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An investigation into the effectiveness of core muscle strengthening on cycling performance in asymptomatic cyclistsWiseman, Kate 08 April 2014 (has links)
Dissertation submitted in partial compliance with the requirements for the Masters’ Degree in Technology: Chiropractic, Durban University of Technology, 2013. / Background : Core strengthening may improve athletic ability by providing stability to the trunk, and as a result, stabilising the pelvis. The leverage from which cyclists generate power may be enhanced as a result of a stable pelvis, thereby improving the cyclist’s performance. In the popular, highly competitive sport of cycling, performance enhancement is much sought after. Despite its widespread use, research involving core strengthening in sporting situations is lacking, with studies investigating the effect of a core strengthening programme on cycling performance yet to be investigated.
Objectives : To determine the participants’ cycling speed, power, cadence and completion time, and core strength in terms of objective findings, pre- and post- core strengthening intervention, in the whole sample and within the two age strata. To determine the participants’ heart rate in terms of objective findings, and the rate of perceived exertion in terms of subjective findings, pre- and post- core strengthening intervention, in the whole sample and within the two age strata. To determine the participants’ perception of change in speed, power and cadence post- intervention, in the whole sample and within the two age strata.
Method : Forty-two asymptomatic cyclists performed two 1.5 km time trials, pre- and post- core strengthening intervention. Core strength assessments were performed pre- and post- intervention, using the Pressure Biofeedback Unit, and the maximum and average speed (km/hr), power (w) and cadence (rpm), and completion time (s) were recorded pre- and post- intervention, using the Computerised Electromagnetic Roller resistance Ergometer (Tacx Trainer). Heart rate and rate of perceived exertion (RPE) were recorded pre- and post- intervention, as well as the participant’s perception of change in speed, power, and cadence post- intervention. SPSS version 20 (SPSS Inc) was used to analyse the data, in the whole sample and stratified into two age strata.
Results : ll cycling performance indicators, speed, power, cadence and completion time showed a significant improvement post- intervention, in the whole sample, and within the two age strata. Core strength indicators showed a significant improvement post- intervention, in the whole sample and within the two age strata. A significant decrease in rate of perceived exertion and corresponding heart rate measurements post- intervention was observed in the whole sample. Similarly, the younger age strata reflected a significant decrease in rate of perceived exertion, however heart rate measurements were not significant. In contrast, the older age strata showed significant changes in heart rate measurements, with no significance in rate of perceived exertion measurements. The majority of participants experienced an increased perception in all outcomes post- intervention.
Conclusions: The results of this study found that core strengthening had a statistically significant effect (p < 0.001) on cycling performance, both in terms of objective and subjective findings. Future studies could address the effect of core strengthening in an endurance setting.
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Physiological demands of the Absa Cape Epic mountain bike race and predictors of performanceGreeff, Marli 12 1900 (has links)
Thesis (MScSportSc)--Stellenbosch University, 2014. / ENGLISH ABSTRACT: The purpose of this qualitative-quantitative study was to describe the exercise intensity and
predictors of performance of a multi-stage mountain bike (MTB) race (2014 Absa Cape Epic)
lasting 8 days. Twenty-three amateur mountain bikers (age 39 ± 9 years, height 178.8 ± 8.2
cm, body mass 74.7 ± 9.1 kg, VO2max 54 ± 7 ml.kg-1.min-1) who completed the 2014 Absa
Cape Epic were involved in the study. The participants were divided into two groups
according to their MTB experience. The experienced group included participants who
previously completed more than three 3-day multi-stage MTB events and the novices group
included those who has completed less than 3-day multi-stage MTB events.
Prior to the event the participants completed a maximal aerobic cycling test and a simulated
40 km time trial (TT). The maximal aerobic test was used to determine 3 work intensity
zones based on heart rate (HR) corresponding to blood lactate thresholds (LT: increase in
blood lactate concentration of 1 mmol.l-1 above baseline values and the onset of blood
lactate accumulation (OBLA), a fixed blood lactate concentration of 4 mmol.l-1). There were
no statistically significant differences in the physical, physiological and performance
variables measured in the laboratory between the two groups. The exercise intensity during the Cape Epic was measured using telemetric HR monitoring
sets. RPE values were noted after each stage of the race. The mean HR was 88.1 ± 5.3%
(experienced) and 84.2 ± 11.0% (novices) of maximal HR during the race or 88.9 ± 3.5%
(experienced) and 85.9 ± 10.6 (novices) of laboratory determined maximum HR. More time
was spent in the “low” HR zone (43.1 % vs 58.5 %, respectively), while only a small amount
of time was spent in the “hard” HR zone (7.4% and 6.1%, respectively). The experienced
group spent statistically significantly more time in the “moderate” HR zone compared to the
novices group (49.5 % vs. 35.4 %). The experienced group performed significantly better
during the event compared to the novices group in both the total event time (P = 0.004) and
the general classification (P = 0.01).
Relative and absolute power output (PO) at OBLA (P = 0.01 and 0.02, respectively) were
statistically significant predictors of total event time, while relative peak power output was a
significant predictor of general classification for the event (P = 0.02) . The total TT time was
a significant predictor of average event HR (P = 0.03). This study showed that this MTB stage race is physiologically very demanding and requires
cyclists to have excellent endurance capacity, as well as strength and power. The
parameters from the maximal aerobic capacity test correlated better with outdoor
performance than parameters from the simulated 40 km TT. Therefore the standard
maximal aerobic capacity test are sufficient for testing mountain bikers and sport scientists
can continue using this test to prescribe exercise intensity zones for training and events. / AFRIKAANSE OPSOMMING: Die doel van hierdie kwalitatiewe-kwantitatiewe studie was om die oefeningsintensiteit en
voorspellers van prestasie tydens ‘n multi-dag bergfiets kompetisie (Absa Cape Epic) van 8
dae lank te bepaal. Drie-en-twintig bergfietsryers (ouderdom 39 ± 9 jaar, lengte 178.8 ± 8.2
cm, liggaamsmassa 74.7 ± 9.1 kg, VO2maks 54 ± 7 ml.kg-1.min-1) wat die 2014 Absa Cape
Epic voltooi het, het aan die studie deelgeneem. Die deelnemers is in twee groepe verdeel
volgens hulle ervaring in multi-dag bergfiets kompetisies. Die ervare groep was al die
deelnemers wat meer as drie 3-dae multi-dag bergfiets kompetisies voltooi het. Die onervare
groep was al die deelnemers wat minder as drie 3-dag multi-dag bergfiets kompetisies
voltooi het.
Voor die kompetisie het al die deelnemers ‘n maksimale aërobiese toets en ‘n gesimuleerde
40 km tydtoets in die laboratorium voltooi. Die maksimale aërobiese toets is gebruik om drie
werk intensiteit sones volgens die hartspoed te bepaal, naamlik die hartspoed by die
laktaatdraaipunt(‘n toename in bloed [laktaat] van 1 mmol.l-1 bo die basislynwaardes) en die
hartspoed by die aanvang van bloedlaktaat akkummulasie (‘n vaste bloed [laktaat] waarde
van 4 mmol.l-1). Daar was geen statisties betekenisvolle verskille in die fisiese, fisiologiese
en prestasie veranderlikes tussen die twee groepe nie.
Die oefeningsintensiteit tydens die Cape Epic was gemeet deur gebruik te maak van
hartspoedmonitors. Die RPE waardes was aan die einde van elke skof genoteer. Die
gemiddelde hartspoed was 88.1 ± 5.3 % (ervare) en 84.2 ± 11.0 % (onervare) van
maksimale kompetisie hartspoed, of 88.9 ± 3.5 % (ervare) en 85.9 ± 10.6 % (onervare) van
die maksimale hartspoed soos in die laboratorium gemeet. Die fietsryers het meer tyd spandeer in die “lae” hartspoed sone (43.1 % vs 58.5 %,
onderskeidelik), in vergelyking met die “moeilike” hartspoed sone (7.4 % vs 6.1 %,
onderskeidelik). Die ervare groep het statisties betekenisvol meer tyd in die “matige”
hartspoed sone spandeer (49.5 % vs. 35.4 %) in vergelyking met die onervere groep. Die
ervare groep het beter presteer tydens die kompetisie vir beide totale kompetisie tyd (P =
0.004) en algehele klassifikasie (P = 0.01).
Relatiewe en absolute krag by aanvang van bloed laktaat akkumulasie was statisties
betekenisvolle voorspellers van totale kompetisie tyd (P = 0.01 en 0.02, onderskeidelik),
terwyl maksimale krag ‘n statisties betekenisvolle voorspeller was van algehele klassifikasie
in die kompetisie (P = 0.02). Die totale tydtoets tyd was ‘n statisties betekenisvolle
voorspeller van gemiddelde hartspoed tydens die kompetisie. Die studie het gewys dat hierdie multi-dag bergfiets kompetisie fisiologies baie uitdagend is
en dat fietsryers uistekende uithouvermoë kapasiteit, sowel as krag en plofkrag moet besit.
Die veranderlikes van die maksimale aërobiese toets het beter met prestasie in die veld
gekorreleer as die veranderlikes van die gesimuleerde 40 km tydtoets. Daar word dus
afgelei dat die standaard maksimale aërobiese toets voldoende is vir die toetsing van
bergfietsryers en sportwetenskaplikes kan aanhou om hierdie toets te gebruik om
oefeningsintensiteit sones voor te skryf vir oefensessies en kompetisies.
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