Objective To evaluate the reliability and the advantageof canal laminoplasty with laminoplasty over laminectomy for treatment of lumbar spinal stenosis.Methods From June 2000 to September 2004, the titanium miniplate fixation technique was applied to re-implantation of the vertebral lamina in the lumbar spine. The vertebral lamina was made with a specially made osteotome and a special technique in 18 patients with lumbar spinal stenosis. Results The patients were followed up for 1 yr and 8 mon on average (range, 3 mon4 yr and 3 mon) and were observed to have a bony fusion of the re-implanted lamina 3-9 months postoperatively. There was no nonunion, displacement of the re-implanted lamina, overgrowth of the anterior bone edge of osteotomy, recompression of the nerves or instability of the lumbar spine. Conclusion The result demonstrates that canal laminoplasty with the titanium miniplate re-implantation of the vertebral lamina in lumbar spine can restore the normal anatomy, keep stability of the spine, and avoid adhesion and scar in the canal.
Objective To investigate the clinical effect of reconstructed bone xenograft plus buttress plate (T or L type) fixation in treating tibial plateau fracture. Methods From June 2001 to March 2003, 32 cases of tibial plateau fractures were treated by means of open reduction,reconstructed bone xenograft plus buttress plate (T or L type) fixation. There were 23 cases of bumper fracture, 5 cases of falling injury and 4 cases of crush injury by a weight; 20 males and 12 females, aged from 18 to 69 years with an average of 38 years. All patients had close fracture. Results All the patients were followed upfor 9 months to 23 months, tibial plateau fracture healed satisfactorily without sunken articular surface. According to Pasmussen criterion, the results were excellent in 16 knees, good in 12knees and moderate in 3 knees. The satisfactory rate was 87.5%. Conclusion Reconstructed bone xenograft plus buttress plate internal fixation has good effect in treating tibial plateau fractures because it can avoid the complication of transplantation of ilium.
Objective To investigate the biomechanical differences of three internal fixation approaches, namely improved Galveston (IG), reconstruction plate (RP), and il iosacral screw (LS) to the posterior pelvic ring fracture dislocation and provide experimental evidence for the cl inical appl ication of proper internal fixation method. Methods Six donatedfresh adult cadaver pelvic specimens (age averaged 45 years old) were numbered randomly and their normal biomechanics were tested by the measure instrument (MTS855 Mini-Blonix). The displacement values of normal pelvis were measured under the vertical compression (800 N) and reverse direction compression (8 N·m). Then they were made into left Denis I pelvic fracture and fixed with the IG, RP, and LS, respectively, in different orders. Biomechanics test was conducted on the fixed pelvis from both the vertical and the reversed directions. Results Concerning the direction of vertical ity and torsion, the order of fracture displacement from small to large was the normal pelvis, LS, IG and RP. There was no significant difference between LS and the normal pelvis (P gt; 0.05), and the differences between other tow groups were significant (P lt; 0.05). Conclusion The LS fixation can provide better stabil ity for posterior pelvic ring fracture dislocation when compared with IG and RP.
Objective To compare the effectiveness between the myo-periosteal fibular bone bridging and traditional transtibial amputation in the treatment of amputation below knee so as to provide theoretical basis for choosing transtibial amputation in clinical application. Methods Between November 2001 and November 2011, 38 patients with mangled lower extremity were treated by transtibial amputation. Among 38 patients, 17 (group A) underwent myo-periosteal fibular bone bridging (the operation techniques of an attached peroneal muscle myo-periosteal fibular strut bridge between the end of the tibia and fibula below knee amputation), and other 21 (group B) underwent traditional transtibial amputation. There was no significant difference in age, gender, injury cause, amputation cause, side, and disease duration between 2 groups (P gt; 0.05). The quality of life (QOL) was analyzed using 36-item short form health survey (SF-36), and prosthesis satisfaction by Trinity amputation and prosthesis experience scale (TAPES). Results Healing of incision by first intention was obtained in all patients of 2 groups; no necrosis, infection, or poor stumps was observed. The mean follow-up time was 22 months (range, 14-30 months) in group A, and 26 months (range, 15-30 months) in group B. The patients achieved good healing of bone bridging, no bone nonunion occurred. The healing time was (5.1 ± 1.1) months in group A and (3.3 ± 0.6) months in group B, showing significant difference between 2 groups (t=9.82, P=0.00). Spur occurred at the distal fibula in an 11-year-old boy of group B after 2 years of operation, which blocked use of prosthesis; prosthesis was well used in the other patients. After 12 months of operation, SF-36 score was 55.84 ± 14.01 in group A and 49.93 ± 12.78 in group B, showing significant difference (P lt; 0. 05); the physical functioning, social functioning, role-physical, vitality, body pain, general health scores in group A were significantly higher than those in group B (P lt; 0.05), but no significant difference was found in role-emotional and mental health scores between 2 groups (P gt; 0.05). TAPES score was 12.12 ± 2.23 in group A and 10.10 ± 2.00 in group B, showing significant difference (t=2.891, P=0.006). Conclusion It is a very effective method to treat traumatic amputation using an attached myo-periosteal fibular bone bridging between the end of the tibia and fibula below knee, which can afford better quality of life and prosthesis satisfaction.