ObjectiveTo investigate the effect of glenohumeral ligament(GHL) in static stabilizing structure of shoulder joint. Methods Fifteen upper limbs specimen from fresh adult corpse were made shoulder jointbone ligament specimen and divided in 5 groups (n=3). The loadshift curve of the following specimen was measured respectively at the shoulder joint in abductive angles of 0°,45° and 90°,influenced by 50 N posterioranterior load to evaluate anterior stability of shoulder joint. According to different selectivecutting test, 5 groups were divided subgroups:group A (A1-A4), respectively normal group, superior GHL (SGHL) injury group;SGHL/middle GHL (MGHL) injury group and SGHL/MGHL/inferior GHL (IGHL) injury group; group B(B1-B3),respectively normal group,MGHL injury group,MGHL/IGHL injury group; group C(C1-C2),respectively normal group,IGHL-anterior band(IGHL-AB) injury group; group D(D1-D2),respectively normal group, IGHL-posterior band(IGHL-PB) injury group; and group E(E1-E2),respectively normal group, IGHL injury group. Results For complete shoulder joint(A1 group), there was verysmall average shift (15.00±4.99 mm), for A4 group, there was the worst stability of shoulder joint,the average shift was 22.34±5.70 mm. For B2 group,the stability of shoulder joint had no obvious decrease. For B3 group, the stability of shoulder joint was worst at abduction angleof 45° and 90°. For C2 group, the stability of shoulder joint at abduction angle of 45° (23.19±4.58 mm) and 90°(15.32±1.30 mm) was worse than that of A1 group (P<0.05); halfdislocation or dislocation could be seen. For D2 group(17.30±4.93 mm), there was less effect on anterior stability of shoulder joint than that of A1 group(P<0.05).For E2 group(20.26±4.75 mm), the effect on anterior stability was similar toC2 group. Conclusion GHL is a key static stabilizing structure of shoulder joint. SGHL has no obvious effect on anterior stability of shoulder joint. MGHL and IGHL together holds anterior stability of shoulder joint, and IGHL plays the most important role.
目的:评估使用锁定钢板治疗桡骨远端不稳定骨折的疗效。方法:2005年8月至2009年5月使用锁定钢板治疗桡骨远端不稳定性骨折27例。平均553岁。按AO分类:B2型5例,B3型2例,C1型11例,C2型7例,C3型2例。结果:全部病例得到3~24个月随访,平均162个月。根据Fernandez评分标准进行腕关节功能评分:优14例,良10例,一般1例,差2例。优良率875%。 结论:掌侧锁定钢板治疗桡骨远端不稳定性骨折是安全有效的治疗选择,可提供坚强的固定,早期功能训练。
Objective To review the biomechanics of internal fixators for proximal humeral fractures, and to compare the mechanical stabil ity of various internal fixators. Methods The l iterature concerning the biomechanics of internal fixators for proximal humeral fractures was extensively analyzed. Results The most important things for best shoulder functional results are optimal anatomical reduction and stable fixation. At present, there are a lot of methods to treat proximal humeral fractures. Locking-plate exhibites significant mechanical stabil ity and has many advantages over other internal fixators by biomechanical comparison. Conclusion Locking-plate has better fixation stabil ity than other internal fixators and is the first choice to treat proximal humeral fractures.
It will cause hidden trouble on clinical application if the uroflowmeter is out of control. This paper introduces a scheme of uroflowmeter calibration device based on digital signal processor (DSP) and gear pump and shows studies of its feasibility. According to the research plan, we analyzed its stability, repeatability and linearity by building a testing system and carried out experiments on it. The flow test system is composed of DSP, gear pump and other components. The test results showed that the system could produce a stable water flow with high precision of repeated measurement and different flow rate. The test system can calibrate the urine flow rate well within the range of 9~50 mL/s which has clinical significance, and the flow error is less than 1%, which meets the technical requirements of the calibration apparatus. The research scheme of uroflowmeter calibration device on DSP and gear pump is feasible.
Objective To evaluate of the valgus stability of the elbow after excision of the radial head, release of the medial collateral ligament (MCL), radial head replacement, and medial collateral ligament reconstruction.Methods Twelve fresh human cadaveric elbows were dissected to establish 7 kinds of specimens with elbow joint and ligaments as follow:①intact(n=12); ②release of the medial collateral ligament(n=6);③ excision of the radial head(n=6);④excision of the radial head together with release of the medial collateral ligament(n=12);⑤radial head replacement(n=6);⑥medial collateral ligament reconstruction(n=6);⑦radial head replacement together with medial collateral ligament reconstruction(n=12). Under two-newton-meter valgus torque, and at 0, 30, 60, 90 and 120 degrees of flexion with the forearm in supination, the valgus elbow laxity was quantified: All analysis was performed with SPSS 10.0 software.Results The least valgus laxity was seen in the intact state and its stability was the best. The laxity increased after resection of the radial head. The laxity was more after release of the medial collateral ligament than after resection of the radial head (Plt;0.01). The greatest laxity was observed after release of the medial collateral ligament together with resection of the radial head, so its stability was the worst. The laxity of the following implant of the radial head decreased. The laxity of the medial collateral ligament reconstruction was as much as that of the intact ligament (Pgt;0.05). The laxity of the radial head replacement together with medial collateral ligament reconstruction became less.Conclusion The results of this studyshow that the medial collateral ligament is the primary valgus stabilizer of the elbow and the radial head was a secondary constraint to resist valgus laxity.Both the medial collateral ligament reconstruction and the radial head replacement can restore the stability of elbow. If the radial head replacement can notbe carried out, the reconstruction of the medial collateral ligament is acceptable.
ObjectiveTo analyze the effect of core stabilization exercise with unstable support surface on rehabilitation of patients with osteoporotic vertebral fracture.MethodsFrom January 2018 to January 2020, 66 patients with osteoporotic vertebral fractures in the Fifth Affiliated Hospital of Zhengzhou University were selected as the research objects. All patients were treated with percutaneous vertebroplasty. After operation, they were randomly divided into intervention group and control group by random number table method, with 33 cases in each group. Both groups were given routine rehabilitation intervention after operation, while the intervention group was given core stabilization exercise with unstable support surface at the same time. The vertebral height, shape, stability and gait of the two groups were compared 1 day before operation and 1 day after rehabilitation training.ResultsThere was no significant difference in gender, age, injured vertebral body, course of osteoporosis, years of education and marital status between the two groups (P>0.05). Before surgery, there was no statistically significant difference in the height ratio of the front edge of the injured vertebra, middle height ratio of the injured vertebra, back convex Cobb angle, track length when eyes were open, track length when eyes were closed, Romberg rate, track length per unit time when eyes were open, track length per unit time when eyes were closed, Romberg rate per unit time, deviation of the center of gravity on X-axis when eyes were open, deviation of the center of gravity on X-axis when eyes were closed, deviation of the center of gravity on Y-axis when eyes were open, deviation of the center of gravity on Y-axis when eyes were closed, stride length, step frequency or comfortable pace between the two groups (P>0.05). After training, the height ratio of the front edge of the injured vertebra [(79.26±12.15)% vs. (72.26±13.36)%], middle height ratio of the injured vertebra [(82.11±10.26)% vs. (75.64±9.56)%], back convex Cobb angle [(9.87±7.10) vs. (14.41±2.36)°], track length when eyes were closed [(1856.29±457.16) vs. (2358.48±786.45) mm], Romberg rate [(1.32±0.29)% vs. (1.87±0.54)%], track length per unit time when eyes were closed [(33.45±3.26) vs. (41.55±4.69) mm], Romberg rate per unit time [(1.41±0.30)% vs. (1.95±0.77)%], deviation of the center of gravity on X-axis when eyes were open [(11.06±1.36) vs. (16.54±2.22) mm], deviation of the center of gravity on X-axis when eyes were closed [(11.15±0.96) vs. (23.31±3.06) mm], deviation of the center of gravity on Y-axis when eyes were open [(12.57±1.84) vs. (15.56±2.06) mm], deviation of the center of gravity on Y-axis when eyes were closed [(15.69±2.05) vs. (18.96±3.56) mm], stride length [(0.57±0.12) vs. (0.49±0.10) m], step frequency [(1.09±0.29) vs. (0.94±0.20) step/s] and comfortable pace [(0.35±0.12) vs. (0.29±0.10) m/s] of the intervention group were better than those of the control group (P<0.05). There was no significant difference in the track length when eyes were open or track length per unit time when eyes were open between the two groups (P>0.05).ConclusionIn patients with osteoporotic vertebral body fractures, core stabilization exercise with unstable support surface on the basis of conventional rehabilitation interventions after surgery can effectively restore the height and shape of the vertebral body, and improve the stability and gait to a certain extent.
ObjectiveTo investigate the correlation between glenohumeral joint congruence and stability in recurrent shoulder dislocations. Methods Eighty-nine patients (89 sides) with recurrent shoulder dislocation admitted between June 2022 and June 2023 and met the selection criteria were included as study subjects. There were 36 males and 53 females with an average age of 44 years (range, 20-79 years). There were 40 cases of left shoulder and 49 cases of right shoulder. The shoulder joints dislocated 2-6 times, with an average of 3 times. The three-dimensional models of the humeral head and scapular glenoid were reconstructed using Mimics 20.0 software based on CT scanning images. The glenoid track (GT), inclusion index, chimerism index, fit index, and Hill-Sachs interval (HSI) were measured, and the degree of on/off track was judged (K value, the difference between HSI and GT). Multiple linear regression was used to analyze the correlation between the degree of on/off track (K value) and inclusion index, chimerism index, and fit index. ResultsMultiple linear regression analysis showed that the K value had no correlation with the inclusion index (P>0.05), and was positively correlated with the chimerism index and the fit index (P<0.05). Regression equation was K=–24.898+35.982×inclusion index+8.280×fit index, R2=0.084. ConclusionHumeral head and scapular glenoid bony area and curvature are associated with shoulder joint stability in recurrent shoulder dislocations. Increased humeral head bony area, decreased scapular glenoid bony area, increased humeral head curvature, and decreased scapular glenoid curvature are risk factors for glenohumeral joint stability.
A total of 12 cases of old facet dislocations of cervical spine treated between december 1988 and 1993 were analyzed in order to evaluate the efficacy of various surgical modalities. In this series, there were 8 males and 4 females, with ages ranged from 16 to 50 years old (averaged 37.8 years old). The duration from injury to admission to our hospital was ranged from 1 to 8 months (averaged 3.7 months). Dislocation levels were as follows: C3,4 in 1 case, C4,5 in 4 cases, C5,6 in 4 cases and C6,7 in 3 cases. Unilateral facet dislocation was in 7 cases and bilateral facet dislocation in 5 cases. Neurological status on admission was as follows: spinal cord and nerve root lesion in 5 cases, nerve root lesion alone in 5 cases and neurologically intact in 2 cases. Besides all facets receiving facetectomy and iliac bone graft, other four kinds of adjuvant treatments were used, including internal fixation by stainless wires laminae or spinous processes in 4 cases, Luque rod in 1 cases, anterior fibrolysis combined with posterior laminoplasty in 1 cases and sustained skull traction without internal fixation in 6 cases. The reduction efficacy from postoperative stustained skull traction was better and the stainless wires fixation ranked the next. The patients only suffering from the nerve root lesion recovered better, but those who had spinal cord combined with nerve root lesion recovered badly. In conclusion, for the treatment of old facet dislocation, it is necessary to resect the facet and graft with iliac bone.
Objective To evaluate the clinical effect of Halo-vest in treatment of unstable upper cervical spine. Methods From March 1997 to October 2002, 16 cases of unstable upper cervical spineswere treated and immobilized by Halovest, aged from 14 to 53 years. There were 3 cases of isolated Jefferson fractures, 4 cases of isolated Hangman fractures and 1 case of Anderson type Ⅱ fracture. The 8 cases were immobilized for 3-4 months by Halovest. There were 3 cases of old odontoid fractures with dislocations treated by occipitocervical plate fixation and fusion, 1 case of C1 malignant tumor by posterior resection and internal fixation, 2 cases of C2 malignant tumor by anterior resection, fusion, and internal fixation; these cases were immobilized by Halo-vest during surgery. There were 1 case of C2,3 tuberculosis were treated by anterior debridement and fusion, and 1 case of gooseneck deformity by anterior decompression, fusion and screw fixation after resection of C2-7 , the 2 cases were immobilized for 3 months by Halo-vest.Of 16 cases, there were 8 cases accompanied with spinal cord syndrome. Results Fifteen cases were followed up 6 months to 5 years. Anterior arch ununion and posteriorarch osseous healing occurred in 1 case of Jefferson fracture. Other fractures and embedded bones became osseous fusion. One case of C2 malignant tumorrecurred 8 months after operation. Spinal cord syndrome of all patients disappeared. Conclusion Halo-vest immobilization is an effective method for conservative treatment and stable reconstruction of unstable upper cervical spine.