Caudal cruciate ligament disease in three Basset Hounds

CASE DESCRIPTION

3 adult Basset Hounds were referred for evaluation of chronic, unilateral, pelvic limb lameness with no history of trauma.

CLINICAL FINDINGS

On examination, all dogs had mild lameness of the affected limb; signs of pain were evident during manipulation of the stifle joint in the affected limb, along with effusion of that joint. No stifle joint instability was palpable. Radiographs were available for review for 2 of the 3 dogs. Effusion was confirmed radiographically, but severity of degenerative joint disease varied. Central intercondylar notch width ratios for the 2 dogs were 0.16 and 0.17, and tibial plateau angles were -10° and 15°; relative tibial tuberosity width was 1.1 for both dogs. Exploratory arthroscopy revealed moderate degeneration of the caudal cruciate ligament in all 3 dogs; the cranial cruciate ligaments were grossly normal.

TREATMENT AND OUTCOME

Corrective osteotomy to increase the tibial plateau angle was performed in 1 dog, and the lameness resolved by 2 months after surgery. The 2 other dogs were managed without additional surgery. One dog was persistently lame. The other dog reportedly had normal limb function 2.5 years after undergoing exploratory arthroscopy.

CLINICAL RELEVANCE

Morphological characteristics of the tibia in Basset Hounds may predispose to abnormal stresses on the caudal cruciate ligament. Isolated degeneration of the caudal cruciate ligament should be considered as a differential diagnosis for Basset Hounds with lameness originating from the stifle joint. Without direct inspection of the joint, caudal cruciate ligament disease could be confused for cranial cruciate ligament injury.

Correction of Excessive Tibial Plateau Angle and Limb Shortening in a Juvenile Dog Using a Hinged Circular Fixator Construct and Distraction Osteogenesis

An 18-week-old Rhodesian Ridgeback puppy that was hit by a car sustained a Salter-Harris type III fracture of the left proximal tibial physis and ipsilateral diaphyseal femoral and tibial fractures. The diaphyseal fractures were successfully stabilized with bone plate fixation. Premature closure of the caudal aspect of the proximal tibial physis, secondary to the proximal physeal fracture, resulted in an excessively high tibial plateau angle (TPA) of 50° with a limb length discrepancy of 13% by 24 weeks of age. The deformity was addressed by performing a proximal tibial osteotomy and subsequent distraction osteogenesis to reduce the TPA while concurrently lengthening the crus. A radial osteotomy was performed in the proximal metaphyseal region and the hinged fixator was applied. Distraction was initiated the day following surgery at a rate of 1 mm per day as measured along the caudal cortex of the tibia with a rhythm of three distractions daily. Distraction was terminated 19 days postoperatively. Sequential distraction of the osteotomy resulted in 17 mm of tibial lengthening and a final TPA of 3°. The fixator was removed 52 days after application. Complications included wire tract inflammation involving the wires securing the proximal segment and a calcaneal fracture which required bone plate stabilization. The left pelvic limb was only 8% shorter than the right pelvic limb and the dog had only a subtle lameness 12 months after surgery. The hinged circular fixator construct allowed for both the reduction of the TPA and limb segment lengthening in this dog.

Mechanics of Supplemental Drop Wire and Half-Pin Fixation Elements in Single Ring Circular External Fixator Constructs

OBJECTIVE

Evaluate the effects of supplemental fixation elements on the mechanical properties of a single ring circular fixator construct.

STUDY DESIGN

In vitro mechanical testing.

SAMPLE POPULATION

Five construct configurations (six replicates of each configuration) were used to stabilize a 1.6 cm diameter Delrin rod bone model.

METHODS

Constructs were assembled using 66 mm complete rings, 1.6 mm olive wires, and 3.2 mm diameter half-pins. Construct configurations tested were a base single ring construct, constructs with 1 supplemental drop wire or constructs with 1, 2, or 3 supplemental half-pins. Constructs were loaded in axial compression, caudocranial and mediolateral bending, and torsion. Strain was measured in individual fixation elements during axial loading.

RESULTS

A supplemental drop wire or half-pin significantly increased bending and torsional stiffness. The supplemental half-pin increased caudocranial stiffness significantly more than placing a drop wire. Placing a 2nd or 3rd pin afforded significantly greater increases in construct stiffness in all modes of loading, with 3 half-pin constructs having significantly greater axial and caudocranial stiffness than 2 half-pin constructs. Placing a single supplemental pin induced cantilever bending resulting in angular displacement of the Delrin rod during axial loading and high strain in both the fixation wire secured distal to the ring and the pin. Supplemental half-pins incrementally reduced strain in all fixation elements and resulted in linear displacement of the Delrin rod during axial loading.

CONCLUSION

If using supplemental half-pins as fixation elements, insertion of 2 or 3 pins is preferred over a single pin.