As biomechanists, we try to optimize the movement of athletes, patients, and others. We may be trying to maximize performance, minimize the risk of injury, or simply returning someone to “normal.” A term often used in biomechanics is “kinetic chain.” But what is a kinetic chain? Considering that this is a fundamental concept of biomechanics, there is a surprising lack of clarity on its definition. In his seminal textbook, Arthur Steindler defined a kinetic chain vaguely as “a combination of several successively arranged joints constituting a complex motor unit.”1 More recently, the kinetic chain has been explained as “an interaction of body segments”2, a “transfer of forces and motion”,3 and a “sequential transfer of energy.”4
So, here is my question for discussion. What is the most meaningful way to quantify the kinetic chain from our biomechanical data? That is, as biomechanists, do we ideally want to quantify the kinetic chain as the magnitudes and sequential timing of:
I welcome your expertise. Please vote and/or (more importantly) post your thoughts.
So, here is my question for discussion. What is the most meaningful way to quantify the kinetic chain from our biomechanical data? That is, as biomechanists, do we ideally want to quantify the kinetic chain as the magnitudes and sequential timing of:
- Joint angles?
- Joint angular velocities?
- Joint torques?
- Segmental energy?
- Muscle firing patterns?
- Something else?
I welcome your expertise. Please vote and/or (more importantly) post your thoughts.
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