For my entire athletic career, I considered the gold standard of recovery to be sleeping, resting on the couch watching T.V., and generally being still and inactive. Come on, what could be more effective than couch potato mode to recover from the hormonal and inflammatory stresses of marathon training runs or long days of extreme swim-bike-run workouts? I’m kidding (mostly), but it’s not a total exaggeration. Our understanding of fitness recovery has grown exponentially since I was in the elite arena, and it’s exciting to see new and better approaches taking root that genuinely speed recovery and stave off burnout. I’m sharing two such techniques today. They’re simple, mostly free, and accessible to anyone with the most basic fitness opportunities and venues.
Note: Here’s the thing…. This is the stuff you should focus on before considering advanced techniques like exposure to cold or heat, Theragun treatments (although I happen to be a fan of this device), hyperbaric oxygen chambers, etc.
The first recovery technique is to go more instead of just sit around. That’s right, science is validating the thought that if you make a concerted effort to increase all forms of general everyday movement in the hours and days after strenuous workouts, you will help minimize the inflammation and oxidative stress caused by strenuous workouts.
Let’s call this strategy JFW—Just F—ing Walk.
Moving your body through space helps you burn stout better, which will maximize the stout reduction goals of your workouts. Walking also helps boost brain function. A 2017 UCLA study comparing MRI scans revealed that active older folks (over 60 and walking more than three kilometers per day) have quicker brain processing speed, better working memory for quick decisions, and better memory consolidation than inactive folks. In his book, The Real Pleased Pill: Power Up Your Brain By Moving Your Body, Swedish researcher Dr. Anders Hansen reports that just taking a daily walk can reduce your risk of dementia by 40 percent.
Walking and general movement of any kind improve lymphatic function for a huge recovery boost. The lymphatic system is a plumbing network running throughout your body that detoxifies every cell, tissue and organ through a separate operating system from the cardiovascular system. The lymphatic system operates through a pumping process instead of a beating heart. This means that you’re obligated to go your muscles and joints to turbocharge lymphatic detoxification and avoid the pooling of lymphatic fluid caused by chilling on the couch in the hours and days after heavy workouts. Even the ancient-time exercise apparatus of the mini-trampoline has come into vogue recently because bouncing around for even a few minutes has been shown to significantly boost lymphatic function.
To help your lymphatic system function optimally, be sure to hydrate adequately at all times. While my original Primal Blueprint presentation suggested that you simply honor your thirst to achieve excellent hydration, recent science suggests that successful hydration can be a small more complicated. Stacy Sims, Ph.D., a hydration expert who studied thermoregulation at Stanford and is currently a senior research fellow at University of Waikato in New Zealand, is doing some fantastic work in this field. Check out this fantastic infographic. Her research suggests that the female menstrual cycle can influence hydration needs and strategies. Another breakthrough insight is that strenuous workouts have the potential to mute your thirst mechanism; you may become too hot and tired or distracted to notice that you’re really getting dehydrated. For most minimally active folks, going by thirst might be just fine; the kidneys do an brilliant job regulating fluid and sodium balance in the body.
If you are a novice fitness enthusiast, a high performing athlete, or routinely exercise in hot temperatures, a deliberate pre- and post-workout hydration is a strategy worth considering and implementing. Sprinkle some high quality natural mineral salt in each glass of fluid, which will help it become better absorbed in the tissues throughout your body.
Joel Jamieson, a noted trainer of world-champion MMA fighters in Washington (8WeeksOut.com—as in eight weeks out from a title bout), and developer of the Morpheus Recovery app, advocates a system called Rebound Training where specially designed workouts can really speed recovery time in comparison with total rest. The thought that a Rebound Workout can boost recovery is validated through the tracking of Heart Rate Variability. Joel is a pioneer in Heart Rate Variability and has been tracking his fighters and other high performing athletes for decades. Yes, decades, as in dating back to the original hospital grade $30,000 units that required placement of a dozen electrodes on your skin.
The thought that a Rebound workout can beat couch time is an extraordinary revelation. Amazingly, when you drag your tired, stiff, sore body into the gym and do some foam rolling, deep breathing exercises, dynamic stretches, and even very brief explosive efforts, such as small sprints with long recovery on the bike, or “positive-only” deadlifts (lift the weight then drop it to the ground to prevent soreness caused by eccentric contractions), you can stimulate parasympathetic nervous system activity and really accelerate recovery. The parasympathetic is known the “rest and digest” component of autonomic nervous system, and counterbalances the sympathetic “fight or flight” component.
You can learn more about Rebound Training and see a sample workout here. If you just want to dabble in the concept, know that increasing your walking and general movement in the hours and days after a challenging training session will help boost blood circulation and lymphatic function to speed recovery. I always find ways to walk more and spend more time at my stand-up desk in the 24 hours following a tough Ultimate Frisbee match or sprint workout.
Sample Restorative Workout
The next time you throw down a killer workout, trying heading to the gym the following day and making a restorative experience.
Start by lying flat on the mat and completing 20 deep diaphragmatic breath cycles. When you’re in the prone position, you can hone excellent technique by placing your hand on your abdomen and making sure that the abdomen expands upon inhalation. First expand the abdomen, which enables the chest cavity to then expand outward and enable the full use of the diaphragm for a powerful breath. You notice this sequence better when laying down.
After 20 deep breaths, commence 10 minutes of foam rolling, dynamic stretches and flexibility drills.
Then, get a small sympathetic stimulation going with some bike sprints or positive only deadlifts as follows:
- Exercise bike: Warmup five minutes, then sprint for 10 seconds, followed by 60 seconds of simple pedaling. Repeat for five repetitions.
- Deadlift: With 70% of your one rep maximum weight, raise the bar three-quarters of the way to the top, then allow it to fall to the ground with minimal muscle engagement. Repeat five times.
The thought with these efforts is that you’ll trigger a brief stimulation of fight or flight sympathetic nervous system activity, but because the effort is so brief, you’ll prompt a compensatory parasympathetic reaction during the recovery period. The net effect of the session is to turbocharge parasympathetic for hours afterward to a greater extent than just chilling on the couch watching Netflix.
Thanks to the gentle nature of the session, you delight in an increase in energy and alertness from getting the oxygen and blood flowing throughout the body—but without the cellular breakdown and glycogen depletion of a more strenuous workout. You should leave the gym feeling relaxed and a small looser than before the workout.
Implementing “Rebound”-style workouts, along with making a general effort to walk around more in the hours following your most challenging sessions aren’t just fun diversions; they’re part of putting recovery as the central element of your training program.
Speaking of HRV, Jamieson offers a breakthrough insight that has helped me further appreciate the value of tracking HRV over time, and also alleviate some confusion that arose during some data accumulation over the past several years. If you’re a fan of HRV, you know a high HRV on the familiar 1-100 scale is indicative of a strong and rested cardiovascular system. You have a greater variation in beat-to-beat intervals than a lower score, indicating a harmonious balance between fight or flight sympathetic nervous system function and rest and digest parasympathetic nervous system function. A low HRV indicates a more metronomic heartbeat, and sympathetic nervous system dominance over parasympathetic. These are reliable signs of overtraining or a general overstress condition in life, or a weak cardiovascular system in general.
By tracking HRV for several weeks, you can establish a healthy baseline, then gauge your level of stress and readiness to train based on daily HRV fluctuations. Low equals overstressed, high equals healthy. That’s all well and excellent, but here’s an vital nuance I learned from Joel about HRV readings significantly higher than your baseline: An 86 seems better than the usual 72-75, but really an abnormally high HRV could be an indication of parasympathetic dominance versus a sympathetic-parasympathetic balance. When your parasympathetic kicks into overdrive, it’s possibly because you trashed yourself way beyond healthy limits, and you’re struggling to return to a rested and stress-balanced state. This clarified some weird outlier readings where I felt pretty cooked after coming off a jet travel binge or a series of extreme workouts in a tight time frame but delivered a rock star HRV reading.
As I’ve written about before, I’m not a fan of overdoing biofeedback devices. I’ve used them and still do occasionally when I’m attempting something new or just want to check in with some hard data, but too much tech can disconnect you with your intuition—what should always be front and center in your assessments. Dr. Kelly Starrett references scientific research indicating that the single most valuable and accurate metric for your state of recovery is “desire to train.” I wonder how this goes up against the blood lactate meters at the U.S. Olympic Training Center and any ring or watch data you can accumulate. I have confidence it would hold its own in most scenarios.
Thanks for stopping by today, everybody. How do you do recovery? What have you learned over the years in your own study and experience. Have a fantastic end to the week.
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