There’s a certain longing that comes with aging, a bittersweet nostalgia for the days when our bodies felt limitless. As a 42-year-old former athlete, I often find myself reminiscing about the time when pain was a fleeting sensation, not a daily companion. There was a freedom in movement, an ability to push through exhaustion without fearing the consequences. But as the years pass, the body collects its dues. The miles run, the weights lifted, the games played—they all leave their imprint. What was once effortless now requires careful consideration.

And yet, there’s a beauty in this evolution. The awareness that comes with experience allows for a deeper understanding of movement, longevity, and the necessity of strategic training.

The Innocence of Youthful Movement

In our younger years, movement is instinctual. We sprint, jump, cut, and pivot without hesitation. There’s no second-guessing, no concern for what happens after the game. Recovery is fast. Injuries heal quickly, sometimes without us even realizing the severity of what happened. Our bodies adapt without complaint.

As a young athlete, I lived in a world of unfiltered movement, where training was all about pushing limits—running faster, lifting heavier, and grinding harder. Concepts like structural balance, mobility, or long-term durability never crossed my mind. Pain was merely an inconvenience, something to be ignored or numbed with a bag of ice. If I felt stiff, I’d stretch quickly and move on. If something hurt, I’d push through it, always focused on getting back in the game as soon as possible.

With over two decades of experience in movement science, my perspective on training has evolved. The way we move in our younger years lays the foundation for how our bodies function later in life. But rather than looking back with regret, the focus should be on adapting to meet the changing demands of an aging body. The relentless effort of youth wasn’t a mistake—it was a phase of growth and exploration. Now, the objective is to refine our approach, shifting from simply pushing limits to prioritizing longevity, resilience, and purposeful movement. Training isn’t about making up for the past; it’s about using experience to sustain strength, mobility, and vitality well into the future.

Sport is an Assessment, Not Training

One of the most valuable lessons I’ve learned as a physical therapist is this: sport itself is an assessment, not training. Too many young athletes—and even seasoned professionals—treat their sport as their primary mode of conditioning. But sports are chaotic, unpredictable, and asymmetrical. They expose weaknesses rather than strengthen them.

Watch any high-level athlete, and you'll notice a pattern: success in competition depends not just on strength and conditioning but on how well the body handles unpredictable demands. The sharp cut, the landing from a jump, the sudden burst of acceleration—these moments aren’t just about power; they test an athlete’s ability to move efficiently under stress.

This is why intentional training is essential. It should go beyond lifting heavier or running faster to address asymmetries, build resilience, and refine movement mechanics that hold up in dynamic environments. When injuries occur, they often prompt a reassessment of training approaches, highlighting the importance of movement quality and overall preparedness.

Accepting Our Changing Bodies

As we age, the accumulated effects of years of activity become more noticeable. The knee that once absorbed countless impacts may feel stiff on cold mornings. The shoulder that once threw effortlessly might ache after a weekend of recreational play. The back that handled heavy lifts with ease now offers reminders of the loads it has carried.

Over time, the focus shifts from simply doing more of what we’re good at to addressing the areas that need the most attention. Training shouldn’t just reinforce our strengths—it should target our weaknesses to create better balance, resilience, and longevity. Recovery is no longer automatic; it requires intentional effort—mobility work, strength maintenance, and strategic movement choices. Yet, this stage of life offers a deeper understanding of the body. The all-out intensity of youth evolves into a more mindful, adaptable approach, fostering a greater appreciation for well-rounded movement and the ability to keep doing what we love for years to come.

Movement for Longevity in Practice

Here are several key factors to consider as our approach to physical activity adapts and evolves:

1. Prioritizing Recovery: Recovery is no longer a passive process. It’s active. Sleep, nutrition, hydration, and structured rest days become as important as training itself.

2. Mobility Over Flexibility: Stretching alone isn’t enough. Mobility—strength through a full range of motion—is key to joint health and long-term movement quality.

3. Be intentional and Versatile in your fitness efforts. Training shouldn’t just be about working hard—it should be about executing a plan. Modify intensity, duration, and frequency to align with your goals rather than just pushing through for the sake of exertion.

4. Strength with Purpose: Lifting heavy for the sake of lifting heavy isn’t the goal. Strength should serve function. Can you get up and down off the floor easily? Does the lifting you do in the gym make you more useful to others?

5. Understanding Asymmetry: No human is perfectly symmetrical, and these natural imbalances influence how we move, perform, and recover. Rather than striving for perfect symmetry, the key is to understand and work with your body's unique asymmetries. Recognizing these patterns allows you to train more effectively, reduce compensations, and prevent long-term dysfunction. 

6. Respecting Pain: Pain is the body’s way of signaling that something needs attention—not necessarily a reason to stop, but an invitation to listen, adjust, and move smarter. Instead of ignoring discomfort or pushing through recklessly, the focus should be on recognizing what triggers it, making appropriate adjustments, and using it as a tool to refine movement and build long-term resilience.

Embracing a New Kind of Movement Joy

There is a unique satisfaction in aligning our lifestyle behaviors—sleep, nutrition, mobility work, and strength training—to support faster recovery from the intense activities we love. Whether it’s the explosive movements of basketball, the grappling demands of jiu-jitsu, or any other high-effort pursuit, we recognize that these activities come with an expectation of soreness, fatigue, and discomfort. Rather than resisting that reality, we embrace it, understanding that the true reward lies in optimizing our recovery so we can get back to doing what we love, more often and with greater resilience.

The journey becomes less about avoiding pain and more about mastering the art of preparation and restoration. There is joy in knowing that the better we care for our bodies, the more capacity we have to engage in the sports and movements that bring us fulfillment. The cycle of effort, adaptation, and recovery becomes its own source of motivation—a challenge that deepens our connection to movement and strengthens our appreciation for what the body can continue to do.

Conclusion

As we progress through different stages of life, our approach to movement and physical activity naturally evolves. The memory of pain-free living is often an illusion—we’ve always experienced pain, but it was fleeting, required little thought to address, and rarely disrupted our routines for long. Now, discomfort may linger longer and demand more intentional adjustments, making recovery and movement strategy just as important as effort and performance.

Movement compensations are a fundamental aspect of human mobility, often occurring without conscious awareness. While they allow us to navigate movement limitations, they can also lead to long-term dysfunction. This post will explore what movement compensations are, why they occur, and how to address them effectively through targeted mobility practices.

What Are Movement Compensations?

A compensatory movement is a habitual adaptation used to achieve functional motor skills when normal movement patterns are unavailable. In simpler terms, we move from areas of ease rather than from areas of difficulty. While this is beneficial for short-term function, over time, compensatory patterns lead to imbalances—some joints become hypermobile (too much movement), while others become hypomobile (restricted movement). Eventually, these imbalances contribute to pain, injury, and diminished movement variability.

Why Do We Compensate?

To effectively address compensations, we must first understand why they happen. There are three primary reasons:

1. Protection of Higher Centers of the Central Nervous System

Our brain prioritizes protecting the head and neck. A simple example is our natural reaction to a fast-approaching object—we instinctively clench our teeth, squint, shrug our shoulders, and raise our hands to guard the face. These deep-rooted reflexes ensure survival but can manifest as chronic compensations, especially during activities that require postural control and stability.

2. Lack of Specific Range of Motion

When the body lacks mobility in a required range, it “finds another way.” Here are common examples of compensatory strategies:

• Anterior Pelvic Tilt & Lumbar Extension: This occurs when the hips cannot extend properly during walking, leading to excessive lumbar lordosis.

• Foot Turnout & Knock Knees: These compensations work around limited ankle dorsiflexion when squatting.

• Great Toe Adduction (Bunion Formation): This happens when dorsiflexion is restricted at the big toe, causing the foot to turn outward and push the big toe inward and across toward the second toe.

• Excessive Shoulder Shrugging: When shoulder mobility is compromised when reaching overhead, the body relies on scapular elevation to execute the task.

These compensations are not inherently harmful, but they reduce movement variability, increasing the risk of overuse injuries. Since the body adapts efficiently, many of these patterns go unnoticed until pain or dysfunction arises.

3. Close-Packed Joint Positions

Close-packed positions maximize joint congruency, providing stability without muscular effort. While this passive stability is efficient, it reduces movement variability.

Common close-packed compensations include:

• Locking out the knees, elbows, and lumbar spine to create artificial stability.

• Maximal shoulder shrugging as a close-packed position of the sternoclavicular joint.

Though these positions offer short-term stability, they limit active control, leading to chronic stiffness and dysfunction.

How to Reduce Movement Compensations

Now that we understand why compensations occur, let’s explore practical strategies to minimize them. The goal of mobility training is not just to improve flexibility but to enhance movement control by increasing awareness of compensatory patterns.

1. Limit Moving Parts

Reducing the number of moving joints during an exercise helps isolate the targeted movement. For example:

• Overhead Shoulder Mobility in Tall Kneeling: By kneeling instead of standing, compensations from the lower body are minimized, making it easier to assess and correct movement faults.

• Prepositioning the Spine & Hips: Slightly flexing the spine can prevent lumbar extension compensations during overhead movements (e.g., reaching the arms overhead in a Child’s Pose position)

By eliminating unnecessary movement variables, we can better control and refine motor patterns.

2. Decrease the Challenge of the Movement

Training movement should be thought of as a continuum, from assisted exercises to high-speed or high-load movements.

• Assisted Repetitions: Providing external support (e.g., holding a pole while squatting) allows for better exploration of restricted ranges. This assistance makes it easier to both identify and correct movement compensations.

• Gradual Progression: Once control is established in easier variations, the challenge can be progressively increased by reducing assistance or adding resistance.

3. Add Feedback Mechanisms

Feedback helps individuals become aware of compensatory movements. Incorporating multiple sensory inputs enhances learning:

• Visual Feedback: Using a mirror or recording a video to analyze movement patterns.

• Auditory Feedback: Receiving verbal cues from a coach or training partner.

• Tactile Feedback: Using manual cues or external implements to highlight compensations.

Optimally, mobility drills should provide enough constraints that external feedback becomes unnecessary over time.

Conclusion

Movement compensations are inevitable, but they can be managed with a structured approach to mobility. By understanding why we compensate and using strategies to improve awareness and control, we can enhance movement quality, prevent injuries, and expand our movement variability. Whether your goal is performance enhancement or recovery, recognizing and addressing compensations is a key step toward sustainable, pain-free movement.

Further Reading: Mobilize

For a deeper exploration of the principles discussed in this article, including detailed exercises, strategies, and real-world applications, check out my book Mobilize. This book provides a step-by-step guide to understanding and implementing mobility work effectively, helping you move better, reduce pain, and optimize performance.

Introduction

Mobility is one of the most misunderstood concepts in health and fitness. Many debates center around whether mobility work improves joint function, soft tissue flexibility, or nervous system regulation. The confusion surrounding these discussions often leads to frustration and, ultimately, neglect of mobility work altogether.

This article aims to simplify mobility by shifting the conversation from a purely anatomical discussion to a practical movement-based approach. Movement is not limited to muscles, joints, or the nervous system; rather, it represents a coordinated integration of all bodily systems. To clarify mobility, we introduce the following equation:

Mobility = Position + Breath + Direction

By breaking down these three components, we can better understand how to optimize mobility and integrate it effectively into movement.

Position: The Foundation of Mobility

Mobility restrictions often stem from an inability to attain or maintain stable positions during movement. Rather than focusing on isolated joints, we should consider the relationships between body segments from head to toe. Two key principles define an optimal starting position for mobility:

1. Head Over Ribcage Over Pelvis

Aligning the head, ribcage, and pelvis is crucial for efficient breathing and load distribution. When these areas are stacked, air and fluid pressure move more effectively throughout the body. Conversely, misalignment can disrupt internal pressure dynamics, reducing the effectiveness of movement and stability.

Proper positioning also establishes a foundation for movement to occur from the center outward. This sequencing ensures force is directed through the trunk before reaching the extremities, enhancing performance and minimizing injury risk.

2. Proximal to Distal Positioning

Movement should originate from the center of the body and flow outward. Many mobility practices mistakenly emphasize distal segments like the hands or feet rather than addressing central alignment. For example, when attempting to improve hip extension in a kneeling stretch, forcing the knee farther back may lead to compensations, such as excessive lower back arching. Instead, focusing on the position of the pelvis and ribcage first will yield better results without unintended compensations.

If we push the most distal segment of a joint into a position that the proximal structures cannot support, the body will compensate by finding the path of least resistance. By prioritizing central positioning, we can ensure safer and more effective mobility improvements.

Breath: The Missing Link in Mobility

Breathing influences mobility by creating internal pressures that drive movement from the inside out. The ability to control inhalation, exhalation, and breath retention directly impacts positioning and movement efficiency.

Inhalation

During inhalation, the diaphragm contracts, increasing intra-abdominal pressure and expanding the ribcage. Ideally, this breath should move in a 360-degree direction, expanding the belly, sides, and lower back. A well-executed inhale has the potential to initiate a cascade of expansive pressure throughout the body, promoting joint decompression and creating more space for fluid movement. Unfortunately, modern lifestyles often lead to dysfunctional breathing patterns that rely on accessory neck and back muscles instead of the diaphragm. This leads to increased tension and reduced mobility.

Exhalation

Exhalation plays a critical role in stabilizing the core and directing force efficiently through the body. A well-controlled exhale compresses the abdomen and ribcage, increasing midline stability and better directing our proximal muscle contractions. Dysfunctional exhalation patterns, on the other hand, can lead to excessive outward pressure, increasing the risk of hernias and lower back pain.

Retention

Breath retention serves as an effective tool for improving both stability and mobility. Holding the breath after an inhale enhances intra-abdominal pressure and spinal stability, while retention after an exhale optimizes diaphragm function and nervous system control. Training breath retention has been shown to improve stress tolerance, endurance, and overall movement efficiency.

Direction: Guiding Mobility with Intention

With proper positioning and breath control established, we can begin directing mobility efforts with greater precision. Directional movement strategies ensure that mobility work is specific, intentional, and effective.

Synchronizing Breath and Movement

Breath should correspond with joint motion. Inhalation pairs with flexion, abduction, and external rotation, while exhalation supports extension, adduction, and internal rotation. Aligning breath with movement enhances coordination and optimizes force production.

Directional Isometrics: Strength at End Range

Isometric contractions help improve mobility by increasing strength at the limits of a joint’s range of motion. These contractions can be divided into two types:

1. Agonist Contractions: Contracting the muscles that produce the limited movement to strengthen them at end range. For example, actively reaching farther overhead when moving into shoulder flexion.

2. Antagonist Contractions: Contracting the muscles that oppose the limited movement to override protective tension. This technique takes advantage of reciprocal inhibition, where activating one muscle group leads to relaxation of the opposing group.

Additionally, directional isometrics can be applied to entire movement patterns, not just isolated joints. For example, engaging key muscles at the bottom of a squat can improve the ability to move fluidly in and out of the position.

Using Gravity and Pressure for Mobility

Position and breath can be further optimized by manipulating gravity and external pressure. Different positions provide assistance or resistance to various aspects of the breath cycle, making it easier to direct mobility efforts where they are most needed.

For example:

• Prone positions assist with forward expansion of the abdomen during inhalation.

• Supine positions support backward expansion of the lower ribcage during inhalation.

• Elevated hip positions facilitate compressing the pelvic floor upward during exhalation.

• Sidelying positions help to compress the lower ribcage and pelvis side-to-side.

Similarly, applying external pressure to key anatomical regions during breathing exercises improves body awareness and enhances movement control.  For example, placing a weighted sandbag on the abdomen while lying supine can provide tactile feedback to “breathe the weight out of the belly”, encouraging diaphragmatic engagement and reinforcing the intended breathing mechanics.

Practical Breathing Techniques for Mobility

To integrate breath control into mobility work, consider the following techniques:

1. 4-7-8 Breathing: Inhale for four seconds, hold for seven, exhale for eight. This technique slows breathing and enhances relaxation.

2. Metronomic Breathing: Inhale and exhale at a consistent rhythm (e.g., five seconds each) to promote even breath control.

3. Box Breathing: Inhale, hold, exhale, and hold again for equal time intervals (e.g., 4-4-4-4 seconds) to improve breath control and stability.

4. Balloon Breathing: Using a balloon to exhale against resistance enhances core activation and exhalation control.

5. Straw Breathing: Exhaling through a straw prolongs the breath and promotes relaxation.

Conclusion

By reframing mobility as a combination of position, breath, and direction, we can create a more effective and sustainable approach to movement. Instead of isolating specific joints or tissues and merely "looking for a stretch," mobility work should focus on the integrated function of the entire body.

• Position establishes the foundation for movement by aligning the head, ribcage, and pelvis.

• Breath serves as the internal driver of movement, creating pressure changes that optimize mobility.

• Direction ensures that mobility work is applied with intention, strengthening movement patterns and improving control.

By adopting this approach, mobility work becomes more than just passive stretching or foam rolling—it transforms into an active process of enhancing movement efficiency, reducing injury risk, and improving overall performance.

Further Reading: Mobilize

For a deeper exploration of the principles discussed in this article, including detailed exercises, strategies, and real-world applications, check out my book Mobilize. This book provides a step-by-step guide to understanding and implementing mobility work effectively, helping you move better, reduce pain, and optimize performance.

One of the most common misconceptions in movement, fitness, and rehabilitation is the idea that pain equals injury. This misunderstanding often leads to unnecessary fear, avoidance of activity, or, on the other end of the spectrum, pushing through when rest or modification is needed.

The reality? Pain and injury are not the same thing.

Pain: A Warning Signal, Not a Diagnosis

Pain is a message from your nervous system—an alert that something is demanding attention. It can be caused by a variety of factors, including:

• Sensitization of the nervous system (e.g., when you feel sore after a tough workout)

• Movement compensations that create tension or discomfort

• Inflammation from increased load or stress

• Emotional and psychological factors (stress, anxiety, lack of sleep)

Pain does not necessarily mean damage. It simply means your body is reacting to something. A great example is delayed onset muscle soreness (DOMS)—the discomfort after a workout that signals adaptation, not injury.

Injury: Structural Damage That Needs Time to Heal

An injury, on the other hand, involves actual tissue damage—such as a ligament tear, muscle strain, or bone fracture. Unlike pain, an injury typically follows a specific incident and presents with more objective signs, including:

• Swelling, bruising, or deformity

• Loss of function or inability to bear weight

• Sharp, localized pain that doesn’t improve with movement or time

Why This Distinction Matters

Understanding the difference between pain and injury allows you to:

✅ Continue training intelligently – Instead of stopping all activity, modify movements or adjust intensity if you're experiencing pain without injury.
✅ Avoid unnecessary fear – Not all pain means you need to stop moving. Sometimes, movement is the best solution!
✅ Prevent actual injury – Ignoring early warning signs (pain from poor movement mechanics) can eventually lead to injury.

How to Respond to Pain vs. Injury

If you experience pain:
🔹 Assess your movement—are you compensating?
🔹 Modify your load, volume, or intensity.
🔹 Improve recovery—sleep, hydration, stress management.
🔹 Stay aware, but don’t panic.

If you suspect an injury:
🔸 Rest and avoid aggravating movements.
🔸 Seek professional assessment if the pain is sharp, persistent, or accompanied by swelling and loss of function.
🔸 Allow proper healing time before returning to full activity.

Final Thought

Pain is part of training and movement—injury doesn’t have to be. Learn to listen to your body, but don’t be afraid of discomfort. Pain is information. Injury is damage. Knowing the difference can keep you moving for life.