60 N for the 1.5/2.0 mm VCP and 10–100 N for the 2.0/2.7 mm VCP. Differences in number of cycles, stiffness, and failure mode were recorded. Results— All construct failures occurred through a screw hole adjacent to the gap. Fully stacked and 4‐hole stacked 1.5/2.0 and 2.0/2.7 mm VCP withstood 10⁶ cycles. Fatigue life and stiffness of the 1.5/2.0 or 2.0/2.7 mm unstacked constructs were significantly less than the other constructs. Differences were identified in stiffness among the 1.5/2.0 mm stacked constructs and in fatigue life among the 2.0/2.7 mm VCP stacked constructs. Conclusion— Four‐hole partially stacked VCP (either 1.5/2.0 or 2.0/2.7 mm) have comparable mechanical properties to fully stacked VCP. Clinical Relevance— Partial stacking of 2 holes of VCP on both sides of the fracture gap may provide sufficient strength for healing, but this premise must be tested in vivo.     

Cranial Approach to the Humerus for Repair of Fractures in Horses and Cattle

A cranial approach to the humerus was developed for application of a compression plate for repair of comminuted humeral fractures in a weanling foal, a calf, a heifer, and a mature cow. An incision was made from the cranial portion of the greater tubercle of the humerus to the radius. The cranial aspect of the humerus was exposed by retraction of the brachiocephalicus muscle and blunt dissection between the biceps brachii and brachialis muscles. A second plate was applied laterally in the heifer and cow by retraction of the brachialis muscle and elevation of the extensor carpi radialis muscle. Successful fracture reduction, alignment, and stabilization were achieved in all four animals.     

Unilateral Uniplanar External Skeletal Fixation for Isolated Diaphyseal Tibial Fractures in Skeletally Immature Dogs

Objective: To report and evaluate use of external skeletal fixation (ESF) for repair of isolated (fibula intact) diaphyseal tibia fractures in skeletally immature dogs.
Study Design: Case series.
Animals: Skeletally immature (mean age, 17 weeks; range, 12–23 weeks) dogs (n=5) with isolated diaphyseal tibial fractures.
Methods: Medical records (2006–2007) of 5 dogs with isolated diaphyseal tibial fractures treated with Type 1a ESF were reviewed and outcome assessed by clinical examination and telephone interviews.
Results: Dogs were evaluated ∼2 and 4 weeks after surgery. Limb function, muscle mass, and comfort level remained very good to excellent throughout healing. Bony union was confirmed radiographically and the ESF removed ∼4 weeks after surgery (mean, 31.4 days; range, 28–37 days). Owner satisfaction was high when contacted a minimum of 4 weeks after ESF removal.
Conclusions: Use of Type Ia ESF with positive profile threaded pins is a practical and biologic method for treatment of isolated tibial fractures in skeletally immature dogs
Clinical Relevance: ESF is an effective alternative treatment to external coaptation and internal fixation for isolated diaphyseal tibial fractures in skeletally immature dogs.     

Fractures of the Humerus in Dogs and Cats A Retrospective Study of 130 Cases

Case histories of 130 dogs and cats with humeral fractures were reviewed. The different types of fractures were classified. Most animals with proximal, shaft, and supracondylar fractures had excellent results. The poor prognosis associated with distal articular fractures was due most often to failure of the fixation device in the supracondylar area; best results were achieved with a plate on the caudal and medial surface of the distal humerus.     

Changes in the Proximal Femur and Coxofemoral Joint Following Intramedullary Pinning of Diaphyseal Fractures in Young Dogs

We report radiographic changes and clinical results seen in the proximal femur and coxofemoral joint of 7 young dogs following intramedullary pinning. Changes seen radiographically included coxa valga, a small malformed femoral head, a short thin femoral neck, and coxofemoral subluxation. Epiphyseal trauma, ischemia, and mechanical impairment of normal femoral neck growth due to presence of the intramedullary pin are discussed as possible etiologic factors.     

Use of a Medial Bone Plate for Repair of Radius and Ulna Fractures in Dogs and Cats: A Report of 22 Cases

Objective —This study evaluates the technique of medial bone plating in the repair of radius fractures in dogs and cats.
Study Design —A retrospective study was made of patients diagnosed with fractures of the radius that were stabilized by application of a bone plate to the medial side of the bone.
Animal Population —Sixteen client-owned dogs and 4 client-owned cats. The animals' ages varied from 5 months to 8 years, and their weight varied from 1.3 to 49 kgs.
Methods —Animals were evaluated using radiography or client assessment, or both.
Results —Medial plate application was technically easier to do than cranial plate application, the technique avoided the extensor tendons, and permitted greater versatility in the selection of smaller plates for the fixation of distal radius fractures. All fractures repaired by this method healed with no postoperative complications.
Conclusions —Medial plate application may be used for osteosynthesis of distal or middiaphy-seal radius fractures. Further studies are needed to evaluate the use of this technique in morphologically complex fractures. In patients with fractures of the proximal radius, cranial plate application is considered more appropriate.
Clinical Relevance —Medial plating of radial fractures has significant advantages compared with conventional plate application; it provides the surgeon with an alternative method of fixation for selected radius fractures in dogs and cats.     

Medial Epicondyle Osteotomy as an Approach to Repair of Medial Femoral Condyle Fractures in the Dog

Fracture of the medial femoral condyle in three dogs is described. This injury resulted in lateral (varus) instability, which was difficult to differentiate from a lateral collateral ligament tear. Radiographs and surgical exploration were necessary to differentiate the two conditions. A medial femoral epicondyle osteotomy was used in two cases to expose the fracture. This exposure technique is advantageous because it allows early return to functional use of the injured limb by eliminating postoperative splintage.     

Repair of Fractures of the Distal Aspect of the Radius in Two Horses

Fractures of the distal radius in two horses were repaired by open reduction and interfragmentary compression using screws placed in a lag fashion. One horse had a complete oblique fracture of the medial aspect of the epiphysis of the distal radius and was sound for riding 32 months after surgery. The other horse had an open spiral comminuted fracture with medial displacement of the distal radial fragment. Laminitis developed in the contralateral limb and this horse was euthanatized 5 weeks after surgery. © Copyright 1994 by The American College of Veterinary Surgeons     

Miniplate Fixation for Repair of Mandibular and Maxillary Fractures in 15 Dogs and 3 Cats

Maxillofacial miniplates and screws were used for skeletal fixation in 15 dogs and 3 cats that sustained a variety of mandibular and maxillary fractures. These implants were used as neutralization or buttress fixation in 11 caudal (junction of the ramus with the mandibular body) and 2 rostral mandibular fractures, 4 maxillary fractures, and 2 zygomatic arch fractures. All but one of the fractures healed with appropriate occlusion and excellent function. In one case of a rostral mandibular fracture, soft tissue dehiscence occurred accompanied by a loss of the fixation and subsequent distraction of the bone fragments; reasonable function was obtained by performing a rostral mandibulectomy. Plate contouring and application of the miniplates along the appropriate biomechanical lines of stress was easily performed and permitted the biomechanical principles of tension band fixation to be applied in most cases. Miniplate fixation, either used alone or in combination with other fracture fixation techniques, achieved sufficiently rigid skeletal fixation to provide uncomplicated healing and good to excellent functional and cosmetic results in 14 dogs and 3 cats.     

Modified Segmental Spinal Instrumentation in Repair of Spinal Fractures and Luxations in Dogs

A modified segmental spinal stabilization technique was used in four dogs weighing 10 to 56 kg with thoracolumbar and lumbosacral spinal fractures/luxations. A Steinmann pin was bent to encircle the dorsal spinous processes and was wired together with longitudinal pins to the cranial articular facets and dorsal spinous processes in the thoracolumbar application. The central pin was omitted, and the longitudinal pins were bent at a right angle and passed through the ilial wings in the lumbosacral application. Fracture fixation and stabilization were excellent in all dogs. One broken pin was detected in one dog after 18 months. No other complications due to the spinal instrumentation were observed. Neurologic recovery was excellent in two dogs, good in one dog, and fair in one dog.     

Determination of Proximal Femoral Epiphyseal Depth for Repair of Physeal Fractures in Immature Dogs

Objective—To determine the depth that implants may be safely placed for repair of proximal femoral physeal fractures.
Study Design—Relationships were determined between the depth of the proximal femoral epiphysis (PFE) and the contralateral PFE, and the PFE and pubic bone width.
Animals or Sample Population—20 immature dog cadavers.
Methods—Actual PFE depths were determined at the center of the physeal surface and at four other eccentric points. The contralateral intact PFE depth and the width of the cranial aspect of the pubic bone were measured from radiographs.
Results—Mean ratios of actual central PFE depth to radiographically measured (1) contralateral PFE depth and (2) pubic bone width were 1.04:1 and 1.09:1, and ratios of actual eccentric PFE depths were 0.89:1 and 0.93:1. Body weight was not useful in estimating depth of the PFE.
Conclusions —For the central epiphysis, pins may safely be placed a distance equal to 75% to 80% of the contralateral intact PFE depth or pubic bone width, measured from a ventrodorsal radiograph, with minimal risk of penetration through the articular surface. Pins placed eccentrically may be safely driven a depth equal to 65% of the radiographically measured contralateral intact PFE depth or pubic bone width.
Clinical Relevance —Estimating the safe depth of implant placement into the PFE avoids penetration of the articular surface.     

Determination of Safe Depth of Pin Penetration for Repair of Distal Femoral Physeal Fractures in Immature Dogs: A Comparison of Normograde and Retrograde Pin Placement

Objective —The purpose of this study was to determine the depth that implants may be safely placed into the distal femoral epiphysis (DFE) for the repair of distal femoral physeal fractures.
Study Design —The depth of the DFE was related to the radiographic thickness of the patella in this experimental study.
Animals or Sample Population —Twenty immature canine cadavers.
Methods —Patella thicknesses were measured from lateral radiographs. Actual DFE depths were determined for pins driven in normograde fashion and for pins driven retrograde from the central depression between the metaphyseal pegs and from the cranial pegs. The association of DFE depth and patella thickness was evaluated using linear regression analysis. Using 95% confidence intervals, rules for estimating the safe depth of implant placement into the DFE were determined.
Results —DFE depth had significant correlation with patella thickness for pins placed in retrograde fashion from the central depression between the metaphyseal pegs (r²= .83) and from the cranial pegs (r²= .82) and for pins placed in normograde fashion (r²= .65).
Conclusions —Based on 95% confidence intervals, pins placed in retrograde fashion from the central depression between the metaphyseal pegs may be safely driven into the DFE a distance equal to 140% of patella thickness. Pins placed from the cranial metaphyseal pegs may be driven to a depth equal to 80% of patella thickness, and pins placed in normograde fashion may be driven to a depth equal to 30% of patella thickness.
Clinical Relevance —Measurement of patella thickness assists the surgeon in determining the approximate depth that pins may be driven into the DFE without penetrating the articular surface of the stifle joint.     

The Intraosseous Blood Supply of the Canine Radius: Implications for Healing of Distal Fractures in Small Dogs

The intraosseous vascular anatomy of the radius was studied in 12 pairs of canine cadaver limbs. Six pairs of specimens were obtained from small-breed dogs (less than 6 kg) and six pairs were obtained from large-breed dogs (18 to 30 kg). All specimens were studied after arterial injection with India ink. Samples were fixed, frozen, then sectioned and processed using a modified Spalteholz technique. In all specimens, the intraosseous blood supply arose from the nutrient artery with its associated branches and the metaphyseal arteries. In small-breed dogs, there was decreased vascular density at the distal diaphyseal-metaphyseal junction compared with large-breed dogs. The reduced vascularity corresponded to the region associated with a poor prognosis for fracture healing in small-breed dogs. This regional association suggests that a decreased vascular supply in the distal radius may contribute to a higher frequency of delayed union and nonunion in smaller dogs.     

Femoral Head Fractures Resulting in Epiphyseal Fragmentation Results of Repair in Five Dogs

Five mature dogs with fragmented femoral head fractures were treated. Fracture reduction was accomplished with lagged cortex screws and Kirschner wires or Smilley nails. Results were good or excellent in four dogs. Rigid internal stabilization, early surgical treatment, and reduced activity postsurgically are essential for proper healing of these fractures.     

Use of Reconstruction Plates for the Repair of Segmental llial Fractures Involving Acetabular Comminution in Four Dogs

Four dogs (27.3–31.8 kg) with ilial body fractures associated with various degrees of acetabular comminution were treated using internal fixation. Anatomic reduction and internal fixation were achieved using a long 2.7 mm reconstruction plate on the hemipelvis. Based on the patient's pelvic radiographs, the reconstruction plate was precontoured before surgery to precisely fit a bony pelvis of similar size and shape. Excellent anatomic reduction of the fractures was achieved in all four dogs. Three dogs recovered uneventfully and regained full function of the affected leg. In one dog with comminution of the acetabulum, reduction of the most caudally located fracture was not maintained. Severe osteoarthritis developed, and excision arthroplasty was performed.
Reconstruction plates offer greater versatility than dynamic compression plates in the treatment of complex pelvic fractures such as ilial body fractures with acetabular comminution. The technique of precontouring the reconstruction plate prior to surgery decreases intraoperative time and corrects minor discrepancies in reduction.     

Repair of Comminuted Fractures of the Proximal Ulna and Olecranon in Young Horses Using Tension Band Plating

A report of the successful surgical repair of 3 ulnar fractures in young horses is presented and the adaptation of dynamic compression plating to the treatment of these fractures is discussed.