|
The Thaiboxing Workout: A Scientific Approach
Written and researched by Tim Mousel
Description
of Thaiboxing
Thai-boxing, the national sport of Thailand, is perhaps the most brutal
sport in existence. Participants batter each other with punches, kicks,
knees and elbows. There are few rules in Thai-boxing and boils down to
survival of the fittest. A match consists of five, three minute rounds.
Punching, knee and elbow strikes and kicking techniques are allowed to
any part of the body, except the groin. Because of the hard, fast paced
action, it is very important for the fighters to be highly conditioned,
both physically and mentally. A fighter entering the ring in anything
but top condition can expect, at the very least, to be knocked unconscious.
There is also a chance of death if not properly prepared. In Thailand,
there are many deaths each year as a result of the beating taken in the
ring.
Much of the Thai-boxers conditioning is done on the Thai-pads. Thai-pads
are solid, heavy pads strapped to the arms of a holder. This method of
training is advantageous to the heavy bag in that it allows the fighter
to respond to a "live" opponent. The holders job varies, depending
on the desired results of the training session. For some drills, the holder
attacks with kicks to the legs, body or head, and punches to the body
and head. While defending himself, the fighter throws his own kicks, knees
and elbows. Using another method, the holder remains relatively stationary
and allows the fighter to attack with a pre-designated combination or
a free flow barrage of kicks, knees, and elbows.
Physical Training
Proper structure to the training session is an important pre-requisite
to obtaining desirable results. When designing a workout, it is necessary
to identify which energy systems are used in the activity. Based on the
systems used, training time can be devoted to improvement of that system.
It is also important to identify the initial fitness level of the participant,
the intensity of the activity, frequency, duration, and the method of
training to be used.
Energy Systems
Based on duration and intensity of the activity, four predominant energy
pathways have been identified in Thaiboxing and any sport. The systems
identified are the ATP, ATP-CP, Lactic Acid and the Aerobic-oxidative
system. A basic understanding of these systems is helpful in understanding
the design of the workouts.
ATP System
ATP (adenosine triphosphate) is the immediate source of energy for
muscular contraction. There are two pathways through which it is formed:
the aerobic pathway and the anaerobic pathway. The aerobic pathway requires
oxygen to be present and utilizes fat, protein and carbohydrates (glucose,
glycogen) to resynthesize ATP. When movement is very quick and explosive,
there is not enough time for oxygen to be delivered to the contracting
muscles. This is where the anaerobic pathway is called into action. The
anaerobic pathway does not require oxygen and uses only carbohydrates
to produce ATP. There is enough ATP stored in muscle to last for only
three seconds of contraction.
ATP-CP System
When ATP is broken down and the energy is released, ADP (adenosine
diphosphate) and P (phosphate) are formed. Another important source of
energy is CP (creatine phosphate). CP cannot be used directly by the muscle,
so it interacts with ADP and CP to re-form ATP. There is not a lot of
CP available to the muscle so it too must be continually resynthesized.
The ATP-CP system can supply enough energy to last for eight seconds of
intense exercise.
Lactic Acid System
When intense activity is continued for about ninety seconds, glycogen
is used as an energy source. When the glycogen is broken down, more ATP
is produced. However, if the activity is intense (anaerobic), there will
not be enough oxygen supplied to the muscles. When glycogen is burned
in the absence of oxygen, lactic acid is produced. Once lactic acid is
formed, it diffuses into the blood and is transported to different areas
of the body. This allows the working muscle to continue. Eventually, the
lactic acid level will accumulate to a level that will slow down thebiochemical
reactions that lead to the production of ATP. Accumulation of lactic acid
causes pain and burning sensations in the stressed muscles. Shortly thereafter,
contraction will not be able to take place.
Aerobic-Oxidative System
If this intense activity is to continue, the body will shift into
the aerobic-oxidative system. The body will need an increased oxygen supply.
This extra oxygen will be available only if the intensity of the activity
is decreased. This higher oxygen consumption converts the lactic acid
to pyruvate, which converts to carbon dioxide and water and is dispelled
from the lungs. Pyruvate is a product of burned glycogen. If pyruvate
is formed in the absence of oxygen, lactic acid formation will be the
result. The system will then shift back into the anaerobic systems.
Recovery of the Anaerobic Systems
(Rest)
During the recovery period of training, the ATP-CP must be built-up and
replenished and the accumulated lactic acid must be removed. If these
needs aren't met, the systems will be un- available for further activity.
While resting after an anaerobic work bout, oxygen consumption is increased
because of the increased depth and rate of breathing. This extra oxygen
turns the lactic acid back to pyruvic acid and within 20 seconds, 50%
of the ATP and CP is restored, in 40 seconds, 75% is restored and in 60
seconds, 87% is restored. Almost all of the ATP and CPare replenished
within three minutes. The removal rate of lactic acid is slower then the
rebuilding rate of ATP and CP. In 25 minutes, 50% of the lactic acid will
be removed, in 50 minutes, 75% and 87% in 75 minutes. The removal rate
of lactic acid can be sped up through light activity performed during
the recovery period. This is because some of the lactic acid is metabolized
aerobically during the light activity.
Work/Rest Ratio
The rest interval is very important. The work rest ratio in Appendix
A has been designed according to physiological guidelines. If the
rest period is too brief, the ATP and CP will not be sufficiently replenished
and the accumulated lactic acid will not be adequately removed. The next
bout of exercise would have to be performed at a lower intensity. If the
rest period is too long, the body will recover and the training effect
will be lost.
Pre-Program Information
To obtain desired results, it is important to train at the proper intensity
(degree of overload). The intensity of an activity is dependent upon many
factors, mainly the goals of the participant. If the goal is health-related
fitness, the intensity does not need to be as high as an athletes intensity
whoset a goal of increased performance. Both individuals need to monitor
their workload through heart rate (HR) to determine and work at the optimal
intensity.
Determination of Resting Heart Rate
The first step is to determine the resting heart rate (RHR). The best
results are obtained early in the morning immediately upon awakening.
A reliable RHR is obtained by averaging the results of three mornings
in a row. The HR may be taken by placing fingers on the carotid artery
on the side of the neck, the temporal artery in front of the ear (temple)
or at the radial artery at the base of the thumb. A good estimation of
the HR is to count the pulse for 10 or 15 seconds and multiply by 6 or
4, respectively. This will give the HR in beats per minute (bpm). If the
pulse was counted 18 times in 15 seconds, the RHR is 72 bpm (18x4=72 bpm).
Determination of Maximum Heart Rate
The maximum heart rate (MHR) is needed to calculate the HR at which
the workload should be performed. The direct method of determining MHR
is to monitor the HR of a subject running to exhaustion on a treadmill.
An easier way is to subtract age from 220. A 20 year old athlete will
have a MHR of 200 bpm (220- 20=200).
Determination of Training Heart Rate
The training heart rate (THR) is the HR at which the workload should
be performed to obtain a desired physiological response. The desired percentage
of MHR is multiplied by MHR to determine the THR. If the same 20 year
old athlete is to perform a workout that calls for an intensity at 70%
of MHR, the THR would be 140 bpm (200x.70=140 bpm).
Training Intensity and Frequency
For a training effect to occur, the appropriate overload must be placed
on the targeted system. The aerobic system needs to be trained at 60-90%
of MHR for a training effect to occur. Healthy, sedentary individuals
should start at the lower end (60%) and gradually build up over time.
Trained aerobic athletes should train near the upper end (90%). The anaerobic
systems need to be trained at 90-100% of MHR. How often should the systems
be overloaded? Research shows that 3 days per week is the minimum for
aerobic training. Moderately trained individuals should train 3-5 days
per week while highly trained athletes can train 5-7 days per week. The
anaerobic systems need a minimum of 3 days per week and can be trained
on the same days as the aerobic system. It is recommended that the anaerobic
work precedes the aerobic training. Other days can be spent developing
skill and techniques.
Warm-Up Equipment Needed:
Thai-pads and a stop watch (Modern sport watches with a repeat timer
work very well). Warming-up is important to physically and psychologically
prepare the participant for the increased demands about to be placed on
the body. There are two types of warm-up: General and Specific. General
warm-up consists of calisthenics, stretching and non-sport specific activity.
Specific warm-up is performing the actual activity itself in a light,
easy manner. The warm-up listed in Appendix B
is a Specific warm-up. It begins with a 4 minute round of round kicks
on the Thai-pads. The 4 minute rest interval should be spent stretching
or holding the pads for the previous holder. Workouts are ideally started
and finished by one individual before holding for the partner. At completion
of the 4 minute rest period, a 2 minute round of Form is done. Kicks,
knees and elbows are thrown light and easy. The emphasis is on proper
form. The two minute rest prepares the body for Accelerations. Accelerations
help prepare the body for high intensity work. Each round lasts 16 seconds.
The first 8 seconds is done at an easy pace and the last 8 seconds is
done at full speed. Two consecutive kicks are thrown with the same leg
before switching. The rest period is 24 seconds between each of the 4
rounds. A one minute rest is given prior to the Gutbuster rounds. Gutbusters
consist of 4 rounds lasting 10 seconds each. one kick per side is thrown
at full intensity (no holding back). Gutbusters train the ATP- CP system.
There is a 3 minute rest at completion of the Gutbuster rounds. Next is
the workout!
Thai-Pad Training
In one, three minute Thai-boxing round, a fighter will receive approximately
30% of his energy from the ATP-CP system, 5% from the aerobic system and
65% from the lactic acid system. The amount of training in each system
should closely reflect these percentages. Appendix
A contains the Thai-pad workouts. The chart is used in the following
manner: l. Determine what system needs to be trained and locate it in
the Systems column. 2. Read across the row and make a note of how long
each round is and the amount of rest between rounds. 3. Take the value
in the % Max HR column and plug it into the THR formula. If the column
gives two values, calculate the THR for each. The results are termed the
training-sensitive zone. This zone will give optimal physiological results
for the system picked. Following the same principles (system, work rest
ratio, % max HR, etc.) many other training methods can be devised. Other
methods of training can be used with the chart as well. Some other methods
of training that are also important to Thai-boxing include running (especially
sprints), heavybag, speedbag, sparring, jump- rope, shadow-boxing, plyometrics,
medicine ball training, and focus mitts.
Cool-Down
The cool-down is post-activity exercise done in a continuous, easy, relaxing
manner. The cool-down helps the body return to a normal resting state.
It also decreases DOMS (Delayed Onset of Muscle Soreness), helps to alleviate
the pooling of blood in the lower extremities and increases the removal
rate of accumulated lactic acid.
Weight Training
Strength and muscle endurance are important components in Thai-boxing.
Strength is the amount of force that can be exerted by a muscle group
for one movement. Muscle endurance is the ability of a muscle to contract
over a period of time. The advantages of these two traits is obvious when
applied to Thai- boxing. Many trainers of Thai and Western boxing feel
that weight training will make the athlete muscle bound and slow them
down. All research conclusively demonstrates that a properly designed
and implemented program will increase speed and power. Take a look at
the World Record holder in the 100 meters. Leroy Burrell is obviously
a fan of weight training. Is Evander Holyfield slow?
Weight training can increase both muscular endurance and strength. There
are four basic principles to follow while on a weight- resistance training
program:
- 1. Overload-forcing the muscles to contract at near maximum levels.
Through overload, the muscle will be forced to adapt.
- 2. Progressive resistance-the training load must be progressively
increased to cause overload to the muscle.
- 3. Specificity-the muscle adaptations are specific to the type of
training done. Therefore, the same muscles used in Thai-boxing need
to be stressed while weight training.
- 4. Recovery-a muscle fatigued from the effects of weight training
needs 48 hours recovery before resistance training is repeated.
To determine the proper amount of resistance to train with, a 1 repetition
max (RM) is used. One RM is the maximum load that can be moved through
the full range of motion for 1 repetition. A percentage of this 1 RM is
then taken to determine a training weight. While lifting, the concentric
contraction (shortening of the muscle and decrease in angle of a joint)
should be performed in 1-2 seconds. The eccentric contraction (lengthening
of the muscle and increase in the angle of the joint) should last 4 seconds.
For example, while performing a barbell biceps curl, the weight is lifted
up in 1-2 seconds and lowered in 4 seconds.
Periodization
Periodization is based on the theory that hard, high intensity work over
extended periods of time can lead to burnout, injury and stagnation. Better
progress can be made following a periodization schedule schedule. The
periodization cycle can be found in Appendix D for weight training and
in Appendix E for Thai-pads.
Conclusion
By following this scientifically based training program, you can be assured
of making optimal results. The main objective is to stick with it. On
days you feel like skipping the workout, remind yourself of your goals.
It's better to decrease the intensity and do the workout then to not do
it at all. The #l reason for quitting an exercise program was given in
a survey: The participants perceived the training as too
hard. There is no better way to discourage a new exerciser then to crush
their enthusiasm with a killer workout. There is no need to jump into
a new program head first. Take your time, set short & long term goals,
and good luck!
APPENDIX B: WARM-UP
: WARM-UP
4 minutes, easy kicks. 4 minutes, recovery, stretching.
2 minutes, easy Form, kicks, knees and elbows. 2 minutes, recovery.
ACCELERATIONS 8 sec. easy, 8 sec. full speed, 24 sec. rest, 4 rounds.
1 minute rest GUTBUSTERS 10 sec. full speed, 30 sec. rest, 4 rounds.
3 minutes rest
|
