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A new term in biophysics: force/time = "yank"

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Quinn Eastman

A group of scientists have proposed to define change in force over time as "yank."

We don’t feel motion if it’s smooth. What we do feel is acceleration or deceleration: changes in speed over time. However, muscles appear to respond to changes in force over time.

Biologists and biomedical engineers are proposing to define the term “yank” for changes in force over time, something that our muscles cause and nerves can sense and respond to.

Their ideas were published on September 12 in Journal of Experimental Biology.

Expressed mathematically, acceleration is the derivative of speed or velocity with respect to time. The term for the time derivative of acceleration is “jerk,” and additional time derivatives after jerk are called “snap,” “crackle” and “pop.”

The corresponding term for force – in physics, force is measured in units of mass times acceleration – has never been defined, the researchers say.

Scientists that study sports often use the term “rate of force development”, a measure of explosive strength. Scientists who study gait and balance -- in animals and humans -- also often analyze how quickly forces on the body change. It could be useful in understanding spasticity, a common neuromuscular reflex impairment in multiple sclerosis, spinal cord injury, stroke and cerebral palsy.

“Understanding how reflexes and sensory signals from the muscles are affected by neurological disorders is how we ended up needing to define the rate change in force,” says Lena Ting, PhD, professor of rehabilitation medicine at Emory University School of Medicine and the Wallace H. Coulter Department of Biomedical Engineering at Georgia Tech and Emory.

Her co-authors are David Lin, PhD, at Washington State University, Craig McGowan, PhD, at University of Idaho, and Kyle Blum, PhD, a postdoctoral fellow at Northwestern who previously worked with Ting.

Ting says Lin originally introduced her and Blum to the term “yank”.
 
“Dr. Ting and I were thinking similarly – but separately – that current terminology describing the time derivative of force was too unwieldy and limiting,” Lin says. “During an American Society of Biomechanics meeting, I suggested that ‘yank’ was a possible term that we could use.”

On a large scale, yank is relevant to the study of jumping, sprinting, capturing prey and maintaining balance, the researchers say. It is similarly useful in analyzing the behavior of muscles and tendons, sensory feedback and spinal reflexes, all the way down to the contributions of individual cells.

A related paper from Blum and Ting shows that in the leg muscle fibers of a rat, yank corresponds to the firing rates of muscle spindles, which are stretch receptors that detect changes in length of the muscle. Muscle spindles send signals to the nervous system so that the animal is aware of the body’s position in space.

The authors’ research is supported by the Army Research Office (ARO 66554-EG), the National Science Foundation (NSF 1553550) and the National Institutes of Health (R01HD90642, R01HD46922, F31NS093855).


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