Conditioning

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How to Train Like a Pro Without Overtraining: 3 Conditioning Mistakes Every Fighter Makes

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“You’re in shape… until you aren’t.”

Every boxer knows the feeling. You think you’re in shape, you’re sparring well, and then by Round 2 your legs feel like concrete. The problem isn’t effort. It’s the wrong kind of conditioning.

In combat sports, the difference between being fit and being fight ready is small but critical. Fighters often equate exhaustion with improvement. But fatigue is not the goal. The goal is to develop a system that lets you recover, repeat, and stay sharp under stress.

True conditioning teaches your body how to sustain power and recover faster between bursts. It builds the capacity to deliver the same output over and over without falling apart technically.

Mistake #1: Living in the “No-Adaptation Zone”

Most fighters train at one speed all the time. The intensity is too high to truly build aerobic qualities, yet not high enough to improve anaerobic power. This middle zone feels hard but does not create meaningful adaptation.

Training in this gray area leaves you constantly tired without improving the key factors that drive endurance. The aerobic system is the foundation for every other energy system. It is what allows you to recover between flurries, maintain composure, and control your pace.

When the bulk of training sits around 80 to 85 percent of maximum heart rate, the heart and muscles are working, but they are not being pushed to develop either side of the spectrum.

Fix:
Include one dedicated aerobic session each week. Keep the effort at a comfortable but steady pace where you can still breathe through your nose.

  • 25 to 30 minutes at 65 to 75 percent of maximum heart rate, or RPE 4 to 5.

  • Use light jogging, a spin bike, or shadowboxing flow work.

These lower-intensity sessions build the foundation that makes every other type of conditioning more effective later in camp.

Mistake #2: Mistaking Fatigue for Progress

If every session leaves you completely drained, you are not building capacity, you are burning it.

Fatigue by itself does not equal progress. When you constantly push to exhaustion, your coordination drops, timing slows, and recovery between rounds suffers.

Conditioning should improve the ability to produce high effort repeatedly, not the ability to survive pain. The aim is quality effort, not constant exhaustion.

Fighters often overload glycolytic, or medium-duration, efforts. They push too hard for too long and never develop the shorter, high-power system or the longer aerobic system that supports it. The result is a strong first thirty seconds and then a quick drop-off in speed and output.

Fix:
Introduce short, high-quality power intervals that target your explosive energy system.

  • Perform 8 to 10 seconds of all-out work such as a bike sprint, heavy bag flurry, or sled push.

  • Rest for 80 to 100 seconds at an easy pace before repeating.

  • Complete 6 to 8 total efforts.

These efforts improve maximal power and nervous system efficiency while allowing full recovery between reps.

Mistake #3: Ignoring the Aerobic Engine

The aerobic system is what keeps fighters explosive through multiple rounds. It is also what allows the body to recover between rounds and between training sessions.

Aerobic training does not make a fighter slow. It develops the internal engine that supplies energy to every burst and every exchange. A well-developed aerobic system improves the ability to replenish ATP, clear hydrogen ions, and use lactate as a fuel source during sustained work.

The common idea that fatigue is caused by lactic acid buildup is outdated. Lactic acid does not actually accumulate in the muscles. Instead, it separates into lactate and hydrogen ions, and the resulting increase in acidity contributes to fatigue. Aerobic training improves the body’s ability to manage that acidity and maintain performance over time.

Fix:
Use structured aerobic capacity intervals once or twice a week.

  • Work for 2 to 3 minutes at 80 to 90 percent of maximum heart rate or RPE 6 to 7.

  • Recover actively for 2 to 3 minutes until your heart rate drops below 130 beats per minute.

  • Repeat 4 to 6 rounds.

This type of interval work develops both delivery and utilization of oxygen, helping you stay relaxed and efficient even at higher outputs.

Why Smart Conditioning Wins Fights

The best-conditioned fighters are not always the ones who look the fittest in training. They are the ones who can stay calm, explosive, and efficient no matter how chaotic the fight becomes.

That calmness is a physiological skill. It comes from balancing the aerobic system that drives recovery, the anaerobic system that fuels sustained power, and the alactic system that supports short, explosive actions.

Smart conditioning develops all three systems in the right sequence and with the right intent. Build the base first, layer power on top, and taper the total load before competition.

Train Systems, Not Just Willpower

The difference between being in shape and being ready to fight is not about effort, it is about precision.

Conditioning should make you faster, more efficient, and more durable. It should leave you confident that your body can keep up with your skill. Hard work matters, but only when it builds something specific.

“Hard work is only as good as what it builds.”
— Joel Jamieson

Take the Guesswork Out of Your Conditioning

Knowing what to train is only half the battle. Knowing when and how to train each energy system is what separates a well-conditioned fighter from a tired one. A structured plan designed around your schedule, fight calendar, and current fitness level turns theory into progress.

If you’re serious about improving your fight conditioning, click here to explore our custom programs for fighters— designed to help you train smarter, recover faster, and perform your best when it matters most.

References

  • Jamieson, J. (2009). Ultimate MMA Conditioning.

  • Bott, C. (2023). Uncovering Limitations in Work Capacity.

  • Robergs, R. et al. (2004). “Biochemistry of Exercise-Induced Metabolic Acidosis,” American Journal of Physiology.

  • Brooks, G. et al. (2005). Exercise Physiology: Human Bioenergetics and Its Applications.

Why Your Heart Rate Lowers as You Age: Resting and Maximum Heart Rate Explained

As we age, our bodies undergo numerous changes, and one of the most noticeable in terms of physical activity is the way our heart rate behaves. From resting heart rate to maximum heart rate during exercise, understanding these changes can help us maintain optimal health and fitness as we grow older. In this post, we’ll dive into the science of heart rate, the impact of aging, and what peer-reviewed research tells us about these changes.

Resting Heart Rate (RHR) and Aging

Your resting heart rate (RHR) is the number of times your heart beats per minute when you are at rest, such as while sitting quietly. For most adults, a healthy RHR ranges from 60 to 100 beats per minute (bpm), though highly fit individuals may have a lower RHR, often between 40 to 60 bpm.

How RHR Changes with Age:

As you age, your resting heart rate may change slightly due to:

  • Reduced SA Node Efficiency: The sinoatrial (SA) node, which acts as the heart’s natural pacemaker, can lose some of its cells over time, leading to a slower baseline heart rate.

  • Stiffening of the Heart Muscle: The heart muscle may become less elastic, impacting how efficiently it pumps blood.

Despite these changes, regular physical activity can keep your RHR within a healthy range. Studies have shown that individuals who engage in regular aerobic exercise maintain a lower RHR as they age compared to sedentary individuals.

Why a Lower RHR is Good:

A lower RHR indicates that your heart is more efficient at pumping blood, which is often a marker of good cardiovascular health. For example, a trained endurance athlete’s RHR may be as low as 40 bpm because their heart is capable of pumping more blood with each beat.

Maximum Heart Rate (MHR) and Aging

Your maximum heart rate (MHR) is the highest number of beats per minute your heart can achieve during intense physical activity. It is an important measure for determining exercise intensity zones and decreases predictably with age.

The Formula:

A widely used formula to estimate MHR is: MHR = 220 – age

For example:

  • At age 30: Estimated MHR = 190 bpm

  • At age 50: Estimated MHR = 170 bpm

  • At age 70: Estimated MHR = 150 bpm

Why MHR Decreases:

  • Reduced Responsiveness: Aging affects the cardiovascular system’s ability to respond to stress. The heart’s beta-receptors, which mediate responses to adrenaline, become less sensitive over time.

  • Efficiency Adjustments: A lower MHR doesn’t necessarily mean your heart is weaker; it’s part of the body’s natural adjustment to aging.

Note on Accuracy:

The most accurate way to determine your maximum heart rate is through testing, such as a graded exercise test under supervision. However, the age-predicted formula works well for most people as a general guideline.

Research Insights on Heart Rate and Aging

Peer-reviewed research provides valuable insights into how heart rate changes across different age groups and fitness levels:

  1. Study on RHR Trends: A study published in The American Journal of Cardiology (2017) tracked RHR trends in over 90,000 participants. Researchers found that active individuals maintained lower RHRs throughout life compared to their sedentary counterparts. For instance, fit men and women in their 50s had RHRs averaging 58 bpm, while sedentary individuals of the same age averaged 70 bpm.

  2. MHR and Age Study: Research from the Journal of the American College of Cardiology (2014) highlighted that MHR declines approximately 6-10 bpm per decade after the age of 20. This decline is consistent regardless of fitness level but can be slightly mitigated by regular high-intensity interval training (HIIT).

  3. Athlete vs. Non-Athlete Comparisons: A study in Sports Medicine (2021) compared heart rate values between endurance athletes and non-athletes. At age 60, endurance athletes’ MHR was about 10 bpm higher than non-athletes, suggesting that maintaining cardiovascular fitness can slow the decline in heart rate.

Practical Implications for Exercise

Understanding your heart rate can help you tailor your exercise regimen as you age:

  1. Monitor Your RHR: Use a heart rate monitor or smartwatch to track your resting heart rate over time. Significant changes may indicate overtraining or other health issues.

  2. Adjust Intensity Zones: Use your age-predicted MHR to define your exercise intensity zones:

    • Zone 1: 50-60% of MHR (light activity)

    • Zone 2: 60-70% of MHR (moderate effort)

    • Zone 3: 70-85% of MHR (vigorous exercise)

    • Zone 4-5: 85-100% of MHR (high-intensity efforts)

    Alternatively, a more personalized method involves calculating your heart rate reserve (HRR), which uses both your RHR and MHR. The formula is:

    HRR = MHR – RHR

    You can then determine target zones as percentages of your HRR, added back to your RHR. Many experts consider this approach more accurate for setting intensity levels.

  3. Incorporate Variety: Engage in aerobic, strength, and flexibility training to maintain heart health and overall fitness. Activities like walking, swimming, strength training, and yoga can support cardiovascular function at any age.

  4. Listen to Your Body: While heart rate is a helpful guide, always prioritize how you feel during exercise. Fatigue or difficulty recovering may signal a need to adjust your workout intensity.

Key Takeaways

  • Resting Heart Rate: A lower RHR is a marker of good cardiovascular health, achievable through regular exercise.

  • Maximum Heart Rate: Naturally declines with age but remains a valuable guide for exercise intensity.

  • Heart Rate Reserve: Using both RHR and MHR to calculate HRR can provide more precise training zones.

  • Stay Active: Regular physical activity can mitigate some age-related changes and promote lifelong heart health.

By staying informed and proactive, you can use heart rate as a tool to maintain fitness and health at every stage of life. Always consult with a healthcare provider if you’re unsure about your heart rate trends or exercise routine.