Effect of Changes in Repetition Time during 10RM Squat Exercise on EMG Response, Heart Rate and Blood Lactate

DOI: http://dx.doi.org/10.5007/1980-0037.2016v18n6p621 The aims of the study were: 1) to analyze the exercise intensity in several phases (six phases of 15 min) of soccer matches; 2) to compare the match time spent above anaerobic threshold (AT) between different age groups (U-17 and U-20); and 3) to compare the match time spent above AT between players’ positions (backs, midfielders, forwards and wingabcks). Forty-four male soccer players were analyzed. To express players’ effort, the heart rate (HR) was continuously monitored in 29 official matches. Further, HR corresponding to the intensity at the onset of blood lactate accumulation (OBLA) was obtained in a field test. The highest exercise intensity during match was observed in the 15-30 min period of the first half (p< 0.05). Match time spent above AT was not different between players from U-17 and U-20. In the comparison among players’ positions, wingbacks showed lower time above AT (p< 0.05) than players of other positions. The intensity of effort is higher in the 15 to 30 minutes of play (intermediate phase), probably because the players are more rested in the beginning and wearing out is progressive throughout the game. It is also noteworthy that the intensity of exercise (HR and time above AT) of wingbacks was lower, probably because they usually are required to run a larger number of sprints and need more time below the AT to recover.

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Physiological responses and energy expenditure during competitive fencing

Applied Physiology Nutrition and Metabolism ◽

10.1139/apnm-2013-0221 ◽

2014 ◽

Vol 39 (3) ◽

pp. 324-328 ◽

Cited By ~ 12

Author(s):

Raffaele Milia ◽

Silvana Roberto ◽

Marco Pinna ◽

Girolamo Palazzolo ◽

Irene Sanna ◽

...

Keyword(s):

Heart Rate ◽

Energy Expenditure ◽

Oxygen Uptake ◽

Blood Lactate ◽

Carbon Dioxide Production ◽

Maximum Value ◽

Average Group ◽

Aerobic Energy Metabolism ◽

Olympic Sport ◽

Energetic Expenditure

Fencing is an Olympic sport in which athletes fight one against one using bladed weapons. Contests consist of three 3-min bouts, with rest intervals of 1 min between them. No studies investigating oxygen uptake and energetic demand during fencing competitions exist, thus energetic expenditure and demand in this sport remain speculative. The aim of this study was to understand the physiological capacities underlying fencing performance. Aerobic energy expenditure and the recruitment of lactic anaerobic metabolism were determined in 15 athletes (2 females and 13 males) during a simulation of fencing by using a portable gas analyzer (MedGraphics VO2000), which was able to provide data on oxygen uptake, carbon dioxide production and heart rate. Blood lactate was assessed by means of a portable lactate analyzer. Average group energetic expenditure during the simulation was (mean ± SD) 10.24 ± 0.65 kcal·min−1, corresponding to 8.6 ± 0.54 METs. Oxygen uptakeand heart rate were always below the level of anaerobic threshold previously assessed during the preliminary incremental test, while blood lactate reached its maximum value of 6.9 ± 2.1 mmol·L−1 during the final recovery minute between rounds. Present data suggest that physical demand in fencing is moderate for skilled fencers and that both aerobic energy metabolism and anaerobic lactic energy sources are moderately recruited. This should be considered by coaches when preparing training programs for athletes.

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A Study on Shock Index in Early Diagnosis of Sepsis in Emergency Department of Tertiary Care Centre of Nepal

Nepal Medical Journal ◽

10.37080/nmj.68 ◽

2019 ◽

Vol 2 (2) ◽

pp. 37-42

Author(s):

Manish Nath Pant ◽

Subash Dawadi ◽

Ashish Thapa

Keyword(s):

Emergency Department ◽

Heart Rate ◽

Severe Sepsis ◽

Early Diagnosis ◽

Blood Lactate ◽

Lactate Level ◽

Tertiary Care ◽

Serum Lactate ◽

Shock Index ◽

Tertiary Care Centre

Introduction: Sepsis and its consequences, severe sepsis and septic shock is at menace in country like ours where infectious disease are at toll. Early diagnosis and treatment is very important to decrease the morbidity and mortality. Shock index is one of such tool that is very handy in these situations as this is just a mathematical calculation using heart rate(HR) and systolic blood pressure(SBP). The main aim of this study was to find the effectiveness of using SI as an adjunct to blood lactate in diagnosing patients in sepsis. Methods: This was an observational hospital-based study conducted at Emergency Department of TUTH, Maharajgunj on 104 patients, obtained by purposive sampling method, who had presented to the “Red Area”, aged between 18 to 65 years. These patients were screened for severe sepsis using triage vital signs, basic laboratory tests and an initial serum lactate level. Test characteristics were calculated for hyperlactatemia. I considered the following covariates in our analysis: heart rate >90 beats/min; mean arterial pressure <65 mmHg; respiratory rate > 20 breaths/min; ≥2 SIRS including white blood cell count; SI <0.6; SI 0.6 to 1; SI 1 to 1.4and SI ≥ 1.4. Results: There was a positive correlation between shock index and blood lactate level, r=0.2, n=104, p=0.042. No relationship was found between SI>=1 and hyperlactemia, X2 (.285, N = 104) = 1, p =.594 and relationship was found between SI >=0.7 and hyperlactemia, X2 (4.1, N = 104) = 1, p =.04. sensitivity and specificity for detecting hyperlactemia of SI>=1, SI.=0.7, SIRS was 84% and 20%, 93% and 0%, 79% and 20% respectively. Conclusions: There was weak correlation between the lactate level and shock index with statistically significant correlation between the shock index grouped >=0.7 and hyperlactatemia with high sensitivity and very low specificity.

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Heart Rate, Oxygwn Consumption and Blood Lactate Responses During Specific Training in Amateur Boxing

IJASS(International Journal of Applied Sports Sciences) ◽

10.24985/ijass.2010.22.1.1 ◽

2010 ◽

Vol 22 (1) ◽

pp. 1-12 ◽

Cited By ~ 4

Author(s):

Asok Kumar Ghosh

Keyword(s):

Heart Rate ◽

Blood Lactate ◽

Specific Training ◽

Amateur Boxing

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Physiological aspects and energetic contribution in 20s:10s high-intensity interval exercise at different intensities

PeerJ ◽

10.7717/peerj.9791 ◽

2020 ◽

Vol 8 ◽

pp. e9791

Author(s):

Gabriel V. Protzen ◽

Charles Bartel ◽

Victor S. Coswig ◽

Paulo Gentil ◽

Fabricio B. Del Vecchio

Keyword(s):

Heart Rate ◽

Blood Lactate ◽

Power Output ◽

High Intensity ◽

Interval Training ◽

Random Order ◽

Peak Power Output ◽

Maximal Heart Rate ◽

Work Intensity ◽

High Intensity Interval

Background One of the most popular high-intensity interval exercises is the called “Tabata Protocol”. However, most investigations have limitations in describing the work intensity, and this fact appears to be due to the protocol unfeasibility. Furthermore, the physiological demands and energetic contribution during this kind of exercise remain unclear. Methods Eight physically active students (21.8 ± 3.7 years) and eight well-trained cycling athletes (27.8 ± 6.4 years) were enrolled. In the first visit, we collected descriptive data and the peak power output (PPO). On the next three visits, in random order, participants performed interval training with the same time structure (effort:rest 20s:10s) but using different intensities (115%, 130%, and 170% of PPO). We collected the number of sprints, power output, oxygen consumption, blood lactate, and heart rate. Results The analysis of variance for multivariate test (number of sprints, power output, blood lactate, peak heart rate and percentage of maximal heart rate) showed significant differences between groups (F = 9.62; p = 0.001) and intensities (F = 384.05; p < 0.001), with no interactions (F = 0.94; p = 0.57). All three energetic contributions and intensities were different between protocols. The higher contribution was aerobic, followed by alactic and lactic. The aerobic contribution was higher at 115%PPO, while the alactic system showed higher contribution at 130%PPO. In conclusion, the aerobic system was predominant in the three exercise protocols, and we observed a higher contribution at lower intensities.

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Heart rate and blood lactate responses during Taekwondo training and competition

Science & Sports ◽

10.1016/j.scispo.2006.08.003 ◽

2006 ◽

Vol 21 (5) ◽

pp. 285-290 ◽

Cited By ~ 59

Author(s):

E. Bouhlel ◽

A. Jouini ◽

N. Gmada ◽

A. Nefzi ◽

K. Ben Abdallah ◽

...

Keyword(s):

Heart Rate ◽

Blood Lactate

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Effect of different inter-repetition rest intervals across four load intensities on velocity loss and blood lactate concentration during full squat exercise

Journal of Sports Sciences ◽

10.1080/02640414.2018.1480052 ◽

2018 ◽

Vol 36 (24) ◽

pp. 2856-2864 ◽

Cited By ~ 7

Author(s):

Ricardo Mora-Custodio ◽

David Rodríguez-Rosell ◽

Juan Manuel Yáñez-García ◽

Miguel Sánchez-Moreno ◽

Fernando Pareja-Blanco ◽

...

Keyword(s):

Blood Lactate ◽

Lactate Concentration ◽

Blood Lactate Concentration ◽

Squat Exercise ◽

Rest Intervals

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Stability of Heart Rate at Physiological Thresholds Between Temperate and Heat Stress Environments in Endurance-Trained Males

International Journal of Sports Physiology and Performance ◽

10.1123/ijspp.2020-0351 ◽

2020 ◽

pp. 1-4

Author(s):

Ed Maunder ◽

Daniel J. Plews ◽

Fabrice Merien ◽

Andrew E. Kilding

Keyword(s):

Heart Rate ◽

Heat Stress ◽

Relative Humidity ◽

Blood Lactate ◽

Endurance Athletes ◽

Heart Rates ◽

Stress Environments ◽

Positive Correlations ◽

Hot Environments ◽

Stress Training

Many endurance athletes perform specific blocks of training in hot environments in “heat stress training camps.” It is not known if physiological threshold heart rates measured in temperate conditions are reflective of those under moderate environmental heat stress. A total of 16 endurance-trained cyclists and triathletes performed incremental exercise assessments in 18°C and 35°C (both 60% relative humidity) to determine heart rates at absolute blood lactate and ventilatory thresholds. Heart rate at fixed blood lactate concentrations of 2, 3, and 4 mmol·L−1 and ventilatory thresholds were not significantly different between environments (P > .05), despite significant heat stress-induced reductions in power output of approximately 10% to 17% (P < .05, effect size = 0.65–1.15). The coefficient of variation for heart rate at these blood lactate concentrations (1.4%−2.9%) and ventilatory thresholds (2.3%−2.7%) between conditions was low, with significant strong positive correlations between measurements in the 2 environments (r = .92–.95, P < .05). These data indicate heart rates measured at physiological thresholds in temperate environments are reflective of measurements taken under moderate environmental heat stress. Therefore, endurance athletes embarking on heat stress training camps can use heart rate–based thresholds ascertained in temperate environments to prescribe training under moderate environmental heat stress.

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