Purpose: The purpose of this study was to analyze the effects of different intervals between stitch throws on tendon graft fixation with the Krackow stitch. Methods: Forty-four porcine flexor profundus tendons were randomly divided into four groups of 11 specimens each. The Krackow stitch with various stitch intervals (2.5, 5.0, 7.5, and 10.0 mm) were evaluated, and named the K-2.5, K-5.0, K-7.5, and K-10.0 groups, respectively. A braided nonabsorbable suture was used to complete each suture-tendon construct. All specimens were pretensioned to 100 N for three cycles, cyclically loaded from 50 to 200 N for 200 cycles, and then finally loaded to failure. Elongation after cyclic loading, ultimate load to failure, and the mode of failure were recorded. Results: There were significant differences in elongation after cyclic loading among the K-2.5 (31% + 5%), K-5.0 (32% + 4%), K-7.5 (34% + 5%), and K-10.0 (41% + 8%) groups (p ¼ 0.004); the post hoc analysis showed significantly smaller values in the K-2.5 and K-5.0 groups than in the K-10.0 group (p ¼ 0.002 and 0.003, respectively). The stitch interval was correlated with elongation after cyclic loading (r ¼ 0.52, p < 0.001). Ultimate loads to failure and cross-sectional area were not significantly different across the four groups. Conclusion: The Krackow stitch with stitch intervals of 2.5 and 5.0 mm had significantly smaller elongation after cyclic loading than with an interval of 10.0 mm in this porcine biomechanical study. The stitch interval was moderately correlated with elongation after cyclic loading.
The purpose of this study was to describe a simple and modified technique for arthroscopic suture fixation in a 12-year-old boy who sustained a displaced type III intercondylar eminence of the tibial. The arthroscopic fixation was modified by using the Arthrex suture lasso device to place two nonabsorbable sutures into the anterior cruciate ligament (ACL). However, the procedure became simple with the help of the Acufex ACL guide to reduce the avulsed tibial spine fragment and to place an appropriate tibial tunnel. Sutures were then passed through the tibial tunnel and secured over a bony bridge with the knee at 20° of flexion. At 6 months, the patient had a full range of motion with normal Lachman and anterior drawer testing, and he had returned to his daily activities. Radiographs showed complete fracture healing. Repair using the Arthrex suture lasso device provides a significant advantage in the treatment of type III and IV fractures of the tibial eminence by obtaining arthroscopic fixation with the substance of the ACL, thus eliminating the risks of comminution of the fracture fragment and hardware removal. This arthroscopic technique restores the length and integrity of the ACL, and provides a simplified, reproducible method of treatment for this injury.
PurposeTo determine susceptibility to decompression surgery in diabetic and nondiabetic peripheral neuropathy using a chronic compression neuropathy model.Materials and methodsTwenty-four streptozotocin-induced diabetic rats were randomly divided into three groups: group I, chronic compression of the left sciatic nerve for 4 weeks with decompression; group II, similar without decompression; and group III, sham exposing the sciatic nerve only. The other 24 nondiabetic rats were assigned to groups IV–VI, which received compression–decompression, compression, and the sham operation, respectively. Mixed-nerve-elicited somatosensory evoked potentials (M-SSEPs) and compound muscle action potentials (CMAPs) were measured to verify the compression neuropathy in the posttreatment follow-up. Behavioral observations in thermal hyperalgesia tests were quantified before electrophysiologic examinations. Treated and contralateral nerves were harvested for histomorphologic analysis.ResultsChronic compression of sciatic nerve induced significant reduction of amplitude and increment of latency of M-SSEP and CMAP in both diabetic and nondiabetic rats. Diabetic group changes were more susceptible. Decompression surgery significantly improved both sensory and motor conduction, thermal hyperalgesia, and the mean myelin diameter of the rat sciatic nerve in both diabetic and nondiabetic groups. Near full recovery of motor and sensory function occurred in the nondiabetic rats, but not in the diabetic rats 8 weeks postdecompression.ConclusionBehavioral, electrophysiologic, and histomorphologic findings indicate that decompression surgery is effective in both diabetic and nondiabetic peripheral neuropathy.
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