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Caloric Expenditure and Substrate Utilization in Underwater Treadmill Running Versus Land-based Treadmill Running

2009
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Release : 2009
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Book Synopsis Caloric Expenditure and Substrate Utilization in Underwater Treadmill Running Versus Land-based Treadmill Running by : Courtney Schaal

Download or read book Caloric Expenditure and Substrate Utilization in Underwater Treadmill Running Versus Land-based Treadmill Running written by Courtney Schaal. This book was released on 2009. Available in PDF, EPUB and Kindle. Book excerpt: ABSTRACT: The objective of this study is to compare the caloric expenditure and oxidative sources of underwater treadmill running and land-based treadmill running at maximal and submaximal levels. Underwater running has emerged as a low load bearing form of supplementary training for cardiovascular fitness, as a way to promote recovery from strenuous exercise while maintaining aerobic fitness, and as a way to prevent injury. Prior studies have reported conflicting results as to whether underwater treadmill running elicits similar cardiorespiratory responses to land-based running. It is important to further investigate the similarities and differences between the two to determine if underwater running is as efficient as land-based running for maintenance of fitness and for rehabilitative purposes. Purpose: To compare the caloric expenditure and oxidative sources of underwater treadmill running and land treadmill running during both maximal treadmill trials to exhaustion and during 30 minute submaximal treadmill trials. Methods: 11 volunteer experienced male triathletes, ages 18-45 were recruited as participants. Each completed 6 trials total which included a maximal and submaximal oxygen consumption trial for each of three conditions: running on a water treadmill with AQx® water running shoes, running on a water treadmill without shoes, and running on a land-based treadmill. Data analysis: Data was analyzed using repeated measures ANOVAs, paired t-tests, pairwise comparisons with bonferroni adjustments, and descriptive statistics were reported. Results: For maximal oxygen consumption trials VO2, RPE, RER, and BP were not significantly different between modalities. Maximal HR was found to be significantly different between modalities, and was shown to be greater on land than in the water. For submaximal VO2, trials HR, RPE, RER, and post BP were not found to be significantly different between modalities. Average VO2, total calories expended, and pre systolic BP were found to be significantly different, and were shown to be greater on land than in water. Conclusions: While maximal exertion running on underwater treadmills seems to elicit similar cardiorespiratory responses to running on land-based treadmills, differences were seen at submaximal exertion levels. It remains unclear whether underwater treadmill running can elicit similar training stimuli as land running at submaximal levels.

Relationship of Metabolic Costs of Aquatic Treadmill Versus Land Treadmill Running

2012
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Release : 2012
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Book Synopsis Relationship of Metabolic Costs of Aquatic Treadmill Versus Land Treadmill Running by : Sarah Squires Blackwell

Download or read book Relationship of Metabolic Costs of Aquatic Treadmill Versus Land Treadmill Running written by Sarah Squires Blackwell. This book was released on 2012. Available in PDF, EPUB and Kindle. Book excerpt: PUBLIC ABSTRACT: Running injuries are common, usually causing athletes to cease or significantly reduce participation in a particular sport. The recent development of aquatic treadmills (ATM), an alternative to land treadmill (LTM) running, provides another option. The use of an ATM provides an individual the opportunity to run in an environment that creates much lower impact or ground contact forces compared to what is experienced on land. Forces 2-3 times that of a person's body weight may be experienced on land while in water these forces are about 1 times body weight. This cumulative reduction in force lowers the risk of overuse injury and decreases the possibility of lost time to exercise. Another consideration with ATM is whether the energy expenditure during running in an ATM is comparable to running on a land treadmill. Therefore, this study sought to examine the energy expenditure (oxygen consumption, VO2) relationship between varying jet resistances and running speed on an ATM versus running on a level LTM. Healthy subjects ran on a LTM at three self-selected running speeds while VO2 was measured. In ATM subjects ran as speeds identical to LTM but water jet resistances corresponding to 0, 20, 40, 60, 80 and 100% jet capacity were used to provide additional resistance during running. In terms of energy expenditure LTM was greater than ATM when 0 or 20% jets were used. By 40% jets energy expenditure was similar between LTM and from 60-100% jets ATM was greater than LTM. Knowing what jet resistance is used in ATM allows for the estimation of running speed on LTM to create similar amounts of energy expenditure. These results allows someone with orthopedic restrictions to exercise in ATM and gain similar benefits of energy expenditure as LTM.

The Cardiovascular Responses of Running on an Underwater Treadmill at Two Different Water Temperatures Compared to Land Based Running

2013 Aquatic exercises
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Release : 2013
Genre : Aquatic exercises
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Book Synopsis The Cardiovascular Responses of Running on an Underwater Treadmill at Two Different Water Temperatures Compared to Land Based Running by : Dana Kiger

Download or read book The Cardiovascular Responses of Running on an Underwater Treadmill at Two Different Water Temperatures Compared to Land Based Running written by Dana Kiger. This book was released on 2013. Available in PDF, EPUB and Kindle. Book excerpt: INTRODUCTION: Due to the benefits of aquatic exercising, it is important to quantify the metabolic demand of specific exercises performed in and out of the water environment. The prevalence of aquatic exercising is increasing due to the standard benefits of exercise, but with a reduction of stress and impact. Data from published studies are equivocal in the metabolic requirements using land-based treadmill and underwater treadmills. PURPOSE: The purpose of this study was to examine the cardiovascular responses of oxygen consumption (VO2) and heart rate (HR) that occur when running on an underwater treadmill in 95° and 104° water temperatures compared to a land-base treadmill trial (LTM). METHODS: Fourteen college aged students aged (21.8 ± 1.7) years old, underwent three separate trials; running on an underwater treadmill in 95° water temperature (UTML), running on an underwater treadmill in 104° water temperature (UTMH), and running on a land-base treadmill. Subjects completed 7 total stages at UTMH and UTML, and on a LTM at a belt speed of (3.0 mph, 4.5 mph, 6.0 mph, 6.5 mph, 6.5 mph/30% jets, 6.5 mph/40% jets, 6.5 mph/50% jets) or 6.5 mph with increasing grade of incline of 1%, 2%, and 4%. A 3x7 repeated analysis of variance with Bonferroni adjustments were used to compare the differences between HR, and VO2 at stages 2, 4, 6, 8, 10, and 12 on LTM as well as on UTML and UTMH.The significance level for all comparisons was set to p

Comparison of Energy Expenditure Between Treadmill Running and Water Running

1986 Aquatic exercises
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Release : 1986
Genre : Aquatic exercises
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Book Synopsis Comparison of Energy Expenditure Between Treadmill Running and Water Running by : Ana M. Navia

Download or read book Comparison of Energy Expenditure Between Treadmill Running and Water Running written by Ana M. Navia. This book was released on 1986. Available in PDF, EPUB and Kindle. Book excerpt:

Lactate Threshold

2013
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Release : 2013
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Book Synopsis Lactate Threshold by : Ron T. Garner

Download or read book Lactate Threshold written by Ron T. Garner. This book was released on 2013. Available in PDF, EPUB and Kindle. Book excerpt: Aquatic treadmill running has become increasingly popular for rehabilitation and training purposes due to decreased joint impact on the lower extremities, which is beneficial for special populations such as the injured, elderly, arthritic, and obese (Greene et al., 2009; Hall, Grant, Blake, Taylor, & Garbutt, 2004). Accordingly, researchers have compared key differences such as heart rate (HR), oxygen consumption (VO2), respiratory exchange ratio (RER), stride frequency, and rating of perceived exertion (RPE) between land and water running at maximal and submaximal efforts (Brubaker, Ozemek, Gonzalez, Wiley, & Collins, 2011; Rife, Myrer, Feland, Hunter, & Fellingham, 2010; Rutledge, Silvers, Browder, & Dolny, 2007; Silvers, Rutledge, & Dolny, 2007). As the benefits of aquatic treadmill running continue to be unveiled, there is an interest for healthy individuals to use the system to supplement training while limiting joint stress. Rutledge et al. (2007) revealed VO2 values at 6.5, 7.5 and 8.5 mph on an aquatic treadmill with no jet resistance to be 33.97 ℗ł 4.0, 37.96 ℗ł 4.0, and 43.6 ℗ł 4.0 mL0́Økg-10́Ømin-1, respectively. Watson et al. (2012) also revealed VO2 values on an aquatic treadmill at 4.5, 6.0, and 7.5 mph with no jet resistance to be 20.58 ℗ł 3.36, 29.27 ℗ł 3.89, and 35.77 ℗ł 4.02 mL0́Økg-10́Ømin-1, respectively. These articles demonstrate the linear relationship that exists with increasing workloads with concomitant increases in VO2 with aquatic treadmill running. As metabolic demands increase, a reliance on anaerobic metabolism ensues and the work rate at which lactate begins to accumulate in the blood is called the lactate threshold (LT) (Stainsby & Brooks, 1990). The importance of determining LT is supported by a large body of evidence to predict aerobic endurance capacity (Faude, Kindermann, & Meyer, 2009). As such, researchers have employed great efforts to predict LT via field tests to determine the correct training intensity for endurance athletes (McGehee, Tanner, & Houmard, 2005).An early study of LT revealed a strong relationship (r 9́Æ .91) between treadmill velocity at the onset of plasma lactate accumulation and running performance at distances ranging from 3.2 km to 42 km (Farrell, Wilmore, Coyle, Billing, and Costill, 1979). In other words, a faster sustainable work rate prior to a lactate accumulation or threshold will increase performance. Comparisons for lactate concentrations during deep water and land treadmill running have been examined previously. Frangolias and Rhodes (1996) reviewed that during submaximal intensities of deep water versus land running, at the same relative VO2 water exercise resulted in a lower HR with higher blood lactate, RER, and RPE. These same authors previously reported that at maximal efforts on land versus deep water running, there was no statistical difference between lactate concentrations 30 s and 5 min post-exercise (Frangolias & Rhodes, 1995). However, not all water immersion running studies support similar peak lactate values (Frangolias & Rhodes, 1996; Svedenhag & Seger, 1992).In a shallow water pool, a study by Town and Bradley (1991) revealed no statistical differences between land and water running for peak lactate values. However, lactate concentration in the water was 80% of that from land exercise. The authors stated that the 0́−push-off0́+ phase, which enabled ground contact, elicited similar running technique to land treadmills and could be partially responsible for similar physiological responses to land.In recent years the availability of aquatic treadmills allows for a more favorable comparison of land and water running due to the implication of the 0́−push-off0́+ phase as discussed by Town and Bradley. Silvers et al. (2007) revealed no statistical difference between peak lactate concentrations in VO2peak tests run on land versus aquatic treadmills. Zobell (2009) examined a comparison of LT between land and aquatic treadmill running which showed higher lactate levels in the water compared to land. However, no clear answers have developed as to a comparison of the LT on land vs. aquatic treadmill running. Therefore, the purpose of this study was to determine the LT while running on a land and an aquatic treadmill and compare to see if the intensities are equivalent.

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