Critical Oxygen

In this episode of the Critical Oxygen Podcast, Dr. Maria Fuentes, M.D. and I discuss the critical role of heat shock proteins in exercise and disease. More about Dr. Maria Fuentes: Dr Fuentes is a U.S. ECFMG Certified M.D. and graduated with a Master's in Public Health from The University of Texas at El Paso in 2018. Born and raised in El Paso, Texas, Maria has focused her research studies and gained experience on different areas of medicine and public health that affect the health of the community of both El Paso and Juarez, Mexico including infectious diseases and environmental health. Maria is now pursuing her PhD in Interdisciplinary Health Sciences, at UTEP, studying the the effects of climate change, such as heat waves, on the expression of Heat Shock Proteins (HSP) 27 and 70 and their association with kidney injuries. She is currently a full-time faculty member at the Department of Biology at the El Paso Community College teaching Biology, Anatomy and Physiology courses as well as a guest lecturer at the Department of Public Health at UTEP teaching courses on statistics and public health evaluation. With a background in medicine and public health, Dr. Fuentes explains how these proteins function as cellular protectors during stress, their implications in kidney health, and the need for further research in understanding their roles in various pathophysiologies. The conversation explores links to exercise physiology and public health, emphasizing the importance of understanding the body's responses to stress and the potential for future research in this area. In this conversation, Dr. Maria Fuentes discusses the fascinating role of heat shock proteins (HSPs) in exercise physiology, muscle recovery, and their potential as biomarkers for kidney health. TAKEAWAYS - Heat shock proteins are essential for protein folding and function. - Cellular stress can activate heat shock proteins, not just exercise! - Heat shock proteins play a protective role in cellular integrity. - The immune response can be activated by heat shock proteins in circulation. - Increased expression of heat shock proteins help the body adapt to future stresses. Enjoy! Enjoying these podcasts, subscribe to get notified when new episodes are released. If you have a question or topic you want me to address, leave a comment! Follow Phil on Instagram - https://www.instagram.com/criticalo2 Interested in learning more about physiology? Check out the Critical Oxygen website for blogs, courses and coaching -https://www.criticaloxygen.com/ CHAPTERS 00:00 Introduction to Heat Shock Proteins 04:58 Dr. Fuentes' Journey in Medicine and Research 09:52 Understanding Heat Shock Proteins 19:46 The Role of Heat Shock Proteins in Cellular Stress 30:07 Heat Shock Proteins and Immune Response 35:12 Pathophysiology and Future Research Directions 37:54 Exploring the Fascination of Heat Shock Proteins 39:15 The Role of Heat Shock Proteins in Exercise 42:07 Understanding Heat Shock Proteins and Muscle Recovery 45:00 Heat Shock Proteins and Mitochondrial Function 52:54 Heat Shock Proteins as Biomarkers for Kidney Health 58:49 Thermal Regulation and Adaptation to Heat 01:10:04 Key Takeaways on Heat Shock Proteins and Exercise KEYWORDS heat shock proteins, exercise physiology, cellular stress, immune response, kidney health, metabolic syndrome, public health, research, endurance athletes, protein folding, heat shock proteins, exercise physiology, muscle recovery, mitochondrial function, biomarkers, kidney health, thermal regulation, stress response, endurance training, health and wellness

In this episode of Fast Physiology on the Critical Oxygen Podcast, Dave Schell and I discuss the concepts of cardiac drift and physiological decoupling. We explore how heart rate responds to prolonged exercise, the physiological mechanisms behind these phenomena, and practical training strategies to mitigate the effects of cardiac drift. The conversation emphasizes the importance of hydration, heat tolerance, and consistent training for endurance athletes. TAKEAWAYS 1) Cardiac drift refers to the increase in heart rate at a steady power output over time. 2) Decoupling compares heart rate to power output, indicating fatigue resistance. 3) Hydration and cooling are crucial for maintaining performance during exercise. 4) Training in specific conditions can help athletes adapt to different environments. If you have a question or topic you want us to address, leave a comment! Follow Phil on Instagram - https://www.instagram.com/criticalo2 Follow Dave on Instagram - https://www.instagram.com/kaizenendurance/ OR YouTube - https://www.youtube.com/@UCT5Cy95BiLIDQh4KS5bohhQ Interested in Gravel or Mountain Bike Coach? Head to Dave's website - https://www.kaizenendurance.coach/ Want to learn more physiology, check out my blog, and courses - https://www.criticaloxygen.com/ CHAPTERS 00:00 Introduction 01:04 Understanding Cardiac Drift and Decoupling 10:31 Physiological Mechanisms Behind Cardiac Drift 19:08 Practical Applications and Training Strategies 24:09 Conclusion and Future Topics KEYWORDS cardiac drift, physiological decoupling, endurance training, heart rate metrics, exercise physiology, VO2 max, hydration, heat tolerance, performance optimization, fitness

In this episode, Coach Aaron Geiser and I discuss the characteristics of successful endurance athletes in light of our recent involvement at the Men's IM World Championships in Kona Hawaii. We explore the importance of cooling strategies for performance especially when racing in hot environments like Kona. We emphasize the significance of community building among athletes and the challenges faced during the race, including unexpected weather conditions and the impact of jellyfish on swimmers. We then turn to the topic of the episode, a discussion of what we think makes an endurance athlete successful. We highlight effective training plans, discipline, and the role of rituals in managing stress and enhancing performance. We emphasize the need for consistency, discipline, and smart decision-making in training and racing. TAKEAWAYS - Successful endurance athletes often follow a disciplined training plan. - Balancing stress and recovery is crucial for endurance athletes. - Consistency in training is the key to success. - Athletes must arrive at the start line healthy. - Making in-the-moment decisions can impact race outcomes. Experience helps athletes make better decisions during races. Enjoy! Enjoying these podcasts, subscribe to get notified when new episodes are released. If you have a question or topic you want us to address, leave a comment! Follow Phil on Instagram - https://www.instagram.com/criticalo2 Follow Aaron on Instagram - https://www.instagram.com/triageiser/ Interested in learning more about physiology? Check out the Critical Oxygen website for blogs, courses, and coaching - https://www.criticaloxygen.com/ CHAPTERS 00:00 Introduction to Endurance Success 13:11 Kona World Championships Recap 19:45 Athlete Performance Insights 35:03 Cooling Strategies for Endurance Athletes 36:24 Heat Training and Performance 38:47 Principles of Success in Endurance Events 39:55 Defining Success in Endurance Sports 42:31 Key Characteristics of Successful Athletes 44:42 Making In-the-Moment Decisions 46:12 The Importance of Experience in Racing 48:05 Sticking to a Race Plan 51:41 Adapting to Race Conditions 54:22 The Role of Discipline in Training 57:02 Smart Decisions Leading Up to Race Day 01:00:27 Consistency and Discipline for Success 01:03:51 Basic Principles of Endurance Success KEYWORDS endurance athletes, Kona, Ironman, performance, physiology, coaching, training, success, cooling strategies, athlete insights, heat training, endurance events, athlete success, race strategy, training discipline, performance, Ironman, decision making, pacing, consistency

In this episode of the Critical Oxygen podcast, Gabriele Gallo, Ph.D. and I explore the concept of durability and fatigue resistance in endurance sports. We discuss the definitions of durability and recovery, the importance of measuring these factors, and the role of carbohydrate availability in maintaining performance. The conversation also explores the physiological mechanisms behind fatigue and how athletes can optimize their training and nutrition to enhance durability. The discussion covers various aspects of training, including the significance of high volume, low intensity workouts for improving durability, and the ongoing debate regarding carbohydrate consumption for performance. TAKEAWAYS - Durability is defined as the ability to maintain performance during prolonged exercise. - Recovery ability refers to maintaining performance over consecutive days of training or competition. - Standardizing testing conditions is crucial for accurate durability assessments. - Maintaining glycogen levels is vital to prevent muscle fatigue during prolonged exercise. Enjoy! Enjoying these podcasts, subscribe to get notified when new episodes are released. If you have a question or topic you want me to address, leave a comment! Follow Phil on Instagram - https://www.instagram.com/criticalo2 Follow Gabriele on Instagram - https://www.instagram.com/knowledgeiswatt OR go subscribe to his substack - https://knowledgeiswatt.substack.com/?fbclid=PAZXh0bgNhZW0CMTEAAablbGSwrFjiWnk6TMrQs5Y1qRhpmA-qiDa3v8VqW_99CS1aBs0rysr07Sg_aem_OfhqsRgkHOc4XPwpcqZNKg Interested in learning more about physiology? Check out the critical oxygen website for blogs, courses and coaching -https://www.criticaloxygen.com/ CHAPTERS 00:00 Introduction to Durability and Endurance Performance 02:58 Understanding Durability: Definitions and Importance 05:49 The Role of Recovery in Endurance Sports 09:06 Measuring Durability: Methods and Protocols 11:56 Factors Influencing Durability in Athletes 15:12 The Relationship Between Carbohydrate Availability and Performance 18:04 Fatigue Mechanisms and Muscle Glycogen 20:55 Practical Applications for Coaches and Athletes 39:42 Optimizing Fuel Sources for Endurance Performance 42:05 The Balance of Carbohydrates and Fat Oxidation 44:54 Training Strategies for Enhanced Fat Oxidation 48:41 The Role of Volume in Durability Training 51:02 Carbohydrate Intake and Performance 55:49 The Debate on Carbohydrate Thresholds 01:01:01 Recovery and Inflammation: The Role of Carbohydrates 01:05:40 Future Directions in Carbohydrate Research 01:11:13 Durability Training: High Volume vs. High Intensity 01:17:56 Conclusion and Practical Applications KEYWORDS durability, endurance performance, recovery, exercise physiology, carbohydrate availability, fatigue resistance, sports science, physiological testing, coaching, athletic performance, endurance performance, fat oxidation, carbohydrate intake, training strategies, durability, sports science, mitochondrial function, recovery, exercise physiology, nutrition

In this episode of Fast Physiology on the Critical Oxygen Podcast, Dave Schell and I engage in a spirited debate about the utility and accuracy of physiological assessments, particularly ramp/step tests. We discuss the importance of understanding physiological variables, the differences between lab and field tests, and the value of physiological testing in tracking performance over time. We also discuss the nuances of physiological testing and how different types of tests can effect physiological outcomes. The conversation highlights the nuances of testing methods and the need for flexibility in training approaches. TAKEAWAYS 1) Physiological assessments are crucial for understanding an athlete's underlying physiology and their endurance performance potential. 2) Ramp and step tests can provide valuable information but their design is nuanced and there are some potential limitations. 3) Field tests may offer practical alternatives to lab tests but do not directly measure physiological outcomes. We would love for you to weigh in, what's your take on the use of physiological testing for coaching endurance athletes? If you have a question or topic you want us to address, leave a comment! Follow Phil on Instagram - https://www.instagram.com/criticalo2 Follow Dave on Instagram - https://www.instagram.com/kaizenendurance/ OR YouTube - https://www.youtube.com/@UCT5Cy95BiLIDQh4KS5bohhQ Interested in Gravel or Mountain Bike Coach? Head to Dave's website - https://www.kaizenendurance.coach/ Want to learn more physiology, check out my blog, and courses - https://www.criticaloxygen.com/ CHAPTERS 00:00 Introduction to Physiological Assessment 02:02 The Debate on Ramp Tests 08:35 Understanding Physiological Variables 15:52 Field Tests vs. Lab Tests 22:48 The Value of Physiological Testing KEYWORDS physiological assessment, ramp tests, endurance training, VO2 max, exercise physiology, field tests, lab tests, performance tracking, endurance athletes, training methods

In this episode of the Critical Oxygen Podcast, Coach Aaron Geiser and I discuss time management for endurance athletes. We discuss the common inefficiencies athletes face, the importance of scheduling workouts, and how to set boundaries to prioritize training. We discuss how athletes can evaluate their daily priorities and communicate effectively with their coaches to optimize their training schedules. Through practical tips and personal anecdotes, we provide valuable insights for athletes looking to enhance their performance by managing their time more effectively. TAKEAWAYS - Removing as many distractions as possible is essential for achieving goals. - Setting boundaries helps prioritize important tasks. - Identify what patterns allow you to be most productive. - Flexibility in training schedules is important. Doing 45 minutes of something is better than nothing. Enjoy! Enjoying these podcasts, subscribe to get notified when new episodes are released. If you have a question or topic you want us to address, leave a comment! Follow Phil on Instagram - https://www.instagram.com/criticalo2 Follow Aaron on Instagram - https://www.instagram.com/triageiser/ Interested in learning more about physiology? Check out the critical oxygen website for blogs, courses and coaching -https://www.criticaloxygen.com/ CHAPTERS 00:00 Introduction to Time Management in Endurance Training 02:49 Identifying Inefficiencies in Training 06:04 The Importance of Scheduling Workouts 08:53 Setting Boundaries and Prioritizing Training 12:11 Evaluating Daily Priorities 14:59 Managing Time for Effective Training 17:46 Communicating with Coaches for Better Time Management 28:37 Training Duration and Athlete Goals 31:28 Individualized Training Approaches 36:22 Balancing Training and Life 39:15 Self-Coaching and Realistic Expectations 44:28 Guiding Principles in Training 50:10 Incremental Improvement and Self-Assessment KEYWORDS time management, endurance training, scheduling workouts, prioritization, coaching, efficiency, athlete performance, productivity, training tips, life balance, training duration, athlete goals, individualized training, self-coaching, guiding principles, incremental improvement, time management, recovery, performance, mental health

In this episode of the Critical Oxygen podcast, Dr. Mike T. Nelson and I discuss metabolic and physiological flexibility, and explore their significance in human performance and health. We discuss the importance of being able to switch between carbohydrate and fat metabolism, the role of exercise in enhancing metabolic flexibility, and the implications of research findings on variability in metabolism. The conversation also touches on practical applications for athletes and individuals looking to optimize their metabolic health through tailored training and nutrition strategies. In this conversation, we discusses the importance of metabolic and physiological flexibility, mitochondrial health, and the role of exercise in enhancing metabolic adaptation. We emphasize the significance the concept of physiological flexibility, which includes temperature regulation, pH balance, and oxygen/CO2 management. The discussion highlights the interconnectedness of these physiological systems and the necessity of a balanced approach to training and recovery. TAKEAWAYS - Metabolic flexibility is the ability to switch between carbohydrate and fat metabolism. - Exercise plays a crucial role in enhancing metabolic flexibility. - Insulin acts as a fuel selector switch in the body. - Physiological flexibility involves maintaining temperature, pH, and gas exchange in the face of greatly changing stress environments. Enjoy! More about Mike: Mike T. Nelson, PhD, MSME, CSCS, CISSN, is a research fanatic who specializes in metabolic flexibility, heart rate variability, and human performance. He has spent 20 years of his life learning how the human body works. He has a PhD in Exercise Physiology, and a MS in Mechanical Engineering (biomechanics). He's an Associate Professor at the Carrick Institute, university instructor at Rocky Mountain University, creator of the Flex Diet Certification & Physiologic Flexibility Cert and a Human Optimization Specialist with the Special Forces Experience. He also is the Research and Human Performance Science Advisor at Tecton -makers of a unique ketone ester, and performance analysis with Rapid Health. He has published research in both physiology and engineering peer-reviewed journals. He's even been called in to share his techniques with top military agencies. In his free time he enjoys spending time with his wife, lifting odd objects, going to metal concerts, and kiteboarding. Find out more at www.miketnelson.com Enjoying these podcasts, subscribe to get notified when new episodes are released. If you have a question or topic you want me to address, leave a comment! Follow Phil on Instagram - https://www.instagram.com/criticalo2 Interested in learning more about physiology? Check out the critical oxygen website for blogs, courses and coaching -https://www.criticaloxygen.com/ CHAPTERS 00:00 Understanding Metabolic Flexibility 10:13 The Journey into Human Optimization 19:59 Research Insights on Variability and Metabolism 29:45 Practical Applications of Metabolic Flexibility 40:14 Training for Optimal Metabolic Health 54:36 Metabolic Flexibility and Mitochondrial Health 01:01:05 The Role of Exercise in Metabolic Adaptation 01:06:42 Strength Training and Muscle Mass Preservation 01:12:46 Physiological Flexibility: Understanding the Four Pillars 01:16:36 The Interconnectedness of Physiological Systems KEYWORDS metabolic flexibility, exercise physiology, heart rate variability, human performance, endurance training, carbohydrate metabolism, fat metabolism, physiological testing, energy systems, health optimization, metabolic flexibility, mitochondrial health, exercise adaptation, strength training, physiological flexibility, muscle mass, recovery, high intensity training, CO2 tolerance, health optimization

In this of Fast Physiology on the Critical Oxygen Podcast, Dave Schell and I discuss mitochondrial respiration and its importance for endurance training and performance. We discuss the common misconceptions surrounding fatmax and VO2max, especially as it pertains to mitochondrial respiration. We also highlight the significance of both high-intensity and low-intensity training, advocating for a balanced approach to optimize mitochondrial function and overall athletic performance. TAKEAWAYS 1) Mitochondrial respiration is maximal at VO2 max, not fat max. 2) Fat max is related to the ability to oxidize fats, but not the sole indicator of performance. 3) Zone two training enhances mitochondrial density and fat oxidation. 4) High-intensity interval training significantly increases mitochondrial function. If you have a question or topic you want us to address, leave a comment! Follow Phil on Instagram - https://www.instagram.com/criticalo2 Follow Dave on Instagram - https://www.instagram.com/kaizenendurance/ OR YouTube - https://www.youtube.com/@UCT5Cy95BiLIDQh4KS5bohhQ Interested in Gravel or Mountain Bike Coach? Head to Dave's website - https://www.kaizenendurance.coach/ Want to learn more physiology, check out my blog, and courses - https://www.criticaloxygen.com/ CHAPTERS 00:00 Introduction to Mitochondrial Respiration 01:18 Understanding Mitochondrial Stimulation 05:03 Maximal Mitochondrial Respiration vs. Fat Max 10:27 Practical Applications of Fat Max Training 15:27 The Role of High-Intensity Training 21:55 Balancing Training Intensities KEYWORDS mitochondrial respiration, fat max, VO2 max, endurance training, exercise physiology, ATP synthesis, high-intensity training, fat oxidation, performance, metabolic health

In this episode of the Critical Oxygen Podcast, Aaron Geiser from EndureIQ and I discuss the technology we use for training and how it informs our workouts. We emphasize the importance of rotating shoes to stimulate different muscles and prevent overuse injuries. We also discuss the use of heart rate monitors, core body temperature monitors, and NIRS devices like Moxy Monitor to gauge effort levels and make adjustments during workouts. The goal is to optimize training and avoid overcooking the body. We cover how we use technology such as heart rate monitors, power meters, core temperature monitors, and the Moxy monitor. We also emphasize the importance of measuring and tracking data to make informed decisions about training. The conversation concludes with a reminder to use technology in a way that works for each individual and to avoid becoming overwhelmed by data. TAKEAWAYS - Rotating shoes can stimulate different muscles and prevent overuse injuries. - Heart rate monitors, power meters, core temperature sensors and NIRS devices are valuable tools for monitoring internal stress and performance. - The Moxy monitor provides insights into muscle oxygenation and can be used to dictate warm-up and exercise intensities. Enjoy! Enjoying these podcasts, subscribe to get notified when new episodes are released. If you have a question or topic you want us to address, leave a comment! Follow Phil on Instagram - https://www.instagram.com/criticalo2 Follow Aaron on Instagram - https://www.instagram.com/triageiser/ Interested in learning more about physiology? Check out the critical oxygen website for blogs, courses and coaching -https://www.criticaloxygen.com/ CHAPTERS 00:00 Introduction 04:10 Training Technology Show and Tell 14:26 The Importance of Rotating Shoes 19:03 Shoe Technology and Biomechanics 29:23 Monitoring Effort Levels with Heart Rate and Core Body Temperature 37:25 Controlling Body Temperature for Optimal Performance 38:53 Using Technology to Make Informed Training Decisions 41:19 Monitoring Internal Stress and Performance 46:28 The Benefits of the Moxy Monitor 49:46 Analyzing Form and Technique with Video Recordings 53:52 Finding a Balance with Technology in Training KEYWORDS technology, training, shoes, heart rate monitor, core body temperature, effort levels, overcooking, rotating shoes, overuse injuries, biomechanics, performance, technology, training, heart rate monitor, power meter, core temperature monitor, Moxy monitor, video recording, form analysis, NIRS

In this episode of the Critical Oxygen podcast, Benedict Meixner and I discuss, maximal glycolytic rate (VLaMax) and how its measured through a 15-second all-out sprint test. VLaMax refers to the maximal rate of glycolysis or maximal glycolytic rate, which is measured through the end product of glycolysis, lactate. The standard VLA Max protocol involves a 10-minute warm-up at 1.5 w/kg, followed by a 15-second all-out sprint on an electronically braked ergometer set to isokinetic mode. Lactate measurements are taken at rest, immediately after the sprint, and every minute for up to 8 minutes. The highest blood lactate value is used to determine VLaMax. In this conversation, Benedikt and I discuss the measurement and interpretation of VLaMax for endurance athletes. We explore different methods of measuring VLaMax, including the use of Delta lactate and phosphogen contribution time. We also discuss the relationship between VLaMax, power output, and fat-free mass. The conversation highlights the importance of standardized protocols and the challenges of comparing VLaMax values across individuals. The main takeaway is that VLaMax is a significant predictor of power output in sprinting, but further research is needed to understand its relationship to endurance exercise and substrate utilization. TAKEAWAYS - VLaMax refers to the maximal rate of glycolysis or maximal glycolytic rate, measured through blood lactate production. - The standard VLaMax protocol involves a 15-second all-out sprint on an ergometer set to isokinetic mode. -VLaMax is influenced by factors such as power output and fat-free mass. - Further research is needed to understand the relationship between VLaMax and endurance exercise, substrate utilization, and the effects of diet and training on VLaMax Enjoy! Enjoying these podcasts, subscribe to get notified when new episodes are released. If you have a question or topic you want me to address, leave a comment! Follow Phil on Instagram - https://www.instagram.com/criticalo2 Interested in learning more about physiology? Check out the critical oxygen website for blogs, courses and coaching -https://www.criticaloxygen.com/ CHAPTERS Chapters 00:00 Introduction to VLaMax and the Critical Oxygen Podcast 08:06 Understanding Lactate and its Measurement 16:23 Introduction to VLaMax and its Definition 28:16 The Standard VLaMax Protocol 40:09 Measuring Lactate at Rest and After the Sprint 43:01 Determining VLaMax 45:23 Understanding VLaMax: Measurement and Interpretation 50:41 The Importance of Standardized Protocols for VLaMax Testing 56:37 The Relationship Between VLaMax, Power Output, and Fat-Free Mass 01:05:24 Exploring the Relationship Between VLaMax and Endurance Exercise 01:16:54 The Effects of Diet and Training on VLaMax 01:21:13 Optimizing Training and Performance with VLaMax Measurements KEYWORDS VLaMax, glycolysis, lactate, sprint test, ergometer, isokinetic mode, lactate measurements, maximal lactate production rate, measurement, interpretation, endurance athletes, Delta lactate, phosphogen contribution time, power output, fat-free mass, standardized protocols, sprinting, endurance exercise, substrate utilization

In this of Fast Physiology on the Critical Oxygen Podcast, Dave Schell and I discuss the stress response of our bodies to exercise and the release of stress hormones like catecholamines. We explain that exercise is a massive stress on the body, causing physiological changes such as increased heart rate and the release of stress hormones. The release of stress hormones helps the body adapt and try to establish a steady state during exercise. TAKEAWAYS 1) Exercise is a massive stress on the body, causing physiological changes and the release of stress hormones. 2) The release of stress hormones helps the body adapt and establish a steady state during exercise. 3) Chronic stress can blunt the body's ability to adapt and negatively impact overall health. 4) Managing stress, both in training and in life, is crucial for optimal adaptation and performance. If you have a question or topic you want us to address, leave a comment! Follow Phil on Instagram - https://www.instagram.com/criticalo2 Follow Dave on Instagram - https://www.instagram.com/kaizenendurance/ OR YouTube - https://www.youtube.com/@UCT5Cy95BiLIDQh4KS5bohhQ Interested in Gravel or Mountain Bike Coach? Head to Dave's website - https://www.kaizenendurance.coach/ Want to learn more physiology, check out my blog, and courses - https://www.criticaloxygen.com/ CHAPTERS 00:00 Introduction and Transition to Stress Hormones 10:09 Differentiating Between Cortisol and Epinephrine KEYWORDS exercise stress response, stress hormones, catecholamines, physiological changes, managing stress

In this episode of the Critical Oxygen Podcast, Coach Aaron Geiser and I discuss the importance of individualized nutrition for endurance athletes. We emphasize the need to tailor nutrition plans to each athlete's specific needs and goals including individualized fueling in race. Aaron introduces the the right fuel at the right time motto and how EndureIQ uses it to optimize performance. The conversation highlights the significance of proper nutrition in preventing GI distress and improving race performance. We encourage athletes to try different fueling strategies during training to find what works for them. TAKEAWAYS - Nutrition needs to be individualized based on an athlete's specific needs and goals. - Low-carb diets may not be suitable for all endurance athletes, and carbohydrate intake should be tailored to the intensity and duration of the exercise. - Proper nutrition plays a crucial role in preventing GI distress and improving race performance. Finding the right carbohydrate intake is crucial for endurance athletes, but it is a highly individualized process that requires experimentation. - Carbohydrate intake on the bike and run should be adjusted based on the differences in movement and GI distress potential. CHAPTERS 00:00 Introduction 02:16 The Importance of Individualized Nutrition 05:30 Optimizing Performance with the Right Fuel at the Right Time 09:40 Dispelling Misconceptions about Low-Carb Diets and properly fueling 14:53 Preventing GI Distress and Improving Race Performance through Nutrition 30:28 Finding the Right Carbohydrate Intake 32:20 Don't Blindly Follow Studies and Marketing Claims 33:43 Experimenting with Different Nutritional Supplements 35:08 Consider Flavor and Simplicity in Nutrition Products 39:27 Stick with What Works for You 45:19 Optimal Carbohydrate Intake for Exercise Intensity 48:16 Avoid Hyper Optimization of Carbohydrate Intake 57:21 Managing Carbohydrate Intake for Longer Races KEYWORDS individualized nutrition, endurance athletes, right fuel right time, carbohydrates, GI distress, race performance, carbohydrate intake, endurance athletes, individual experimentation, absorption, GI distress, fueling

In this episode of the Critical Oxygen podcast, Dr. Andri Feldman and I discuss the importance of oxygen and how to measure oxygen dynamics in the muscle using near-infrared spectroscopy (NIRS) devices like Moxy Monitor. We explain the physiology of oxygen and its role in energy production through ATP synthesis. We also explore the different energy systems involved in exercise, including the phosphagen system, glycolytic system, and oxidative mitochondrial system. The conversation highlights the interconnectedness of these systems and the role of lactate as an intermediary. We then explore the principles of NIRS and how it measures oxygenation levels in the muscle. Overall, NIRS is a valuable tool for monitoring and optimizing training performance. TAKEAWAYS - Oxygen is crucial for energy production through ATP synthesis in the body. - The phosphagen, glycolytic, and mitochondrial oxidative phosphorylation systems are the three main energy systems involved in exercise. - Near-infrared spectroscopy (NIRS) devices like Moxy Monitor can measure oxygen dynamics in the muscle and provide insights into an athlete's performance. - Near-infrared spectroscopy (NIRS) measures oxygenation levels in muscles and can be used to determine steady state and critical power or even functional threshold power (FTP). - NIRS provides real-time feedback on oxygen supply and demand, allowing athletes to adjust their training intensity accordingly. Enjoy! Enjoying these podcasts, subscribe to get notified when new episodes are released. If you have a question or topic you want us to address, leave a comment! Follow Phil on Instagram - https://www.instagram.com/criticalo2 Interested in learning more about physiology? Check out the critical oxygen website for blogs, courses and coaching -https://www.criticaloxygen.com/ CHAPTERS 00:00 Introduction 07:10 The Importance of Oxygen and Energy Production 19:31 The Three Energy Systems in Exercise 25:20 The Role of Lactate as an Intermediary 38:26 Measuring Oxygen Dynamics with NIRS 42:19 How NIRS Works 43:41 The Importance of Oxygenation and the Role of NIRS 45:08 Understanding Muscle Oxygenation and NIRS Measurements 46:03 Using NIRS to Measure Oxygen Supply and Demand 47:23 Interpreting NIRS Readings and Muscle Oxygenation Levels 48:20 The Relationship Between NIRS and Oxygen Delivery 51:22 The Significance of Steady State in Exercise Physiology 52:49 The Importance of Maximal Sustainable Exercise Rate 56:07 The Relationship Between Oxygenation and Lactate Production 59:44 Comparing NIRS and Lactate as Performance Metrics 01:04:19 Using NIRS to Determine Training Zones and Thresholds 01:08:04 The Benefits of NIRS for Training Optimization 01:19:24 Triangulating Data Sources for Informed Training Decisions KEYWORDS oxygen, near-infrared spectroscopy, NIRS, energy systems, ATP synthesis, phosphagen system, glycolytic system, oxidative mitochondrial system, lactate, near-infrared spectroscopy, NIRS, oxygenation, energy systems, lactate production, muscle fatigue, steady state, critical power, training intensity, monitoring, optimization

In this of Fast Physiology on the Critical Oxygen Podcast, Dave Schell and I discuss the purpose and physiology behind long workouts. We highlight the importance of specificity, nutrition, and psychology in long workouts. And we explain that long workouts typically involve exercising at intensities between zone two and the top of zone three, lasting 90 minutes or more. We discuss substrate oxidation during long workouts and the potential for depletion of carbohydrate stores. We also touch on the concepts of glycogen storage, muscle capillarization, and mitochondria in relation to endurance performance. TAKEAWAYS 1) Long workouts are important for endurance athletes, especially those training for events lasting three hours or more. 2) Specificity is crucial in long workouts, as they allow athletes to understand how their bodies respond and adapt to extended periods of exercise. 3) Nutrition needs to be adjusted for long workouts, as the body's fueling requirements change after three hours of exercise. If you have a question or topic you want us to address, leave a comment! Follow Phil on Instagram - https://www.instagram.com/criticalo2 Follow Dave on Instagram - https://www.instagram.com/kaizenendurance/ OR YouTube - https://www.youtube.com/@UCT5Cy95BiLIDQh4KS5bohhQ Interested in Gravel or Mountain Bike Coach? Head to Dave's website - https://www.kaizenendurance.coach/ Want to learn more physiology, check out my blog, and courses - https://www.criticaloxygen.com/ CHAPTERS 00:00 Introduction 07:35 Understanding Substrate Utilization and Glycogen Depletion 12:20 The Role of Carbohydrates in Long Workouts 28:04 Conclusion KEYWORDS long workouts, specificity, nutrition, psychology, intensities, fat oxidation, carbohydrate oxidation, glycogen storage, muscle capillarization, mitochondria, endurance performance, consistency, moderation

In this episode of the Critical Oxygen Podcast, Coach Aaron Geiser and I discuss the importance of having a plan for race day and how to prepare and execute on race day. We emphasize the need for a well-thought-out nutrition plan, training specific to the race course, and understanding the course itself. We also highlight the benefits of heat training and the challenges of racing at elevation. The conversation emphasizes the importance of not trying anything new on race day and learning from past mistakes. TAKEAWAYS - Having a plan for race day is crucial for success. - Practice your nutrition plan during training and stick to what works for you on race day. - Tailor your training to the specific demands of the race course. - Consider heat training to prepare for hot and humid race conditions. - Be cautious when racing at elevation and consider heat acclimation protocols. - Avoid trying anything new on race day to minimize the risk of complications. CHAPTERS 00:00 Introduction 01:21 Training and Testing 04:15 The Challenges of FTP Tests 06:00 Training Outdoors: Uphills and Downhills 09:09 Maintaining Fitness When Training Outside 12:17 Preparing for Race Day 14:40 The Importance of Having a Plan for Race Day 17:19 Training and Nutrition Strategies for Race Day 21:31 The Benefits and Challenges of Heat Training 25:24 Navigating the Demands of Racing at Elevation 28:45 Avoiding Complications: Don't Try Anything New on Race Day 31:04 Learning from Past Mistakes: Improving Future Race Performances 38:29 Controlling Variables for a Successful Race 45:22 Creating a Checklist for Race Day 47:23 Avoiding Nutrition Changes on Race Day 53:17 The Importance of Practicing Race-Day Nutrition 54:46 Excitement for Upcoming Sporting Events KEYWORDS race day, plan, nutrition, training, race course, heat training, elevation, mistakes, race preparation, race execution, race-day nutrition, training habits, familiarizing with the race course, checklist, fresh socks, controlling variables, switching up nutrition, Tour de France

In this episode of the Critical Oxygen podcast, Dr. Andrew Brown and I discuss the benefits and challenges of incorporating strength training for endurance athletes. Benefits include improving running economy, increased musculotendinous unit stiffness, and enhanced neuromuscular efficiency. Strength training also contributes to overall athleticism and longevity. The challenges lie in finding the right balance of intensity and volume, as well as managing load and progression. We emphasize the importance of starting with proper form and gradually increasing intensity (weight and sets). We also highlight the value of a long-term approach combining specific and general training to build a robust and resilient body. Strength training is beneficial for endurance athletes as it not only promotes muscle growth but also improves neuromuscular effects and overall strength. TAKEAWAYS - Strength training for endurance athletes can improve running economy, musculotendinous unit stiffness, and neuromuscular efficiency. - Combining specific and general training can build a robust and resilient body for long-term athletic performance and overall health. Strength training offers benefits beyond muscle growth for endurance athletes. - Consistency and gradual progression are important to avoid injuries and achieve long-term success. - Plyometric exercises and strength training principles can be tailored to the specific needs of different endurance sports. More about Andrew: Andrew Brown is a doctor of physical therapy who has work in a variety of rehabilitation and performance contexts including sports -orthopedic rehabilitation, private, group, high school, Division II collegiate, and tactical populations. Andrew’s combined experiences in sport performance, wellness coaching, and rehabilitation have led him to adopt a holistically minded approach to physical therapy and performance programming that takes each individuals personal factors and goals into account when developing a program. You can find him on instagram at https://www.instagram.com/northcoaststrength Or at https://www.northcoaststrength.com/ If you have a question or topic you want us to address, leave a comment! Follow Phil on Instagram - https://www.instagram.com/criticalo2 Want to learn more physiology, check out my blog, and courses - https://www.criticaloxygen.com/ CHAPTERS 00:00 Introduction and the Importance of Timing Plyometrics 12:30 Benefits and Challenges of Strength Training for Endurance Athletes 21:57 Managing Load and Progression in Strength Training 28:35 The Concept of Hybrid Training and Long-Term Athletic Development 32:45 The Interference Effect and the Importance of Minimal Effective Dosing 34:35 Dispelling Myths: Strength Training and Endurance Athletes 35:29 The Benefits of Strength Training 37:24 Consistency and Long-Term Success 38:19 The Importance of Hybrid Training 43:06 Managing Intensity and Volume 46:30 The Ramifications of Doing Nothing 54:34 Building Resilience and Longevity 01:02:12 Tailoring Strength Training for Different Endurance Sports KEYWORDS strength training, endurance athletes, running economy, musculotendinous unit stiffness, neuromuscular efficiency, athleticism, longevity, intensity, volume, load, progression, form, balance, specific training, general training, robust, resilient, strength training, endurance athletes, muscle growth, neuromuscular effects, robustness, long-term health, performance, consistency, gradual progression, hybrid training, plyometric exercises, resilience, volume accumulation, longevity

In this episode of Fast Physiology on the Critical Oxygen Podcast, Coach Dave Schell and I discuss the importance of cooling down and the purpose of recovery workouts. We debunk misconceptions about cooling down, such as the idea of flushing lactic acid, and explain that the goal of a cool down is to bring the body back to homeostasis as fast as possible. We also explore the benefits of recovery workouts and how they facilitate nutrient delivery to the muscles. We emphasize that there is no magic duration or intensity for a cool down or recovery workout, and it should be tailored to each individual's needs. TAKEAWAYS 1) The purpose of a cool down is to bring the body back to homeostasis and the resting state as quickly as possible. 2) A cool down helps facilitate the removal of waste products and the delivery of nutrients to the muscles. 3) Recovery workouts, such as recovery runs or rides, can be beneficial for facilitating nutrient delivery and aiding in muscle recovery. If you have a question or topic you want us to address, leave a comment! Follow Phil on Instagram - https://www.instagram.com/criticalo2 Follow Dave on Instagram - https://www.instagram.com/kaizenendurance/ OR YouTube - https://www.youtube.com/@UCT5Cy95BiLIDQh4KS5bohhQ Interested in Gravel or Mountain Bike Coach? Head to Dave's website - https://www.kaizenendurance.coach/ Want to learn more physiology, check out my blog, and courses - https://www.criticaloxygen.com/ CHAPTERS 00:00 Introduction 00:58 The Importance of Cooling Down 02:24 Debunking Misconceptions About Cooling Down 09:31 Facilitating Nutrient Delivery and Muscle Recovery 13:19 The Purpose of Recovery Workouts 16:37 Tailoring Cool Down and Recovery Workouts 20:51 Conclusion KEYWORDS cooling down, recovery workout, misconceptions, homeostasis, nutrient delivery

In this episode of the Critical Oxygen Podcast, Coach Aaron Geiser and I discuss the transition from the general preparatory phase to the specific phase of training. We emphasize the importance of building volume and addressing specific training needs during the general phase then we discuss the need to slow down and reduce volume when transitioning to the specific phase to allow for adaptation and recovery. Aaron shares his approach to specific workouts for running and cycling, focusing on race pace efforts and strength work (longer efforts at race pace). We also discuss the importance of consistency, progression, and accumulating time at specific intensities for optimal performance. This conversation explores the importance of heart rate variability (HRV) for training and making adjustments to training plans. We emphasize the need to monitor HRV to ensure a balance between stress and recovery. We also discuss the difference between specific workouts and spike workouts, highlighting the importance of pushing boundaries while still maintaining adequate recovery. We conclude by providing examples of early phase specific workouts and the importance of adjusting intervals and rest periods based on individual capabilities. TAKEAWAYS 1) The general preparatory phase is important for building volume and addressing specific training and physiological weaknesses. 2) When transitioning to the specific phase, it is important to slow down easy work and reduce volume to allow for adaptation and recovery from the harder work of specific workouts. 3) Specific workouts for running and cycling should focus on race pace efforts. Enjoy! Enjoying these podcasts, subscribe to get notified when new episodes are released. If you have a question or topic you want us to address, leave a comment! Follow Phil on Instagram - https://www.instagram.com/criticalo2 Follow Aaron on Instagram - https://www.instagram.com/triageiser/ Interested in learning more about physiology? Check out the critical oxygen website for blogs, courses and coaching -https://www.criticaloxygen.com/ CHAPTERS 00:00 Introduction 04:00 The General Preparatory Phase of Training 05:06 Transitioning to the Specific Phase of Training 06:30 Specific Workouts for Running and Cycling 10:05 Managing Volume and Intensity in the Specific Phase 11:32 Individual Variations in Training Response 13:28 Importance of Slowing Down and Reducing Volume 16:07 Considering Individual Recovery and Nutrition 19:06 VO2 Max Intervals in the General Phase 21:48 Individualized Approaches to Training 22:28 Balancing Intensity and Recovery 26:09 Adapting Training Plans for Individual Athletes 27:35 The Importance of Consistency and Progression 29:29 Flexibility in Training Approaches 32:01 Accumulating Time at Specific Intensities 33:38 The Importance of HRV for Training 36:13 Using HRV to Make Training Adjustments 37:23 Morning vs Nighttime HRV Measurements 38:22 Monitoring HRV to Assess Coping with Stress 40:16 Specific Workouts vs Spike Workouts 44:19 Learning from Failed Workouts 46:15 Understanding the Body's Response to Workouts 49:20 Safe Environment for Testing Limits 54:13 Examples of Early Phase Specific Workouts 58:43 Adjusting Intervals and Rest Periods

In this episode of the Critical Oxygen Podcast, Dr. Kat Campbell and I discuss running volume, training load, and the importance of individualization in training. We discuss concepts of training volume, training load, progression, and the impact of intensity on running performance. We also talk about the use of acute to chronic workload ratio, the role of duration versus mileage, and the importance of understanding individual athlete needs and stressors. We also emphasize the need for a conservative approach to training, the role of RPE in guiding effort, and the challenges of ego and mindset in training. The discussion also touches on the philosophy of training, the importance of easy runs, and the impact of training load on long-term health and performance. More about Kat: Kat (otherwise known as Runwithkat_dpt on Instagram) is a physical therapist that specializes in working with runners as well as a certified running coach, and Certified NASM personal trainer. Kat strives to make a difference in runners’ lives by helping runners achieve goals they didn't think was once possible while keeping them healthy in the process. Kat believes in utilizing an individualized and holistic approach when working with runners. She is passionate about sharing her love for running to inspire others to feel confident to take on new challenges. Enjoying these podcasts? Subscribe to get notified when new episodes are released. If you have a question or topic you want us to address, leave a comment! Follow Phil on Instagram - https://www.instagram.com/criticalo2 Follow Laura on Instagram - https://www.instagram.com/runwithkat_dpt/ Check out her podcast - https://open.spotify.com/show/6uxvbNu8EvCacL5GFNqAzV?si=c53c6841b1ee4e52 Interested in learning more (courses, education, testing, etc)? Check out the critical oxygen website - https://www.criticaloxygen.com/ TAKEAWAYS 1) When individualizing training consider factors such as accumulated time on the feet, personal goals, past history, and other areas of life stress. 2) Using acute to chronic workload ratio can help to predict the chance of injury and promote adaptation. 3) For runners, a conservative approach to training, focusing on easy runs and recovery, is essential for long-term health and performance. With limited higher intensity work. 4) RPE (Rate of Perceived Exertion) is a valuable tool for guiding effort and ensuring appropriate training intensity. CHAPTERS 00:00 Introduction to Running Volume and Training Load 09:56 Understanding Training Volume and Load Management 15:10 The Role of Acute to Chronic Workload Ratio 29:40 The Importance of Individualized Training 40:16 The Role of RPE and Recovery in Training 47:17 Challenges of Ego and Mindset in Training 53:24 Philosophy of Training: Easy Runs and Long-Term Health 56:46 Managing Training Load and Volume for Success KEYWORDS running volume, training load, individualization, progression, intensity, acute to chronic workload ratio, duration, mileage, client needs, stressors, individualized training, volume, intensity, recovery, adaptation, conservative approach, RPE, ego, mindset, easy runs, training load, long-term health, performance

In this episode of fast physiology on the Critical Oxygen Podcast, Dave Schell and I discuss the importance of a warmup and how to do it correctly. We emphasize that a warmup is not just about getting physically warm, but also mentally prepared for the workout or race. We discuss the physiological changes that occur during a warmup, such as increased blood flow to the muscles and the release of stress hormones that increase heart rate and a number of other physiological processes. We also highlight the importance of individualizing the warmup and finding what works best for each athlete. TAKEAWAYS - A warmup is not just about getting physically warm, but also mentally prepared for the workout or race. - During a warmup, there is increased blood flow to the muscles and the release of stress hormones. - Individualizing the warmup is important to find what works best for each athlete. If you have a question or topic you want us to address, leave a comment! Follow Phil on Instagram - https://www.instagram.com/criticalo2 Follow Dave on Instagram - https://www.instagram.com/kaizenendurance/ OR YouTube - https://www.youtube.com/@UCT5Cy95BiLIDQh4KS5bohhQ Interested in Gravel or Mountain Bike Coach? Head to Dave's website - https://www.kaizenendurance.coach/ CHAPTERS 00:00 Introduction 01:16 The Underestimated Importance of a Warmup 02:10 Individualizing the Warmup 05:02 Physiological Changes During a Warmup 09:12 The Purpose of a Warmup 14:03 Optimizing the Warmup 19:15 The Psychological Component of a Warmup 22:07 Conclusion KEYWORDS warmup, physiology, cardiovascular system, muscle oxygenation, oxygen delivery, oxygen utilization, metabolites, acidification, enzymatic activity, psychological component