The basis of your engine
Biomechanics
How physical laws relate to our biological sphere.
Your driving force: the natural understanding of life, people, exercise and sport. In the holistic understanding of man between body and soul, physique and psyche, biomechanics is a fundamental pillar for health and for the expression of healthy, performance-oriented movement.
Biomechanics is the special basis for our activities as an independent discipline of physical education, science and sports, medicine and orthopedics.
Forces, the foundation of mechanics, play a fundamental role in the universe and thus in us humans. During our analysis, the whole body is taken into consideration through the best systems of detection of foot contact with the ground: cameras for postural analysis and stabilometric detection. This allows us to say that we have one of the most complete motion analysis process systems on the market.
Our goal is the well-being of our athletes and the achievement of excellence in athletic gestures.
Analysis Technique
Force, moment, torque, energy, pressure, distance, speed, acceleration, mass and inertia are essential criteria of our BIOMOTO ANALYSIS that uses the latest technology.
Also central is the experience of our technicians and the use of proven movement protocols to optimize your sports performance.
To carry out a BIOMOTO analysis our technicians rely on the principles of cause-effect and a deep understanding of the distribution of forces in the body and its responses in the athletic gesture.
The recruitment of muscles, tendons, bones, ligaments based on the physiology of the neuromotor system ensures adaptation and optimization of movement. The point of contact with the ground is therefore of particular importance to us. The basis of our work is based on a holistic approach to the body and movement analysis.
Interconnected Disciplines
Mechanics, Biology and Physiology
"Biomechanics combines the field of engineering mechanics with the fields of human biology and physiology. Biomechanics applies mechanical principles to the human body in order to understand the mechanical influences on bones and joints.
Forces working on joints are generated by muscles and transmitted through tendons: bones must resist these forces. Developments in biomechanics have improved our ability to distinguish between normal and pathological gaits, neuromuscular control mechanisms, and the mechanics of skeletal development.
This knowledge has contributed to the development of diagnostic procedures and medical treatments, provided the basis for the design and manufacture of medical implants and orthoses, and improved rehabilitation therapy practices."
Thanks to Biomechanics, important studies have been made on the posture held in various work settings and sports activities in order to improve it.
