MMA (mixed martial arts) is a complicated, multifactorial sport that requires the fighter to possess the skills necessary to execute their desired game plan in defeating their opponent.
In the cage, the fighter will have two primary opponents: the other fighter standing across from them and their own preparedness. This means that developing a robust level of metabolic conditioning, strength, power, and speed to complement skill is paramount to the success of an MMA fighter.
MMA bouts are formatted as either three five-minute rounds for a standard match or five five-minute rounds for the championship and main event bouts. Fighters must possess enough stamina to recover quickly between rounds, as well as maintain a high level of intensity throughout each round to ensure the best possible chance of winning. As previously mentioned, some fights end in the very early stages of competition, whether it be by knockout, submission, or injury, but for those that go the entire distance, it is advantageous for a fighter to possess robust levels of metabolic conditioning.
Traditionally, many coaches would prescribe long, slow, steady-state aerobic activity for their fighters to build aerobic endurance. These activities included things such as jogging, biking, and swimming for multiple hours a week at or near ~40-70% max heart rate. This would build the foundation for the fighter from which they could build and eventually train in a more specific manner as the fight neared.
While this method may still have merit in some instances, coaches have instead begun to introduce their fighters to high-intensity interval training (or HIIT) to produce similar and, in some cases, superior results in a shorter period of time. This type of training involves brief bouts of intense exercise (approximately >90% VO2 peak) interspersed with often longer bouts of lower intensity recovery. The major benefits of HIIT over low-intensity steady state conditioning (LISS) appear to be that adaptations are achieved in a shorter amount of time, and the potential for negative interactions between strength and power development is less likely to happen when training concurrently.
A HIIT session can be formatted in many ways, and it certainly cannot go without being said that fighters get a great deal of this conditioning in their skill sessions. Depending on how specific a coach would like to get, they may format a general HIIT session as something like:
· 30 seconds of running on an incline treadmill.
· Followed by 2 minutes of walking and active recovery.
I may have their fighter do 1 minute of striking combinations, followed by 1 minute of takedown defense and sprawling, followed by 1-5 minutes of active or passive recovery. Another popular option is to set up a series of resistance exercises (also known as circuit training) and have a fighter execute each one back-to-back with little to no rest for upwards of 2-3 minutes. The options are seemingly limitless, and it is in this area that art meets science, allowing coaches the artistic freedom to craft a session built uniquely for their fighter.
Important considerations the coach can manipulate are:
· The rest period
· Mode of exercise
Strength & Power
Strength and power are critical components that contribute to the success of MMA fighters. Strength underpins power, and power is often associated with explosiveness, which is of utmost importance for throwing punches, kicks, elbows, knees, etc. Furthermore, the ability to sustain such power across a fight is critical—thus, training a fighter’s power endurance or ability to resist fatigue and sustain power output is of utmost importance.
The major issue that I run into when structuring a plan for combat sports athletes, particularly when seeking to increase power, is where, when, and how often to train for it. It is commonly accepted that power will suffer at the expense of increasing cardiovascular endurance, but gains can still be made. Intelligent programming can help mitigate the negative consequences.
Research suggests that gains in power and maximum strength can be made using a daily undulating model similar to that of a classic strength-power periodization model (where multiple weeks are dedicated to strength endurance and then power training sequentially), which could allow for the training of multiple training aspects at once. It is possible that one day a week of power training could help to sustain or even build power for a fighter while allowing for the training of many other physiological qualities simultaneously.
When designing a workout intended to increase power, emphasis must be placed on rapidly moving the weight through the concentric portion of the lift and keeping resistance between 40-80% of the athlete’s 1RM for each given exercise. Exercises may vary in their optimal load depending on if the upper body or lower body, pushing, pulling, hinging, jumping, and a host of other factors; therefore, coaches must do their own research to discover proper loading schemes for their athletes.
One last important consideration when seeking to develop strength and power in fighters is the specific development of isometric strength. Many of a fighter’s grappling and clinching scenarios involve gripping, squeezing, and holding their opponent in order to maintain or improve position, work through a takedown, or finish a submission. This is where coaches must again get creative in their training techniques by implementing exercises such as weighted carries, holding or squeezing medicine balls and sandbags, or even dead hangs from a bar, simply to name a few. Bounty et al. even suggest using towels for pull-ups, rows, and hangs to further tax the grip strength of fighters and provide a novel stimulus.
Speed is a critical component in MMA as fighters must be able to generate strikes rapidly, evade their opponents, and close distance as quickly as possible. Speed is often trained and displayed in sparring and technical skill sessions, but trainers can also help to develop it through several other training methods. Plyometric training—specifically unloaded drop jumps and hurdle jumps—has been shown by Gomez et al. to increase kicking power in football players when combined with resistance training. One could extrapolate this information and potentially reproduce similar results with fighters whom they train and perhaps even build from it, using both upper and lower body plyometrics to increase kicking and punching power.
Ballistic methods such as weighted jump squats have also been shown to improve movement speed when loads were used at ~30% 1RM. As previously discussed in the power development section, selecting the proper load for executing these movements is of utmost importance to yield optimal results. Speed is a rather delicate physiological quality to train, particularly when looking at the fine motor skill involved in movements such as a punch, kick, knee, or elbow. Attempting to load these movements without a firm understanding of the cause-and-effect relationship should be avoided.
Putting it Together
The most difficult part of training an MMA fighter is not the training itself but rather the organization of all the combined training components. The best resource I have come across to help do so is the book Science and Application of High Intensity Interval Training, by Martin Bucheit and Paul Laursen, specifically the chapter that Dr. Duncan French contributes to discussing exactly how this can be done. Below is an adapted table from the book:
To better understand this outline, one must understand what each ‘type’ of HIIT targets. As such, each is described below:
1. Type 1: Aerobic Oxidative
2. Type 2: Aerobic Oxidative + Neuromuscular
3. Type 3: Aerobic Oxidative + Anaerobic Glycolytic
4. Type 4: Aerobic Oxidative + Anaerobic Glycolytic + Neuromuscular
5. Type 5: Anaerobic Glycolytic + Neuromuscular
Each of these training types is further detailed in the book with information about work-to-rest ratios, volume, mode of exercise, and much more. As one can see, the skill sessions (e.g., wrestling, striking, etc.) provide the majority of what one may classically define as conditioning.
This type of programming requires sound communication between the strength and conditioning coach and specific skill coaches for each discipline, as they can work together to provide the targeted stimulus within each session. It is easy to see where a lack of communication can quickly result in overtraining, as a striking coach and grappling coach may crossover with back-to-back type 5 sessions on the same day (or something similar) and create unwanted, excessive fatigue in the fighter. Most high-level fighters now have a primary coach who helps to organize all of the training and communication between parties; therefore, it is important that a strength and conditioning coach plays a major role in the planning.
In order to successfully develop a plan for an MMA fighter, I always target each of the factors previously mentioned to some degree. Every aspect of the program will then be tailored to the fighter depending on their own individual strengths and weaknesses, as well as who their opponent is and how much time is available before competition. I view every program much like a stone that I must sculpt and depending on who it is I am training determines how it will look in the end.
1. Bounty PL, Campbell BI, Galvan E, Cooke M, and Antonio J. Strength and Conditioning Considerations for Mixed Martial Arts. Strength & Conditioning Journal 33: 56-67, 2011.
2. Gibala MJ and McGee SL. Metabolic adaptations to short-term high-intensity interval training: a little pain for a lot of gain? Exercise and sport sciences reviews 36: 58-63, 2008.
3. Hartmann H, Bob A, Wirth K, and Schmidtbleicher D. Effects of different periodization models on rate of force development and power ability of the upper extremity. The Journal of Strength & Conditioning Research 23: 1921-1932, 2009.
4. Kilduff LP, Bevan H, Owen N, Kingsley MI, Bunce P, Bennett M, and Cunningham D. Optimal loading for peak power output during the hang power clean in professional rugby players. International journal of sports physiology and performance 2: 260-269, 2007.
5. Laursen P and Buchheit M. Science and application of high-intensity interval training. Human kinetics, 2019.
6. McBride JM, Triplett-McBride T, Davie A, and Newton RU. The effect of heavy-vs. light-load jump squats on the development of strength, power, and speed. The Journal of Strength & Conditioning Research 16: 75-82, 2002.
7. Perez-Gomez J, Olmedillas H, Delgado-Guerra S, Royo IA, Vicente-Rodriguez G, Ortiz RA, Chavarren J, and Calbet JA. Effects of weight lifting training combined with plyometric exercises on physical fitness, body composition, and knee extension velocity during kicking in football. Applied physiology, nutrition, and metabolism 33: 501-510, 2008.