11 results on '"adaptations"'
Search Results
2. Editorial: Insights in exercise physiology: 2021.
- Author
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D’Antona, Giuseppe and Burtscher, Martin
- Subjects
EXERCISE physiology ,NOBEL Prize in Physiology or Medicine - Published
- 2022
- Full Text
- View/download PDF
3. The Performance Gap in Sport Can Help Determine Which Movements Were Most Essential to Human Evolution
- Author
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Collin Carroll
- Subjects
performance gap ,sex-blind ,musculoskeletal ,adaptations ,track and field ,sex equity score ,Physiology ,QP1-981 - Abstract
Men outperform women in sports that require muscular strength and endurance, but the magnitude of this performance gap (PG) does not appear to be constant; that is, the PG between men and women is greater in some sports than it is in others. Here, we examine the size of this gap within the realm of track and field by comparing the top 50 world-record performances of men to the top 50 records set by women in a number of long-distance running, medium-distance running, short-distance running, and jumping events. While women do not perform at the level of men in any track and field event, the magnitude of the PG trends up or down depending on the type of event. Jumping events exhibit a larger gap between the sexes than do running events, and short-distance running events show a smaller disparity between the sexes than do medium- or long-distance running events. This difference suggests that general sexual dimorphism does not explain why female performance is relatively closer to male performance at some track and field events than others. We hypothesize that this trend can be explained by the presence of sex-blind musculoskeletal adaptations (SBMA’s), which accumulate over generations to reduce the size of the PG in certain movements. We conclude that the selection trend favoring in humans should be explored further to determine whether the PG in sport can indeed be used to determine movements to which the human body is adapted.
- Published
- 2019
- Full Text
- View/download PDF
4. The Performance Gap in Sport Can Help Determine Which Movements Were Most Essential to Human Evolution.
- Author
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Carroll, Collin
- Subjects
TRACK & field ,LONG-distance running ,HUMAN evolution ,WOMEN'S sports ,MUSCLE strength ,SEXUAL dimorphism - Abstract
Men outperform women in sports that require muscular strength and endurance, but the magnitude of this performance gap (PG) does not appear to be constant; that is, the PG between men and women is greater in some sports than it is in others. Here, we examine the size of this gap within the realm of track and field by comparing the top 50 world-record performances of men to the top 50 records set by women in a number of long-distance running, medium-distance running, short-distance running, and jumping events. While women do not perform at the level of men in any track and field event, the magnitude of the PG trends up or down depending on the type of event. Jumping events exhibit a larger gap between the sexes than do running events, and short-distance running events show a smaller disparity between the sexes than do medium- or long-distance running events. This difference suggests that general sexual dimorphism does not explain why female performance is relatively closer to male performance at some track and field events than others. We hypothesize that this trend can be explained by the presence of sex-blind musculoskeletal adaptations (SBMA's), which accumulate over generations to reduce the size of the PG in certain movements. We conclude that the selection trend favoring in humans should be explored further to determine whether the PG in sport can indeed be used to determine movements to which the human body is adapted. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
5. Salivary Glands in Predatory Mollusks: Evolutionary Considerations
- Author
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Giovanna Ponte and Maria Vittoria Modica
- Subjects
molluscs ,gastropods ,cephalopods ,predatory strategies ,adaptations ,evolution ,Physiology ,QP1-981 - Abstract
Many marine mollusks attain or increase their predatory efficiency using complex chemical secretions, which are often produced and delivered through specialized anatomical structures of the foregut. The secretions produced in venom glands of Conus snails and allies have been extensively studied, revealing an amazing chemical diversity of small, highly constrained neuropeptides, whose characterization led to significant pharmacological developments. Conversely, salivary glands, the other main secretory structures of molluscan foregut, have been neglected despite their shared occurrence in the two lineages including predatory members: Gastropoda and Cephalopoda. Over the last few years, the interest for the chemistry of salivary mixtures increased based on their potential biomedical applications. Recent investigation with -omics technologies are complementing the classical biochemical descriptions, that date back to the 1950s, highlighting the high level of diversification of salivary secretions in predatory mollusks, and suggesting they can be regarded as a pharmaceutical cornucopia. As with other animal venoms, some of the salivary toxins are reported to target, for example, sodium and/or potassium ion channels or receptors and transporters for neurotransmitters such as, glutamate, serotonin, neurotensin, and noradrenaline, thus manipulating the neuromuscular system of the preys. Other bioactive components possess anticoagulant, anesthetic and hypotensive activities. Here, we overview available knowledge on the salivary glands of key predatory molluscan taxa, gastropods, and cephalopods, summarizing their anatomical, physiological and biochemical complexity in order to facilitate future comparative studies on main evolutionary trends and functional convergence in the acquisition of successful predatory strategies.
- Published
- 2017
- Full Text
- View/download PDF
6. Salivary Glands in Predatory Mollusks: Evolutionary Considerations.
- Author
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Ponte, Giovanna and Modica, Maria Vittoria
- Subjects
SALIVARY glands ,MOLLUSK evolution ,MOLLUSK physiology ,SNAILS ,NEUROPEPTIDES - Abstract
Many marine mollusks attain or increase their predatory efficiency using complex chemical secretions, which are often produced and delivered through specialized anatomical structures of the foregut. The secretions produced in venom glands of Conus snails and allies have been extensively studied, revealing an amazing chemical diversity of small, highly constrained neuropeptides, whose characterization led to significant pharmacological developments. Conversely, salivary glands, the other main secretory structures of molluscan foregut, have been neglected despite their shared occurrence in the two lineages including predatory members: Gastropoda and Cephalopoda. Over the last few years, the interest for the chemistry of salivary mixtures increased based on their potential biomedical applications. Recent investigation with -omics technologies are complementing the classical biochemical descriptions, that date back to the 1950s, highlighting the high level of diversification of salivary secretions in predatory mollusks, and suggesting they can be regarded as a pharmaceutical cornucopia. As with other animal venoms, some of the salivary toxins are reported to target, for example, sodium and/or potassium ion channels or receptors and transporters for neurotransmitters such as, glutamate, serotonin, neurotensin, and noradrenaline, thus manipulating the neuromuscular system of the preys. Other bioactive components possess anticoagulant, anesthetic and hypotensive activities. Here, we overview available knowledge on the salivary glands of key predatory molluscan taxa, gastropods, and cephalopods, summarizing their anatomical, physiological and biochemical complexity in order to facilitate future comparative studies on main evolutionary trends and functional convergence in the acquisition of successful predatory strategies. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
7. Training Specificity of Inspiratory Muscle Training Methods: A Randomized Trial
- Author
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Marine Van Hollebeke, Rik Gosselink, and Daniel Langer
- Subjects
medicine.medical_specialty ,Physiology ,Maximal Respiratory Pressures ,PRESSURE ,maximal respiratory pressures ,DISEASE ,lcsh:Physiology ,law.invention ,Functional residual capacity ,Randomized controlled trial ,law ,PEOPLE ,Physiology (medical) ,Internal medicine ,Healthy volunteers ,STRENGTH ,medicine ,Respiratory muscle ,maximal inspiratory flow ,Lung volumes ,EXERCISE PERFORMANCE ,pressure – ,Original Research ,Science & Technology ,flow specificity ,lcsh:QP1-981 ,business.industry ,respiratory muscle training ,Inspiratory muscle training ,lung volume specificity ,Inspiratory muscle ,VELOCITY ,respiratory system ,REFERENCE VALUES ,respiratory tract diseases ,pressure – flow specificity ,PATTERN ,training specificity ,INCREMENTAL EXERCISE ,healthy volunteers ,Cardiology ,ADAPTATIONS ,business ,Life Sciences & Biomedicine - Abstract
IntroductionInspiratory muscle training (IMT) protocols are typically performed using pressure threshold loading with inspirations initiated from residual volume (RV). We aimed to compare effects of three different IMT protocols on maximal inspiratory pressures (PImax) and maximal inspiratory flow (V̇Imax) at three different lung volumes. We hypothesized that threshold loading performed from functional residual capacity (FRC) or tapered flow resistive loading (initiated from RV) would improve inspiratory muscle function over a larger range of lung volumes in comparison with the standard protocol.Methods48 healthy volunteers (42% male, age: 48 ± 9 years, PImax: 110 ± 28%pred, [mean ± SD]) were randomly assigned to perform three daily IMT sessions of pressure threshold loading (either initiated from RV or from FRC) or tapered flow resistive loading (initiated from RV) for 4 weeks. Sessions consisted of 30 breaths against the highest tolerable load. Before and after the training period, PImax was measured at RV, FRC, and midway between FRC and total lung capacity (1/2 IC). V̇Imax was measured at the same lung volumes against a range of external threshold loads.ResultsWhile PImax increased significantly at RV and at FRC in the group performing the standard training protocol (pressure threshold loading from RV), it increased significantly at all lung volumes in the two other training groups (all p < 0.05). No significant changes in V̇Imax were observed in the group performing the standard protocol. Increases of V̇Imax were significantly larger at all lung volumes after tapered flow resistive loading, and at higher lung volumes (i.e., FRC and 1/2 IC) after pressure threshold loading from FRC in comparison with the standard protocol (all p < 0.05).ConclusionOnly training with tapered flow resistive loading and pressure threshold loading from functional residual capacity resulted in consistent improvements in respiratory muscle function at higher lung volumes, whereas improvements after the standard protocol (pressure threshold loading from residual volume) were restricted to gains in PImax at lower lung volumes. Further research is warranted to investigate whether these results can be confirmed in larger samples of both healthy subjects and patients.
- Published
- 2020
- Full Text
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8. Editorial: Insights in exercise physiology: 2021.
- Author
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D'Antona G and Burtscher M
- Abstract
Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.
- Published
- 2022
- Full Text
- View/download PDF
9. Aerobic Interval Training Impacts Muscle and Brain Oxygenation Responses to Incremental Exercise
- Author
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Victor Niemeijer, A Moerman, Silvia Pogliaghi, Jan Bourgois, Jan Boone, Kobe Vermeire, and Kevin Caen
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medicine.medical_specialty ,NEAR-INFRARED SPECTROSCOPY ,Physiology ,incremental ramp exercise ,Training intervention ,PREFRONTAL CORTEX ,DEOXYGENATION ,limiting factors ,Work rate ,lcsh:Physiology ,Interval training ,Incremental exercise ,03 medical and health sciences ,0302 clinical medicine ,O-2 EXTRACTION ,Physiology (medical) ,Internal medicine ,cerebral oxygenation ,interval training ,muscle oxygenation ,MAXIMAL EXERCISE ,Medicine and Health Sciences ,Medicine ,Aerobic exercise ,Prefrontal cortex ,Original Research ,lcsh:QP1-981 ,business.industry ,030229 sport sciences ,Oxygenation ,RAMP EXERCISE ,COMPENSATION ,Cerebral blood flow ,CEREBRAL-BLOOD-FLOW ,ADAPTATIONS ,Cardiology ,business ,030217 neurology & neurosurgery ,HEALTHY-ADULTS - Abstract
The purpose of the present study was to assess the effects of aerobic interval training on muscle and brain oxygenation to incremental ramp exercise. Eleven physically active subjects performed a 6-week interval training period, proceeded and followed by an incremental ramp exercise to exhaustion (25 W min–1). Throughout the tests pulmonary gas exchange and muscle (Vastus Lateralis) and brain (prefrontal cortex) oxygenation [concentration of deoxygenated and oxygenated hemoglobin, HHb and O2Hb, and tissue oxygenation index (TOI)] were continuously recorded. Following the training intervention V.O2peak had increased with 7.8 ± 5.0% (P < 0.001). The slope of the decrease in muscle TOI had decreased (P = 0.017) 16.6 ± 6.4% and the amplitude of muscle HHb and totHb had increased (P < 0.001) 40.4 ± 15.8 and 125.3 ± 43.1%, respectively. The amplitude of brain O2Hb and totHb had increased (P < 0.05) 40.1 ± 18.7 and 26.8 ± 13.6%, respectively. The training intervention shifted breakpoints in muscle HHb, totHb and TOI, and brain O2Hb, HHb, totHb and TOI to a higher absolute work rate and V.O2 (P < 0.05). The relative (in %) change in V.O2peak was significantly correlated to relative (in %) change slope of muscle TOI (r = 0.69, P = 0.011) and amplitude of muscle HHb (r = 0.72, P = 0.003) and totHb (r = 0.52, P = 0.021), but not to changes in brain oxygenation. These results indicate that interval training affects both muscle and brain oxygenation, coinciding with an increase in aerobic fitness (i.e., V.O2peak). The relation between the change in V.O2peak and muscle but not brain oxygenation suggests that brain oxygenation per se is not a primary factor limiting exercise tolerance during incremental exercise.
- Published
- 2019
- Full Text
- View/download PDF
10. The Effects of Concurrent Strength and Endurance Training on Physical Fitness and Athletic Performance in Youth
- Subjects
INTERFERENCE ,child ,cardiorespiratory fitness ,EXERCISE ,PREPUBESCENT CHILDREN ,COMPETITIVE SWIMMERS ,EXPLOSIVE STRENGTH ,physical conditioning human ,RUNNING ECONOMY ,adolescent ,youth sports ,muscle strength ,ADAPTATIONS ,resistance training ,SOCCER PLAYERS ,DRY-LAND STRENGTH ,RESISTANCE - Abstract
Combining training of muscle strength and cardiorespiratory fitness within a training cycle could increase athletic performance more than single-mode training. However, the physiological effects produced by each training modality could also interfere with each other, improving athletic performance less than single-mode training. Because anthropometric, physiological, and biomechanical differences between young and adult athletes can affect the responses to exercise training, young athletes might respond differently to concurrent training (CT) compared with adults. Thus, the aim of the present systematic review with meta-analysis was to determine the effects of concurrent strength and endurance training on selected physical fitness components and athletic performance in youth. A systematic literature search of PubMed and Web of Science identified 886 records. The studies included in the analyses examined children (girls age 6-11 years, boys age 6-13 years) or adolescents (girls age 12-18 years, boys age 14-18 years), compared CT with single-mode endurance (ET) or strength training (ST), and reported at least one strength/power-(e.g., jump height), endurance-(e.g., peak. VO2, exercise economy), or performance-related (e.g., time trial) outcome. We calculated weighted standardized mean differences (SMDs). CT compared to ET produced small effects in favor of CT on athletic performance (n = 11 studies, SMD = 0.41, p = 0.04) and trivial effects on cardiorespiratory endurance (n = 4 studies, SMD = 0.04, p = 0.86) and exercise economy (n = 5 studies, SMD = 0.16, p = 0.49) in young athletes. A sub-analysis of chronological age revealed a trend toward larger effects of CT vs. ET on athletic performance in adolescents (SMD = 0.52) compared with children (SMD = 0.17). CT compared with ST had small effects in favor of CT on muscle power (n = 4 studies, SMD = 0.23, p = 0.04). In conclusion, CT is more effective than single-mode ET or ST in improving selected measures of physical fitness and athletic performance in youth. Specifically, CT compared with ET improved athletic performance in children and particularly adolescents. Finally, CT was more effective than ST in improving muscle power in youth.
- Published
- 2018
- Full Text
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11. High Intensity Interval Training in Handcycling
- Author
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Luc van der Woude, Kate E. Reed, Florentina J. Hettinga, Patrick P.J.M. Schoenmakers, SMART Movements (SMART), and Extremities Pain and Disability (EXPAND)
- Subjects
medicine.medical_specialty ,Physiology ,Training intervention ,Interval training ,03 medical and health sciences ,Endurance capacity ,0302 clinical medicine ,Physical medicine and rehabilitation ,Time trial ,handcycling ,endurance training ,Endurance training ,Physiology (medical) ,medicine ,upper body exercise ,SPINAL-CORD-INJURY ,Original Research ,business.industry ,PHYSICAL CAPACITY ,VO2 max ,030229 sport sciences ,PERFORMANCE ,C600 ,Continuous training ,TIME TRIAL ,LESION LEVEL ,physiological capacity ,Physical therapy ,ADAPTATIONS ,OXYGEN-UPTAKE ,ARM CRANKING ,UPPER-BODY EXERCISE ,business ,High-intensity interval training ,030217 neurology & neurosurgery ,LOW-VOLUME - Abstract
Introduction: In lower body endurance training, quantities of both moderate intensity continuous training (MICT) and high intensity interval training (HIIT) can lead to an improved physiological capacity and performance. Limited research is available regarding the endurance and muscular capacity of the upper body, and how training contributes to improvements in performance capacity is still unknown. The aim of the current study was to evaluate the effects of HIIT and MICT on the physiological capacity and handcycling performance of able-bodied men in a well-controlled laboratory setting. Methods: Twenty four recreationally active men (22 ± 2 years; 1.84 ± 0.04 m; 79 ± 10 kg) were matched on incremental handcycling pre-test performance (peakPO) and then randomly assigned to HIIT, MICT, or a non-training control group (CON, 3 × n = 8). Participants in HIIT completed 14 interval training sessions, performing 4 × 4 min intervals at 85% heart rate reserve (%HRR), and seven continuous training sessions at 55 %HRR (every 2nd training session of the week). Participants in MICT performed 21 training sessions of 30 min at 55 %HRR. After the intervention, changes in peak oxygen uptake (peakVO2) and peak power output (peakPO) were compared within and between HIIT, MICT and CON. Results: The average external training load per training session did not differ between MICT and HIIT (p = 0.713). Improvements after HIIT in peakVO2 (22.2 ± 8.1%) and peakPO (47.1 ± 20.7%) were significantly larger compared with MICT and CON (p > 0.001). Improvements after MICT in peakVO2 (10.7 ± 12.9%) and peakPO (32.2 ± 8.1%) were higher compared to CON (p > 0.001). Higher improvement after HIIT occurred despite training 22% less time than MICT. No significant changes were found in CON. Discussion: As in lower body endurance sports, HIIT proved to be very effective in improving the physiological and performance capacity of upper body exercise. Whilst physiological capacity in both training groups improved significantly compared with CON, the present study shows that peakVO2 and peakPO improved more after HIIT than after MICT in able-bodied men. It is advised to include HIIT into training regimes of recreational and competitive handcyclists to improve the upper body endurance capacity.
- Published
- 2016
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