Does Downhill Running Alter Monocyte Susceptibility to Apoptosis?

Pennel, Kathryn Ann Foster

08 1900

Introduction/purpose: Recovery from muscle damage involves a type of programmed cell death known as apoptosis. Damage Associated Molecular Patterns (DAMPs) are released after muscle damage and may cause premature apoptosis in monocytes infiltrating the damaged site. This may alter the time course of events towards recovery. Therefore, the purpose of this study was to investigate if downhill running causes a change in the susceptibility of monocytes to apoptosis. Methods: Participants (5 male, 6 female) completed a downhill running protocol consisting of 6-5 minute bouts at a speed of 6-9mph on a -15% grade treadmill. Venous blood samples were collected immediately pre-exercise (PRE), in addition to 4 -h, 24 -h and 48 -h post-exercise. Creatine kinase (CK) was measured to give an indication of muscle damage. Monocytes were analyzed by flow cytometry for expression of multicaspase and annexin v reagent was used to detect changes in the plasma membrane. A MILLIPLEX MAP human early apoptosis magnetic bead 7-plex kit (EMD Millipore, Billerica, MA) was used to assess the relative concentration of phosphorylated protein kinase B (Akt), Bcl-2 associated death promoter (BAD), B cell lymphoma-2 (Bcl-2), active caspase-8, active caspase-9, c jun N terminal kinase (JNK) and tumor protein p53 by Luminex multiplex assay. Results: CK peaked at 24- h. Monocytes showed greater expression of multicaspase at 24 –h and 48 -h than at PRE. Bcl-2, p53 and caspase-8 were all significantly greater at 24 –h than at PRE. Conclusion: Downhill running did alter the apoptotic response of monocytes and therefore may be important in the recovery process from muscle damage.

Apoptosis

Monocytes

Downhill Running

Flow Cytometry

Multiplex Assay

Didaktické postupy pro výuku lyžování začátečníků v mladším školním věku / Didactical methods for teaching of skiing of beginners 6-10 years old

Hrůšová, Petra

January 2019

Title: Didactic methods for teaching of skiing of beginners 6-10 years old Objectives: The aim of this diploma thesis is to create a "ranking alphabet" for skiing beginners at age from 6 to 10 years old (young school age) and following verification of its effectiveness by using different didactic methods during the skiing education in "Half-day skiing school" in Kubova Huť. Methods: This is a case study that has the character of descriptions with the nature of qualitative research. The main method was the participatory observation by five trained ski instructors. We also used the category system and created seven categories. These were skiing skills included in the "ranking alphabet". To capture the quality of execution, we chose the judging ranges for individual elements in the "ranking alphabet". Results: The ranking alphabet with seven elementary skills was created. Each skill was defined and its level was determined. Children were divided into two groups (parallel and plough ski position). It depended on the quality of individual skiing skills. Every group participated in modified skiing education. In the end skills of both groups were verified by slalom. The use of ski "ranking alphabet" at the beginning of ski training proved to be effective for skiing beginners. Key words: Children, downhill...

Downhill Treadmill Running Does Not Induce Muscle Damage in FVB Mice

Benson, Brenda

01 September 2014

Downhill treadmill running is a commonly used method to cause exercise-induced muscle damage, especially in rodents. Previous studies have evaluated which muscles in rats are more prone to damage. However research using downhill run mice (DHR) has shown some inconsistencies in which muscle is best analyzed for damage. Purpose: The purpose of this study was to quantify the damage in various muscles in a mouse after a single bout of DHR. Methods: Male FVB mice (5 months) were injected with Evans Blue dye (EBD) and then either used as control (CON) or run downhill (-16°) at 20 meters per minute (m/min) for 30 minutes. Twenty-four hours after exercise, the gastrocnemius, soleus, plantaris, tibialis anterior (TA), quadriceps, and triceps brachii muscles were harvested (n = 6 per group per muscle). Cross-sectional slices were obtained, fixed, and mounted to analyze EBD infiltration, dystrophin (Dys), and centralized nuclei. The samples were then imaged using a fluorescent microscope. The entire sample was captured using 20x magnification, and the total number of cells, EBD+, Dys-, and centralized nuclei, were counted. A blood sample was collected to measure plasma creatine kinase (CK) activity. Results: Total number of cells was not different between groups (p > 0.05). No significant difference in any of the markers of muscle damage was found in any muscle between CON and DHR (p > 0.05). Conclusion: These data suggest that DHR does not induce muscle damage in adult (5 months) male FVB mice.

downhill running

mice

muscle damage

Evans Blue dye

dystrophin

Exercise Science

Monitoring muscle oxygenation and myoelectric activity after damage-inducing exercise

Ahmadi, Sirous

January 2007

Doctor of Philosophy / In this thesis, three experiments were conducted to monitor: (i) muscle oxygenation and electromyographic activity of the biceps brachii after exercise-induced muscle damage (ii) muscle oxygenation after downhill walking-induced muscle damage, and, (iii) muscle oxygenation following a bout of vigorous concentric exercise. Maximal eccentric exercise (EE) of biceps brachii resulted in significantly increased mean resting oxygen saturation and decreased deoxyhaemoglobin. During isometric contractions at 50% and 80% of subjects’ maximum voluntary torque (MVT), oxygen desaturation and resaturation kinetics and volume were significantly decreased after EE, and these declines were significantly prevalent over the following 6 days. Additionally, a significant shift in median frequency intercept (measured by electromyography; EMG) towards lower frequencies was observed during isometric contractions at both 50% and 80% MVT after EE in the exercised arm. After an exhaustive session of downhill walking, another form of EE, resting total haemoglobin and oxyhaemoglobin decreased. Furthermore, during isometric contractions at 30%, 50% and 80% of MVT, prolonged and significant increases were observed in oxygen desaturation and resaturation kinetics and volumes after ambulatory EE. In contrast to the two EE experiments, concentric contractions did not evoke any prolonged changes in muscle oxygenation. Collectively, the findings of this thesis revealed significant and prolonged changes in muscle oxygenation at rest and during exercise, following sessions of strenuous eccentric exercise. Although not clear, the possible mechanism responsible for the changes in muscle oxygenation after EE could be increased resting muscle oxygen utilization due to probable muscle damage and a subsequent requirement of energy demanding repair processes. Concentric exercise resulted in fatigue, but it did not affect muscle oxygenation. Although a prolonged reduction in EMG median frequency intercept was observed after EE, this was not closely time-associated with the biochemical, anthropometric or functional markers of muscle damage.

Muscle oxygenation

Muscle blood flow

Eccentric exercise

Near infrared spectroscopy

Electromyography

Downhill walking

Concentric exercise.

Modeling Anaerobic Muscle Metabolism

Maksai, Tibor

January 2008

<p>Is it possible for a minimal model of anaerobic muscle contraction to describe measured data? There have been many models trying to describe separate parts of the human body with various results. In this thesis a model has been created to describe all the essential biochemical reactions of anaerobic muscle metabolism during contraction but with as few states and parameters as possible. A toolbox in Matlab was used for simulation and also for parameter estimation. The best model eventually got validated to see statistically how well it can describe the measured data. During the simulations an unnecessary assumption got revealed which helped us to understand the system better. The vision of a whole-body model may not be so far into the future as many think and the first step is to understand smaller biochemical systems like muscle contraction.</p>

anaerobic muscle contraction

modeling

simulated annealing

Downhill simplex

Automatic control

Reglerteknik

Modeling Anaerobic Muscle Metabolism

Maksai, Tibor

January 2008

Is it possible for a minimal model of anaerobic muscle contraction to describe measured data? There have been many models trying to describe separate parts of the human body with various results. In this thesis a model has been created to describe all the essential biochemical reactions of anaerobic muscle metabolism during contraction but with as few states and parameters as possible. A toolbox in Matlab was used for simulation and also for parameter estimation. The best model eventually got validated to see statistically how well it can describe the measured data. During the simulations an unnecessary assumption got revealed which helped us to understand the system better. The vision of a whole-body model may not be so far into the future as many think and the first step is to understand smaller biochemical systems like muscle contraction.

anaerobic muscle contraction

modeling

simulated annealing

Downhill simplex

Automatic control

Reglerteknik

Monitoring muscle oxygenation and myoelectric activity after damage-inducing exercise

Ahmadi, Sirous

January 2007

Doctor of Philosophy / In this thesis, three experiments were conducted to monitor: (i) muscle oxygenation and electromyographic activity of the biceps brachii after exercise-induced muscle damage (ii) muscle oxygenation after downhill walking-induced muscle damage, and, (iii) muscle oxygenation following a bout of vigorous concentric exercise. Maximal eccentric exercise (EE) of biceps brachii resulted in significantly increased mean resting oxygen saturation and decreased deoxyhaemoglobin. During isometric contractions at 50% and 80% of subjects’ maximum voluntary torque (MVT), oxygen desaturation and resaturation kinetics and volume were significantly decreased after EE, and these declines were significantly prevalent over the following 6 days. Additionally, a significant shift in median frequency intercept (measured by electromyography; EMG) towards lower frequencies was observed during isometric contractions at both 50% and 80% MVT after EE in the exercised arm. After an exhaustive session of downhill walking, another form of EE, resting total haemoglobin and oxyhaemoglobin decreased. Furthermore, during isometric contractions at 30%, 50% and 80% of MVT, prolonged and significant increases were observed in oxygen desaturation and resaturation kinetics and volumes after ambulatory EE. In contrast to the two EE experiments, concentric contractions did not evoke any prolonged changes in muscle oxygenation. Collectively, the findings of this thesis revealed significant and prolonged changes in muscle oxygenation at rest and during exercise, following sessions of strenuous eccentric exercise. Although not clear, the possible mechanism responsible for the changes in muscle oxygenation after EE could be increased resting muscle oxygen utilization due to probable muscle damage and a subsequent requirement of energy demanding repair processes. Concentric exercise resulted in fatigue, but it did not affect muscle oxygenation. Although a prolonged reduction in EMG median frequency intercept was observed after EE, this was not closely time-associated with the biochemical, anthropometric or functional markers of muscle damage.

Muscle oxygenation

Muscle blood flow

Eccentric exercise

Near infrared spectroscopy

Electromyography

Downhill walking

Concentric exercise.

Rozložení tlaku na ploskách chodidel ve středním smýkaném oblouku alpskou a telemarkovou technikou / The pressure distribution on the soles of feet in the medium parallel turn in the alpine and the telemark technique of downhill skiing

Svobodová, Renata

January 2018

Title: The pressure distribution on the soles of feet in the medium parallel turn in the alpine and the telemark technique of downhill skiing Objectives: The aim of this thesis is to compare the pressure distribution on the soles of feet in the medium parallel turn in the alpine and the telemark technique of downhill skiing. Methods: For the analysis of pressure distribution on the soles of feet in downhill skiing was used the pressure measurement system Pedar-X, which works for monitoring of plantar pressure (kPa) moreover. The pressure distribution measuring on the soles of feet was taking place in prepared track of the ski slope in two ways. The first one was the telemark technique and the second one was the alpine technique. For the evaluating and the processing of the results was selected in the right and in the left turn of each testing person in approximately the same part of the track. Results: The results of pressure distribution in the alpine and the telemark position turn have shown the significantly important difference in the intraindividual comparison in every technique. The significantly important difference was detected also in the interindividual comparison in both techniques each other. Keywords: downhill skiing, telemark, Pedar-X, pressure distribution

Zjištění techniky sjíždění a zatáčení veřejnosti v České republice\\ / Finding the downhill runing and turning techniques by public in the Czech republic\\

NOHAVA, Jan

January 2007

The thesis is foucused on finding downhill runing techniques and turning techniques of public in the Czech Republic. The work aims to determine what techniniques are used by public in the Czech mountains and how good their technique is. During the main ski season of the year 2006 the rating was provided in four biggest and well {--} known resort. A short hidden observational method was used for finding the results. Techniques were classifiing by present trends and aspects and the results were processing to the tables and graphes. This thesis should help to chart the techniques used by the public in the Czech ski resorts.

Anatomical and Biomechanical Factors Related to Running Economy in Uphill and Downhill Running

Taylor, McKenna

03 August 2022

Much is known about running economy while running on level ground surfaces. However, with the dynamic of elevation changes during running, more research is needed to understand how various grades that will favor respective mechanics. PURPOSE: In this study, we focused on determining whether certain running mechanics and anatomy would predict a runner's oxygen uptake between downhill versus uphill running. METHODS: Twenty-one experienced runners completed six 5-min running trials (1 shoe x 3 grades x 2 visits) in a Saucony marathon racing shoe model (Type A) on level (3.83 m/s), uphill (+4% grade at 3.35 m/s), and downhill ( ˆ’4% grade at 4.46 m/s) conditions. These treadmill speeds at each grade were predicted as metabolic equivalents through all grades. We measured submaximal oxygen uptake and carbon dioxide production during the entire trial duration with the last 3 min of each trial being averaged. A best-fitting line was generated through oxygen uptake versus grade to classify whether runners were more economical in uphill or downhill conditions relative to other subjects. The slope of this line indicated whether runners were more economical at uphill or downhill running, where a positive slope represented a more economical uphill versus downhill runner. Various running mechanics were measured using Vicon Nexus and a Bertec treadmill. A linear regression determined any correlations between peak vertical force, stride rate, plantar velocity, and ground time against uphill/downhill running ability. RESULTS: Peak vertical force was the only factor associated with the slope of oxygen uptake versus grade (running grade ability; p < 0.01). The slope of oxygen uptake versus grade averaged 0.076 ± 0.278 ((ml/kg/min) / % grade). CONCLUSION: Runners that naturally prefer a higher peak vertical force when running on level ground led to a lower running grade ability (lower oxygen uptake during downhill versus uphill running).

running economy

uphill and downhill running

running grade ability

Achilles tendon

Life Sciences