We investigated how varying seat tube angle (STA) and hand position affect muscle kinematics and activation patterns during cycling in order to better understand how triathlon-specific bike geometries might mitigate the biomechanical challenges associated with the bike-to-run transition. Whole body motion and lower extremity muscle activities were recorded from 14 triathletes during a series of cycling and treadmill running trials. A total of nine cycling trials were conducted in three hand positions (aero, drops, hoods) and at three STAs (73°, 76°, 79°). Participants also ran on a treadmill at 80, 90, and 100% of their 10-km triathlon race pace. Compared with cycling, running necessitated significantly longer peak musculotendon lengths from the uniarticular hip flexors, knee extensors, ankle plantar flexors and the biarticular hamstrings, rectus femoris, and gastrocnemius muscles. Running also involved significantly longer periods of active muscle lengthening from the quadriceps and ankle plantar flexors. During cycling, increasing the STA alone had no affect on muscle kinematics but did induce significantly greater rectus femoris activity during the upstroke of the crank cycle. Increasing hip extension by varying the hand position induced an increase in hamstring muscle activity, and moved the operating lengths of the uniarticular hip flexor and extensor muscles slightly closer to those seen during running. These combined changes in muscle kinematics and coordination could potentially contribute to the improved running performances that have been previously observed immediately after cycling on a triathlon-specific bicycle.
Search Results
Influence of Bicycle Seat Tube Angle and Hand Position on Lower Extremity Kinematics and Neuromuscular Control: Implications for Triathlon Running Performance
Amy Silder, Kyle Gleason, and Darryl G. Thelen
Metacognitions and Mindfulness in Athletes: An Investigation on the Determinants of Flow
Steven Love, Lee Kannis-Dymand, and Geoff P. Lovell
and competitive) among the triathletes would impact on experienced flow and each of the metacognitive and mindfulness variables. Method Participants and Procedure Following ethics approval and confirmation of informed consent, triathletes from the Caloundra Tri Series and the Mooloolaba Triathlon
Triathlon Wet Suit and Technical Parameters at the Start and End of a 1500-m Swim
David Perrier and Karine Monteil
The aim of this study was to determine the effect of wearing a triathlon wet suit on the technical parameters of the front crawl stroke. Eight highly trained male triathletes were filmed with underwater camcorders during two 1500-m swim tests: one with a wet suit (WS) and the other with a standard suit (SS). Two conditions were considered: Condition I (CI) and Condition XV (CXV), representing the 1st and the 15th 100-m, respectively. Views were synchronized and digitized using kinematic analysis software (Schleihauf, 1994) to obtain 3-D coordinates of the anatomical landmarks of the body. Results showed that the wet suit and duration of the exercise significantly influenced stroke parameters. The swim with WS was characterized by greater stroke length and a progressive increase in stroke frequency, resulting from a more extended elbow position during the stroke and from a decrease in the absolute and relative times of the propulsive phase. These changes indicated more efficient upper limb action. The duration of exercise modified the swim with WS and SS. The loss of velocity observed in CXV was related to a decrease in stroke length, or more precisely a reduction in lever arm length during the aquatic phase, insufficiently offset by a slight increase in stroke frequency. These two motor responses, a less extended elbow position and a stroke frequency increase, emerged as an easier motor solution for coping with the effect of fatigue. This solution could be regarded as an adaptation to the duration of the exercise.
Morphological Characteristics of Passive and Active Structures of the Foot Across Populations With Different Levels of Physical Activity
Inmaculada Reina-Martin, Santiago Navarro-Ledesma, Ana Belen Ortega-Avila, Kevin Deschamps, Alfonso Martinez-Franco, Alejandro Luque-Suarez, and Gabriel Gijon-Nogueron
and female), recruited from 3 institutions, who were students at the University of Málaga and University of Seville and the Triathlon Club of Nerja (Málaga, Spain) from December 2016 to June 2019. All subjects were at least 18 years old and were able to follow the study instructions. Informed consent
Risk for Exercise Addiction: A Comparison of Triathletes Training for Sprint-, Olympic-, Half-Ironman-, and Ironman-Distance Triathlons
Jason Youngman and Duncan Simpson
Researchers have noted that when taken to an excessive level, exercise may become addictive. This study investigated the risk of exercise addiction for triathletes using the Exercise Addiction Inventory (EAI; Terry, Szabo, & Griffths, 2004). The sample consisted of 1,285 male and female triathletes, ranging in age from 18–70 years old. Results indicated that approximately 20% of triathletes are at risk for exercise addiction, and that training for longer distance races (i.e., Olympic, Half-Ironman, and Ironman) puts triathletes at greater risk for exercise addiction than training for shorter races (i.e., Sprint). No significant association was found between the risk for exercise addiction and the number of years of participating. However, as the number of weekly training hours increased, so did a triathlete’s risk for exercise addiction. At-risk triathletes need greater clinical attention, and further research should be conducted to help clinicians develop awareness and appropriate interventions.
Sudden Cardiac Death in Athletes: What Sport-Rehabilitation Specialists Need to Know
Christian C. Evans and Sandra L. Cassady
Objective:
To describe the underlying conditions that predispose athletes to sudden cardiac death (SCD) and review signs and symptoms that indicate an athlete is at risk.
Data Sources:
MEDLINE, the Los Angeles Times and Triathlon Times archives, and other sources identified in the references of articles initially located therein. A total of 43 references were included.
Conclusions:
Most cases of SCD in younger athletes (≤35 years) are attributable to multiple hereditary conditions, with familial hyper-trophic cardiomyopathy being the primary cause, whereas the major cause of SCD in older athletes (>35 years) is coronary artery disease. Health-care professionals evaluating athletes should pay particular attention to past medical and family history. Items in an athlete’s screening that suggest increased risk include a history of chest pain, syncope, excessive shortness of breath, irregular heart rate or murmur, or a history of SCD in an immediate family member.
Peak Impact Accelerations during Track and Treadmill Running
Erin M.R. Bigelow, Niell G. Elvin, Alex A. Elvin, and Steven P. Arnoczky
To determine whether peak vertical and horizontal impact accelerations were different while running on a track or on a treadmill, 12 healthy subjects (average age 32.8 ± 9.8 y), were fitted with a novel, wireless accelerometer capable of recording triaxial acceleration over time. The accelerometer was attached to a custom-made acrylic plate and secured at the level of the L5 vertebra via a tight fitting triathlon belt. Each subject ran 4 miles on a synthetic, indoor track at a self-selected pace and accelerations were recorded on three perpendicular axes. Seven days later, the subjects ran 4 miles on a treadmill set at the individual runner’s average pace on the track and the peak vertical and horizontal impact magnitudes between the track and treadmill were compared. There was no difference (P = .52) in the average peak vertical impact accelerations between the track and treadmill over the 4 mile run. However, peak horizontal impact accelerations were greater (P = .0012) on the track when compared with the treadmill. This study demonstrated the feasibility for long-term impact accelerations monitoring using a novel wireless accelerometer.
The Effectiveness of Compression Socks for Athletic Performance and Recovery
Justin M. Stanek
Clinical Scenario:
The popularity of compression socks has increased substantially among athletes, particularly those participating in endurance events such as running and triathlon. Companies are increasingly marketing compression stockings to runners, triathletes, and other endurance athletes for the benefits of improved performance and/or decreased recovery time. Originally developed for the treatment of deep-vein thrombosis, compression socks are now marketed as a tool to improve venous return, thus believed to improve both performance and recovery in athletes. The use of compression socks during training aims to help the skeletal-muscle pump, increase deep venous velocity, and/or decrease blood pooling in the calf veins and alleviate delayed-onset muscle soreness. The scenario is a 28-y-old recreational triathlete seeking your advice while training for her first half-Ironman. She occasionally complains of tightness in the calves both during and after running. She wants your opinion on the effectiveness of using compression socks to help her performance and recovery.
Focused Clinical Question:
What is the effectiveness of using graduated compression socks for improving athletic performance and decreasing recovery time in healthy endurance athletes?
Does Prophylactic Stretching Reduce the Occurrence of Exercise-Associated Muscle Cramping? A Critically Appraised Topic
John W. Evers-Smith and Kevin C. Miller
, and BMI not reported) Experimental design Case control study Prospective cohort study Prospective cohort study Prospective cohort study Oxford Level of Evidence (2011) 4 3 3 3 JBI quality score 10 of 10 9 of 11 8 of 11 8 of 11 Exercise event 2006 and 2007 Ironman Triathlon 2010 Ironman Triathlon 56-km
Athletes Rated as Poor Single-Leg Squat Performers Display Measurable Differences in Single-Leg Squat Biomechanics Compared With Good Performers
Lachlan E. Garrick, Bryce C. Alexander, Anthony G. Schache, Marcus G. Pandy, Kay M. Crossley, and Natalie J. Collins
. Participants Healthy, asymptomatic athletes were voluntarily recruited from the community between September 2009 and September 2011. Volunteers responded to flyers posted at The University of Melbourne, and in gymnasiums, running, and triathlon clubs around metropolitan Melbourne. Paid advertisements in