| review article | Q7318358 |
| scholarly article | Q13442814 |
| P2093 | author name string | Alexander RM | |
| P1104 | number of pages | 15 | |
| P304 | page(s) | 55-69 | |
| P577 | publication date | 1991-10-01 | |
| P1433 | published in | The Journal of Experimental Biology | Q1355917 |
| P1476 | title | Energy-saving mechanisms in walking and running | |
| P478 | volume | 160 |
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| Q34980500 | Achilles tendon strain energy in distance running: consider the muscle energy cost |
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| Q41152281 | Biomechanics and running economy |
| Q46853344 | Can muscle shortening alone, explain the energy cost of muscle contraction in vivo? |
| Q53139437 | Center or side: biases in selecting grasp points on small bars. |
| Q58796123 | Changes in Achilles tendon stiffness and energy cost following a prolonged run in trained distance runners |
| Q36223707 | Characterizing the Mechanical Properties of Running-Specific Prostheses |
| Q28607289 | Children and adults minimise activated muscle volume by selecting gait parameters that balance gross mechanical power and work demands |
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| Q47810158 | Constraints on Stance-Phase Force Production during Overground Walking in Persons with Chronic Incomplete Spinal Cord Injury |
| Q52838474 | Distribution patterns of fibre types in the triceps surae muscle group of chimpanzees and orangutans. |
| Q38601586 | Elastin is Localised to the Interfascicular Matrix of Energy Storing Tendons and Becomes Increasingly Disorganised With Ageing. |
| Q42218914 | Energetically optimal running requires torques about the centre of mass |
| Q26992318 | Evolution of the human hip. Part 1: the osseous framework |
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| Q28270122 | Factors affecting running economy in trained distance runners |
| Q41031879 | Fascicles and the interfascicular matrix show decreased fatigue life with ageing in energy storing tendons. |
| Q28394696 | Fascicles from energy-storing tendons show an age-specific response to cyclic fatigue loading |
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| Q48042008 | Movement Strategies for Countermovement Jumping are Potentially Influenced by Elastic Energy Stored and Released from Tendons. |
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| Q37614506 | Neuromuscular adaptations to training, injury and passive interventions: implications for running economy |
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| Q37305109 | Redirection of center-of-mass velocity during the step-to-step transition of human walking. |
| Q39424480 | Running Economy from a Muscle Energetics Perspective. |
| Q42427852 | Shoes alter the spring-like function of the human foot during running. |
| Q40879731 | Simple and complex models for studying muscle function in walking. |
| Q36344000 | Specialization of tendon mechanical properties results from interfascicular differences |
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| Q90356894 | Step time asymmetry increases metabolic energy expenditure during running |
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| Q34532484 | Task-level strategies for human sagittal-plane running maneuvers are consistent with robotic control policies |
| Q36284026 | Tendon material properties vary and are interdependent among turkey hindlimb muscles |
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| Q64063657 | The Landscape of Movement Control in Locomotion: Cost, Strategy, and Solution |
| Q39862788 | The effects of selective breeding on the architectural properties of the pelvic limb in broiler chickens: a comparative study across modern and ancestral populations |
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| Q36305186 | The interfascicular matrix enables fascicle sliding and recovery in tendon, and behaves more elastically in energy storing tendons |
| Q38631680 | The relative compliance of energy-storing tendons may be due to the helical fibril arrangement of their fascicles |
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| Q91810344 | Towards the Exploitation of Physical Compliance in Segmented and Electrically Actuated Robotic Legs: A Review Focused on Elastic Mechanisms |
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