Rebound exercise is the most efficient, effective form of exercise yet devised by man . . .
The above statement is one of several made in a scientific study published in the Journal of Applied Physiology 40(5): 881-887, 1080, which confirms many of the statements previously made in The New Miracles of Rebound Exercise. The research Laboratory, University of Kentucky, Lexington, Kentucky.
The four scientists, A. Bhattacharya, E.P. McCutcheon, E. Shvartz, and J.E. Greenleaf, secured the assistance of eight young men between the ages of 19 and 26 to each walk, jog, and run on a treadmill which was operated at four different speeds and then jump on a standard sized trampoline at four different heights to compare the difference between the two modes of exercise. Although treadmill running had been studied many times before, the scientist found that " measurements of the necessary variables have not been reported previously for trampolines exercise." The trampoline testing was conducted at least one week after the treadmill testing.
The six measurements which were taken on all eight of the subjects were:
1. A pulse before exercising.
2. A pulse immediately after exercising.
3. The amount of oxygen consumed while exercising.
4. The amount of G-force experience at the ankle while exercising
5. The amount of G-force experienced at the lower-back while exercising
6. The amount of G-force experience at the forehead while exercising.
The pulse was obtained by a battery-powered electrocardiographic unit taped to the subject's body which transmitted its signals to a custom-designed receiver which in turn recorded the information by electronically writing it on a chart.
The oxygen consumption was measured with a K-meter which the subject carried on hi back.
The G-force experience e by the ankle, back and forehead of each of the university students was measured by small sensitive accelerometers which were placed in plexiglass holders that were taped to the ankle, the small of the back and the forehead.
After a thorough medical examination, the healthy students were issued a pair of shorts of new Nike running shoes to standardize the conditions to be measured. They were given familiarization sessions on laboratory procedures, treadmill running, and trampoline jumping to ensure the exercise techniques would be the same. Each student then walked or ran four different speeds on the treadmill with a five to ten minute rest period between runs while the scientist recorded their statistics and compared them with previous treadmill studies for accuracy.
A week later, these same athletes returned to bounce on a trampoline at four different heights with a 5- to 10 minute rest period in between exercise sessions. Again the scientist recorded their statistics, only this time, they had no previous studies to compare them to. Since trampolining had not be previously studied, the only studies available were the preliminary studies which began in August of 1977 on passive restrained humans and animals exposed to increasing frequency and amplitude of vibration forces designed to increase heart rate and metabolic activity.
". . . . but quite frankly, were expected by us at the "institute" Following are some of results revealed by this team of scientists from NASA:
1. The G-force measured at the ankle was always more than twice the G-force measured at the back and forehead while running on a treadmill.
This helps to explain shinsplints and knee problems, especially when natural shock absorbing system of the body becomes so fatigued that it doesn't do its job correctly , thus throwing added unexpected forces on already tired muscles, ligaments and tendons, forcing them beyond the point of rupture.
2. While jumping on a trampoline, the G-force was almost the same at all three-points (ankle, back, forehead) and well below the rupture threshold of a normal healthy individual.
This makes it possible to exercise the entire body knowing that there is no undue pressure applied to any part of the body such as the feet, ankles, and legs, and at the same time knowing that each part of the body is receiving the necessary environmental stresses it needs to become stronger cell by cell.
3. The external work output at equivalent levels of oxygen uptake were significantly greater while trampolining than running. The greatest difference was about 68%.
The efficient use of the vertical forces of acceleration and deceleration to produce internal loading by directly opposing the gravitational pull develops, more biomechanical work with less energy/expended, thus less oxygen used and less demand placed on the heart.
4. While trampolining, as long as the G-force remained below 4-G's, the ratio of oxygen consumption compared to biomechanical conditioning was sometimes more than twice as efficient as treadmill running
It is important to note that although this experiment was performed on a trampoline where the participants were able to develop a G-force as high an 8G's, the efficient use of energy was below 4-G's. People involved in rebound exercise on rebound units have been measured only as high as 3.5-G's, so that any activity on a rebound unit is more efficient than treadmill running at any speed.
5. With the G-force the same as or greater than 4-G's "there was no significant difference in the oxygen uptake between the two regimens."
Even when a person is able to develop a force on the trampoline of more than 4-G's, although it is no more efficient as far as oxygen consumption than running, it is still much better on the lower extremities because of cells are still below their rupture threshold providing a safe way to exercise.
6. ". . . . averting the deconditiong that occurs during the immobilization of bed rest or space flight, due to lack of gravireceptor stimulation ( in addition of other factors). Requires on acceleration profile that can be delivered at a relatively low metabolic costfor equivalent metabolic cost, and acceleration profile from jumping will provide greater stimuli to gravireceptors."
This statement verifies the fact that rebound exercise is
an excellent exercise for our senior citizens, those physically
handicapped, those who are recuperating from an accident or injury.
Or anyone else who needs exercise but is hampered by a preexisting
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