We found that pain on the medial side of the leg accounted for 6.9% and 19.7% of osteoarticu-lar injuries due to drilling in soldiers in drill, especially those newly recruited. We also found that the pain was produced by an increase in tibial intramedullary pressure. An animal experimentation was done, and the results corroborated our contention. At the same time, we found that decompression of tibial medullary cavity was effective in relieving the symptom.

From January, 1976 through December, 1986, 303 peripheral nerves (219 patients) were operated upon using microsurgical technic for injury, neurofibroma or neuroma. Under alternating low and high power, the nerve ends were approximated precisely and gently under surgical microscope. Results were satisfactory. During anastomosis of nerve ends, it should be emphasized that it is essential to distinguish the size of the cross section of various nerve fascicules and morphological characteristics of surrounding supporting tissues. For late cases, the use of nerve stimulator during operation is emphasized. Microsurgery Peripheral nerves injury

To appraise the preventive and improvable effects of different movements on OA joints,animal models by fixing the left posterior knee joint in extention using plaster cast for 8 weeks in Newzealand rabbits were carried out. The rabbits were randomly divided into different groups, and the X-RAY、range of motion and ligament biomechanical features of the joint were observed.The results showed that proper movement improved the range of motion, restored tensile strength of the ligament around the OA joint.It is evident that movement improves the function of the OA joint and delays the OA exacerbation.The combination of active and passive movement is the best way to achieve good result.

BACKGROUND:Traditional imaging examinations have lower sensitivity in diagnosing articular cartilage injury, and the effects of biomarkers in body fluid on diagnosing severity of cartilage injury should be evaluated.OBJECTIVE: To investigate the significance of the biomarkers, including cartilage oligomeric matrix protein (COMP), matrix metalloproteinases-1 (MMP-1), matrix metalloproteinases-3 (MMP-3) and tissue inhibitor of matrix metalloproteinases-1 (TIMP-1), in serum and synovial fluid in evaluating the early sports injury of articular cartilage.DESIGN: A randomized controlled trial.SETTING: the 105 Central Hospital of Chinese PLA.MATERIALS: Eighteen adult male hybrid dogs (15-25 kg, average 22.5 kg) were divided into three groups randomly: ①plain-running group (n =8): the dogs ran on the plain; ② slope-running group (n =8): the dogs ran on the slope of 10°; ③control group (n =2): the dogs could move freely.METHODS: Dogs in the plain-running group and slope-running group were trained daily, rurning for an hour in the morning and in the afternoon respectively(total two hours per day), 4 m/s, and the training lasted for 10 weeks. Serum and synovial fluid were collected on the dayof training, and at the 2nd, 4th, 8th and 10th weeks respectively in both the plain-running group and slope-running group, and the concentrations of COMP,MMP-1, MMP-3, TIMP-1 were detected with ELISA. Standard curves were built by the standard concentrations and A values, according to which corresponding concentrations of specimens were obtained. Knee joint MRI examination was performed, and the training was canceled on the day of examination. All the dogs were killed after 10 weeks, and the knee joint cartilages weight loading region of femur condyles were observed histologically.MAIN OUTCOME MEASURES: Concentrations of COMP, MMP-1, MMP-3, TIMP-1 in serum and synovial fluid on the day of training, and the 2, 4, 6, 8 and 10 weeks in each group; Results of MRI examination of knee joint; Results of the histological observation of knee joint cartilage after 10 weeks.RESULTS: All the 18 dogs were involved in the analysis of results. ① Results of examination in serum. ② Results of examination in synovial fluid: In the slope-running group, the COMP concentrations at 2, 4, 6, 8 and 10 weeks were obviously higher than those in the plain-running group (P ＜ 0.01), MMP-1 concentration at 2, 4 and 6 weeks were higher than those in the plain-running group (P ＜ 0.05-0.01), MMP-3 concentrations at 2, 4, 6 and 8 weeks were higher than those in the plain-running group (P ＜ 0.01);The MMP-3/TIMP-1 ratios at 2, 4 and 8 weeks were higher than those in the plain-running group(P ＜ 0.05-0.01).③ The concentrations of COMP,MMP-1,MMP-3 and TIMP-1 and the MMP-3/TIMP-1 ratio in serum were significantly correlated with the corresponding biomarkers in synovial fluid (r =0.631,0.502, 0.748, 0.651, 0.667, P＜ 0.01). ④ Results of histological observations: In both the plain-running group and slope-running group, obvious pathological changes of articular cartilage injury were observed at 10 weeks, the activity of articular chondrocytes in the surface layer was obviously decreased, which was severer in the latter group than in the former one. ⑤Results of MRI examination: Early sports injury changes of knee joint appeared at 2 weeks, and progressive aggravation occurred in both the plain-running group and slope-running group.CONCLUSION: Repetitive, impacted, torsional, shearing motions with long time and great intensity are easy to induce sports injury,even osteoarthritis.The sensitivity of these biomarkers is better than MRI in reflecting the pathological changes of articular cartilage.

As a high-throughout technique after DNA chips in biomedical research, protein arrays are developing, with high sensitivity and veracity. They have drawn increasing attention because they can provide a new technological platform for life science studies. There has been no effective diagnosis instrument for common articular cartilage injuries when they are at an initial stage, but when the disorders progress into an advanced stage, visible functional disturbances often arise. Protein arrays may offer a solution to the lasting tough problem in orthopaedic field. In this paper, we review the development and research of protein arrays, the regulation of proteins, their biochemical functions and their potential interaction partners, as well as changes of cartilage biomarkers in body fluid after injury. In addition, the feasibility and rationality of using protein microarrays for diagnosing early articular cartilage injuries are discussed.

Objective To evaluate the influence of angiotensin converting enzyme (ACE) gene polymorphism on the effect of aerobic endurance training of soldiers.Methods Two hundred and forty-eight army recruits (males,Hans) from an infantry regiment without previous history of military training were involved in the present study,and they were divided into experimental group and control group (124 each).Intensified endurance training designed with the theory of "cyclic training" was applied in experimental group,and routine training method was applied in control group including mainly 5000 meters running for 3 times in one week (no more than 1 time per day).The 5000m running performance and maximal oxygen consumption (VO_2max) were determined before and after eight-week training as endurance capacity indices.The ACE gene polymorphism was determined and the recruits in both groups were divided into 3 sub-groups according to the ACE genotypes as II,ID and DD.The influence of ACE genotype and training method on endurance capacity was analyzed.Results The 5000m running performance and VO_2max of experimental group after eight-weeks-training were significantly higher than those before training and those of control group (P0.05).In control group,the 5000m running performance and VO_2max of DD sub-group were significantly lower than those of II sub-group and ID sub-group (P0.05).Conclusions Intensified endurance training designed with the theory of "cyclic training" may effectively improve the endurance capacity in 8 weeks.ACE genotype could not be used as an accurate indicator to evaluate the endurance capacity and improvement of efficiency of soldiers.

Objective To explore an appropriate training method to quickly improve the soldiers' aerobic endurance capacity and decrease the incidence of military training injuries for combat troops. Methods Two hundred and forty-eight recruits (males,Hanzu) from infantry without previous history of military training were involved in the present study,and they were divided averagely into experimental group and control group (124 each). Intensified endurance training designed with the theory of "cyclic training" was applied in experimental group,and routine training method was applied in control group including mainly 5000 meters running (no more than once a day,3 times a week). The resting pulse,vital capacity,maximal oxygen consumption (VO2max) and the performance of 5000m running were determined before and after eight-week-training as endurance capacity indices. Physical examination was performed to count the cases of military training injuries including calf swelling and tenderness,knee swelling and pain,and low back pain,and then the incidence of military training injuries was calculated. Results In the experimental group,the resting pulse decreased by 8.0%,while the vital capacity,VO2max and 5000m running performance elevated by 8.1%,20.0% and 14.7% respectively after training,which were significantly different in comparison with that before training and of control group (P

Objective To explore the features of polymorphism in ADRA2A gene phenotypes and their relationship to oxygen endurance in the Han servicemen in PLA.Methods One hundred and eight healthy recruits of Han ethnic were subjected to a 5000-meter race program for 18 weeks,and then the tests were done after a 5000-meter race.The ADRA2A allelic variant and genotype were analyzed by polymerase chain reaction and sequencing,and the features of polymorphism in three sites,G6412C,T6623A and C6645C,were determined with biochemical technique.The relationship between the results after the 5000-meter race,and the polymorphism of ADRA2A was then analyzed.Results The genotype distribution at all the three locations was consistent with the Hardy-Weinberg equilibrium.The genotype frequency in T6623A of A/G(50%)was higher than that of G/G(26%)and A/A(24%).The allele frequency of A(51%)was higher than that of G(49%).The time for completing 5000-meter running was significantly longer in recruits carrying A/G(20.95?0.82min)than those carrying A/A(18.97?0.65min,P0.05).There was no significant association between the oxygen endurance capacity and the polymorphism of G6412C and C6645C.Conclusion The T6623A of ADRA2A was the ideal gene marker for predicting endurance capacity,but G6412C and C6645C polymorphism is not ideal gene marker for oxygen endurance.

Objective To study the adaptation process and extent of changes in articular cartilage in the canine knee joint to the intensified training, in order to elucidate the influence of different movement training on remodeling and reconstruction of articular cartilage. Methods Twenty adult dogs were randomly divided into three groups. Eight dogs were assigned to the short training group, and they were allowed to run on a slope of 10? with the speed of 200m/min. Eight dogs were assigned to short intensified training group, and they were allowed to run on a slope of 10? with a speed of 300m/min. Four dogs served as controls, and they were allowed to have unrestricted activity in the cage. Dogs in training group and intensified group were asked to, run for an hour both in the morning and in the afternoon every day (tolally two hours per day). The training lasted for ten weeks. All the dogs were euthanized after ten weeks, and all the knee joints were harvested and examined histologically. Results Histological examination after ten weeks of exereises demonstrated that the signs of cartilage damage and repair were obvious in canine knee joint in training group and intensified group. Remodeling process was better promoted in the intensified group compared with training group, but there was no significant difference in Mankin score between these two groups. Conclusion Movements for a long time with great intensity are prone to induce sport injury. It is followed by repair process. Intensified training promotes a better remodeling reconstruction of articular cartilage than ordinary training.

Objective To explore the significance of such biological markers as cartilage oligomeric matrix protein (COMP), matrix metalloproteinases-1(MMP-1), matrix metalloproteinases-3 (MMP-3) and tissue inhibitor of matrix metalloproteinases-1 (TIMP-1) in serum and synovial fluid to evaluate early motional injury on knee joint cartilage induced by different modes of training. Methods Twenty adult dogs were randomly divided into three groups, i.e. common training group (n=8), short intensified training group (n=8) and control group (n=4). Magnetic resonance imaging (MRI) examinations were performed regularly (0, 2, 4, 6, 8, 10 weeks) to investigate the changes in the knee joint cartilage, while the concentrations of COMP, MMP-1, MMP-3 and TIMP-1 in serum and synovial fluid were measured by ELISA. Results It was revealed by MRI that the motional injury to knee joint cartilage occurred both in common training group and short intensified training group 2 weeks after training with different intensity, with severest injury occurring during 4~6 weeks after training, and then subsided gradually. The concentrations of COMP, MMP-1, MMP-3, TIMP-1 and MMP-3/TIMP-1 in serum and synovial fluid elevated in various degrees during training period with the lapse of time. Generally, the concentrations of MMP-1, MMP-3 and MMP-3/TIMP-1 in short intensified training group were lower, while that of COMP was higher, than that in common training group. The results suggested that the possibility of incurring articular injury in short intensified training group was lower than that in common training group, while the possibility of repairing the injury was on the contrary. Furthermore, the changes in levels of biomarkers in both serum and synovial fluid showed a close correlation. Conclusions Intensified training may result in moulding reconstruction better than the common training did. A combined determination of several biomarkers could be more sensitive than MRI examination on predicting the injury and repair of articular cartilage and on monitoring the course of illness. Therefore they are valuable for clinical application.