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Characterizing the Mechanical Properties of RunningSpecific Prostheses

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(PDF) Characterizing the Mechanical Properties of Running ~ Characterizing the Mechanical Properties of Running-Specific Prostheses. . Download full-text PDF. . Stiffness properties of running specific prostheses (RSP) for Paralympic runners are .

Characterizing the Mechanical Properties of Running ~ The mechanical stiffness of running-specific prostheses likely affects the functional abilities of athletes with leg amputations. However, each prosthetic manufacturer recommends prostheses based on subjective stiffness categories rather than performance based metrics. The actual mechanical stiffness values of running-specific prostheses (i.e. kN/m) are unknown.

Characterizing the Mechanical Properties of Running ~ The actual mechanical stiffness values of running-specific prostheses (i.e. kN/m) are unknown. Consequently, we sought to characterize and disseminate the stiffness values of running-specific prostheses so that researchers, clinicians, and athletes can objectively evaluate prosthetic function.

Correction: Characterizing the Mechanical Properties of ~ Correction: Characterizing the Mechanical Properties of Running-Specific Prostheses. By Owen N Beck, Paolo Taboga and Alena M Grabowski. Cite . BibTex; Full citation; Abstract [This corrects the article DOI: 10.1371/journal.pone.0168298.] .

Frontiers / The Effect of Prosthetic Alignment on ~ Running-specific prostheses (RSP) are designed to replicate the spring-like behavior of the biological leg in people with a lower limb amputation. Running performance strongly depends on stiffness of the RSP. The aim of this study was to investigate the effects of angle of alignment of the RSP on its stiffness, and how this affects total leg stiffness and the gait pattern during running.

Correction: Characterizing the Mechanical Properties of ~ Request PDF / Correction: Characterizing the Mechanical Properties of Running-Specific Prostheses / [This corrects the article DOI: 10.1371/journal.pone.0168298.]. / Find, read and cite all the .

Correction: Characterizing the Mechanical Properties of ~ Correction: Characterizing the Mechanical Properties of Running-Specific Prostheses. By Owen N Beck, Paolo Taboga and Alena M Grabowski No static citation data No static citation data Cite

Mechanical Properties of Shock-Absorbing Pylons Used in ~ Download citation . Copy link Link copied . accurate method of characterizing the mechanical properties of prosthetic feet, thus providing amputee independent comparative data [25][26 .

Characterizing the Mechanical Properties of Fused ~ The objective of this investigation was to characterize the performance of natural fiber reinforced polypropylene composites in fused deposition modelling (FDM). Composite filaments comprising of pre-consumer recycled polypropylene with varying contents of hemp or harakeke fibers were extruded from which tensile test specimens were made using FDM.

Mechanical characterization and comparison of energy ~ The mechanical characteristics of an unused Vari-flex ® Modular TM, Flex-foot Cheetah and Cheetah Xtreme by Össur ® (Reykjavik, Iceland) and a used 1E90 Sprinter by Ottobock ® (Duderstadt, Germany) were determined using both experimental and numerical analysis ().The homogenized material properties of the prostheses were first calculated using the inverse FEA procedure proposed in a .

Mechanical properties of cobalt-chromium 3-unit fixed ~ The differences in the mechanical behavior among the groups indicate that the fabrication method affected the mechanical properties of cobalt-chromium dental prostheses. The SLM frameworks appeared less ductile than the other 2 and more homogenous in material composition. This is in accordance with previous studies on bar-shaped specimens.15, 19

Characterization of the Mechanical Properties of the Human ~ Download Citation / On Jan 1, 2015, Marine Menut Benyebka Bou published Characterization of the Mechanical Properties of the Human Aortic Arch Using an Expansion Method / Find, read and cite all .

Materials / Free Full-Text / Mechanical Properties of ~ The main aim of this study is to evaluate the possibility of applying foundry dust (FD) derived filler for the preparation of natural rubber (NR) based composites by characterizing the mechanical properties. The as-received FD was processed via a simple and low-cost procedure, including sieving, deironing and milling using a variety of industrial equipment. FD powders before and after silane .

Leg stiffness of sprinters using running-specific prostheses ~ Characterizing the Mechanical Properties of Running-Specific Prostheses Characterizing the Mechanical Properties of Running-Specific Prostheses. Sprint Start Kinetics of Amputee and Non-Amputee Sprinters Sprint Start Kinetics of Amputee and Non-Amputee Sprinters. Spatiotemporal Parameters of 100-m Sprint in Different Levels of Sprinters.

Characterisation of the responsive properties of two ~ Insights into the running-specific prosthesis (RSP) properties and an understanding of its responsive characteristics have implications for athletes’ prosthetic choice. Physiologically and metabolically, a short sprint event (i.e. 100 m) places different demands on the athlete than a long sprint event (i.e. 400 m), and the RSP should match .

Amputee Locomotion: Determining the Inertial Properties of ~ Furthermore, prosthetic stiffness was inversely related to height in J-shaped (p<0.001), but not C-shaped, prostheses. Running-specific prostheses should be tested under the demands of the .

Structural and mechanical characterisation of the peri ~ Very little is known about the structure and properties of peri-prosthetic fibrous tissue that is found around loose orthopaedic implants. We describe a method for characterizing the structural organisation (histology, confocal microscopy) as well as the nano- and micro-scale mechanical behaviour (atomic force microscopy, nanoindentation) of peri-prosthetic fibrous tissue.

Stiffness and energy storage characteristics of energy ~ Mechanical properties of prosthetic feet can significantly influence amputee gait, but how they vary with respect to limb loading and orientation is infrequently reported. Objective: The objective of this study is to measure stiffness and energy storage characteristics of prosthetic feet across limb loading and a range of orientations .

Leg stiffness during sprinting in transfemoral amputees ~ Carbon fiber running-specific prostheses are designed to reproduce the spring-like stepping behavior of individuals similar to springs loaded by the entire body mass (i.e. spring-mass model). The aim of this study was to test whether leg stiffness would be modulated differently between intact and prosthetic legs in transfemoral amputees wearing .

Characterization of the Mechanical Properties of FFF ~ The increase in accessibility of fused filament fabrication (FFF) machines has inspired the scientific community to work towards the understanding of the structural performance of components fabricated with this technology. Numerous attempts to characterize and to estimate the mechanical properties of structures fabricated with FFF have been reported in the literature.

Mechanical properties and the hierarchical structure of ~ The trabecular properties are much easier to study in isolation. However, in spite of recent reports 5, 15, 17, 18, there remains some controversy regarding the value of the elastic modulus of single trabeculae ().Trabecular bone material properties are important for characterizing various bone pathologies, and the remodeled bone adjacent to various joint implants, because they are affected by .

Characterizing adaptations of prosthetic feet in the ~ Characterizing adaptations of prosthetic feet in the frontal plane Show all authors. Michael Ernst. . Stiffness and hysteresis properties of some prosthetic feet. . The effects of common footwear on stance-phase mechanical properties of the prosthetic foot-shoe system.

Materials / Free Full-Text / The Role of Electrical ~ The Role of Electrical Polarity in Electrospinning and on the Mechanical and Structural Properties of As-Spun Fibers by Daniel P. Ura 1 , Joan Rosell-Llompart 2,3 , Angelika Zaszczyńska 4 , Gleb Vasilyev 5 , Arkadiusz Gradys 4 , Piotr K. Szewczyk 1 , Joanna Knapczyk-Korczak 1 , Ron Avrahami 5 , Alena O. Šišková 6 , Arkadii Arinstein 5 .

Assessment of the compressive and tensile mechanical ~ Background:Designed by Dr. Sethi, the Jaipur Foot prosthesis is ideally suited for amputees in developing countries as it utilizes locally sourced, biodegradable, inexpensive materials and is focus.