Training Hard vs Training SmartThere are many components to consider when looking to promote proper recovery and restoration from training, be it from sport training or simply the goal of personal fitness. Similar to the considerations made in program design, one must be smart about the tools or tricks they use when it comes to nutrition, rest, and restoration techniques. In my personal experience, the overwhelming majority of individuals who train and compete on a regular basis commonly lack an understanding of recovery methods that are only going to help them optimize their training outcomes. They focus so much attention on their actual training, but fail to bring the same level of focus and attention to detail when it comes to nutrition or even proper sleep habits. When this occurs, training results are typically limited. There becomes a greater resistance to progress, leaving many in this situation feeling frustrated and confused. This is exactly why the understanding of rest and restoration must be passed on to the client or athlete. Yes, there is a difference between rest and restoration.

Basically, rest implies sleep or doing something restful, such as a nap or relaxing while watching the game. However, rest does not guarantee restoration, or the recovery and renewal of the body’s systems (i.e. cardiorespiratory, neuromuscular, endocrine, immune, etc.) from training demands. Not all systems recover in the same time frame and their restoration needs will be dictated by training volume and/or intensity. For the purposes of this article, we are going to discuss the application of recovery and restoration methods as they apply to recovery of the nervous system, specifically the autonomic nervous system.

Keep in mind, it is the current state of the autonomic nervous system that should dictate both training load and restoration methods. Meaning, it should be determined whether an individual is in a state of sympathetic or parasympathetic dominance. The ability to recognize this is crucial in decision making and avoiding inappropriate training loads or restoration methods, as these can push you down the wrong path. Ideally, restoration methods should be as individualized as the training process if your goal is optimal results. But, in general, here are some guidelines that will help you identify where you may fall on the sympathetic-parasympathetic spectrum and how to apply restoration methods to bring you back into an optimal state of recovery.

A) Parasympathetic Dominance (most typically experienced by endurance athletes)

• Signs and Symptoms: chronic tiredness or heavy fatigue, low motivation to train, low resting heart rate, low blood pressure, low libido.

Restoration Methods: use SYMPATHETIC based recovery protocols

1. Active Recovery Training: The goal is to increase blood flow to the peripheral musculature, speeding up processes of aerobic metabolism inherent in recovery. These activities should ideally be of low muscular and metabolic load, such as an easy bike, swim, or circuits of body-weight exercises.  Avoid high CNS demands, keeping active recovery sessions within 20-30 minutes.
2. Intensive Deep Tissue Massage: Deep tissue massage will up-regulate the sympathetic nervous system through increased proprioceptive input to CNS, which will influence changes in the state of the autonomic nervous system as well as the myofascial system.
3. Cold Water Immersion: May reduce perception of fatigue and soreness after training sessions by up regulating the sympathetic nervous system.  Repeat 2-5 minutes in cold water for 3-5 rounds.
4. Sauna: Increased core temperature results in increased sympathetic response and speed of metabolic processes. It should be noted that the parasympathetic response increases following sauna use. In general, when looking at recommendations for the use of the sauna to promote recovery, the sauna should be between 180-200 degrees for an optimal response. There are a number of various sauna protocols to aid in recovery. In general, repeat 2-4 rounds of 5-10 minutes in the sauna, followed by a cool shower rinse.

B) Sympathetic Dominance (
most typically experience by power-speed athletes)

• Signs and Symptoms: elevated resting heart rate, elevated blood pressure, poor sleep, mood changes such as being more irritable, suppressed appetite, restlessness, poor or declining performance, low libido.

Restoration Methods: use PARASYMPATHETIC based recovery protocols

1. Active Recovery Training: Yes, this has similar application and can be used in either parasympathetic or sympathetic dominance. Follow the guidelines as previously mentioned.
2. Relaxation-based Massage: Soft, gentle touch can generate a powerful parasympathetic response. Massage with the targeted goal of promoting relaxation will down-regulated the sympathetic nervous system. Again, this is achieved through proprioceptive input to CNS.
3. Hot Tub: Hot water immersion promotes relaxation and increased parasympathetic response. Greatest benefit is achieved when water temperature is around 102 for 10-20 minutes.
4. Deep Water Floating and/or Swimming: Not as commonly known or utilized as other restoration methods, this method is exactly what it sounds like, floating in deep water. Deep Water Floating’s benefits come from the proprioceptive changes due to the body being unloaded from gravity. A common recommendation is to alternate between 5-10 minutes of swimming and 5-10 minutes of floating while using a floatation device to ensure complete relaxation.

Concluding Thoughts
This is by no means a comprehensive discussion on recovery and restoration methods. Other methods such as naps, meditation, relaxation techniques, EMS (electro-muscular stimulation), and reduction of training volume and/or intensity can be implemented with great success as well. Remember to be strategic in the selection of your recovery methods, keeping in mind how they impact the various systems of the body. These techniques will not overcome poor training, nutritional, and sleep habits. They are intended to be an adjunct to already properly structured training and rest schedule, allowing you to optimize your readiness to train and compete.

More related reading:

https://gallagherperformance.com/why-poor-recovery-will-make-you-sick-sad-and-weak/

https://gallagherperformance.com/the-2-most-common-reasons-why-results-suffer/

https://gallagherperformance.com/resetting-bodys-function-post-injury/

What you need to know:

• Many endurance athletes have exhausted their means of improvement with traditional training.
• Training deficiencies, such as strength, can take your endurance capacity to new levels.

The Problem with Tradition
Similar to any group of competitive athletes, endurance athletes carry their own 'traditional' concepts when it comes to training and program design. Whether they are runners, bikers, swimmers, triathletes, or any combination in between, anyone new to an endurance sport realizes they must improve their aerobic capacity to sustain a specific pace over a specific distance. In order to do this, many people simply take to road and log mile after mile after mile.

After all, this is the accepted way of doing things, right? As a runner, if I have the goal to run a half marathon and I can only run 5 miles, obviously I need to put my time in to improve my running. But, what happens when simply just running or just biking fail to provide you the results you want? For many, this means they decide to start doing more. They think, "I must not be doing enough, so I must do more to improve."

In the endurance community, this type of thinking is the essence of traditional training. But is this training efficient in producing results? Are you wasting your time? What if the reason for your plateau in progress is not your lack of running/biking/endurance, but rather a deficiency, such as strength, that you may not have considered?

Approach enough endurance athletes about strength training and you will hear a lot of myths and misconceptions. However, talk to some of the best endurance athletes in the world and they will acknowledge the benefit strength training has in their performance. With that in mind, let's look at two of the most popular misconceptions.

Misconception #1 - Strength Training is Not Useful
This myth continues to stand the test of time despite the evidence that strength training is beneficial to athletes, regardless of sport. Even to this day, there are endurance sport experts that debate back and forth on whether or not endurance athletes need to lift weights.

Seriously? This is still happening even when we know strength training is a necessity for optimizing sport performance and health? Of special importance to endurance athletes, strength training has been shown to:

• Maintain and/or promote the building of muscle mass. This is a huge benefit because endurance training negatively impacts muscle mass, meaning many athletes lose precious muscle.
• Strengthen the endocrine and immune systems. Yet another big plus since chronic endurance training has a negative impact on both these systems.
• Promote adequate bone density. The importance of this should speak for itself, but this will be of special importance to runners when you consider the risk of stress fracture.

When you take all that into consideration as well as the ability that strength training has to correct imbalances in the body and promote neuromuscular coordination, strength training should be an essential component to your training program.

Misconception #2 - Avoid Heavy Weights and Low Reps
Now that you have considered resistance training as part of your endurance routine, the next misconception to deal with is exactly how an endurance athlete should go about lifting weights. This misconception has its roots in the belief that endurance athletes need to perform high-repetition sets, usually 15-20 or more reps. The idea being high-reps will build muscle endurance, which will have the best carry over to their endurance sport. Again, this may work in the beginning, but as an athlete becomes more experienced and improves, training must adapt accordingly.

Keep in mind that many endurance athletes have exhausted their improvement with traditional training. The key to improvement now becomes identifying any deficiency. For endurance athletes deficient in strength related pathways, they can benefit from maximal strength training. Training for maximal strength requires specialized programming and relies on lifting heavy weights explosively for lower amounts of total reps.

To illustrate this concept, here is an example of a triathlete who utilized maximal strength training in her program with very successful results.

Case Study:

• Triathlete trained is one of the head researchers for PowerBar, has a PhD in nutrition.
• 8-10 lifts were performed per month in the 90-95% range of her 1RM (rep max)
• Special exercises performed were box squats, special deadlifts, good mornings, and a similar variety of pressing movements for upper body.
• No high repetition work was performed to avoid soreness and a high degree of effect on her traditional triathlon training.  Also, very little time is spent training in this manner.
• She was amazed at the results this training was giving her. She said that she “could now look at any hill, use muscles she never had, and was able to dig deeper than ever before, and have a posture that was solid as stone,” which made her much less fatigued at the end of the run. She had shaved 1/2 hour off of her Iron man, and did about 4 hours less work per week of traditional training.  She had gained 2lbs of weight from the beginning as she trained this way for 8 months. Her bodyfat went down about 2%, and she no longer had back pain, neck pain, and less nagging training injuries and setbacks.

Importance of Maximal Strength to the Endurance Athlete
What’s the importance of maximal strength to the endurance athlete?  Let's consider two athletes, athlete A and athlete B.  They are both seasoned runners, but athlete A becomes much stronger, relatively speaking, while athlete B stays the same in strength.  Keeping body weight constant, it will take less effort for the stronger athlete to perform the same amount of work.  This increases endurance through strength conservation.

Clearly, the programming of specialized strength training can be beneficial. Also consider that the athlete in the case study above did almost 4 hours LESS training per week. This concept is known as training economy. Training economy is about achieving the greatest sport result with the less amount of time and energy spent in training. Thomas Kurz said it best in his book, Science of Sport Training:

"Training is efficient if the highest sport result is achieved with the least expense of time and energy".

To highlight this concept even further, research performed in Finland at the Research Institute for Olympic Sports found that replacing almost 1/3 of regular endurance training with explosive strength training not only improved strength and speed tests, but also improved aerobic capacity and running economy.

Take a moment to consider how much of your endurance training is unnecessary and whether your time may be better spent on training your deficiencies.

Final Words
The purpose of this article was to provide some insight into the importance of considering alternatives to traditional endurance training. Integrating resistance training to built specialized strength will only compliment your endurance capacity and provide you with a more efficient training program. To become a complete endurance athlete, addressing deficiencies appropriately can be the difference between a season of frustration and one of personal bests.