159 research outputs found
Muscle Fatigue Analysis Using OpenSim
In this research, attempts are made to conduct concrete muscle fatigue
analysis of arbitrary motions on OpenSim, a digital human modeling platform. A
plug-in is written on the base of a muscle fatigue model, which makes it
possible to calculate the decline of force-output capability of each muscle
along time. The plug-in is tested on a three-dimensional, 29 degree-of-freedom
human model. Motion data is obtained by motion capturing during an arbitrary
running at a speed of 3.96 m/s. Ten muscles are selected for concrete analysis.
As a result, the force-output capability of these muscles reduced to 60%-70%
after 10 minutes' running, on a general basis. Erector spinae, which loses
39.2% of its maximal capability, is found to be more fatigue-exposed than the
others. The influence of subject attributes (fatigability) is evaluated and
discussed
Fatigue evaluation in maintenance and assembly operations by digital human simulation
Virtual human techniques have been used a lot in industrial design in order
to consider human factors and ergonomics as early as possible. The physical
status (the physical capacity of virtual human) has been mostly treated as
invariable in the current available human simulation tools, while indeed the
physical capacity varies along time in an operation and the change of the
physical capacity depends on the history of the work as well. Virtual Human
Status is proposed in this paper in order to assess the difficulty of manual
handling operations, especially from the physical perspective. The decrease of
the physical capacity before and after an operation is used as an index to
indicate the work difficulty. The reduction of physical strength is simulated
in a theoretical approach on the basis of a fatigue model in which fatigue
resistances of different muscle groups were regressed from 24 existing maximum
endurance time (MET) models. A framework based on digital human modeling
technique is established to realize the comparison of physical status. An
assembly case in airplane assembly is simulated and analyzed under the
framework. The endurance time and the decrease of the joint moment strengths
are simulated. The experimental result in simulated operations under laboratory
conditions confirms the feasibility of the theoretical approach
Custom-designed orthopedic implants evaluated using finite element analysis of patient-specific computed tomography data: femoral-component case study
<p>Abstract</p> <p>Background</p> <p>Conventional knee and hip implant systems have been in use for many years with good success. However, the custom design of implant components based on patient-specific anatomy has been attempted to overcome existing shortcomings of current designs. The longevity of cementless implant components is highly dependent on the initial fit between the bone surface and the implant. The bone-implant interface design has historically been limited by the surgical tools and cutting guides available; and the cost of fabricating custom-designed implant components has been prohibitive.</p> <p>Methods</p> <p>This paper describes an approach where the custom design is based on a Computed Tomography scan of the patient's joint. The proposed design will customize both the articulating surface and the bone-implant interface to address the most common problems found with conventional knee-implant components. Finite Element Analysis is used to evaluate and compare the proposed design of a custom femoral component with a conventional design.</p> <p>Results</p> <p>The proposed design shows a more even stress distribution on the bone-implant interface surface, which will reduce the uneven bone remodeling that can lead to premature loosening.</p> <p>Conclusion</p> <p>The proposed custom femoral component design has the following advantages compared with a conventional femoral component. (i) Since the articulating surface closely mimics the shape of the distal femur, there is no need for resurfacing of the patella or gait change. (ii) Owing to the resulting stress distribution, bone remodeling is even and the risk of premature loosening might be reduced. (iii) Because the bone-implant interface can accommodate anatomical abnormalities at the distal femur, the need for surgical interventions and fitting of filler components is reduced. (iv) Given that the bone-implant interface is customized, about 40% less bone must be removed. The primary disadvantages are the time and cost required for the design and the possible need for a surgical robot to perform the bone resection. Some of these disadvantages may be eliminated by the use of rapid prototyping technologies, especially the use of Electron Beam Melting technology for quick and economical fabrication of custom implant components.</p
The effect of massage on localized lumbar muscle fatigue
BACKGROUND: There is not enough evidence to support the efficacy of massage for muscle fatigue despite wide utilization of the modality in various clinical settings. This study investigated the influence of massage application on localized back muscle fatigue. METHODS: Twenty-nine healthy subjects participated in two experimental sessions (massage and rest conditions). On each test day, subjects were asked to lie in the prone position on a treatment table and perform sustained back extension for 90 seconds. Subjects then either received massage on the lumbar region or rested for a 5 minute duration, then repeated the back extension movement. The median frequency (MDF), mean power frequency (MNF), and root mean square (RMS) amplitude of electromyographic signals during the 90 second sustained lumbar muscle contraction were analyzed. The subjective feeling of fatigue was then evaluated using the Visual Analogue Scale (VAS). RESULTS: MDF and MNF significantly declined with time under all conditions. There was no significant difference in MDF, MNF or RMS value change between before and after massage, or between rest and massage conditions. There was a significant increase in fatigue VAS at the end of the 2(nd) back extension with rest condition. There was a significant difference in fatigue VAS change between massage and rest condition. CONCLUSIONS: A significant difference was observed between massage and rest condition on VAS for muscle fatigue. On EMG analysis, there were no significant differences to conclude that massage stimulation influenced the myoelectrical muscle fatigue, which is associated with metabolic and electrical changes
Correlações entre força de preensão manual e variáveis antropométricas da mão de jovens adultos
O objetivo do estudo foi correlacionar a força de preensĂŁo palmar em diferentes posições de abertura, com variáveis antropomĂ©tricas da mĂŁo. Participaram 73 voluntários de ambos os sexos (40 homens e 33 mulheres), com idade mĂ©dia de 23±4,61 anos. As medidas antropomĂ©tricas largura da palma, comprimento do dedo indicador, espessura da palma, largura da mĂŁo, circunferĂŞncia da palma e da mĂŁo foram realizadas bilateralmente. Para as medidas lineares, utilizou-se um paquĂmetro digital e, para as medidas de circunferĂŞncia, a fita mĂ©trica. As medidas de força de preensĂŁo foram realizadas por meio de um dinamĂ´metro hidráulico (UFTM) Jamar®. Os valores antropomĂ©tricos foram correlacionados com as medidas de força nas cinco posições de abertura. Os homens e as mulheres tiveram maior força na mĂŁo direita e, entre as posições, a maior força dos homens foi na de nĂşmero 3 (45,5±15,53 kgf) e das mulheres, na de posição 2 (25,5±6,28 kgf). Verificaram-se correlações significativas entre a força e os valores antropomĂ©tricos nas medidas da largura da mĂŁo e circunferĂŞncia da palma - que representam a maior medida transversal e o maior trofismo da mĂŁo, respectivamente, no grupo dos homens e a medida de comprimento do dedo, que representa a maior medida longitudinal no grupo das mulheres. Com isso, pode-se concluir que, para os homens, a maior força está relacionada Ă maior medida transversal e ao maior trofismo da mĂŁo e, para as mulheres, ao maior comprimento longitudinal da mĂŁo.The aim of this study was to correlate the grip strength of hand, in different opening positions, with hand anthropometric measures. The study included 73 volunteers (40 male and 33 female) with mean age of 23±4.61 years old. Anthropometric measures, such as palm width, forefinger length, palm thickness, hand width, palm and hand circumferences, were performed bilaterally. For linear measures, a digital caliper rule was used as well as a tape measure for circumference measures. Grip strength measures were performed by means of a Jamar® hydraulic dynamometer. Anthropometric values were correlated with strength measures in the five positions of the opening. Both men and women had greater strength in the right hand. Regarding the positions, the bigger strength of men was in the number 3 (45.5±15.53 kgf) and that of women in position 2 (25.5±6.28 kgf). Significant correlations were verified among strength and anthropometric values in the hand width measure and palm circumference - that represent the greater transversal measure and the greater throphism of left hand, respectively, in men's group -, and the finger length measure, that represents the greater longitudinal measure in women's group. Thus, it may be concluded that for men the greater strength is related to the greater transversal measure and to the greater throphism of hand, while for women, it is related to the greater longitudinal length of hand
Cumulative occupational lumbar load and lumbar disc disease – results of a German multi-center case-control study (EPILIFT)
Background The to date evidence for a dose-response relationship between physical workload and the development of lumbar disc diseases is limited. We therefore investigated the possible etiologic relevance of cumulative occupational lumbar load to lumbar disc diseases in a multi-center case-control study. Methods In four study regions in Germany (Frankfurt/Main, Freiburg, Halle/Saale, Regensburg), patients seeking medical care for pain associated with clinically and radiologically verified lumbar disc herniation (286 males, 278 females) or symptomatic lumbar disc narrowing (145 males, 206 females) were prospectively recruited. Population control subjects (453 males and 448 females) were drawn from the regional population registers. Cases and control subjects were between 25 and 70 years of age. In a structured personal interview, a complete occupational history was elicited to identify subjects with certain minimum workloads. On the basis of job task-specific supplementary surveys performed by technical experts, the situational lumbar load represented by the compressive force at the lumbosacral disc was determined via biomechanical model calculations for any working situation with object handling and load-intensive postures during the total working life. For this analysis, all manual handling of objects of about 5 kilograms or more and postures with trunk inclination of 20 degrees or more are included in the calculation of cumulative lumbar load. Confounder selection was based on biologic plausibility and on the change-in-estimate criterion. Odds ratios (OR) and 95% confidence intervals (CI) were calculated separately for men and women using unconditional logistic regression analysis, adjusted for age, region, and unemployment as major life event (in males) or psychosocial strain at work (in females), respectively. To further elucidate the contribution of past physical workload to the development of lumbar disc diseases, we performed lag-time analyses. Results We found a positive dose-response relationship between cumulative occupational lumbar load and lumbar disc herniation as well as lumbar disc narrowing among men and women. Even past lumbar load seems to contribute to the risk of lumbar disc disease. Conclusions According to our study, cumulative physical workload is related to lumbar disc diseases among men and women
Changing Relationships through Interactions: Preliminary Accounts of Parent-Child Interactions after Undertaking Individual Parent Training
Purpose: Parent and child interaction training has been increasingly investigated over recent years. However, the mechanisms of change within individual training programmes are not well understood. To explore the factors that can facilitate or inhibit meaningful changes in interactions and ultimately relationships, the current study employed semi-structured interviews to obtain first person accounts from parents who had undertaken an individualised parent-training programme. Method: Three participants provided accounts of the training programme and their perceived impact upon interactions with their children were analysed using inductive thematic analysis. Results: The analysis resulted in three themes, which illustrate how participants adjusted their interactional style with their child to varying degrees through enhanced personal awareness, increased understanding of their child’s emotional and interactional needs, and accepting the reciprocity of interactional accountability. Discussion: Changes in interactional style enabled participants to alter their perceptions of their own behaviours, their child’s behaviours, and how they influenced one another through interactions. Recommendations for future research and therapeutic practice are discussed in the context of the findings and the existing evidence base
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