Static Exercise Research Articles

Neurovascular coupling during dynamic upper body resistance exercise in healthy individuals.

During unilateral static and rhythmic handgrip exercise, middle cerebral artery blood velocity (MCAv) increases in the contralateral side to the exercising limb. However, whether this neurovascular coupling-mediated increase in contralateral MCAv is apparent against a background of fluctuating perfusion pressure produced by dynamic resistance exercise (RE) is unclear. We examined the cerebral haemodynamic response to unilateral dynamic RE in 30 healthy individuals (female=16, mean±SD: age, 26±6 years; height, 175±10cm; weight, 74±15kg; body mass index, 24±5kgm-2). Participants completed four sets of 10 paced repetitions (15 repetitionsmin-1) of unilateral bicep curl exercise at 60% of the predicted one-repetition maximum (7±3kg). Beat-to-beat blood pressure, bilateral MCAv and end-tidal carbon dioxide were measured throughout. One-way ANOVA was used to analyse cardiovascular variables and two-way ANOVA to analyse dependent cerebrovascular variables (side×sets, 2×5). A linear mixed model analysis was also performed to investigate the effects of end-tidal carbon dioxide and mean arterial blood pressure on MCAv. In comparison to baseline, within-exercise mean arterial blood pressure increased (P<0.001) across the sets, whereas bilateral MCAv decreased (P<0.001). However, no significant interaction effect was observed for any dependent variables (all P>0.787). The linear mixed model revealed that end-tidal carbon dioxide had the greatest effect on MCAv (estimate=1.019, t=8.490, P<0.001). No differences were seen in contralateral and ipsilateral MCAv during dynamic RE, suggesting that neurovascular coupling contributions during dynamic RE might be masked by other regulators, such as blood pressure.

The effects of exercise on antenatal depression: a systematic review and meta-analysis.

The aim of this study was to conduct a systematic evaluation of exercise interventions' effectiveness on antenatal depressive symptoms in pregnant women and to investigate the impact of different intervention factors on the relationship between exercise and antenatal depressive symptoms. We conducted comprehensive searches in several databases, including PubMed, Embase, Web of Science, Cochrane Library, and others. The search period covered from database inception to May 2023. After thorough screening, a total of 7 papers with 524 subjects were included in the analysis. The meta-analysis revealed that the overall effect size of exercise intervention on antenatal depressive symptoms in pregnant women was SMD = -0.41, with a 95% confidence interval of [-0.78, -0.05], and P = 0.03, indicating a significant improvement in depressive symptoms due to exercise intervention during the antenatal period. However, some degree of heterogeneity was observed among the studies, with I² = 74%, P = 0.0007. The results indicate that exercise interventions significantly contribute to the improvement of antenatal depressive symptoms in pregnant women, as inferred from the combined findings of the studies. Notably, static exercise intervention showed better results than dynamic exercise intervention. Moreover, interventions conducted before 20 weeks' gestation had superior outcomes compared to those conducted after 20 weeks' gestation, and interventions lasting longer than the trimester duration exhibited more favorable effects than shorter interventions. However, to validate these findings and optimise exercise intervention protocols for better antenatal maternal depressive symptom management, larger sample sizes and more comprehensive studies are required, given the observed heterogeneity and potential limitations in the present study. https://www.crd.york.ac.uk/prospero/ PROSPERO, identifier (CRD42023422315).

Consideration of absolute intensity when examining sex differences in blood pressure responses during static exercise.

Low- to moderate-intensity submaximal static contractions are commonly used to study the effects of biological sex on the cardiovascular response to exercise. Under this paradigm, premenopausal females frequently demonstrate smaller blood pressure responses than age-matched males. These differences are preserved during postexercise circulatory occlusion, implicating the muscle metaboreflex as an important driver of sex differences in the blood pressure response to static exercise. The mechanisms responsible for these differences are incompletely understood but often attributed to innate sex differences in skeletal muscle fiber type distribution, muscle metabolism, and/or sympathetic control of the circulation. However, one potential confounding factor is that the majority of studies use relative intensity exercise (e.g., 30% of maximal voluntary contraction), such that on average, females are completing static contractions at a lower absolute intensity. In this review, we summarize human evidence showing that sex differences in blood pressure responses to static exercise are attenuated or abolished when controlling for absolute intensity and muscle strength, either by statistical methods or strength-matched cohorts. We highlight evidence that the effect of higher absolute contraction intensity on exercise blood pressure likely occurs through increased mechanical occlusion of skeletal muscle microvasculature, leading to greater activation of the muscle metaboreflex. These findings highlight an important need to account for absolute intensity when studying and interpreting sex differences in cardiovascular responses to exercise.

Investigating the Immediate Effects of Static and Dynamic Stretching Exercises of Lower Extremities Muscles on Core Stability in Young Healthy Females

Introduction: This study investigates the immediate effects of warm-up exercises, specifically static and dynamic stretches for the lower extremities, on strength, endurance, flexibility, motor control, and core stability function in young, healthy females. Materials and Methods: A total of 60 healthy, active women aged 19-30 years were randomly divided into three groups as follows: Static stretching (SS), dynamic stretching (DS), and a control group (CG), which received no exercises. Evaluation methods for core stability included strength, endurance, sit-and-reach, Y-balance, and bilateral squat tests. Meanwhile, these tests were conducted before and after the prescribed exercise protocols. Results: Both the SS and DS groups experienced significant increases in all core stability components compared to their baseline values (P&lt;0.05). Meanwhile, the analysis of variance/ analysis of covariance indicated that immediately after performing the stretching exercises, the SS and DS groups exhibited significantly greater improvements in parameters, such as strength, endurance, flexibility, and balance tests (except for the posterior-medial direction) when compared to the CG (P&lt;0.05). Regarding functional parameters after the exercises, there were no statistically significant differences between the study groups (P&gt;0.05). In addition, dynamic exercises demonstrated a higher effectiveness than static exercises for most parameters (P&lt;0.05). Conclusion: Warm-up exercises, involving both static and dynamic stretches for lower limb muscles appear to have an immediate positive impact on core stability parameters. In sports that demand strong trunk muscles and balance, the dynamic protocol may be more effective

Effects of postprandial exercise timing on blood glucose and fluctuations in patients with type 2 diabetes mellitus.

The aim of this study was to assess how moderate-intensity aerobic exercise performed 45 minutes and 90 minutes after a meal affects blood glucose levels and fluctuations in individuals diagnosed with type 2 diabetes mellitus (T2DM). Twenty-two patients with T2DM, who were solely receiving oral hypoglycemic medication, were enrolled and divided randomly into two categories: those exercising 45 minutes after a meal (45-minute postprandial exercise group) and those exercising 90 minutes post-meal (90-minute postprandial exercise group). Both groups engaged in a 30-minute session of moderate-intensity aerobic stationary bike exercise following breakfast. This aerobic exercise regimen consisted of two stages, with the groups switching exercise timings after the initial phase. Continuous glucose monitoring (CGM) was utilized to evaluate the blood glucose levels and fluctuations in the participants. After breakfast, both overall daily blood glucose levels and the area under the curve for blood glucose following breakfast were reduced in the 45-minute postprandial exercise group compared to the 90-minute postprandial exercise group. The 45-minute postprandial exercise group demonstrated greater time spent within the target glucose range and less time above the target range than the 90-minute postprandial exercise group. Additionally, measures such as standard deviation, mean amplitude of glycemic excursions, largest amplitude of glycemic excursions, and postprandial glucose excursion for breakfast, peak postprandial glucose levels, and duration of elevated glucose levels were all lower in the 45-minute postprandial exercise group compared to the 90-minute postprandial exercise group. Moderate-intensity aerobic exercise lasting 45 minutes after meals was found to be more efficient in decreasing blood glucose levels and minimizing fluctuations compared to exercising 90 minutes after meals in patients with T2DM. Additionally, it notably reduced the peak in blood glucose levels after meals.

Isometric Fatigue Resistance of Lumbar Extensors and Cardiovascular Strain in Lower Back Pain Patients Are Associated with Angiotensin-Converting Enzyme and Tenascin-C Gene Polymorphisms

Background: We tested whether gene polymorphisms for angiotensin-converting enzyme (ACE, rs1799752) and tenascin-C (TNC, rs2104772) are associated with variability in fatigue resistance and metabolic strain during static lumbar exercise through interactions with chronic nonspecific lower back pain and habitual physical exercise levels (PA). Methods: Forty-eight patients and matched controls performed an isometric endurance test for lumbar extensors. Metabolic strain to longissimus muscle (oxygen saturation, lactate) and cardiovascular system (muscle hemoglobin, blood pressure) and holding time were monitored. Subjects were genotyped for rs1799752 (II, ID, DD) and rs2104772 (AA, AT, TT). Associations of variance with group, genotype, and PA were analyzed under a 5% false discovery rate. Results: The holding time was lower in patients than in controls (150.9 vs. 188.6 s). This difference was associated with both genotypes, as patients with DD-rs1799752-genotype (p = 0.007) and TT-rs2104772-genotype (p = 0.041) showed lower fatigue resistance. Muscle deoxygenation during exercise varied in positive association with the rs2104772-genotype and PA (p = 0.010, η2 = 0.236). Mean arterial blood pressure (p = 0.028, η2 = 0.108) and recovery of hemoglobin concentration (p = 0.003, η2 = 0.907) demonstrated complex group x rs2104772 interactions. Conclusions: Polymorphisms rs1799752 and rs2104772 influence back pain-related variability in lumbar fatigue resistance. rs2104772 was linked to cardiovascular strain during isometric exercise and recovery via muscle perfusion.

Effects of intradialytic bicycle ergometer exercise on transcription factors NF-ĸB and Nrf2 in patients with chronic kidney disease: A randomized crossover clinical trial

PurposeTo evaluate the effects of an intradialytic aerobic exercise training program on the expression of transcription factors nuclear factor κappa B (NF-κB) and nuclear factor erythroid 2-related factor 2 (Nrf2), related to inflammatory and antioxidant pathways, respectively, in patients with chronic kidney disease (CKD) on hemodialysis. MethodsThis was a longitudinal, randomized clinical trial with a washout period and crossover performed with 33 patients randomized into two groups: Exercise (individualized intradialytic aerobic exercise on an adapted stationary exercise bike) three times per week for three months and control (without exercise). After the washout period (1 month), the exercise group became the control, and the other group performed the exercises for another three months. Blood sample collection, food intake, and anthropometry were evaluated at the beginning and end of each study phase. Nrf2, its target gene NAD(P)H quinone oxidoreductase 1 (NQO1), and NF-κB transcription factors were evaluated by quantitative real-time polymerase chain reaction (qRT-PCR) and the inflammatory cytokines tumor necrosis factor-α (TNF-α) and interleukin-6 (IL-6) by ELISA assay. ResultsEighteen patients [11 men, 44.1 ± 8.4 years, 17.3 (6.6–124) months on HD] completed all the study. The obtained data revealed that the intervention did not affect Nrf2, NQO1, and NF-κB mRNA expression. Also, TNF-α levels were not changed. However, IL-6 showed a tendency to decrease after the exercise intervention (p = 0.054). ConclusionIn hemodialysis patients, three months of intradialytic aerobic exercise did not modulate the transcription factors associated with inflammation (NF-κB) and antioxidant activity (Nrf2 and NQO1). Clinical trials registration numberNCT04375553.

The cardiovascular exercise response in children with overweight or obesity measured by cardiovascular magnetic resonance imaging.

Overweight and obesity are among the main causes of cardiovascular diseases. Exercise testing can aid in the early detection of subtle cardiac dysfunction not present in rest. We hypothesized that the cardiovascular response to exercise is impaired among children with overweight or obesity, characterized by the inability of the cardiovascular system to adapt to exercise by increasing cardiac volumes and blood pressure. We performed a cardiovascular stress test to investigate whether the cardiovascular exercise response is altered in children with overweight and obesity, as compared to children with a normal weight. A subgroup of the Generation R population-based prospective cohort study, consisting of 41 children with overweight or obesity and 166 children with a normal weight with a mean age of 16 years, performed an isometric exercise. Continuous heart rate and blood pressure were measured during rest, exercise and recovery. Cardiovascular magnetic resonance (CMR) measurements were performed during rest and exercise. Higher BMI was associated with a higher resting systolic and diastolic blood pressure (difference: 0.24 SDS (95% CI 0.10, 0.37) and 0.20 SDS (95% CI 0.06, 0.33)) and lower systolic and diastolic blood pressure increases from rest to peak exercise (-0.11 SDS (95% CI -0.20, -0.03) and -0.07 SDS (95% CI -0.07, -0.01)). BMI was also associated with a slower decrease in systolic and diastolic blood pressure during recovery (p values < 0.05). Higher childhood BMI was associated with lower BSA corrected left ventricular mass, end-diastolic volume and stroke volume (p values < 0.05). There were no associations of childhood BMI with the cardiac response to exercise measured by heart rate and CMR measurements. Childhood BMI is, across the full range, associated with a blunted blood pressure response to static exercise but there were no differences in cardiac response to exercise. Our findings suggest that adiposity may especially affect the vascular exercise reaction without affecting cardiac response.

Dynamic and Static Complementary Balance Theory-Based Functional Exercise Combined With Stepwise Rehabilitation Training Improves Postoperative Hip Function Recovery in Patients Undergoing Total Hip Replacement

To analyze the application value of dynamic and static complementary balance theory-based functional exercise combined with stepwise rehabilitation training in postoperative hip function recovery in patients undergoing total hip replacement (THR). The clinical data of 118 inpatients undergoing THR between June 2022 and June 2023 were retrospectively collected. Among the patients, 57 were given perioperative stepwise rehabilitation training (the control group), and 61 were given a combination of functional exercise based on static and dynamic complementary balance theory and stepwise rehabilitation training during the perioperative period (the combination group). The postoperative recovery status and the incidence of postoperative complications in the two groups were recorded. During postoperative recovery, the patients were assessed for pain with the visual analogue scale (VAS) and for self-efficacy with the Self-Efficacy for Rehabilitation Outcome Scale (SER). Hip function was measured and compared between the two groups at 2 weeks, 4 weeks and 8 weeks after surgery. With regard to the primary outcome indicator, the postoperative length-of-stay was (7.63±1.36) d in the combination group, which was shorter than the (8.22±1.48) d in the control group, and the difference was statistically significant (t=2.257, P=0.026). As for the secondary outcome indicators, no statistically significant difference was observed in the incidence of postoperative complications between the two groups (4.92% vs. 14.04%) (P>0.05). The perioperative VAS scores in the two groups showed an interaction effect according to the repeated measurement variance test (P<0.05). The postoperative VAS scores in both groups declined significantly compared to the preoperative scores (P<0.05), and the VAS score decreased gradually over time after surgery (P<0.05). The VAS scores in the combination group at 7 and 14 days after surgery were lower than those in the control group (P<0.05). At 14 days after surgery, the scores for the coping and the task dimensions and the total score of SER increased in both groups compared with those at 3 days after surgery (P<0.05), with the combination group showing higher scores than the control group did (P<0.05). After surgery, the scores for the dimensions of deformity, pain, function, and joint mobility and the total score of the Harris Hip Scale revealed interaction effects in the two groups according to the repeated measurement variance test (P<0.05), with these scores increasing gradually over time after surgery (P<0.05), and the scores in the combination group were higher at 4 and 8 weeks after surgery compared to those in the control group (P<0.05). The combination of functional exercise based on dynamic and static complementary balance theory and stepwise rehabilitation training shows an advantage over stepwise rehabilitation training alone in enhancing the self-efficacy of THR patients, relieving the postoperative pain, shortening the length-of-stay, and improving the hip function in patients.

Quality of life, neuro-humoral status and physical performance in adolescents with sinus tachycardia

The variety of causes, conditions and prognosis of sinus tachycardia (ST) had determined the study examining the quality of life, neurohumoral status as well as ST course in 17-year-old adolescents compared to their peers without heart rhythm disorders. The aim was to study neurohumoral status, quality of life and physical performance in adolescents of both sexes, aged 17 years with diagnosed ST during preventive examination using 24-hour ECG monitoring. Materials and methods. In the open prospective study, 165 adolescents (74 boys and 91 girls) with a mean age of 17.5 ± 0.5 years were enrolled. 24-hour ECG monitoring showed increased heart rate &gt;90 bpm in 12 boys and 19 girls considered themselves healthy. All the children were examined according to a program including 24-hour blood pressure monitoring, heart rate variability, serum concentrations of the main hormones, endothelin and copeptin. Health-related quality of life was measured by the SF-36 questionnaire. A physical work capacity test (PWC170) on a bicycle ergometer was evaluated in an 8-month physical rehabilitation program. Results. Adolescents of both sexes with ST were hypersympathicotonic with humoral dysregulation of the sinoatrial node, grade I arterial hypertension, elevated blood levels of estradiol and osteocalcin and low renin in females. ST in adolescents was associated with reduced physical performance, the restoration of which was accompanied by ST termination. Conclusions. The examination of the 165 adolescents with the mean age of 17.5 years who considered themselves healthy has revealed 12 (16.6 %) males and 19 (22.9 %) females with ST and mean 24-hour heart rate &gt;90 bpm. The children have been clinically diagnosed with inappropriate ST based on international classification, that were inadequate to healthy state. ST was accompanied by hypersympathicotonic type of sinoatrial node humoral dysregulation, grade I arterial hypertension in boys, abnormal pubertal development in girls with elevated blood levels of total estradiol and osteocalcin and low free renin levels, lowered levels of quality of life on role functioning of the SF-36 questionnaire. Adolescents with ST had lower performance in the PWC170 tests. The completion of the 8-week physical rehabilitation program via stationary cycling exercises has resulted in improved physical performance based on the PWC170 test from baseline levels of 8.6 ± 1.9 kgm/min per kg body weight to 12.8 ± 2.1 kgm /min per kg in girls (p = 0.08) and from 13.2 ± 1.5 kgm/min to 15.9 ± 1.6 kgm/min per kg body weight in boys (p &gt; 0.1), that was accompanied by ST termination.

Brain Endurance Training Improves Dynamic Calisthenic Exercise and Benefits Novel Exercise and Cognitive Performance: Evidence of Performance Enhancement and Near Transfer of Training.

Dallaway, N, Mortimer, H, Gore, A, and Ring, C. Brain endurance training improves dynamic calisthenic exercise and benefits novel exercise and cognitive performance: Evidence of performance enhancement and near transfer of training. J Strength Cond Res XX(X): 000-000, 2024-The purpose of this dual study was to evaluate whether brain endurance training (BET)-a mental fatigue countermeasure involving physical and cognitive training-enhanced exercise compared with physical training alone. Two studies (N = 29) used a pretest/training/posttest design, with participants randomized to BET or control groups. During testing, participants performed calisthenic exercises (study 1: press-ups, wall sit, and plank; study 2: burpees, jump squats, leg raises, press-ups, and plank) to failure before and after completing 20-minute cognitive tasks (study 1: memory updating; study 2: memory updating, response inhibition, and nonexecutive functions). Training comprised 3 sessions per week for 4 weeks. In study 1 training sessions, participants completed 2 submaximal exercise sets; each exercise was followed by a 3-minute cognitive task with high (BET) or low (control) cognitive loads. In study 2 training sessions, participants completed 1 submaximal exercise set; after 12-minute cognitive tasks (BET) or rest (control), each exercise was preceded by a 3-minute cognitive task (BET) or rest (control). These cognitive tasks involved response inhibition and memory updating. Performance (exercise repetitions/duration), perceived exertion, and mental fatigue were assessed. In pretesting, exercise performance was matched between groups. In posttesting, BET groups performed more dynamic exercises than control groups but the same number of static exercises. Cognitive task performance was either greater for BET or not different between groups. Neither perceived exertion nor mental fatigue differed between groups and tests. Brain endurance training enhanced dynamic but not static calisthenic exercise performance compared with physical training alongside near transfer of training benefits for novel physical and cognitive task performance.

Research on Core Strength Training Methods for Sprint Athletes

In sprint training, core strength exercises play a critical role. These training methods, encompassing both static and dynamic core exercises, enhance an athlete's control, coordination, and explosive power, thereby contributing to their success in sprint events. This paper delves into the essence and techniques of core strength training, discusses its practical value for sprinters, and proposes a practical model and approach for implementing core strength exercises in sprint training. The aim is to broaden the application of these methods in sprint training to optimize training outcomes.

Intervention Hypothesis for Training with Whole-Body Vibration to Improve Physical Fitness Levels: An Umbrella Review.

Whole-body vibration (WBV) is a training modality, and it seems to be a safe and efficient exercise especially to improve different aspects of physical fitness in different populations. The protocols for WBV are still not standardized. The difficulty in comparing the data confuses the real efficacy of this instrument. Consequently, the objective of this umbrella review is to analyze the protocols previously adopted and eventually to propose a standard operating procedure for WBV training. Systematic review and meta-analysis of randomized controlled trials on WBV were searched on the electronic databases PubMed, Web of Science, and Scopus until 18 March 2024. A quality assessment of the studies included has been performed. A total of 20 studies were included in this umbrella review and frequency, magnitude, and amplitude intensity data were recorded. Detailed information about the protocols (static or dynamic exercises, barefoot or with shoes, intensity duration, weekly frequency, and vibration characteristics) was also collected. WBV presents widely different protocols. Consequently, a standard operating procedure has not been proposed for WBV training. A hypothesis of intervention was instead written in which parameters for frequency, amplitude, acceleration, and training mode were proposed.

Porous PVDF composites with ultralow percolation threshold for wide-range dynamic and static pressure sensing

Porous conductive polymer composites are very attractive for static pressure sensing due to high sensitivity and good elasticity contributed by the porous structure, while they are hard to detect dynamic pressure. Herein, we report a porous conductive poly (vinylidene fluoride) (PVDF) composite capable of detecting static and dynamic pressure over a pressure range of 0–1 MPa, which was fabricated by melt mixing PVDF, polyethylene oxide (PEO) and carbon nanofillers, followed by etching PEO with water. Such porous PVDF composites have a very low percolation threshold (0.035 wt%) of carbon nanostructures (i.e., branched carbon nanotubes) thanks to the selective distribution of conductive fillers in the pore wall after etching. At the same time, the pore size and porosity of the porous PVDF composites can be tuned by the molecular weight (Mw) and blending ratios of two polymers, leading to the kinetically-tailorable blend morphology for tunable mechanical and electrical properties. The as-fabricated porous PVDF composites with a good combination of mechanical properties and electrical conductivities, which can be used as pressure sensors toward wide-range (0–1 MPa) dynamic and static pressure sensing. Such pressure sensors demonstrate potential applications in detecting the degree of finger bending, distinguishing the walking and running, and monitoring a series of technical movements in playing soccer, i.e., static and dynamic exercises.

Effects of Dynamic Core Exercise and Static Core Exercise on Lung Function and Thoracic mobility in Male College Students with a History of COVID-19

Effects of Dynamic Core Exercise and Static Core Exercise on Lung Function and Thoracic mobility in Male College Students with a History of COVID-19

Развитие гибкости у студенток, занимающихся эстрадными танцами

The use of the developed complex of static exercises of a stretching nature using expanders made it possible to increase the flexibility indicators of female students engaged in variety dances. The complex of static exercises of a stretching nature using band and ring expanders included 4 blocks of static exercises for the development of mobility of the shoulder girdle, spinal column, hip and ankle joints. All exercises were performed slowly and with certain retention for a while, which contributed to the safe execution of the complex.

Inter-season training effects on cardiovascular health in American-style football players

BackgroundRecent studies on American-style football (ASF) athletes raised questions about the impact of training on the cardiovascular phenotype, particularly among linemen players who engage mostly in static exercise during competition and who exhibit concentric cardiac remodeling, often considered maladaptive. We aimed to examine the cardiovascular adaptation to the inter-season mixed-team training program among ASF players.MethodsA prospective, longitudinal, cohort study was conducted among competitive male ASF players from the University of Montreal before and after an inter-season training, which lasted 7 months. This program includes, for all players, combined dynamic and static exercises. Clinical and echocardiographic examinations were performed at both steps. Left atrial (LA) and ventricular (LV) morphological and functional changes were assessed using a multiparametric echocardiographic approach (2D and 3D-echo, Doppler, and speckle tracking). Two-way ANOVA was performed to analyze the impacts of time and field position (linemen versus non-linemen).ResultsFifty-nine players (20 linemen and 39 non-linemen) were included. At baseline, linemen had higher blood pressure (65% were prehypertensive and 10% were hypertensive), thicker LV walls, lower LV systolic and diastolic functions, lower LA-reservoir and conduit functions than non-linemen. After training, linemen significantly reduced weight (Δ-3.4%, P < 0.001) and systolic blood pressure (Δ-4.5%, P < 0.001), whereas non-linemen maintained their weight and significantly increased their systolic (Δ+4.2%, P = 0.037) and diastolic (Δ+16%, P < 0.001) blood pressure ). Mixed training was associated with significant increases in 2D-LA volume (P < 0.001), 3D-LV end-diastolic volume (P < 0.001), 3D-LV mass (P < 0.001), and an improvement in LV systolic function, independently of the field position. Non-linemen remodeled their LV in a more concentric fashion and showed reductions in LV diastolic and LA reservoir functions.ConclusionsOur study underscored the influence of field position on cardiovascular adaptation among university-level ASF players, and emphasized the potential of inter-season training to modulate cardiovascular risk factors, particularly among linemen.

Effects of static exercises on hip muscle fatigue and knee wobble assessed by surface electromyography and inertial measurement unit data

Hip muscle weakness can be a precursor to or a result of lower limb injuries. Assessment of hip muscle strength and muscle motor fatigue in the clinic is important for diagnosing and treating hip-related impairments. Muscle motor fatigue can be assessed with surface electromyography (sEMG), however sEMG requires specialized equipment and training. Inertial measurement units (IMUs) are wearable devices used to measure human motion, yet it remains unclear if they can be used as a low-cost alternative method to measure hip muscle fatigue. The goals of this work were to (1) identify which of five pre-selected exercises most consistently and effectively elicited muscle fatigue in the gluteus maximus, gluteus medius, and rectus femoris muscles and (2) determine the relationship between muscle fatigue using sEMG sensors and knee wobble using an IMU device. This work suggests that a wall sit and single leg knee raise activity fatigue the gluteus medius, gluteus maximus, and rectus femoris muscles most reliably (p < 0.05) and that the gluteus medius and gluteus maximus muscles were fatigued to a greater extent than the rectus femoris (p = 0.031 and p = 0.0023, respectively). Additionally, while acceleration data from a single IMU placed on the knee suggested that more knee wobble may be an indicator of muscle fatigue, this single IMU is not capable of reliably assessing fatigue level. These results suggest the wall sit activity could be used as simple, static exercise to elicit hip muscle fatigue in the clinic, and that assessment of knee wobble in addition to other IMU measures could potentially be used to infer muscle fatigue under controlled conditions. Future work examining the relationship between IMU data, muscle fatigue, and multi-limb dynamics should be explored to develop an accessible, low-cost, fast and standardized method to measure fatiguability of the hip muscles in the clinic.

Exercise Pressor Reflex Function Is Exacerbated in Decerebrate Adenine-Induced Chronic Kidney Disease Rats

Cardiovascular disease is the leading cause of death in chronic kidney disease (CKD). While the underlying mechanisms are not completely understood, elevated sympathetic nerve activity (SNA) and exercise intolerance are thought to play an important role. In normal physiological conditions, sympathetic modulation of the cardiovascular system during physical activity is largely governed by a peripheral neural reflex originating in contracting skeletal muscle, known as the exercise pressor reflex (EPR). Pioneering work by Park et al. demonstrated that CKD patients exhibited abnormal SNA and blood pressure (BP) elevations during both static and rhythmic handgrip exercise, suggesting an overactive EPR. However, due to experimental design constraints inherent to humans, the contribution of the EPR to the augmented SNA and BP responses to exercise could not be fully addressed. Therefore, the purpose of this study was to specifically test EPR function in CKD using a reduced animal model. Sprague-Dawley rats were randomly assigned to receive either a powdered chow diet containing adenine (0.25%w/w in feed) to induce CKD or a powdered chow diet alone (control group) for 12 weeks. Subsequently, in decerbrate animals, we measured mean arterial pressure (MAP) and renal SNA (RSNA) in response to isolated EPR activation during hindlimb muscle contraction (i.e., simulated exercise). We further assessed cardiovascular and sympathetic responses to passive muscle stretch to stimulate the mechanoreflex (i.e., activation of the mechanically-sesnsitive component of the EPR), and intra-arterial capsaicin administratration to activate the metaboflex (i.e., stimulation of the metabolically-sensitive component of the EPR). After completion of the diet, levels of plasma creatinine were significantly increased in adenine-fed rats compared to control rats (2.57±1.05 vs. 0.34±0.05 mg/dL, P&lt;0.01), suggesting impaired renal function (i.e., adenine-induced CKD). We found that CKD animals exhibited augmentations in RSNA (Δ=153±75 vs. 61±50 %, P&lt;0.05) and MAP (Δ=35±18 vs. 17±8 mmHg, P&lt;0.05) in response to muscle contraction when compared to control animals. Importantly, the muscle tension developed during contraction was similar between the two groups (Δ=0.9±0.2 vs. 1.0±0.3 kg, P&gt;0.1, CKD vs. control). During stimulation of the mechanoreflex, CKD rats also exhibited significantly greater RSNA (Δ=100±54 vs. 32±26 %, P&lt;0.05) and MAP responses (Δ=25±14 vs. 10±7 mmHg, P&lt;0.05) than control rats. The developed muscle tension during passive stretch was similar between the two groups (Δ=0.9±0.2 vs. 1.0±0.4 kg, P&gt;0.1, CKD vs. control). There was a tendency for the responses to metaboreflex activation to be heightened in the CKD group compared with the control group, but the difference did not reach statistical significance (ΔRSNA=212±68 vs. 107±105 %, P=0.06, ΔMAP=67±12 vs. 48±21 mmHg, P=0.06, CKD vs. control, respectively). Our findings suggest that EPR function, particularly muscle mechanoreflex function, is exaggerated in CKD, leading to sympathetic activation and hypertensive responses during exercise. P30 DK079307 Subaward to H.K. and R01HL-133179 to W.V. This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.

Efficacy of Static and Dynamic Exercise Interventional Protocol in Patients with Non-Specific Neck Pain

Aim: To see the efficacy of dynamic and static neck exercise interventional protocol in patients with nonspecific neck pain. Objectives: To evaluate the efficacy of static and dynamic exercises in patients with nonspecific neck pain and compare the efficacy of dynamic and static neck exercise interventional protocol when given alone or in combination. Methods: 30 Subjects were selected for the study. Sampling was done by random selection method and then groups of 10 subjects were assigned to each group by chit-chat method. Each subject was given an Ultrasound for 5 min before exercises in each group. It was a 5-week (6 days a week) intervention study. Conclusion: Dynamic and static exercise protocols effectively improve the range of motion and functional activities in nonspecific neck pain patients. However, a significant difference has not been found when these exercises are combined or alone.