The insufficient exploration of intervertebral translation during flexion and extension prevents the further understanding of the cervical biomechanics and treating the cervical related dysfunction. The objective of this study was to quantitatively measure the continuous intervertebral translation of healthy cervical spine during flexion and extension by videofluoroscopic technique. A total of 1,120 image sequences were analyzed for 56 healthy adult subjects by a precise image protocol during cervical flexion and extension. Our results showed there were no statistical angular differences among five spinal levels in either flexion or extension, except for the comparison between C2/3 (13.5°) and C4/5 (22.6°) angles. During cervical flexion, the smallest anterior translations were 0.7 mm at C2/3 level, followed by 0.9 mm at C6/7, 1.0 mm at C3/4, 1.1 mm at C5/6, and the largest 1.2 mm at C4/5 levels. The significantly greater translations were measured in the posterior direction at C3/4 (1.1 mm, P = 0.037), C4/5 (1.3 mm, P = 0.039), and C5/6 (1.2 mm, P = 0.005) levels than in the anterior one. The relatively fluctuant and small average posterior translation fashion at C6/7 level (0.4 mm) possibly originated from the variations in the direction of translation during cervical extension among subjects. Normalization with respect to the widths of individual vertebrae showed the total translation percentages relative to the adjacent vertebrae were 9.5, 13.7, 16.6, 15.0, and 8.6% for C2/3 to C6/7 levels, respectively, and appeared to be within the clinical-accepted ranges of translation in cervical spine. The intervertebral translations of cervical spine during flexion and extension movements were first described in quality and quantity based on the validated radiographic protocol. This analysis of the continuous intervertebral translations may be further employed to diagnose translation abnormalities like hypomobility or hypermobility and to monitor the treatment effect on cervical spines.
Postural dysfunctions are prevalent in patients with schizophrenia and affect their daily life and ability to work. In addition, sensory functions and sensory integration that are crucial for postural control are also compromised. This study intended to examine how patients with schizophrenia coordinate multiple sensory systems to maintain postural stability in dynamic sensory conditions. Twenty-nine patients with schizophrenia and 32 control subjects were recruited. Postural stability of the participants was examined in six sensory conditions of different level of congruency of multiple sensory information, which was based on combinations of correct, removed, or conflicting sensory inputs from visual, somatosensory, and vestibular systems. The excursion of the center of pressure was measured by posturography. Equilibrium scores were derived to indicate the range of anterior-posterior (AP) postural sway, and sensory ratios were calculated to explore ability to use sensory information to maintain balance. The overall AP postural sway was significantly larger for patients with schizophrenia compared to the controls [patients (69.62±8.99); controls (76.53±7.47); t1,59 = -3.28, p<0.001]. The results of mixed-model ANOVAs showed a significant interaction between the group and sensory conditions [F5,295 = 5.55, p<0.001]. Further analysis indicated that AP postural sway was significantly larger for patients compared to the controls in conditions containing unreliable somatosensory information either with visual deprivation or with conflicting visual information. Sensory ratios were not significantly different between groups, although small and non-significant difference in inefficiency to utilize vestibular information was also noted. No significant correlations were found between postural stability and clinical characteristics. To sum up, patients with schizophrenia showed increased postural sway and a higher rate of falls during challenging sensory conditions, which was independent of clinical characteristics. Patients further demonstrated similar pattern and level of utilizing sensory information to maintain balance compared to the controls.
BackgroundPostural control is organized around a task goal. The two most frequently used types of tasks for postural control research are translational (translation along the anterior-posterior axis) and rotational (rotation in sagittal plane) surface perturbations. These types of perturbations rotate the ankle joint, causing different magnitudes and directions of body sway. The purpose of this study was to investigate the effects of the type (translation vs. rotation) and direction (forward/toe up vs. backward/toe down) of the perturbation on postural responses.MethodNineteen healthy subjects were tested with four perturbations, i.e., forward and backward translation and toe up and toe down rotation. The onset latency and magnitude of muscle activations, angular changes, and COM displacements were measured. In addition, the kinematic data were divided into two phases. The initial phase reflected the balance disturbance induced by the platform movement, and the reversal phase reflected the balance reaction.ResultsThe results showed that, in the initial phase, rotational perturbation induced earlier ankle movement and faster and larger vertical COM displacement, while translational and forward/toe up perturbations induced larger head and trunk angular change and faster and larger horizontal COM displacement. In the reversal phase, balance reaction was attained by multi-joint movements. Translational and forward/toe up perturbations that induced larger upper body instability evoked faster muscle activation as well as faster and larger hip or knee joint movements.ConclusionsThese findings provide insights into an appropriate support surface perturbation for the evaluation and training of balance.
Background: The traditional home care model entails caring “for” people with disabilities, not “with” them. Reablement care has been applied to long-term care, but the evidence for care attendants, home care recipients, and family caregivers simultaneously is limited. Methods: First, a survey was conducted to explore the needs of home care recipients and family caregivers to achieve independence at home to develop the reablement home care model for home care. Then, an intervention with two groups was implemented. The experimental group included a total of 86 people who participated in the reablement home care model. The control group included 100 people and received usual home care. The self-reliance concept, job satisfaction, and sense of achievement for care attendants; quality of life for home care users; and caregiving burden for family caregivers were assessed. Results: The reablement home care model improved the job satisfaction and achievement of home care attendants, improved mutual support and independence in the self-reliance concept and quality of life among the users, and reduced the stress of the users and family caregivers. Conclusion: The reablement home care model improved the outcomes for providers, care recipients, and family caregivers. Reablement home care is suggested in long-term care policies.
Objectives: To investigate the influence of the chronic calf myofascial pain syndrome [MPS] on gait performance and the effectiveness of myofascial treatment programs in order to inform the clinical management for this impairment.Methods: A female subject suffered from chronic knee and ankle pain for five years as a result of calf muscles MPS. The range of motion, pain intensity, and gait analysis were evaluated before and after myofascial pain therapy. The eight-week calf myofascial treatment programs included manShyi-Kuen Wu, MS, PT, is Instructor, Downloaded by [UQ Library] at 14:16 15 July 2015 ual techniques, deep myofascial release, deep friction massage, and proprioceptive neuromuscular facilitation stretching, and a home program [self-stretching exercises].Results: There were significant improvements in the ankle-dorsiflexion range of motion of the affected leg after treatment [P < 0.01]. A trend of moderate improvement in pain conditions were recorded both in resting and after work. Although the kinematic data of gait analysis were quite similar across treatments except for improved knee flexion angles, the kinetic findings revealed significant effectiveness of myofascial treatments. The decreased peak ground reaction forces [P < 0.001], improved peak joint moments of ankle dorsiflexion [P = 0.008], foot supination [P = 0.002], and knee extension [P = 0.009] were demonstrated during walking.Conclusions: The chronic muscle tightness caused by MPS is a factor influencing the joint motion and easily ignored by clinicians. This study investigated the influence of calf myofascial pain on gait performance. The quantitative gait analysis was highly valuable to clarify the influence of chronic calf tightness on the mobility of ankle and knee joints and to assess the effectiveness of myofascial treatments.
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