Lateral bending of the trunk has been specifically identified as a high risk factor for lower back disorders. However, few studies have presented in vivo kinematic data of the trunk while performing functional lateral bending tasks. Five healthy male subjects performed lateral lifting and lowering tasks under loading condition ranging from light (2kg) to 100% of a maximum (ML) at a controlled velocity. Single lowering tasks were also performed at 125% and 150% of ML. Video based movement analysis was used to determine kinematics of the trunk, pelvis, shoulders and neck in the frontal plane. Centre of pressure (COP) data was also obtained from a force platform on which the subjects stood when performing the lifting and lowering tasks. Kinematics of the trunk revealed a smooth and relatively large change in angular displacement (between 69°to 55°) toward the unloaded side during the lifting phase. Trunk angular displacement significantly decreased with increasing lifting load. The trunk was additionally divided into four segments representing the lower and upper lumbar regions and the lower and upper thoracic regions. The greatest displacement in these segments took place at the upper lumbar and lower thoracic regions (ranging from 29°to 22°and 23°to 17°, respectively) with the least displacement occurring in the lower lumbar and upper thoracic regions (approx. 6° and 5°, respectively). Both the upper lumbar and lower thoracic segments showed significant decreases in angular displacement with increasing load. During the single lowering trials the trunk rotated toward the loaded side with slightly less magnitude to that recorded during the lowering phase of the heaviest lifting and lowering conditions. Angular displacements of the upper lumbar and lower thoracic segments also decreased with increasing load in single lowering. Identified changes in the COP displacement were also correlated to increasing lifting and lowering load. The main findings of this study indicate that it is the central sections of the trunk that have the greatest motion during

BACKGROUND:Core training has been gradual y accepted worldwide.“Core”is only a generalized perception, and how to define the muscles, the difference among the muscles and the mode of the muscle recruitment consist of the important part of research work on core training.
OBJECTIVE:From the aspects of theoretical basis, the development of training methods and measurement of training effectiveness, to elaborate the method issues and new insights on core stability training.
METHODS:PubMed, ScienceDirect and CNKI databases were searched by the keywords of“core training, core exercise, core strength”in the titles and abstract to retrieve relevant articles published from 1979 to 2013.
RESULTS AND CONCLUSION:The neural subsystem was first reported by Panjabi to monitor the various signals from the transducers and direct the active subsystem to provide the needed stability. Neutral zone is regarded as an important clinical indicator relevant to spinal stability. Spinal injury and muscle weakening can result in spinal instability and even low back pain and peripheral pain. Core trainings include Swiss bal , plank exercise, sling exercise and so on. Up to now, research on core training is focusing on its mechanism. Core stability training is not only defined as torso stability training, but also refined to the stability training of each joint.

Objective To observe the activation patterns in surface electromyographs (sEMGs) of the lumbar dorsal and ventral muscles and the gluteus medius during asymmetrical trunk postures and while carrying loads with the trunk rotated.Methods sEMGs were recorded from ten healthy men as they stood with their feet in 5 positions-rotated clockwise 0°,45°,90°,135° and 180° with respect to the initial plane of the torso.With each foot position they stood in 3 postures:upright,in lateral flexion and in lateral extension.Each posture was recorded with and without carrying a load of 20 kg by the right hand.The EMG activities of the rectus abdominis (RA),obliquus externus abdominis (EO),erector spinae (ES),multifidus (LM) and gluteus medius (GM) on both sides were recorded.Trunk displacement was monitored by 8 cameras.The EMG data of each muscle were normalized with readings from a maximal voluntary contraction (MVC) of the muscle.Results With the feet at 0° and no load the muscle activities on both sides were 1％-2％ of the MVC readings.With a 20 kg load the percentage was 3％-13％.With the feet at 45° and no load the activities were greater,except in the RA on the contralateral side.With no load at 90°,135° and 180° the muscle activities were greater,but a few muscles in the two extreme trunk postures showed greater activity only on one side,especially the ES and LM.With a load and rotational torque in the spine,the ventral muscles were less active but the dorsal muscles were significantly more active on both sides.Conclusion Standing with rotation of the spine,the activity of some trunk muscles shows great asymmetry,particularly with asymmetric loading of the arms.This might create a phenomenon of lumbar flashing and it could possibly be one of the pathological bases of acute lumbar sprain.

Objective To study the myoelectric activity and physiological function of lumbar dorsal and abdominal trunk muscles during the lateral flexion with or without loading. Methods Trunk angle was measured between C7-S1 and vertically with a protractor. Electromyographic activity was recorded unilaterally from 8 trunk muscles using intramuscular fine-wire electrodes inserted under the guidance of ultrasound. Results The electromyographic data showed that all muscles on the contralateral side to the load, except rectus abdominis, had their highest activity while loaded in the most lateral flexion to the loaded side. The degree of bilateral co-activation was greater for the abdominal than for the lumbar dorsal muscles. The activation of transversus abdominis showed a difference from traditional consideration. Conclusion The myoelectric responses of most lumbar trunk muscles to static lateral flexion were dependent on trunk position and loading. The abdominal muscles demonstrated more co-activation than the other trunk muscles and thus appeared to contribute more to trunk stabilization in lateral bending and loaded trunk positions.

BACKGROUND:Myofascial trigger points have been widely applied in clinical rehabilitation and tissue pain field in the United States and Europe countries, and they have been recognized as the common cause of clinical musculoskeletal pain, joint function limitation, tissue injuries and muscle fatigue by many physiotherapists abroad. However, in China, many experts stil have some mistaken ideas and limitations to understand the pathological mechanism and to diagnosis and treat myofascial trigger points. OBJECTIVE:From the aspects of the etiology, pathological mechanism, diagnosis and positioning, treatments, to elaborate the method issues and the clinical experience of treatments of myofascial trigger points. METHODS:PubMed, ScienceDirect, EBSCO and CNKI databases were searched by the keywords of “myofascial trigger points, myofascial pain syndrome” in Chinese and English, respectively, in the titles and abstract to retrieve relevant articles published from the time of database construction to August 2014. RESULTS AND CONCLUSION:It is concluded that a child has myofascial trigger points in some skeletal muscles after age of 4 years. The main causes of myofascial trigger points include issue trauma, the wrong posture, bone and joint degeneration, nutrition deficiency, mental stress, chronic infection and so on. The pathological mechanism of myofascial trigger points remains unknown, but what has been widely accepted is the integrated trigger point hypothesis introduced by Simons. And how to find and position myofascial trigger points is the key point to treat this disease successfuly. The application of myofascial trigger points techniques is important for the rehabilitation of clinical tissue pain and the occurrence and spread of bone and joint injuries, myofascitis, muscle pain, muscle fatigue and so on.

Objective To study the treatment techniques of multiple levels spinal instability complicated with spinal cord injury induced by various factors using opertation of decompression and internal fixation from the posterior approach, and observe their effects. Methods 69 cases of multiple levels spinal instability complicated with spinal cord injury resulting from the acute fractures of violent force, the chronic multiple levels vertebral cavity stenosis and congenital cervical vertebral deformity were treated with the techniques mentioned above. All the patients were followed up for 1 to 3 years after operation. The injury degree of spinal cord was graded according to ASIA's standards before and after operation, and operative efficacy was evaluated. Results 52 cases completely recovered, 9 mostly recovered, and 4 went about on crutches. Among 2 cases of paralysis patients, 1 still was complete paralysis and the other one died. The total efficacious rate was 88%. Conclusion Operation of decompression and internal fixation was effective for treating multiple levels spinal instability, especially for complicated with an incomplete spinal cord injury.

Objective To explore the application value of spiral CT angiography in etiological diagnosis of spontaneous intracranial hematoma before surgery. Methods 48 patients with spontaneous intracranial hematoma following surgical indication assessed by CT scan were ascertained etiological diagnosis performed by CT angiography before surgery.Results The causes of intracranial hematoma were cerebral aneurysm(2 patients), arteriocenous malformation (5 patients), hypertension(40 patients), and no image in one patient performed by CT angiography.Conclusion CT angiography has important value in etiological diagnosis of spontaneous intracranial hematoma before surgery.

This article demonstrated the myofascial trigger points theory and the application of related techniques in the clinical prac-tice of sports rehabilitation, such as the treatment of athletes injury pain, rehabilitation of movement function limitation, elimination of sports fatigue and so on. The clinical treatments based on the myofascial trigger points theory are simple, effective, noninvasive, and with short recovery time and low recurrence rate. It provides scientific theoretical and practical foundation for the prevention, diagnosis, treat-ment and rehabilitation for sport injury.

Objective To investigate the current practice of myofascial pain syndrome (MPS) including current epidemiology,pathology,diagnosis and treatment.Data sources The data analyzed in this review were mainly from relevant articles without restriction on the publication date reported in PubMed,MedSci,Google scholar.The terms "myofasial trigger points" and "myofacial pain syndrome" were used for the literature search.Study selection Original articles with no limitation of research design and critical reviews containing data relevant to myofascial trigger points (MTrPs) and MPS were retrieved,reviewed,analyzed and summarized.Results Myofascial pain syndrome (MPS) is characterized by painful taut band,referred pain,and local response twitch with a prevalence of 85％ to 95％ of incidence.Several factors link to the etiology of MTrPs,such as the chronic injury and overload of muscles.Other factors,such as certain nutrient and hormone insufficiency,comorbidities,and muscle imbalance may also maintain the MTrP in an active status and induce recurrent pain.The current pathology is that an extra leakage acetylcholine at the neuromuscular junction induces persistent contracture knots,relative to some hypotheses of integration,muscle spindle discharges,spinal segment sensitization,ect.MTrPs can be diagnosed and localized based on a few subjective criteria.Several approaches,including both direct and supplementary treatments,can inactivate MTrPs.Direct treatments are categorized into invasive and conservative.Conclusion This review provides a clear understanding of MTrP pain and introduces the most useful treatment approaches in China.

Objective To study the effects of acupuncture at myofascial trigger points on spastic foot drop and inversion after stroke. Methods From May, 2014 to May, 2016, 50 stroke patients were randomly divided into control group (n=25) and observation group (n=25). Both groups accepted routine rehabilitation, while the observation group accepted acupuncture at myofascial trigger points per day in addi-tion. They were assessed with Visual Analogue Scale (VAS) of pain, modified Ashworth Scale (MAS), range of motion (ROM) of ankle, sim-plified Fugl-Meyer Assessment (FMA) for lower limbs and maximum walking speed (MWS) in ten metres before and six weeks after treat-ment. Results The scores of VAS, MAS, and FMA, the ROM of ankle, and MWS improved after treatment (t>6.845, P<0.001), and im-proved more in the observation group than in the control group (t>5.586, P<0.001). Conclusion Acupuncture at myofascial trigger points can release spasm to reduce foot drop and inversion in patients with stroke.