Episode 64 Training After 40 How to Adapt, Stay Fast, and Beat Your Younger Self 🧬

Episode 64 Training After 40 How to Adapt, Stay Fast, and Beat Your Younger Self 🧬

Episode 64 Training After 40 How to Adapt, Stay Fast, and Beat Your Younger Self 🧬 💬 Got a question or feedback? Write us at: lactatesports@gmail.com ☕ Buy a Gel Caf for Lactate to support the work: ko-fi.com/lactate Summary: The idea that athletic performance has a biological expiration date is a myth, born from an era when a 40-year-old man could be arrested for jogging. This episode dismantles that myth with a deep dive into the science of the masters athlete. We reveal why the accepted 10-12% per decade decline in VO₂max is not inevitable; lifelong training can cut this rate in half by preserving stroke volume and oxygen extraction, even as maximal heart rate falls. You will learn the hard science behind "anabolic resistance"—the reason your muscles no longer respond to the same protein dose as a 20-year-old—and discover the elevated "Leucine Trigger" (3-4g per meal) required to activate the mTORC1 pathway for muscle repair. We also explore the neurological basis of sarcopenia, showing how heavy resistance training is the only proven method to prevent the denervation of fast-twitch (Type II) fibers and preserve your speed. This is your blueprint for longevity: learn the precise protein dose (35-40g per meal) to overcome metabolic blunting, why you must shift from Pyramidal to Polarized training to manage delayed autonomic recovery, and why popular longevity drugs like Metformin can actively sabotage your gains by blunting exercise adaptations. Keywords: masters athlete, aging, vo₂max, anabolic resistance, leucine trigger, type ii fibers, metformin, polarized training, menopause 🎙️ Lactate, the podcast that deciphers science to improve your performance. Key references : Rogers, M. A., Hagberg, J. M., Martin, W. H., Ehsani, A. A., & Holloszy, J. O. (1990). Decline in VO₂max with aging in master athletes and sedentary men. *Journal of Applied Physiology, 68*(5), 2195-2199. https://journals.physiology.org/doi/pdf/10.1152/jappl.1990.68.5.2195 Church, D. D., Hoffman, J. R., Mangine, G. T., Stout, J. R., & Fukuda, D. H. (2022). Protein Requirements for Master Athletes: Just Older Versions of Their Younger Selves. *PMC*. https://pmc.ncbi.nlm.nih.gov/articles/PMC8566396/ Sjögren, T., et al. (2023). The impact of life-long strength versus endurance training on muscle fiber morphology and phenotype composition in older men. *Journal of Applied Physiology*. https://journals.physiology.org/doi/abs/10.1152/japplphysiol.00208.2023 Walton, R. G., et al. (2019). Metformin blunts muscle hypertrophy in response to progressive resistance exercise training in older adults: A randomized, double‐blind, placebo‐controlled, multicenter trial. *PMC*. https://pmc.ncbi.nlm.nih.gov/articles/PMC6826125/ Alfredson, H., Pietilä, T., Jonsson, P., & Lorentzon, R. (1998). Heavy-load eccentric calf muscle training for the treatment of chronic Achilles tendinosis. *PubMed*. https://pubmed.ncbi.nlm.nih.gov/9617396/ Voices generated by artificial intelligence from the scientific report produced by the Lactate team.

Episode 63 Pain Tolerance Can You Train Your Brain to Suffer More? 🧠

Episode 63 Pain Tolerance Can You Train Your Brain to Suffer More? 🧠 💬 Got a question or feedback? Write us at: lactatesports@gmail.com ☕ Buy a Gel Caf for Lactate to support the work: ko-fi.com/lactate Summary: Why can elite athletes suffer so much more than the rest of us? The answer isn't deadened nerves. New meta-analyses confirm athletes feel pain at almost the exact same moment as sedentary individuals. The difference lies in the brain. This episode unpacks the neurobiology of suffering, revealing how endurance training physically hypertrophies the Anterior Midcingulate Cortex (aMCC)—your brain's "engine of tenacity"—and builds hyper-efficient functional connectivity networks to process noxious signals without emotional distress. We explore how the SCN9A gene sets your genetic pain baseline, but how the "Athlete Effect" allows dedicated training to epigenetically override a "weak" genetic hand. We also dissect the academic war between the Central Governor Model (a subconscious protector) and the Psychobiological Model (a conscious choice to quit) to explain why you really stop. Finally, we translate this science into a practical blueprint. Learn how to implement Brain Endurance Training (BET)—a protocol proven to increase time-to-exhaustion by over 100%—by strategically combining cognitive tasks with your physical workouts to lower your perception of effort. You'll also learn the critical dangers of using NSAIDs to mask pain, a common practice that can lead to severe kidney injury. Keywords: pain tolerance, endurance, neuroscience, brain endurance training, amcc, scn9a, central governor model, psychobiological model, rpe 🎙️ Lactate, the podcast that deciphers science to improve your performance. Key references : Neural mechanisms of pain processing differ between endurance athletes and nonathletes: A functional connectivity magnetic resonance imaging study. (PMC). Retrieved from https://pmc.ncbi.nlm.nih.gov/articles/PMC8596969/ SCN9A rs6746030 Polymorphism and Pain Perception in Combat Athletes and Non ... (PMC). Retrieved from https://pmc.ncbi.nlm.nih.gov/articles/PMC10048703/ Considerations for the Use of Brain Endurance Training in Elite Sport: A Narrative Review. (PMC). Retrieved from https://pmc.ncbi.nlm.nih.gov/articles/PMC12895142/ Do we really need a central governor to explain brain regulation of exercise performance? (ResearchGate). Retrieved from https://www.researchgate.net/publication/5232727_Do_we_really_need_a_central_governor_to_explain_brain_regulation_of_exercise_performance Athletes and Experimental Pain: A Systematic Review and Meta-Analysis. (PubMed). Retrieved from https://pubmed.ncbi.nlm.nih.gov/38154623/ The Tenacious Brain: How the Anterior Mid-Cingulate Contributes to Achieving Goals. (PMC). Retrieved from https://pmc.ncbi.nlm.nih.gov/articles/PMC7381101/ Voices generated by artificial intelligence from the scientific report produced by the Lactate team.

Episode 62 Poles (Bâtons) Cheating or Essential Efficiency Tool? 🏔️

Episode 62 Poles (Bâtons) Cheating or Essential Efficiency Tool? 🏔️ 💬 Got a question or feedback? Write us at: lactatesports@gmail.com ☕ Buy a Gel Caf for Lactate to support the work: ko-fi.com/lactate Summary: With the Western States 100 finally lifting its decades-long ban, the debate is over: poles are a core tool for ultra-endurance. But how do they actually work? This episode dismantles one of the biggest paradoxes in sports science: how a tool that increases your total oxygen consumption (VO₂) and heart rate can simultaneously *lower* your perceived effort (RPE). We explore the neurophysiology of the "RPE Paradox" through Corollary Discharge Theory, revealing how your brain is tricked into feeling less fatigue by distributing motor commands across four limbs instead of two. We then separate the systemic cardiovascular tax from the peripheral muscular reward, showing how poles preserve your leg muscles by offloading tons of cumulative impact force over a 100-mile race. Finally, we provide a practical blueprint for transforming from a bipedal runner to an efficient quadruped. You'll learn the physics of swing weight (why carbon is non-negotiable for racing), how to size your poles using the 90-degree rule, and the precise gradient (around 26%) where deploying them shifts from a metabolic penalty to a race-saving advantage. Keywords: trail running, ultramarathon, trekking poles, running economy, biomechanics, rpe, corollary discharge theory, vo₂, endurance, western states 100 🎙️ Lactate, the podcast that deciphers science to improve your performance. Key references : Giovanelli, N., et al. (2025). The impact of pole use on vertical cost of transport and foot force during uphill treadmill walking before and after a simulated trail running competition. *PubMed*. https://pubmed.ncbi.nlm.nih.gov/40622586/ Pellegrini, B., et al. (2023). A Review of Biomechanical and Physiological Effects of Using Poles in Sports. *PubMed*. https://pubmed.ncbi.nlm.nih.gov/37106684/ Schwameder, H., et al. (2000). Knee joint forces during downhill walking with hiking poles. *PubMed*. https://pubmed.ncbi.nlm.nih.gov/10622357/ Peyrot, N., et al. (2008). Effects of hiking pole inertia on energy and muscular costs during uphill walking. *PubMed*. https://pubmed.ncbi.nlm.nih.gov/18460993/ Carmichael, C. (2026). The Science Behind Using Trekking Poles in Trail and Ultrarunning. *TrainRight*. https://trainright.com/science-trekking-poles-trail-running-ultrarunning/ Western States 100 will now allow trekking poles and traction spikes. (2025). *Canadian Running Magazine*. https://runningmagazine.ca/trail-running/western-states-100-will-now-allow-trekking-poles-and-microspikes/ Voices generated by artificial intelligence from the scientific report produced by the Lactate team.

Episode 61 Should You Train Sick? The Viral Illness Trap That Can Hit Your Heart 🫀

Episode 61 Should You Train Sick? The Viral Illness Trap That Can Hit Your Heart 🫀 💬 Got a question or feedback? Write us at: lactatesports@gmail.com ☕ Buy a Gel Caf for Lactate to support the work: ko-fi.com/lactate Summary: Just months after his legendary victory at Paris-Roubaix, pro cyclist Sonny Colbrelli collapsed from cardiac arrest at a finish line. The likely trigger? A respiratory infection he thought he had recovered from. This episode dissects the lethal synergy between exercise and viral illness, revealing how common viruses deploy a molecular guillotine—an enzyme called protease 2A—that cleaves dystrophin, the protein scaffolding of your heart cells. The autonomic stress from intense exercise also triggers mitochondrial fission, a cellular state that viruses hijack to replicate faster, turning your own physiology against you and seeding permanent, arrhythmogenic scar tissue. Learn the evidence-based protocols to protect your heart, from the simple "Neck Check" rule to the latest 2024/2025 AHA/ACC guidelines that dictate when you must rest, when to seek "Triad Testing" (ECG, Troponin, Echo), and why you must avoid NSAIDs that mask the systemic warning signs of a dangerous infection. Keywords: myocarditis, training sick, sudden cardiac death, athlete heart, coxsackievirus, return to play, neck check, cardiology, sonny colbrelli 🎙️ Lactate, the podcast that deciphers science to improve your performance. Key references : Badorff, C., Lee, G. H., Lamphear, B. J., Martone, M. E., Campbell, K. P., Rhoads, R. E., & Knowlton, K. U. (1999). Enteroviral protease 2A cleaves dystrophin: evidence of cytoskeletal disruption in an acquired cardiomyopathy. Nature Medicine, 5(3), 320–326. https://doi.org/10.1038/6543 Eichner, E. R. (1993). Infection, immunity, and exercise: what to tell patients. The Physician and Sportsmedicine, 21(1), 125-135. Gatmaitan, B. G., Chason, J. L., & Lerner, A. M. (1970). Augmentation of the virulence of murine coxsackie-virus B-3 myocardiopathy by exercise. Journal of Experimental Medicine, 131(6), 1121-1136. O'Connor, F. G., et al. (2025). AHA/ACC Scientific Statement on Sports Participation for Athletes with Cardiovascular Abnormalities. Circulation. Petek, B. J., et al. (2023). Sudden Cardiac Death in National Collegiate Athletic Association Athletes: A 20-Year Study. Circulation, 149(2), 80-90. https://doi.org/10.1161/CIRCULATIONAHA.123.065908 Voices generated by artificial intelligence from the scientific report produced by the Lactate team.

Episode 60 Massage Guns, Cupping, Cryo Inside the Pro Athlete's Recovery Toolbox 🏋️

Episode 60 Massage Guns, Cupping, Cryo Inside the Pro Athlete's Recovery Toolbox 🏋️ 💬 Got a question or feedback? Write us at: lactatesports@gmail.com ☕ Buy a Gel Caf for Lactate to support the work: ko-fi.com/lactate Summary: From Michael Phelps’ iconic bruises to the power-tool origins of the Theragun, we dissect the billion-dollar recovery industry. This episode goes beyond the marketing to reveal the hard science behind the pro athlete's toolbox. You'll learn why Whole-Body Cryotherapy is a "thermodynamic failure" for deep muscle recovery, creating a neurological illusion of relief while failing to cool the tissue that matters. We'll show you how aggressive cold therapy can actually sabotage your long-term muscle and strength gains by blunting the essential mTOR/p70S6K anabolic pathways—the "Interference Effect" in action. Conversely, we break down the real mechanisms of percussive massage: not "breaking up scar tissue," but altering fascial fluid viscosity (thixotropy) and using the Tonic Vibration Reflex to increase your range of motion without the force deficits of static stretching. We also debunk cupping, revealing its pain-relief effects as a neurological trick (Diffuse Noxious Inhibitory Controls) rather than structural repair, and explain why the color of the marks has nothing to do with "toxins." Finally, you get a practical blueprint: when to use these tools, why you must avoid cryo post-workout if hypertrophy is your goal, and the life-threatening reason you should never, ever use a massage gun on your neck. Keywords: recovery, percussive therapy, massage gun, cupping, cryotherapy, doms, hypertrophy, interference effect, sports science, placebo 🎙️ Lactate, the podcast that deciphers science to improve your performance. Key references : Jia, Y., Zhang, Z., & Wang, G. (2025). Effects of cupping therapy on chronic musculoskeletal pain and collateral problems: a systematic review and meta-analysis. *BMJ Open, 15*(5), e087340. https://bmjopen.bmj.com/content/bmjopen/15/5/e087340.full.pdf Konrad, A., Glashüttner, C., Reiner, M. M., Bernsteiner, D., & Tilp, M. (2020). The Acute Effects of a Percussive Massage Treatment with a Hypervolt Device on Plantar Flexor Muscles' Range of Motion and Performance. *Journal of Sports Science & Medicine, 19*(4), 690–694. https://pmc.ncbi.nlm.nih.gov/articles/PMC7675623/ Roberts, L. A., Raastad, T., Markworth, J. F., Figueiredo, V. C., Egner, I. M., Shield, A., Cameron-Smith, D., Coombes, J. S., & Peake, J. M. (2015). Post-exercise cold water immersion attenuates acute anabolic signalling and long-term adaptations in muscle to strength training. *The Journal of Physiology, 593*(18), 4285–4301. https://pmc.ncbi.nlm.nih.gov/articles/PMC4594298/ Sulkowski, A., & Dillard, J. (2022). Case Report: Vertebral Artery Dissection After Use of Handheld Massage Gun. *Clinical Practice and Cases in Emergency Medicine, 6*(2), 173–175. https://pmc.ncbi.nlm.nih.gov/articles/PMC9197740/ Xiao, F., He, M., & Li, Y. (2024). Effects of cold water immersion vs body cryotherapy on delayed onset muscle soreness and jump performance following acute strenuous exercise in physically active participants: A systematic review and meta-analysis. *Medicine (Baltimore), 103*(25), e41578. https://pmc.ncbi.nlm.nih.gov/articles/PMC12851776/ Voices generated by artificial intelligence from the scientific report produced by the Lactate team.