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The Science of Performance with Dan Feeney
2: Supershoe Science with Wouter Hoogkamer
Intro: Wouter was the lead author on the landmark article behind the Nike 4% shoe. Also has published theoretical reviews of how a sub 2 hour marathon would be possible and tries to understand which aspects of footwear lead to improved performance. He is also a great runner with some incredible range… Wouter ran a 48.69 400 m and 1:52 800 m in 2007 and has run 2:30 in the marathon and a 5:58 50 miler in Massachusetts in 2021 and 2022, respectively.
- A comparison of the energetic cost of running in marathon o https://pubmed.ncbi.nlm.nih.gov/29143929/
- Altered running economy directly translates to altered distance-running performance o https://pubmed.ncbi.nlm.nih.gov/27327023/
- Energetics and biomechanics of running footwear with increased longitudinal bending stiffness: A narrative review o https://pubmed.ncbi.nlm.nih.gov/33830444/
- Longitudinal bending stiffness does not affect running economy in Nike Vaporfly shoes o https://www.sciencedirect.com/science/article/pii/S2095254621000739
- Applying the cost of generating force hypothesis to uphill running o https://pubmed.ncbi.nlm.nih.gov/25083347/
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6. S2E6: Lived Experience; Big Data and Predictive Analytics in making humans healthier
57:21||Season 2, Ep. 6https://www.jospt.org/doi/10.2519/jospt.2022.11288 - the missing link in running injury research is non-running stress. It seems DashLX is one solution to start acquiring more of what consumers are doing, why, and that has great implications for research but also for brands to better understand their consumers. Using wearable technology data to explain recreational running injury: Aprospective longitudinal feasibility study. Collaboration with the U Essex (Neal, Bramah, McCarthy-Ryan, Moore, Napier, Paquette, Gruber)https://www.sciencedirect.com/science/article/pii/S1466853X23001578?via%3DihubRunning consistency affects odds of injury. Collaboration with Brooks and others – consistent runners had lower risk of running related injuries but higher incidence of upper leg RRIs https://www.linkedin.com/in/dr-jeff-moreno-622a6a26/overlay/1717357879556/single-media-viewer/?profileId=ACoAAAV_BPoBwpjewd6C4R4pasNUSCkiOuapwewDoes Midsole Foam Energy Return Influence Fatigue. Collaboration with U Memphis & New Balance – reduced fatigue and muscle soreness in shoes with ‘aft’ even in trainers with no plates, etc. in collaboration with DashLXhttps://www.linkedin.com/posts/dr-jeff-moreno-622a6a26_acsm-2024-activity-7205925274281025538-lr8x?utm_source=share&utm_medium=member_desktop5. S2E5: The Physiology of Peak Performance with Olympian & PhD Shalaya Kipp
46:22||Season 2, Ep. 5The Physiology of Peak Performance with Olympian & PhD Shalaya KippCurrently Post Doc Mayo Clinic with Michael JoynerPhD - University of British Columbia, Masters & Undergrad at CU Boulder. 2012 Olympian in steeplechase. Worked on the 4% study in conjunction with the breaking 2 project. Now works with Mike Joyner who made a famous prediction of when 2 hours would be broken in the marathon (predicts 1:57:48). Curvilinear relation between speed and metabolics and metabolic cost across range of speedsViewpoint on physiology of fast marathon RE should be measured near lactate threshold. 1% incline has limits b/c resistance not linear w/ speed. Treadmill inconsistenciesRespiratory muscles during exercise Talk about running power mechanical vs. metabolic power and connect how metabolic power only takes into account aerobicSuper spikes – why is it hard to measure their impact on performance. What take aways do you have for selecting spikes. Sports bra restriction on respiratory muscles Impact of steroids on athlete performance4. S2E4: Ski Boots! Engineering Revolutionary Products with James O’Connell
41:21||Season 2, Ep. 4Season 2 Episode 4: Ski Boots! Engineering Revolutionary Products with James O’Connell – Specialized, formerly K2 Engineer; Medic and Paratrooper, Texas A&MHow to measure ski boot performance and biomechanics https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7967377/Ski boot biomechanics part 2 https://link.springer.com/article/10.1007/s40279-013-0132-zSki boot BOA study: https://www.frontiersin.org/journals/sports-and-active-living/articles/10.3389/fspor.2023.1192737/full3. S2E3: How do your biomechanics affect your performance and injury risk? With Allison Gruber
58:58||Season 2, Ep. 3Episode 3: How do your biomechanics affect your performance and injury risk? With Allison Gruber – Associate Professor University of Indiana. PhD UMass Amherst and Masters East Carolina. Has worked deeply on the entire spectrum of running mechanics. from the mechanics and energetics of footfall patterns in running Impact causes injury hypothesis – Claire Milner impact shock in runningReal world vs. in-lab biomechanics Wearable technology to explain running injury Footstrike patterns and race performance in 2017 world champs 10k Rearfoot vs forefoot economy and cho oxidation Isolated effects of footwear structure and cushioning on running mechanics in habitual mid/forefoot runners Shock absorption2. S2E2: How to make better shoes with Dr. Geoffrey Gray
54:55||Season 2, Ep. 2Doctor of Physical Therapy for 10+ yearsAspects of the shoes he tests:Insoles – can increase perception of comfort, plantar pressures changeImpact testing to compliment human-based footwear testingTraction testing – how do you test? Is it indicative of real world where humans move in variable ways. Slipping vs. StickingDo Pro Athletes need custom shoes Heeluxe’s biggest failures P3 Biomechanics1. S2E1: What can you do to stay resilient and how can shoes improve performance with Jay Dicharry
49:44||Season 2, Ep. 1Season 2/Episode 1: What can you do to stay resilient and how can shoes improve performance with Jay Dicharry – Physical Therapist, Oregon State University-Cascades, MOBO, Founder, author of Running RewiredKinematics and Kinetics of Gait: From Lab to Clinic – We can measure things very precisely in the laboratory from the forces in 3 dimensions at 2kHz to the kinematics at 200 Hz. How has he translated this to the clinic and working with athletes when you do not have all of these tools? Does he find this scary or challenging to make some of the assumptions to make changes?Alternative upper configurations – joint publication where we found different footwear uppers can significantly alter the performance (part 1) and the biomechanics (part 2) for athletes doing agility movements. 5 movements (single leg landings, triangle, AP, CMJ, skater). Faster on/off, greater rate of force development during propulsion, more efficient movements. Where could that efficiency come from? How is this related to the efficiency he sees in the clinic in coaching athletes?Running RewiredMoBo BoardJay’s Website7. 7: Individualized science & equipment with Jesse Frank
52:55||Ep. 7Jesse Frank did his masters & undergrad at CU Boulder with Roger Kram where he did a variety of projects from trying to build a mobile, gravity reducing cart, to studying how various bike seats affect cycling comfort, and was a coauthor on the Nike 4% study. Over the previous 5 years, Jesse worked at Specialized where he had experience in the wind tunnel, studying how different bike fits could impact athlete performance. Jesse is also a 2:29 marathoner, triathlete, and - fun fact - officiated my wedding. Footwear comfort and injury rates https://pubmed.ncbi.nlm.nih.gov/11689747/ Carbon plate and 1% running improvement https://pubmed.ncbi.nlm.nih.gov/16540846/ Meta analysis of bike fits and injury rate/comfort https://pubmed.ncbi.nlm.nih.gov/30556469/ Triangle test: https://academic.oup.com/chemse/article/doi/10.1093/chemse/bjac003/65438766. 6: Nutrition, hormonal cycles, optimal biomechanics Keely Henninger & Kate Harrison
57:56||Season 1, Ep. 6Keely – Recent winner of Black Canyon 100k, Freetrail Lead of Performance Coaching Team, plan to be a Medical Doctor, former biomechanics researcher and current nutrition researcher. Kate – PhD movement science at VCU, D1 runner and All American at West Virginia, 2nd NCAA 10K. Grew up playing all sorts of sports, always interested in performance. Published 23 articles or abstracts on the biomechanics of movement. Manger of biomechanics at BOA · Comparison of Frontal and Transverse Plane Kinematics Related to Knee Injury in Novice Versus Experienced Female Runners o https://pubmed.ncbi.nlm.nih.gov/33690166/ · Running readiness scale as an assessment of kinematics related to knee injury female novice runners. o https://pubmed.ncbi.nlm.nih.gov/34793590/ · Energetics of vertical kilometer foot races; Is steeper cheaper? o https://pubmed.ncbi.nlm.nih.gov/26607247/ · Considerations for ultra-endurance activities: part 1- nutrition.5. 5: Physiology of Training, racing performance, durability, fatigue, VO2 max, and more with James Spragg
54:57||Season 1, Ep. 5Welcome James, Spragg. James is a coach at intercept performance consultancy. James is also finishing his PhD univ of capetown in exercise physiology where he studied the mechanisms responsible for deterioration in performance during grand tour cycling stage races. James also coaches a number of sky runners and ski mountaineers. Our conversation will cover a variety of performance topics surrounding coaching and physiology. · Predictors of cycling performance success: Traditional approaches and a novel method to assess performance capacity in U23 road cyclists o https://pubmed.ncbi.nlm.nih.gov/36513568/ · Predicting Trail Running Performance With Laboratory Exercise Tests and Field Based Results o https://pubmed.ncbi.nlm.nih.gov/29952678/ · “The relationship between physiological characteristics and durability in male pro cyclists.’ o https://pubmed.ncbi.nlm.nih.gov/35977108/ · Viewpoint Using VO2 max as a marker of training status o https://journals.physiology.org/doi/full/10.1152/japplphysiol.00723.2021· Plyometrics and running economy o https://www.nature.com/articles/s41598-023-30798-3