Episode 80: The Hockey Body — Why the Skating Stride Is Destroying Your Hips (And How to Fix It)

Episode 83: "Practice Makes Perfect" — Why Training Your Sport Every Day Is Actually Holding You Back

More reps. More ice time. More swings. More serves. If you want to be great, you need to grind every day, right? Wrong. This belief isn't just incorrect—it's the reason so many athletes plateau, burn out, and end up with preventable overuse injuries. The Repetition Trap Your body isn't a machine. It's a biological system that adapts to stress—but only if you give it time to adapt. When you practice the same movement patterns every single day without adequate recovery, you don't get stronger. You accumulate microtrauma faster than your body can repair it. This is the definition of an overuse injury—the slow accumulation of damage that never gets a chance to heal. The Overuse Epidemic The injury data in youth sports is clear: * ACL tears in young female athletes have skyrocketed * Little League elbow and shoulder injuries are at all-time highs * Stress fractures in runners and dancers are epidemic * Hip labral tears in hockey players are increasingly common—even in teenagers A landmark study in the American Journal of Sports Medicine found that young athletes who specialize in a single sport are 70 to 93 percent more likely to be injured than those who play multiple sports. Multi-sport athletes develop more balanced bodies. They load different tissues in different ways. They get natural recovery from sport-specific movements while still staying active. The Performance Plateau Beyond a certain volume, more practice doesn't improve performance—it just accumulates fatigue. Fatigue doesn't just make you tired. It makes you sloppy. It reinforces poor movement patterns. It ingrains compensations. Practice doesn't make perfect. Practice makes permanent. And if you're practicing while fatigued, you're making faulty patterns permanent. The best athletes understand that adaptation happens during recovery, not during training. What Actually Makes Athletes Better 1. Strength Training The most underutilized tool in amateur athletics. A stronger athlete is a more resilient athlete. Strength training builds the tissue capacity to handle sport-specific loads without breaking down. * A golfer with a strong core and hips can swing thousands of times without destroying their back * A hockey player with strong adductors and glutes can handle skating demands without groin strains * A tennis player with robust rotator cuff strength can serve all day without shoulder problems Strength is the foundation that sport-specific skills are built on. Without it, you're building on sand. 2. Movement Variability Your body thrives on varied movement. Playing multiple sports, cross-training, doing activities outside your primary sport—these all build more adaptable, resilient athletes. * If you're a hockey player, play lacrosse in the summer * If you're a golfer, lift weights and do yoga * If you're a runner, swim and cycle Your primary sport will benefit from the variety, not suffer from it. 3. Planned Recovery Recovery isn't laziness. It's when adaptation happens. Your tendons don't get stronger while you're practicing. They get stronger in the 24 to 72 hours after practice, when your body is repairing and remodeling tissue. If you never give that window, you never get the adaptation. The Ontario Context This myth is particularly damaging here in Ontario because of our sports culture. Kids in hockey academies skating five or six days a week, year-round. Young tennis players hitting thousands of balls weekly. Golfers on the simulator every day. The data says: the kids who make it to elite levels are more likely to have played multiple sports growing up. The kids who specialize early are more likely to burn out, get injured, and quit their sport entirely by their late teens. Parents: Letting your child have an off-season, play different sports, and take breaks isn't holding them back. It's setting them up for long-term success. Your Tuesday Myth-Bust Audit your training week: * How many days are sport-specific practice? * How many days include strength training? * How many days are true recovery? If the answer is "all sport, no strength, no rest"—you're on the path to injury and plateau. A better split for most athletes: * 2-3 days of sport-specific practice * 2-3 days of strength and conditioning * 1-2 days of active recovery or complete rest Tuesday Truth "Practice doesn't make perfect. Practice makes permanent. And practicing while fatigued, under-recovered, and without a strength foundation makes injury permanent." The best athletes aren't the ones who train the most. They're the ones who train the smartest. They build strength. They embrace variety. They respect recovery. More is not better. Better is better. About Absolute Rehabilitation & Wellness: Located in Burlington, Ontario, we help athletes train smarter, recover faster, and build the resilient bodies that high performance demands. We assess movement, treat dysfunction, and build strength—so you can do more of what you love without breaking down. 📞 Call our Burlington clinic: 905.332.7000 🌐 absoluterw.com [https://www.absoluterw.com]]]>

Episode 82: "Anti-Inflammatories Help You Heal Faster" — Why Popping Ibuprofen Might Be Slowing Your Recovery

Reaching for ibuprofen, Advil, or Aleve at the first sign of pain might actually be slowing your recovery. You've been told your whole life that inflammation is bad. That swelling is the enemy. That the faster you can shut down that inflammatory response, the faster you'll heal. But the science tells a different story. The Inflammation Myth Chronic, systemic inflammation IS problematic—it's associated with heart disease, diabetes, and autoimmune conditions. But acute inflammation—the kind that happens when you sprain your ankle, strain a muscle, or injure a tendon—is completely different. It's not a malfunction. It's the first and most essential phase of the healing process. Inflammation is how healing begins. What Inflammation Actually Does * Blood flow increases: Delivering raw materials needed for repair * Immune cells flood the site: Neutrophils and macrophages clean up damaged tissue and prepare for rebuilding * Chemical signals are released: Prostaglandins, cytokines, and growth factors coordinate the entire healing cascade * Swelling occurs: That fluid contains proteins, nutrients, and immune cells essential for repair This inflammatory phase lasts 3-7 days. If you aggressively suppress it, you're not speeding up healing—you're interfering with it. What the Research Says About NSAIDs and Healing NSAIDs block COX-1 and COX-2 enzymes, reducing prostaglandin production. But those same prostaglandins are essential signaling molecules for tissue repair. Bone Healing A 2010 review in the Journal of Bone and Joint Surgery found NSAIDs impair osteoblast activity. Regular NSAID use can delay fracture healing by several weeks. Tendon Healing A 2017 study found ibuprofen impaired tendon-to-bone healing in rotator cuff repairs—less organized collagen and reduced strength. Muscle Healing One study found ibuprofen reduced muscle protein synthesis after exercise by nearly 50 percent. Ligament Healing Studies show anti-inflammatory use can delay healing and result in weaker scar tissue formation. The Pain Paradox Pain serves a purpose—it's information telling you to modify your behavior. When you mask pain completely, you lose that feedback signal. If you take ibuprofen and your ankle stops hurting, you might walk on it normally. But the tissue is still damaged. You've just turned off the alarm—leading to re-injury and turning acute problems into chronic ones. When NSAIDs Make Sense * Chronic inflammatory conditions: Rheumatoid arthritis, ankylosing spondylitis * Severe pain preventing function: Short-term use (days, not weeks) * Post-surgical protocols: As directed by your surgeon * Later stages of healing: After the first week, occasional use is less likely to impair healing What to Do Instead Embrace Relative Rest Modify activity to reduce load on injured tissue while maintaining movement elsewhere. Use Ice Strategically 15-20 minutes at a time, with at least an hour between applications. Elevate When Appropriate Help fluid drain mechanically without interfering with the inflammatory process. Compress Thoughtfully Limit excessive swelling while allowing inflammation to proceed. Move Early and Often Early, gentle movement within pain-tolerable ranges pumps fluid through tissue, delivers nutrients, and prevents stiffness. Seek Treatment That Supports Healing Electroacupuncture promotes blood flow, reduces pain through endorphin release, and modulates inflammation without suppressing it. Manual therapy improves circulation and restores movement patterns. Progressive exercise provides the mechanical stimulus tissues need to remodel. Consider Acetaminophen Tylenol is a pure analgesic—it reduces pain without interfering with the inflammatory cascade. Masking vs. Healing Masking symptoms: Making pain go away without changing the underlying condition. Short-term solution, long-term problems. Addressing the problem: Understanding why you're in pain and taking steps to actually fix it. Leads to genuine resolution. Tuesday Truth "Inflammation isn't the enemy. It's the first responder. It's the cleanup crew. It's the foundation of every healing process your body undertakes." The best approach? Support healing, don't suppress it. Move early. Seek treatment that works with your body. Save the NSAIDs for situations where they're truly needed. About Absolute Rehabilitation & Wellness: Located in Burlington, Ontario, we help you heal smarter—not just feel better temporarily. We understand root causes, support your body's natural healing processes, and build your capacity for long-term resilience. 📞 Call our Burlington clinic: 905.332.7000 🌐 absoluterw.com [https://www.absoluterw.com]]]>

Episode 81: The Forgotten Foundation — Why Your Ankles Are Sabotaging Your Running (And What to Do About It)

Whether you're training for a marathon, hitting the trails on weekends, or just getting back into running after years away—this episode is for you. There's a part of your body that's absolutely critical to your running performance and injury prevention, and most runners are neglecting it: your ankles and feet. The ankle is the first major joint to absorb impact when your foot hits the ground. It's the foundation of your entire kinetic chain. Yet most runners never think about ankle mobility or foot strength until something goes wrong. The Ankle: Your First Line of Defense When you run, every foot strike generates impact forces of two to three times your body weight. Over a marathon, that's 40,000+ steps—millions of pounds of cumulative force that your ankle must handle. Dorsiflexion—the ability for your shin to travel forward over your foot while your heel stays down—is the critical movement. We want to see at least 15-20 degrees for running. When dorsiflexion is limited, the body compensates: * Early heel rise: More stress on forefoot, Achilles, and plantar fascia * Foot pronation: Overpronation stresses medial structures, contributes to shin splints * Knee valgus: Increased stress on knee joint, IT band, and hip * Forward trunk lean: Changed mechanics, increased lower back load * Shortened stride: More steps, more cumulative impact, less efficiency The Modern Foot Problem Your foot contains 26 bones, 33 joints, and over 100 muscles, tendons, and ligaments. But most of us have spent our entire lives in shoes that don't allow the foot to function as designed. Narrow toe boxes, elevated heels, stiff soles, and arch support have weakened our intrinsic foot muscles over decades. The foot becomes passive, relying on the shoe rather than being an active, responsive foundation. The Injury Connection So many common running injuries trace back to ankle and foot dysfunction: * Plantar Fasciitis: A whole lower leg problem manifesting in the foot * Achilles Tendinopathy: Almost always associated with calf tightness and ankle mobility restrictions * Shin Splints: Overpronation from limited dorsiflexion and weak foot muscles * Knee Pain: Many cases of runner's knee trace back to ankle and foot dysfunction * Hip and Lower Back Pain: The back is often the victim of dysfunction below Self-Assessment: The Wall Test Stand facing a wall with one foot about 4 inches away. Keep your heel flat and try to touch your knee to the wall. Find the point where your heel just starts to lift and measure from big toe to wall. * Less than 4 inches: Significantly restricted—you need focused mobility work * 4-5 inches: Mildly restricted—room for improvement * 5+ inches: Generally adequate—maintain with regular movement Barefoot Shoes & Toe Spacers Barefoot shoes let the foot function naturally with wide toe boxes, zero drop, thin flexible soles, and no arch support. Research shows they can increase foot muscle size and strength, improve arch function, and enhance proprioception. Critical caveat: Transition gradually over 6-12 months. Start with walking, progress slowly. Sudden transition causes stress fractures, plantar fascia injuries, and Achilles problems. Toe spacers passively spread toes toward their natural position, counteracting years of narrow shoes. Start with 15-30 minutes daily and gradually increase. Practical Protocols Ankle Mobility (Daily): * Ankle circles: 10 each direction, each foot * Ankle PAILs and RAILs: 2-minute hold at end range, then 3-4 sets of PAIL (5 sec) immediately into RAIL (5 sec), building from 30% to 100% effort * Banded ankle mobilizations: 10-15 reps each side * Theragun on calves: 60-90 seconds per leg before running Foot Strengthening (3-4x per week): * Towel scrunches: 3 sets of 10-15 per foot * Toe yoga: 10 reps each pattern, each foot * Short foot exercise: Hold 5 seconds, 10 reps per foot * Single-leg balance: 30-60 seconds each side * Calf raises with full range: 3 sets of 15-20 reps Wednesday Truth "The ankle and foot are the foundation of your running. Limited ankle mobility forces compensation up the entire chain. Weak foot muscles leave you relying on passive structures that weren't designed to handle the load alone. But this is fixable—with consistent work over time." About Absolute Rehabilitation & Wellness: Located in Burlington, Ontario, we help runners build resilient bodies from the ground up. We assess the entire kinetic chain, use targeted treatment including electroacupuncture, and build progressive exercise programs addressing all deficits. 📞 Call our Burlington clinic: 905.332.7000 🌐 absoluterw.com [https://www.absoluterw.com]]]>

Episode 80: The Hockey Body — Why the Skating Stride Is Destroying Your Hips (And How to Fix It)

If you're a hockey player, a hockey parent, or you grew up playing this sport and your body is still paying the price—this episode is for you. Hockey does something to the human body that no other sport does. The skating stride, the posture, the repetitive mechanics—they create a very specific pattern of dysfunction that leads to hip pain, groin strains, lower back issues, and for many players, hip replacements in their 40s and 50s. This isn't inevitable. But to prevent it, you need to understand what hockey actually does to your body. The Unique Biomechanics of Skating Skating is not a natural human movement. Walking, running, jumping—these are fundamental movements our bodies are inherently designed to perform. Skating is entirely different. The Push Phase: Your leg moves into hip abduction and external rotation. This happens almost entirely in the frontal and transverse planes—very little forward-backward movement compared to running. The Recovery Phase: Hip flexors and adductors contract to pull the leg back, but in a shortened range—your hip never fully extends. The Skating Posture: Bent at hips and knees, torso forward, hips constantly in flexion. Every shift, every practice, every game—locked in this position. The Hockey Player's Pattern of Dysfunction * Chronically Tight Hip Flexors: The iliopsoas becomes shortened and overactive, pulling the pelvis into anterior tilt * Weak and Inhibited Glutes: Reciprocal inhibition shuts down glutes while other muscles compensate * Adductor Overload: Groin strains are epidemic because adductors compensate for weak glutes * Hip Capsule and Labral Damage: The anterior capsule becomes lax or fibrotic; labral tears accumulate due to poor blood supply * Femoroacetabular Impingement (FAI): Extra bone develops, causing pain, limited mobility, and early arthritis Why Traditional Approaches Fail 1. Generic Strength Training: Squats and deadlifts don't address skating-specific deficits 2. Ignoring the Capsule and Ligaments: You can strengthen muscles all day, but if the capsule is dysfunctional, you're not addressing the root cause 3. Stretching Without Addressing Why: Hip flexors are tight for a reason—stretching alone provides only temporary relief 4. Treating Symptoms Instead of Patterns: The groin isn't the problem—it's the symptom of the entire dysfunction pattern What Hockey Players Actually Need Component One: Targeted Treatment * Electroacupuncture: Enhances endorphin release, modulates pain signals, promotes blood flow to tissues with poor circulation (like the hip capsule and labrum), and resets muscle tone in overactive tissues * Soft Tissue Work: Addresses fibrotic tissue in hip flexors, adductors, and TFL * Joint Mobilization: Restores normal capsular mobility * Spinal Adjustments: Addresses restrictions related to anterior pelvic tilt Component Two: Capsular and Ligamentous Training The hip capsule and ligaments need training just like muscles, but they respond to different stimuli and adapt slowly over months. * 90-90 hip transitions with controlled load * Hip airplanes * Controlled articular rotations (CARs) * End-range isometrics Component Three: Specific Strength Training * Glute Strengthening: Hip thrusts, single-leg RDLs, lateral band walks * Hip Flexor Eccentric Work: Strengthen in lengthened position * Adductor Strengthening: Copenhagen planks, adductor slides * Rotational Core Stability: Pallof presses, anti-rotation holds * Single-Leg Work: Single-leg squats, deadlifts, landing drills Component Four: Movement Pattern Retraining * Hip hinging with neutral spine * Restoring full hip extension * Proper squat and lunge mechanics * Integration into sport-specific movements The Timeline This is a process measured in months, not days: * Weeks 1-4: Treatment and mobility—electroacupuncture, soft tissue work, begin CARs * Weeks 4-8: Add specific strength training * Weeks 8-12: Progress loading, add challenging capsular work, begin movement retraining * Weeks 12+: Integration and maintenance Monday Kickstart Self-Assessment Test Hip Extension: Lie on a table, pull one knee to chest, let other leg hang. Does it drop below horizontal or stay up? Test Hip Rotation: Sit with feet flat, rotate foot inward then outward. Compare sides. Notice Standing Posture: Is your lower back excessively arched? Pelvis tilted forward? Monday Truth "Hockey creates specific adaptations in the body. Treatment—including electroacupuncture—restores tissue quality. Capsular and ligamentous training builds stability that muscles alone can't provide. Specific strength training addresses imbalances. Movement pattern retraining connects it all together." About Absolute Rehabilitation & Wellness: Located in Burlington, Ontario, we understand hockey, the biomechanics, and what the sport does to your body. We have the tools—from electroacupuncture and manual treatment to capsular training to sport-specific programming. 📞 Call our Burlington clinic: 905.332.7000 🌐 absoluterw.com [https://www.absoluterw.com]]]>

Episode 79: The Soccer Problem — Why Year-Round Play Is Breaking Down Ontario's Athletes

If you're a soccer player, a parent of a soccer player, or a coach—this episode is for you. There's a problem in soccer. It's not about tactics or talent development. It's about how we're structuring participation in this sport in a way that's systematically breaking down our athletes. The Year-Round, Single-Sport Problem Soccer is the most participated-in sport in Canada. Outdoor season runs April through October, then indoor season from November through March. There's no gap. No off-season. No recovery period. What makes soccer different from almost every other sport: most soccer players only play soccer. In hockey, kids play lacrosse or baseball in summer. In basketball, athletes cross-train. But soccer has become a year-round, single-sport commitment. The One-Sport Athlete Problem When you only play soccer, you only train the same movement patterns—thousands of times per season, tens of thousands per year. Muscles that get tight and overdeveloped: Hip flexors, adductors, quadriceps, calves Muscles that get weak and underdeveloped: Glutes, hamstrings, lateral hip stabilizers, core This creates significant imbalances that lead to injury. Specific Injury Patterns in Soccer Players * Hip Flexor Tightness: Almost universal in soccer players. Stretching alone doesn't work—you can't out-stretch a muscle being overworked every day. * Groin Strains: Epidemic in soccer and notorious for becoming chronic because the underlying weakness isn't addressed. * Knee Problems: Patellar tendinopathy and ACL tears. Female soccer players have 2-3x the ACL injury rate of males. * Lower Back Pain: From hip flexor tightness and core weakness. * Hip Impingement (FAI): Increasingly common in young players. A permanent structural change that often leads to hip arthritis later in life. What Soccer Players Need to Do 1. Create an Off-Season: Take 4-6 weeks completely off from soccer at least once per year. A planned 6-week off-season is far better than an unplanned 6-month injury recovery. 2. Strength Train Seriously: Real progressive resistance training—squats, deadlifts, lunges, hip thrusts. 2-3 sessions per week during season. 3. Address Mobility Properly: Gently roll out your musculature to flush inflammation. Do this consistently, not just when something hurts. 4. Play Other Sports When Young: Multi-sport athletes are more resilient and have fewer overuse injuries. 5. Listen to Your Body Early: A groin strain caught in week one is minor. One "managed" for two years may never fully resolve. Message to Parents * Ask your kid what's tight, sore, or doesn't feel right * Advocate for off-seasons—push back against year-round culture * Invest in strength training and mobility work outside of soccer Message to Coaches * Build strength and conditioning into your program as a priority * Monitor players' loads—know who's on multiple teams * Encourage multi-sport participation, especially for younger players * Take injuries seriously—a few days off now beats a season-ending injury later Weekend Wellness Prescription Before games: 10-15 minutes of dynamic warm-up—leg swings, hip circles, lateral lunges, high knees, butt kicks. After games: 10-15 minutes of recovery. Gently roll out your musculature to flush inflammation, focusing on hip flexors, adductors, and quads. Gentle static stretching. Walk 5-10 minutes to cool down. This weekend: Do a 20-30 minute strength session—squats, lunges, hip thrusts, planks. Friday Truth "Soccer is a beautiful sport. But the way we're structuring participation—year-round, single-sport, with no off-season and minimal strength training—is breaking down our athletes and causing permanent structural changes to young joints." With proper off-seasons, strength training, attention to mobility and recovery, and multi-sport participation—soccer players can stay healthy and play for decades. About Absolute Rehabilitation & Wellness: Located in Burlington, Ontario, we understand soccer, we understand athletes, and we understand how to keep you on the field. 📞 Call our Burlington clinic: 905.332.7000 🌐 absoluterw.com [https://www.absoluterw.com]]]>