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1. Investigating trends in Bering Strait transport

Author

Alberty, M., Timmermans, M., Sonya, L., and Robert, H.

Abstract

Bering Strait transport is a key source of heat, freshwater, and nutrients for the Arctic. Moored observations indicate that transport has been increasing over the last decades. Recently, Danielson et al. (2020) have proposed a feedback mechanism by which increased sea surface temperatures (SST) in the Chukchi Sea would drive stronger ocean to atmosphere heat fluxes in fall, leading to anomalously strong winds to the North over the Bering Strait, and thus increased Bering Strait heat and volume fluxes. We investigate this hypothesis with a combination of observations and modeling. First, we inspect reanalysis products to interrogate whether the observed trends support the proposed feedback mechanism. Next we investigate the response of an ocean model to reanalysis forcing, looking for evidence of whether this response can be detected for such simulations. Results indicate that the proposed increase in northward wind stress over the Bering Strait is highly localized in space and only significant in October, despite robust trends in SST and surface heat fluxes. Simulations do not replicate the positive trend in Bering Strait volume transport and raise the question as to whether increases in local winds are indeed responsible? To test this hypothesis, the same ocean model is forced with additional localized northward wind perturbations to determine the strength and persistence of surface forcing required to reproduce the observed trend in Bering Strait ocean transport. The transport response to a range of wind perturbation experiments will be presented and the limitations and implications of this research will be discussed., The 28th IUGG General Assembly (IUGG2023) (Berlin 2023)

Published
2023
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7. Spatial patterns of mixing in the Solomon Sea

Author

Alberty, M. S., Sprintall, J., MacKinnon, J., Ganachaud, Alexandre, Cravatte, Sophie, Eldin, Gérard, Germineaud, C., and Melet, A.

Subjects
Solomon Sea, mixing, finescale, observational
Abstract

The Solomon Sea is a marginal sea in the southwest Pacific that connects subtropical and equatorial circulation, constricting transport of South Pacific Subtropical Mode Water and Antarctic Intermediate Water through its deep, narrow channels. Marginal sea topography inhibits internal waves from propagating out and into the open ocean, making these regions hot spots for energy dissipation and mixing. Data from two hydrographic cruises and from Argo profiles are employed to indirectly infer mixing from observations for the first time in the Solomon Sea. Thorpe and finescale methods indirectly estimate the rate of dissipation of kinetic energy (E) and indicate that it is maximum in the surface and thermocline layers and decreases by 2-3 orders of magnitude by 2000 m depth. Estimates of diapycnal diffusivity from the observations and a simple diffusive model agree in magnitude but have different depth structures, likely reflecting the combined influence of both diapycnal mixing and isopycnal stirring. Spatial variability of E is large, spanning at least 2 orders of magnitude within isopycnal layers. Seasonal variability of E reflects regional monsoonal changes in large-scale oceanic and atmospheric conditions with E increased in July and decreased in March. Finally, tide power input and topographic roughness are well correlated with mean spatial patterns of mixing within intermediate and deep isopycnals but are not clearly correlated with thermocline mixing patterns. Plain Language Summary In the ocean, a number of physical processes move heat, salt, and nutrients around vertically by mixing neighboring layers of the ocean together. This study investigates the strength and spatial patterns of this mixing in the Solomon Sea, which is located in the tropical west Pacific Ocean. Estimates of the strength of mixing are made using measurements of temperature, salinity, and velocity taken during two scientific cruises in the Solomon Sea. Measurements of temperature and salinity from a network of floats that move up and down through the ocean and travel with ocean currents were also used to estimate the strength and patterns of mixing. This research finds three key results for mixing in the Solomon Sea: (1) Mixing is strongest near the surface of the Solomon Sea and less strong at deeper depths. (2) Mixing varies horizontally, with stronger mixing above underwater ridges and seamounts, and with weaker mixing above smooth and flat seafloor. (3) The strength of mixing changes with the seasons, possibly related to the monsoonal winds which also change in strength over the seasons.

Published
2017

12. Swim Specialty Affects Energy Cost and Motor Organization

Author

Seifert, L., primary, Komar, J., additional, Leprêtre, P. M., additional, Lemaitre, F., additional, Chavallard, F., additional, Alberty, M., additional, Houel, N., additional, Hausswirth, C., additional, Chollet, D., additional, and Hellard, P., additional

Published
2010
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18. The Use of Modeling To Enhance the Analysis of Formation-Pressure Integrity Tests.

Author

Alberty, M. W. and McLean, M. R.

Subjects
OIL well drilling, RESERVOIR oil pressure, CEMENT, OIL well casing, OIL wells equipment
Abstract

The article presents a model to predict early pressure-buildup behavior and discusses how the model can be used to improve the interpretation of formation-pressure integrity tests (FPITs). It reveals the use of FPITs such as verifying the integrity of cement at a casing shoe, measuring the stress state of the exposed formations for well planning and operations, and determining the maximum equivalent circulating density to which a shoe can be exposed.

Published
2014
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21. Variations of stroking parameters associated with 200m competitive performance improvement in top-standard front crawl swimmers.

Author

Huot-Marchand F, Nesi X, Sidney M, Alberty M, and Pelayo P

Abstract

The aim of this study was to analyse the variations of stroking parameters (speed, stroke length, stroke rate, and stroke index) associated with the 200 m front crawl competitive performance improvement. Two races completed by 17 top swimmers were analysed in the 200 m freestyle final of French or European championships, each final being separated by two years. All the swimmers' performances were bettered in the second race (mean +/- SD: 113.44 +/- 2.50 vs 111.78 +/- 2.71 s; p < 0.01) and were associated with a significant increase of stroke rate without variation of average stroke length and stroke index values (p > 0.05). Swimmers emphasized the first part of the race, with higher speed in the first three lengths, higher stroke rate in the first two lengths and lower stroke length in the first one. Stroke length and stroke rate variations were highly correlated (r = 0.98; p < 0.05). In 11 of the 17 swimmers, the improvement was concomitant with a decrease in stroke length and an increase in stroke rate. Only one swimmer's improvement was associated with a substantial increase in stroke length. These results highlighted that stroke length and stroke index cannot be considered as the only parameters linked to improvement in a 200 m crawl in adult swimmers competing at high standard. Moreover, an increase in stroke rate associated with a slight decrease in stroke length should not be considered as ineffective, especially at top standard. [ABSTRACT FROM AUTHOR]

Published
2005
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22. Arm Coordination, Active Drag and Propelling Efficiency in Front Crawl.

Author

Seifert, L., Schnitzler, C., Alberty, M., Chollet, D., and Toussaint, H.M.

Subjects
CRAWL stroke (Swimming), SPORTS biomechanics, SWIMMERS, SWIMMING techniques, SWIMMING records
Abstract

Active drag, regularity and Index of Coordination (IdC) all increase with speed in front crawl swimming, but the link between those parameters remains unclear. The aim of this study was thus to examine the relationships between the index of coordination (IdC) and propelling efficiency (ep) and the active drag (D). Thirteen national level male swimmers completed two incremental speed tests swimming front crawl with arms only in free condition and using a Measurement of Active Drag (MAD) system. The results showed that inter-arm coordination was linked to active drag and not propelling efficiency. [ABSTRACT FROM AUTHOR]

Published
2010

24. Contributors, Jul. 1981.

Author

Abe, T., Abouzabra, M.D., Alberty, M., Bandler, J.W., Beyer, A., Christou, A., Citerne, J., Cohen, E.D., El-Sherbiny, A.-M.A., Galani, Z., Gelin, P., Hatori, K., Helszajn, J., Honjo, K., Kennis, P., Komizo, H., Lampen, J.L., Lipparini, A., Macpherson, A.C., and Meyer, W.

Published
1981
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29. Effect of Increasing Energy Cost on Arm Coordination at Different Exercise Intensities in Elite Sprint Swimmers.

Author

Komar, J., Leprêtre, P.M., Alberty, M., Vantorre, J., Fernandes, R.J., Hellard, P., Chollet, D., and Seifert, L.

Subjects
ELITE athletes, SWIMMERS, HUMAN locomotion, CALORIC expenditure, MOTOR ability testing, BLOOD lactate
Abstract

The purpose of this study was to analyze the changes of the stroking parameters and the coordination induced by the increase of energy cost (C) of aquatic locomotion. Six elite sprint swimmers performed a 6.300-m incremental swimming test. Stroking parameters (stroke rate, SR; stroke length, SL) and arm coordination (measured by index of coordination, IdC) have been calculated from video data and the C by measuring oxygen consumption and blood lactate. Results showed that an increase in C led to significant increases in IdC, SR and a decrease in SL. Linear regression between IdC and C, SR and C and SL and C suggested that a specific C corresponds to the emergence of a specific coordination and SR/SL ratio. The increase of the anaerobic part of C suggested that fatigue could also influence the emergence of motor organization [ABSTRACT FROM AUTHOR]

Published
2010

30. Developments in Petrophysics; Edited by M.A. Lovell, P.K. Harvey. The Geological Society of London as Geological Society Special Publication 122. ISBN 1-897799-81-0. List price US$ 125/UK 75. Discounts are available to Geological Society members. Copies are also available from the AAPG Bookstore in Tulsa, the Affiliated East-West Press in New Delfi, The Australian Mineral Foundation in Glenside, and the Kanda Book Trading Company in Tokyo.

Author

Alberty, M. W.

Published
2000
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31. Electrical Stimulation for Preventing Skin Injuries in Denervated Gluteal Muscles-Promising Perspectives from a Case Series and Narrative Review.

Author

Alberty M, Mayr W, and Bersch I

Abstract

Spinal cord injury (SCI) where the lower motor neuron is compromised leads to atrophy and degenerative changes in the respective muscle. This type of lesion becomes especially critical when the gluteal muscles and/or the hamstrings are affected as they usually offer a cushioning effect to protect from skin injuries. Previous research conducted over the past 30 years has made advancements in the development of parameters for the optimal application of long pulse stimulation with the aim to restore muscle structure and trophic aspects in people with chronic SCI (<20 years post-injury). This work provides an overview of previous achievements in the field through a narrative literature review before presenting preliminary results in the form of a case series from an ongoing study investigating the acute effects of six months of long pulse stimulation on the tissue composition of the gluteal muscles in five people with chronic SCI (>20 years post-injury). Participants underwent a 33-min home-based long pulse stimulation program five times a week, and their muscle and adipose tissue thicknesses were assessed at baseline, after three and six months, respectively, using magnetic resonance imaging. The results show that the largest increase in muscle thickness occurred at the level of the height of the acetabulum (+44.37%; χ2(2) = 0.5; p = 0.779), whereas the most important decrease in adipose tissue occurred at the level of the sacroiliac joint (SIJ) reference (−11.43%; χ2(2) = 1.6; p = 0.449) within only six months of regular stimulation despite the preceding long denervation period. The underlying mechanism and physiology of muscular resuscitation from myofibrillar debris as presented in chronic denervation to functional contractile entities remain to be investigated further.

Published
2023
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32. Robot-assisted training with functional electrical stimulation enhances lower extremity function after spinal cord injury.

Author

Bersch I, Alberty M, and Fridén J

Subjects
Electric Stimulation, Humans, Lower Extremity, Retrospective Studies, Electric Stimulation Therapy, Robotics, Spinal Cord Injuries therapy
Abstract

Introduction: Functional electrical stimulation (FES) synchronized with robot-assisted lower extremity training is used in spinal cord injury (SCI) rehabilitation to promote residual function., Methods: Data of SCI inpatients who trained lower limb mobilization on a stationary robotic system were retrospectively analyzed. The primary outcome was the improvement of muscle strength from the first through to the last training session during FES-induced as well as voluntarily induced flexion and extension. The secondary outcome was the sum score of voluntary muscle function in the lower limbs before and after the training period., Results: Data from 72 patients with SCI (AIS A-D) were analyzed. For extension, FES-assisted strength increased (p < 0.001) from 25.2 to 44.0 N, voluntary force (p < 0.001) from 24.4 to 39.9 N. For flexion, FES-assisted flexion (p < 0.006) increased from 14.1 to 19.0 N, voluntary flexion (p < 0.005) from 12.6 to 17.1 N. There was a significant correlation between the increase in FES-assisted force and voluntary flexion (r = 0.730, p = 0.001) as well as between the increase in FES-assisted force and voluntary extension (r = 0.881, p < 0.001). The sum score in muscle test increased from 15 to 24 points., Conclusion: Robot-assisted training with FES seems to support the regeneration of residual functions after SCI. This is evidenced by an improvement in motor function and strength in the lower limbs., (© 2022 International Center for Artificial Organ and Transplantation (ICAOT) and Wiley Periodicals LLC.)

Published
2022
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33. Short-Term exposure to ambient air pollution and onset of work incapacity related to mental health conditions.

Author

Bruyneel L, Kestens W, Alberty M, Karakaya G, Van Woensel R, Horemans C, Trimpeneers E, Vanpoucke C, Fierens F, Nawrot TS, and Cox B

Subjects
Cross-Over Studies, Humans, Nitrogen Dioxide analysis, Nitrogen Dioxide toxicity, Ozone analysis, Ozone toxicity, Particulate Matter analysis, Particulate Matter toxicity, Air Pollutants analysis, Air Pollutants toxicity, Air Pollution adverse effects, Air Pollution analysis, Environmental Exposure adverse effects, Environmental Exposure statistics & numerical data, Mental Disorders epidemiology, Work Capacity Evaluation
Abstract

The OECD estimates that greater work absenteeism is one of the main drivers behind the impact of air pollution on gross domestic product loss, but research linking air pollution with work absenteeism is scarce. With air pollution increasingly being linked to poor mental health, and poor mental health having become one of the main reasons for work absenteeism, we examined whether the onset of work incapacity related to mental health conditions is associated with short-term fluctuations in ambient black carbon (BC), nitrogen dioxide (NO 2 ), ozone (O 3 ), and particulate matter 2.5 (PM 2.5 ), estimating the contributions of these pollutants jointly, while accounting for relative humidity, total solar radiation and temperature. We conducted a bidirectional time-stratified case-crossover study with daily air pollution estimates by municipality linked with 12 270 events of work incapacity related to mental health conditions in 2019 in Belgium. We ran single- and multi-pollutant conditional logistic regression models for three different exposure windows (lag 0, 0-1 and 0-2), considering potential confounding by relative humidity and total solar radiation. We observed positive associations between work incapacity related to mental health conditions and BC, NO 2 , and O 3 exposure, but findings for PM 2.5 were inconsistent. Results from multi-pollutant models showed a 12% higher risk of work incapacity for an IQR increase in NO 2 and O 3 at the day of the event (lag 0), with estimates increasing to about 26% for average concentrations up to two days before the event (lag 0-2). We found evidence for effect modification by age and season in the association with NO 2 , with highest effect estimates in the age group 40-49 years and in spring and summer. For O 3 , we observed effect modification by type of mental health problem. This country-wide study suggests that air pollution aggravates within 48 h a likely existing propensity to enter work incapacity because of mental health conditions., (Copyright © 2022 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published
2022
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34. Relationships between coordination, active drag and propelling efficiency in crawl.

Author

Seifert L, Schnitzler C, Bideault G, Alberty M, Chollet D, and Toussaint HM

Subjects
Adult, Algorithms, Biomechanical Phenomena, Body Size, Humans, Male, Movement, Regression Analysis, Video Recording, Water, Young Adult, Swimming
Abstract

This study examines the relationships between the index of coordination (IdC) and active drag (D) assuming that at constant average speed, average drag equals average propulsion. The relationship between IdC and propulsive efficiency (ep) was also investigated at maximal speed. Twenty national swimmers completed two incremental speed tests swimming front crawl with arms only in free condition and using a measurement of active drag system. Each test was composed of eight 25-m bouts from 60% to 100% of maximal intensity whereby each lap was swum at constant speed. Different regression models were tested to analyse IdC-D relationship. Correlation between IdC and ep was calculated. IdC was linked to D by linear regression (IdC=0.246·D-27.06; R(2)=0.88, P<.05); swimmers switched from catch-up to superposition coordination mode at a speed of ∼1.55ms(-1) where average D is ∼110N. No correlation between IdC and ep at maximal speed was found. The intra-individual analysis revealed that coordination plays an important role in scaling propulsive forces with higher speed levels such that these are adapted to aquatic resistance. Inter-individual analysis showed that high IdC did not relate to a high ep suggesting an individual optimization of force and power generation is at play to reach high speeds., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published
2015
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35. Influence of kick frequency on metabolic efficiency and performance at a severe intensity in international monofin-swimmers.

Author

Vercruyssen F, Boitel G, Alberty M, Nesi X, Bourdon L, and Brisswalter J

Subjects
Adolescent, Athletes, Female, Heart Rate physiology, Humans, Lactic Acid blood, Male, Oxygen Consumption physiology, Young Adult, Athletic Performance physiology, Energy Metabolism physiology, Swimming physiology
Abstract

The aim of this study was to examine the effect of kick frequency on metabolic efficiency and performance in elite monofin-swimmers at the surface. Seven participants of international calibre were requested to perform three separate time limit exercises conducted at an intensity corresponding to 97.5% of the velocity at the maximal oxygen uptake. The first Time Limit exercise was systematically conducted at a freely chosen kick frequency (FCK(F)) and the other Time Limit exercises were performed in random order at FCK(F)-10% and FCK(F) + 10%. The slow component of oxygen uptake (VO2sc) was identified independently of the Time Limit exercise (ranging from 180 to 243 ml · min(-1), P < 0.05). No significant change in energy cost of aquatic locomotion (ranging from 565 to (596 J · m(-1)) and [VO2sc) responses was observed between the three Time Limit exercises. An increase or decrease of 10% of the FCK(F) was associated with a significant reduction in Time Limit of -47.3% and -49.1%, respectively (P < 0.05). The analysis of the Time Limit exercise indicates that the selection of kick frequency other than FCK(F) is detrimental to overall monofin-swimming performance. Furthermore, the study results showed that the indicators of metabolic efficiency such as energy cost or [VO2sc) do not determine the performance response in elite monofin-swimmers at a severe intensity.

Published
2012
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36. Kick frequency affects the energy cost of aquatic locomotion in elite monofin swimmers.

Author

Boitel G, Vercruyssen F, Alberty M, Nesi X, Bourdon L, and Brisswalter J

Subjects
Female, Humans, Male, Young Adult, Energy Metabolism physiology, Gait physiology, Leg physiology, Physical Exertion physiology, Swimming physiology
Abstract

The aim of this study was to evaluate the influence of kick frequency (K(F)) on the energy cost of aquatic locomotion in elite monofin (Mf) swimmers at the surface. Eight subjects of international calibre (4 females, 4 males) were requested to perform in a 50-m outdoor swimming pool: (1) a continuous multi-stage incremental test to determine maximal physiological responses and (2) a submaximal exercise composed of five constant Mf-swimming tests (600-m exercise, 5-min rest) at an intensity corresponding to 90% of the velocity at the maximal oxygen uptake (VO2max). The first submaximal Mf-swimming test was systematically conducted at a freely chosen K(F) (FCK(F)) and the other tests were performed at FCK(F) - 15%, FCK(F) - 10%, FCK(F) + 10% and FCK(F) + 20% in a random order. No significant effect of K(F) on ventilation, heart rate and blood lactate concentration was observed throughout the submaximal Mf-swimming tests. However, mean values in Ec or fraction of VO2max were significantly lower during the FCK(F) + 10% condition as compared to those observed during the FCK(F) - 15% (-11.5 and -9.6%, respectively, P < 0.05) and FCK(F) - 10% (-10.4 and -9.3%, respectively, P < 0.05) conditions. In conclusion, the lack of significant differences between FCK(F) + 10% and FCK(F) or FCK(F) + 20% does not allow to identify a specific trend, but suggests the occurrence of an energetically optimal K(F) close to that freely chosen by the Mf swimmers. Variations in muscle activity level and active drag have been hypothesized to explain the observed differences in Ec consecutive to the selection of various K(F).

Published
2010
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37. Validity of a nomogram to predict long distance running performance.

Author

Coquart JB, Alberty M, and Bosquet L

Subjects
Adult, Humans, Male, Middle Aged, Probability, Young Adult, Athletic Performance physiology, Nomograms, Running physiology
Abstract

The purpose was to test the validity of a nomogram to predict performance at distances ranging from the 10 km to the marathon. Official running rankings of the French Athletics Federation for the men's 10 km, 20 km, and marathon were scrutinized from 2002 to 2006. Performances of runners who competed in the 3 distances during the same year were noted (n = 330). Predicted performance by the nomogram was obtained for each distance from the performance at 2 other distances. Actual and predicted performances were compared by a Wilcoxon matched pairs test. The magnitude of the difference was assessed by the effect size (ES). Correlation and Bland-Altman plots were used to evaluate the association and the level of agreement between actual and predicted performances. The nomogram overestimated performance at the 10-km distance (13 seconds; p = 0.03) and underestimated performance at the 20-km distance (27 seconds; p < 0.01). The overestimation for the marathon was not significant (85 seconds; p = 0.06). Whatever the distance, ES were trivial (-0.04 < ES < 0.05). Correlations were 0.89 for the 10 km and the marathon and 0.97 for the 20 km. The limits of agreement represented 10.2, 6.1, and 13.2% of the mean of actual and predicted performances in 10 km, 20 km, and marathon, respectively. These results support the validity of the nomogram to predict performance on 10 km, 20 km, and marathon from the performance at 2 other distances. The accuracy of predictions is better when performance is interpolated. Given their validity and accuracy, interpolated predictions of the nomogram may be used to prescribe realistic training intensities during tempo runs, but also to determine the optimal strategy during the race.

Published
2009
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38. Comparison of maximal and spontaneous speeds during walking on dry land and water.

Author

Chevutschi A, Alberty M, Lensel G, Pardessus V, and Thevenon A

Subjects
Female, Humans, Immersion, Male, Water, Young Adult, Walking physiology
Abstract

The aim of this study was to quantify spontaneous and maximal speeds on dry land and in water, in four modalities of walking [forward (F), backward (B) and lateral walking (L)], with chest immersion level. Lateral walking was studied with the upper limbs of the subject alongside the body with hands placed on the lateral face of the thighs (L1) and upper limbs tightened behind the back with the hands joined (L2). 16 males (age 22.8+/-1.8 years, height 178.1+/-6.1cm, body mass 73.5+/-6.6 kg) and 15 females (age 22.8+/-2.1 years, height 171.5+/-5.8 cm, body mass 69.2+/-9.3 kg) were evaluated using the four modalities of walking on dry land and in water. The speed increments between spontaneous and maximal speeds on dry land for F, B and L1 and L2 were 60.2%, 60.9%, 64.3% and 65.3% for males and 47.3%, 48.3%, 44.5% and 53.1% for females. In the water, these variation values for F, B, L1 and L2 for males were 44.6%, 26.1%, 48.8%, and 42.1%. The values for females were 31.7%, 21.6%, 32.8%, and 34.6%. Spontaneous and maximal speeds of walking were substantially reduced in water with the chest immersed, compared to speeds on dry land for the four modalities and the two genders. These findings may be used by therapists who utilize the various modalities of walking in aquatherapy.

Published
2009
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39. Stroking characteristics during time to exhaustion tests.

Author

Alberty M, Sidney M, Pelayo P, and Toussaint HM

Subjects
Adult, Fatigue physiopathology, Female, Humans, Male, Models, Biological, Physical Endurance physiology, Swimming physiology
Abstract

Purpose: Race analyses during swimming reveal how exercise duration affects both clean swimming speed (v), stroke rate (SR), and stroke length (SL). The aim of this study is to provide an explanation for the change of SL and SR during paced exercise swimming the front crawl through an analysis of intracycle changes in motor organization., Methods: Trained swimmers (N = 10) swam three times to exhaustion (TTE in seconds) at predetermined velocities corresponding to 95%, 100%, and 110% of the mean speed attained in a 400-m race (V 400). During TTE tests, SR, SL, durations of the glide + catch, pull, push, and recovery phases (s) were measured. Assessment of arm coordination was made through the calculation of the index of coordination (IdC). The time allotted to propulsion per distance unit was estimated (T prop)., Results: For all tested speeds, fatigue development induced a gradual increase of SR with concomitant decrease of SL. The duration of the nonpropulsive phases decreased, whereas the duration of the propulsive phases per stroke remained constant. The IdC increased reflecting a reduction of the lag time between two consecutive propulsive actions. Consequently, T prop increased., Conclusion: Fatigue development induced an increase of the SR to compensate for the reduced capacity to generate a propulsive impulse per stroke. The change in arm coordination allows a better chain of the propulsive actions and leads to a greater time allotted to propulsion per distance unit. Such motor adaptation ensures that the overall propulsive impulse remained constant whereas average propulsive force per arm stroke is reduced.

Published
2009
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40. Changes in swimming technique during time to exhaustion at freely chosen and controlled stroke rates.

Author

Alberty M, Potdevin F, Dekerle J, Pelayo P, Gorce P, and Sidney M

Subjects
Adaptation, Physiological, Arm physiology, Biomechanical Phenomena, Female, Humans, Leg physiology, Male, Muscle, Skeletal physiology, Pilot Projects, Posture, Psychomotor Performance, Task Performance and Analysis, Time Factors, Exercise Tolerance physiology, Swimming physiology
Abstract

The aim of this study was to assess technical changes during constrained swimming in time-to-exhaustion tests. Ten swimmers of national standard performed a maximal 400-m front crawl and two sets of exhaustion tests at 95%, 100%, and 110% of mean 400-m speed. In the first set (free), swimmers had to maintain their speeds until exhaustion and mean stroke rate was recorded for each test. In the second set (controlled), the same speed and individual corresponding stroke rate were imposed. The durations of the exhaustion tests, relative durations of the stroke phases, and arm coordination were analysed. For each speed in the "controlled" set, the exhaustion tests were shorter. Moreover, variables were consistent, suggesting a stabilization of stroke technique. Under the free condition, stroke rate increased to compensate for the decrease in stroke length. At the same time, swimmers reduced the relative duration of their non-propulsive phases in favour of the propulsive phases. Thus, swimmers changed their arm coordination, which came close to an opposition mode. These two constraints enable swimmers both to maintain their stroking characteristics and develop compensatory mechanisms to maintain speed. Moreover, stroke rate can be seen as a useful tool for controlling arm technique during paced exercise.

Published
2008
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41. Aerobic potential, stroke parameters, and coordination in swimming front-crawl performance.

Author

Palayo P, Alberty M, Sidney M, Potdevin F, and Dekerle J

Subjects
Humans, Lactic Acid blood, Oxygen Consumption, Task Performance and Analysis, Exercise physiology, Exercise Tolerance physiology, Motor Skills physiology, Muscle Contraction physiology, Muscle, Skeletal physiology, Swimming physiology
Abstract

The purposes of this review were (1) to review the recent studies conducted in swimming on the assessment of aerobic potential and establishment of exercise-intensity domains (it is important that exercise-intensity domains be accurately defined and their physiological underpinnings well understood to optimize and evaluate training programs); (2) to analyze changes in traditionally measured stroke rate and stroke length during exhaustive swims, particularly in relation to the predetermined intensity domains (introduction of an "optimal swimming technique speed"); and (3) to introduce the latest swimming research on arm coordination that might help us better understand the technical adaptations of swimmers under physical stress.

Published
2007
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42. In vitro detoxification of soman in human plasma.

Author

De Bisschop HC, Van Driessche EE, Alberty ML, and Willems JL

Subjects
Blood Proteins analysis, Carboxylesterase, Carboxylic Ester Hydrolases blood, Humans, Hydrogen-Ion Concentration, Hydrolysis, In Vitro Techniques, Inactivation, Metabolic, Stereoisomerism, Time Factors, Soman blood
Abstract

The degradation of soman in human plasma and at a physiological pH has been studied at the high nanomolar level. From a comparison between degradation of racemic soman in preincubated and unpreincubated plasma the concentration of phosphonylation sites was estimated at some 120 nM. The contribution of phosphonylation to the degradation of soman is eliminated by preincubation of the plasma with racemic soman. The rate constants of the total hydrolysis (enzymatic and nonenzymatic) were calculated from the semi-log plot of the degradation of C(+)- or C(-)-soman in preincubated plasma/Tris (50% v/v). The nonenzymatic part of the hydrolysis was estimated from experiments in plasma ultrafiltrate (100,000 NMWL)/Tris (50% v/v). The nonenzymatic contribution to the hydrolysis of the P(+)-isomers is negligible compared to the enzymatic hydrolysis.

Published
1985

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