Alternative Definition of Tellington TTouch In Light of Recent Findings in Neuroscience
By Kim Carneal and Caroline Larrouilh
The Tellington TTouch Method® is a holistic approach to physical, mental and emotional wellness that seamlessly integrates body work and in-hand work (ridden work in the case of horses), promoting a state of homeostasis (or coherence*) in both animal and handler. Maintaining a stable physiological and emotional state under varying types of stresses is the ultimate goal of all organisms. TTouch has a direct effect on the natural physiological responses necessary to achieve homeostatic equilibrium.
TTouch is the first integrated system of touch and in-hand work to consciously and systematically recognize and honor inter-species communication, seeking to create a relationship between animal and human based not on dominance or the “alpha” model, but rather on the acknowledgement of the animal as an individual. Instead, the Tellington Method teaches the handler to lead by example: to approach and work with the animal with respect and empathy; to break information into manageable bits based on what we know about the way animals’ brains and emotions work; and to give them time and space to process what is asked, using feedback from the animal to guide the next step. The Tellington Method teaches the handler herself flexibility and open-mindedness when seeking solutions, requiring that they adapt creatively to the situation to help the animal learn new behaviors. The Tellington Method thus differs from more dogmatic, academic training approaches with circumscribed toolboxes that rely on ethology-based dominance or fear to force obedience rather than engaging the mind of the horse.
In each of its applications, the Tellington Method allows for an animal and handler to connect at a cellular level, experiencing a state of harmony characterized by a calm, focused awareness and trusting confidence in each other. Each species reaches emotional and physical homeostasis individually and as a unit.This degree of calm, engaged trust in mutual homeostasis (or coherence) greatly enhances the learning capability of both animal and handler. Research has shown that new skills are more quickly and easily learned in a state of calm, and are better retained and more easily generalized, or applied over a range of different situations. New scientific research about mirror neurons† may explain in part why the Tellington Method is so effective. Its exercises are thought to awaken mirror neurons in the brains of both animals and humans through both the sense of sight and touch. The sense of touch, along with the physical proximity and handler state of mind, is thought to further enhance the capacity for cooperative learning and performance via heart coherence. Heart coherence in turn effects an empathetic experience while increasing levels of neurohormone oxytocin (calm connection through physical contact) and decreasing cortisol (stress) in both animal and handler. A key difference between the Tellington Method and others is that many of the benefits for the animal are handler independent and reciprocal. TTouch at its foundation is not a one-way endeavor like some methods of animal training, “do it my way because I am lead mare” or massage where the recipient is passive and the massage therapist is active, but interactive because heart coherence, neurohormone levels, and mirror neurons amount to cellular coherence in both beings. TTouch works on the entire body, brain and mind of both species involved. TTouch benefits both animal and handler all the way down to the cellular level.
* coherence–consistency, cohesion. From Dictionary.com:
coherence (kō-hîr’əns, -hěr’-) A property holding for two or more waves or fields when each individual wave or field is in phase with every other one
† mirror neurons–neural cells found in the premotor cortex, supplementary motor area, primary somatosensory cortex, and the inferior parietal cortex of the brains of humans. While studies have not been conducted on horses, it is believed that most mammals share both similar brain structures and the capacity for mirror neuron function. In monkeys, functioning mirror neurons have been found in the inferior frontal gyrus. See Rizzolatti, Giacomo; Craighero, Laila (2004). “The mirror-neuron system”. Annual Review of Neuroscience 27: 169–192.
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