Your search keyword '"Department of Kinesiology and Physical Education"' showing total 52 results

1. An investigation of the mechanism of adjacent segment disease in a porcine spine model.

Author

Chow N, Sinopoli SI, Whittal MC, Bednar DA, and Gregory DE

Subjects

Animals, Swine, Humans, Biomechanical Phenomena, Intervertebral Disc physiopathology, Intervertebral Disc pathology, Disease Models, Animal, Compressive Strength, Lumbar Vertebrae physiopathology, Spine physiopathology, Spine pathology, Stress, Mechanical

Abstract

Background: Fusion changes the biomechanics of the spine leading to the potential development of adjacent segment disease. Despite many studies on adjacent segment disease, it is largely unknown how spinal fixation affects the mechanical properties of the adjacent disc. The purpose of this study was to assess whether axial compression causes mechanical disruption to the annulus when the caudal spinal level is immobilized or injured., Methods: Fifty-two porcine spines were assigned to one of four conditions: 1) control; 2) injured (18.5-gauge needle inserted into the nucleus of cervical 4/5); 3) immobilized (18-gauge steel wire wrapped around the transverse and spinous processes of cervical 4/5); and 4) injured+immobilized. Each specimen was then subjected to 0.5 Hz cyclic compression (300-1200N) for two hours. Post-compression, three annular samples were dissected from the cervical 3/4 disc (adjacent to immobilized and/or injured level) and mechanically tested. The same loading protocol and annular testing was also conducted in eight human cadaveric lumbar spines., Findings: Immobilization and injury resulted in a reduction in adjacent disc lamellar strength including toe region stress (p < 0.001), initial failure stress (p = 0.03), and ultimate stress (p = 0.004), with immobilization having the greatest impact. Similar findings were observed in the human cadaver samples with reduced toe region strength in the injured+ immobilized samples compared to the control (p = 0.049)., Interpretation: The current study provides empirical evidence of decreased lamellar strength in the disc adjacent to an immobilized and/or injured level following prolonged cyclic axial loading, lending mechanistic insight into the development of adjacent segment disease., Competing Interests: Declaration of competing interest None declared., (Copyright © 2025 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2025

2. Mechanical function of the annulus fibrosus is preserved following quasi-static compression resulting in endplate fracture.

Author

McMorran JG, Neptune A, and Gregory DE

Subjects

Animals, Swine, Intervertebral Disc physiopathology, Intervertebral Disc injuries, Weight-Bearing, Biomechanical Phenomena, Tensile Strength, Cervical Vertebrae physiopathology, Cervical Vertebrae injuries, Annulus Fibrosus physiopathology, Compressive Strength, Stress, Mechanical, Spinal Fractures physiopathology

Abstract

Background: Vertebral fractures in young populations are associated with intervertebral disc disorders later in life. However, damage to the annulus fibrosus has been observed in rapidly loaded spines even without the subsequent occurrence of a fracture. Therefore, it may not be the fracture event that compromises the disc, but rather the manner in which the disc is loaded. The purpose of this study was to quantify the mechanical properties of the annulus fibrosus following quasi-static compressive loading of the motion segment either to sub-fracture or fracture-inducing magnitude., Methods: Porcine cervical motion segments were axial compressed at 0.1 mm/s, either until endplate fracture occurred ('fracture group'), or until segments reached 75 % of average fracture stress as determined from the fracture group ('sub-fracture group'). An unloaded control group was also included. Post-loading, three samples of the annulus were excised. The first was mounted in a 180 o peel test configuration in order to quantify lamellar adhesion. The other two samples were excised from the superficial and midspan region of the annulus and were exposed to uniaxial tension to 50 % strain., Findings: Lamellar adhesion and tensile annulus mechanics did not differ between the fracture and sub-fracture group, nor between the unloaded controls., Interpretation: Given the lack of differences in annular mechanical properties across the three conditions, it was concluded that under very slow, quasi-static compressive loading conditions, the annulus appeared undamaged even in the group that sustained a fracture; this is likely because a significant viscoelastic response was not generated in the disc under these slow loading conditions., Competing Interests: Declaration of competing interest The authors have no conflicts of interest to declare. Funding for this study was provided by the Natural Sciences and Engineering Research Council of Canada (RGPIN-2020-04723)., (Copyright © 2024 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2025

3. Corrigendum to "Evaluation of lower-body gait kinematics on outdoor surfaces using wearable sensors" [J. Biomech.] 177 (2024) 112401].

Author

Shah VR, Dixon PC, and Willmott AP

Published

2025

4. Breathlessness dimensions should be evaluated in relation to the level of exertion: A clinical study.

Author

Elmberg V, Ali G, Gustafsson D, Jensen D, and Ekström M

Subjects

Humans, Male, Female, Middle Aged, Aged, Adult, Severity of Illness Index, Dyspnea physiopathology, Dyspnea diagnosis, Physical Exertion physiology, Exercise Test standards

Abstract

Background/aim: Exertional breathlessness is a dominating symptom in cardiorespiratory disease, limiting exercise capacity. Multidimensional measurement has been proposed to capture breathlessness, but it is unknown whether it is useful to differentiate people with abnormal vs normal exertional breathlessness intensity., Methods: This was a secondary analysis of a randomized controlled trial of outpatients aged ≥ 18 years performing a symptom-limited cycle incremental exercise test (IET). Breathlessness sensations at end of IET were identified using the multidimensional dyspnea profile (MDP) 30-min post-exercise and compared between people with abnormally high breathlessness (Borg 0-10 rating > upper limit of normal [ULN]) and people within normal ranges (≤ ULN) in relation to the percentage of predicted peak power output defined by normative reference equations., Results: Of 92 participants, 20 (22 %) had abnormally high breathlessness. Compared with those with normal breathlessness (n = 72 [78 %]), the abnormal group reported higher symptom intensity at peak exercise (7.9 ± 1.7 vs 6.3 ± 1.4 Borg units; p < 0.001) and had lower peak power output 129 ± 52 W vs 167 ± 55 W; p < 0.001). Differences between those with normal, and abnormal exertional breathlessness regarding MDP ratings were not statistically significant (all p > 0.05): overall unpleasantness, 4.1 ± 2.3 vs 4.7 ± 1.6; immediate perception, 10.9 ± 2.8 vs 11.5 ± 1.8; and emotional response, 4.1 ± 7.6 vs 3.2 ± 7.5. MDP ratings had no relation to peak power output., Conclusion: Breathlessness dimensions are similar at the peak of a standardized IET and cannot differentiate between people with normal and abnormally high exertional breathlessness., (Copyright © 2025 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2025

5. Resting-state Functional Connectivity of the Motor and Cognitive Areas is Preserved in Masters Athletes.

Author

Potvin-Desrochers A, Atri A, Clouette J, Hepple RT, Taivassalo T, and Paquette C

Subjects

Humans, Male, Aged, Female, Middle Aged, Aging physiology, Neural Pathways physiology, Neural Pathways diagnostic imaging, Brain Mapping, Athletes, Magnetic Resonance Imaging, Cognition physiology, Rest physiology, Brain physiology, Brain diagnostic imaging

Abstract

Aging is characterized by a decline in physical and cognitive functions, often resulting in decreased quality of life. Physical activity has been suggested to potentially slow down various aspects of the aging process, a theory that has been supported by studies of Masters Athletes (MA). For example, MA usually have better cognitive and physical functions than age-matched sedentary and healthy older adults (OA), making them a valuable model to gain insights into mechanisms that promote physical and cognitive function with aging. The purpose of this study was to identify differences in resting-state functional connectivity (rs-FC) of motor and cognitive regions between MA and OA and determine if these differences in the resting brain are associated with differences in cognitive and physical performance between groups. Fifteen MA (9 males) and 12 age-matched OA (six males) were included. rs-FC images were compared to identify significant between-groups differences in brain connectivity. There was higher connectivity between the cognitive and motor networks for the OA group, whereas the MA group had stronger connectivity between different regions within the same network, both for the cognitive and the motor networks. These results are in line with the literature suggesting that aging reduces the segregation between functional networks and causes regions within the same network to be less strongly connected. High-level physical activity practiced by the MA most likely contributes to attenuating aging-related changes in brain functional connectivity, preserving clearer boundaries between different functional networks, which may ultimately favor maintenance of efficient cognitive and sensorimotor processing., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

6. Reorganization of Brain Resting-state Functional Connectivity Following 14 Days of Elbow Immobilization in Young Females.

Author

Clouette J, Potvin-Desrochers A, Seo F, Churchward-Venne TA, and Paquette C

Subjects

Humans, Female, Elbow, Brain diagnostic imaging, Brain physiology, Cerebellum, Neural Pathways physiology, Magnetic Resonance Imaging, Brain Mapping, Motor Cortex physiology

Abstract

Limb immobilization is known to cause significant decreases in muscle strength and muscle mass as early as two days following the onset of immobilization. However, the decline in strength surpasses the decline in muscle mass, suggesting that factors in addition to muscle loss, such as neuroplasticity, contribute to the decrease in force production. However, little is known regarding immobilization-induced neural changes, although sensorimotor regions seem to be the most affected. The present study aimed to determine whether brain functional organization is altered following 14 days of unilateral elbow immobilization. Functional organization was quantified using resting-state functional connectivity, a measure of the synchronicity of the spontaneous discharge of different brain regions at rest. Data was obtained from twelve healthy young females before and after completing the immobilization period. A seed-to-voxel analysis was performed using seeds associated with cortical, subcortical, and cerebellar sensorimotor regions of the brain. The results showed changes predominantly involving cerebellar connectivity. For example, the immobilization period caused a decrease in connectivity between the motor cerebellar region of the immobilized arm and the left temporal lobe, and an increase between the same cerebellar region and the supplementary motor area. Overall, changes in connectivity occurred in regions typically associated with error detection and motor learning, suggesting a potential functional reorganization of the brain within 14 days of elbow immobilization., (Copyright © 2024 IBRO. Published by Elsevier Inc. All rights reserved.)

Published

2024

7. The importance of foot posture when recording lower leg electromyography when walking in non-textured and textured foot orthoses.

Author

Robb KA and Perry SD

Subjects

Young Adult, Humans, Electromyography methods, Gait physiology, Walking physiology, Muscle, Skeletal physiology, Posture physiology, Leg physiology, Foot Orthoses

Abstract

Foot posture describes the anatomical variance in an individual's overall foot shape, an important consideration in the provision of foot orthoses. Current orthoses designs could be optimized by considering the topographical organization of cutaneous mechanoreceptors. Currently, the effect of foot orthoses designs to enhance skin stimulation across different anatomical foot posture remains unknown. Thus, the purpose of this study was to investigate how foot posture variance modulates lower leg muscle activity when walking in non-textured orthoses and in textured orthoses which facilitates cutaneous mechanoreceptors under five different regions of the foot sole. Fifty-one (51) healthy young adults were subdivided by the Foot Posture Index and completed level walking trials wearing non-textured and textured foot orthoses. Surface and fine-wire electromyography (EMG) recorded muscle activity in 8 lower leg muscles. Statistically significant interactions were observed in each muscle's average EMG across textured location and Foot Posture Index score. For example, in pes cavus compared to pes planus feet, texture under the calcaneus generated greater aEMG of the tibialis anterior (44.9 mV ± 22.7 mV to 30.9 mV ± 11.4 mV) medial gastrocnemius (26.1 mV ± 16.7 mV to 17.5 mV ± 6.0 mV), and tibialis posterior (84.4 mV ± 77.1 mV to 64.4 mV ± 44.5 mV) muscles. This study demonstrates that lower leg muscle activity is modulated across the foot posture spectrum wearing non-textured and textured foot orthoses. Furthermore, in the development of new orthoses designs, specifically with texture, foot posture remains an important consideration when clinicians interpret EMG results and academics are designing new experimental protocols., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Stephen Perry holds a patent for a balance-enhancing insole (Maki, Perry, McIlroy, US 6,237,256 B1, 2001) and is the CEO of Balancepro, Inc. that is involved in the commercialization of the ‘Balancepro’ insole. Kelly Robb is a Canadian Certified Pedorthist, has submitted a patent for a textured insole (CAN, US Patent Offices, 2020), and has intention of using textured foot orthotics in future clinical practice., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

8. Medially wedged foot orthoses generate greater biomechanical effects than thin-flexible foot orthoses during a unilateral drop jump task on level and inclined surfaces.

Author

Dami A, Payen E, Farahpour N, Robb K, Isabelle PL, and Moisan G

Subjects

Humans, Cross-Sectional Studies, Foot, Lower Extremity, Knee Joint, Biomechanical Phenomena, Foot Orthoses

Abstract

Background: Foot orthoses are therapeutic insoles designed to induce various effects on lower limb biomechanics. However, conflicting findings in previous research, highlight the need to better understand how foot orthoses with different features affect lower limb biomechanics during challenging tasks, particularly during unilateral drop jump landings., Methods: Seventeen participants with flat feet were recruited to participate in this cross-sectional descriptive study that examined the effects of thin-flexible foot orthoses and medially wedged foot orthoses on lower limb biomechanics during unilateral drop jump landings on level and valgus inclined surfaces. Midfoot, ankle, knee, and hip angles and moments were calculated and compared across conditions with repeated measures ANOVAs, using a statistical parametric mapping approach., Findings: Medially wedged and thin-flexible foot orthoses reduced ankle pronation and arch flattening during unilateral drop jump landings on level and valgus inclined surfaces. Medially wedged foot orthoses further decreased midfoot dorsiflexion and ankle eversion angles compared to thin-flexible foot orthoses. Medially wedged foot orthoses also generated greater effects on ankle kinetics and hip kinematics during unilateral drop jump landings., Interpretation: Medially wedged foot orthoses are more effective than thin-flexible foot orthoses in optimizing lower limb biomechanics during unilateral drop jump landings. While the biomechanical effects did not increase on inclined surfaces, medially wedged foot orthoses generated greater effects on proximal joints, highlighting their potential to improve hip stability and enhance overall lower limb function. Personalized foot orthoses selection based on specific biomechanical profiles should be further explored to optimize orthotic interventions benefiting individuals with musculoskeletal conditions., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests. Gabriel Moisan reports financial support was provided by Natural Sciences and Engineering Research Council of Canada., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

9. Few sex-specific effects of fatigue on muscle synergies in a repetitive pointing task.

Author

Chen Y, Yang C, and Côté JN

Subjects

Female, Humans, Male, Young Adult, Electromyography, Movement physiology, Muscle, Skeletal physiology, Muscle Fatigue physiology, Shoulder physiology

Abstract

Previous studies have identified some sex differences in how individual muscles change their activation during repetitive multi-joint arm motion-induced fatigue. However, little is known about how indicators of multi-muscle coordination change with fatigue in males and females. Fifty-six (29 females) asymptomatic young adults performed a repetitive, forward-backward pointing task until scoring 8/10 on a Borg CR10 scale while surface electromyographic activity of upper trapezius, anterior deltoid, biceps brachii, and triceps brachii was recorded. Activation coefficient, synergy structure, and relative weight of each muscle within synergies were calculated using the non-negative matrix factorization method. Two muscle synergies were extracted from the fatiguing task. The synergy structures were mostly preserved after fatigue, while the activation coefficients were altered. A significant Sex × Fatigue interaction effect showed more use of the anterior deltoid in males especially before fatigue in synergy 1 during shoulder stabilization (p = 0.04). As for synergy 2, it was characterized by variations in the relative weight of biceps, which was higher by 16 % in females compared to males (p = 0.04), and increased with fatigue (p = 0.03) during the elbow flexion acceleration phase and the deceleration phase of the backward pointing movement. Findings suggest that both sexes adapted to fatigue similarly, using fixed synergy structures, with alterations in synergy activation patterns and relative weights of individual muscles. Results support previous findings of an important role for the biceps and anterior deltoid in explaining sex differences in patterns of repetitive motion-induced upper limb fatigue., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2024

10. Evaluation of sex-based differences in resistance exercise training-induced changes in muscle mass, strength, and physical performance in healthy older (≥60 y) adults: A systematic review and meta-analysis.

Author

Hawley SE, Bell ZW, Huang Y, Gibbs JC, and Churchward-Venne TA

Subjects

Male, Female, Humans, Aged, Exercise physiology, Muscle, Skeletal physiology, Muscle Strength physiology, Physical Functional Performance, Resistance Training

Abstract

The objective of this systematic review and meta-analysis was to determine if there are sex-based differences in adaptations to resistance exercise training in healthy older adults. Following the screening process, data from 36 studies comparing older males and females (602 males; 703 females; ≥60 years of age) for changes in skeletal muscle size, muscle strength, and/or physical performance following the same resistance exercise training intervention were extracted. Mean study quality was 16/29 (modified Downs and Black checklist), considered moderate quality. Changes in absolute upper-body (Effect Size [ES] = 0.81 [95% CI 0.54, 1.09], P < 0.001), and lower-body (ES = 0.40 [95% CI 0.24, 0.56], P < 0.001) strength were greater in older males than females. Alternatively, changes in relative upper-body (ES = -0.46 [95% CI -0.77, -0.14], P < 0.01), and lower-body (ES = -0.24 [95% CI -0.42, -0.06], P < 0.01) strength were greater in older females than males. Changes in absolute, but not relative, whole-body fat-free mass (ES = 0.18 [95% CI 0.04, 0.33], P < 0.05) were greater in older males than females. There were no sex-based differences for absolute or relative changes in limb muscle size, muscle fiber size, or physical performance., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023

11. Improved interference control after exercise with blood flow restriction and cooling is associated with but not mediated by increased lactate.

Author

Yamada Y, Kataoka R, Bell ZW, Wong V, Spitz RW, Song JS, Abe T, and Loenneke JP

Subjects

Humans, Bayes Theorem, Cold Temperature, Lactic Acid, Young Adult, Adult, Exercise physiology, Hemodynamics

Abstract

Background: To evaluate the effects of recumbent sprint interval exercise with and without blood flow restriction and body cooling on interference control and whether the changes in interference control can be explained by the changes in blood lactate., Methods: 85 participants (22 SD 3 years old) completed 1 familiarization visit and then 5 experimental visits in a randomized order: exercise only (Ex), exercise with blood flow restriction (ExB), exercise with cooling (ExC), and exercise with blood flow restriction and cooling (ExBC), and non-exercise control (Con). Measurements of blood lactate and the Stroop Color Word Test were performed before and after exercise. Each bout began with a 15-minute low-moderate intensity warm-up, followed by five 20-second "all out" sprints separated by 40 s of active recovery. Bayes Factors (BF 10 ) quantified evidence for or against the null hypothesis. Within-subject mediation analysis quantified the indirect effect of changes in blood lactate (mediator) on the change in interference control (each exercise condition vs. Con)., Results: Bayesian pairwise comparisons found that only ExC [σ: -0.37 (-0.59, -0.15)] and ExBC [σ: -0.3 (-0.53, -0.09)] produced changes in incongruent reaction time different from that of Con. There was also evidence that all exercise conditions increased blood lactate (BF 10  = 8.65e+29 - 1.9e+32) and improved congruent reaction time (BF 10  = 4.01 - 15.371) compared to that of Con. There was no evidence to show that changes in lactate mediated the change in incongruent reaction time., Conclusions: Both exercise with body cooling and when body cooling was combined with blood flow restriction presented favorable changes in incongruent reaction time (a marker of interference control), which might not be explained by the changes in systemic blood lactate concentration., Competing Interests: Conflict of Interest None of the authors listed on the paper possess a professional relationship with companies or manufacturers that will benefit from publishing the results of the present study., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

12. Sex differences in torque steadiness, accuracy and activation of the shoulder girdle muscles during isometric shoulder scaption.

Author

Zancanaro LL, Cid MM, Côté JN, and Oliveira AB

Subjects

Adult, Humans, Male, Female, Shoulder physiology, Torque, Muscle, Skeletal, Isometric Contraction, Electromyography, Shoulder Joint physiology, Superficial Back Muscles physiology, Musculoskeletal Diseases

Abstract

Females present more neck/shoulder musculoskeletal disorders and have different activation strategies of the shoulder girdle muscles than males. However, the sensorimotor performance and potential sex differences are still largely unexplored. The aim of this study was to investigate sex differences in torque steadiness and accuracy during isometric shoulder scaption. We also examined the amplitude and variability of the activation of the trapezius, serratus anterior (SA), and anterior deltoid muscles during torque output evaluation. Thirty-four asymptomatic adults (17 females) participated. Torque steadiness and accuracy were evaluated during submaximal contractions at 20 % and 35 % of peak torque (PT). There was no sex difference in torque coefficient of variation, but females had significantly lower torque standard deviation (SD) values than males at the two intensities evaluated (p < 0.001) and lower torque median frequency values compared to males, regardless of intensity (p < 0.01). Females had significantly lower absolute error values than males for torque output at 35 %PT (p < 0.01) and lower constant error values compared to males, regardless of intensity (p = 0.01). Females had significantly higher muscle amplitude values than males, except for SA (p = 0.10) and in general, females showed higher muscle activation SD values compared to males (p < 0.05). Females may require more complex muscle activation patterns to achieve a more stable and accurate torque output. Therefore, these sex differences may reflect control mechanisms that may also be at play when explaining the greater risk of neck/shoulder musculoskeletal disorders in females than males., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2023

13. Impact of trigeminal and/or olfactory nerve stimulation on measures of inspiratory neural drive: Implications for breathlessness.

Author

Aucoin R, Lewthwaite H, Ekström M, von Leupoldt A, and Jensen D

Subjects

Animals, Humans, Dyspnea, Nose, Trigeminal Nerve physiology, Menthol pharmacology, Olfactory Nerve

Abstract

The perception of breathlessness is mechanistically linked to the awareness of increased inspiratory neural drive (IND). Stimulation of upper airway cold receptors on the trigeminal nerve (TGN) with TGN agonists such as menthol or cool air to the face/nose has been hypothesized to reduce breathlessness by decreasing IND. The aim of this systematic scoping review was to identify and summarize the results of studies in animals and humans reporting on the impact of TGN stimulation or blockade on measures of IND. Thirty-one studies were identified, including 19 in laboratory animals and 12 in human participants. Studies in laboratory animals consistently reported that as TGN activity increased, measures of IND decreased (e.g., phrenic nerve activity). In humans, stimulation of the TGN with a stream of cool air to the face/nose decreased the sensitivity of the ventilatory chemoreflex response to hypercapnia. Otherwise, TGN stimulation with menthol or cool air to the face/note had no effect on measures of IND in humans. This review provides new insight into a potential neural mechanism of breathlessness relief with selected TGN agonists., Competing Interests: Declaration of Competing Interest All authors declare they have no conflicting interests., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023

14. Size and structure of motor variability in young and old adults performing a rhythmic, repetitive tapping task.

Author

Bailey CA, Hasanbarani F, Slopecki M, Yang C, and Côté JN

Subjects

Young Adult, Humans, Wrist, Movement, Wrist Joint, Biomechanical Phenomena, Muscle Fatigue, Upper Extremity

Abstract

The size of motor variability increases with fatigue in repetitive upper limb tasks, and the structure of variability differs with old age. However, the combined influences of old age and fatigue on the size and structure of movement-to-movement variability are unclear. Eighteen young and sixteen old adults performed a fatiguing repetitive tapping task while seated using their dominant arm. Optoelectronic motion capture served to measure upper body angles via forward kinematics. Movement-to-movement variability was measured by the size at joints (standard deviation: SD) and by the structure of the uncontrolled manifold (variance: V UCM , V ORT ; synergy index: ΔV z ) in the first and final minutes of the task for the early, middle, and late forward movement phases. Outcomes were analyzed by Age*Condition*Phase general estimating equations. Old adults had lower humerothoracic abduction/adduction and flexion/extension SD, wrist flexion/extension SD, V UCM , and V ORT , mainly in the early movement phase (p < 0.014). With fatigue, humerothoracic flexion/extension SD increased in young adults only and humerothoracic abduction/adduction SD, wrist pronation/supination SD, wrist flexion/extension SD, and V UCM increased in both groups. ΔV z was positive and did not differ with age or fatigue (p > 0.014). Results indicate that fatigue adjustments were mainly in the frontal plane, old age did not affect the ratio of good vs. bad variability, and motor synergy was preserved during fatigue despite less motor flexibility in old age., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2023

15. Impact of trigeminal nerve and/or olfactory nerve stimulation on activity of human brain regions involved in the perception of breathlessness.

Author

Aucoin R, Lewthwaite H, Ekström M, von Leupoldt A, and Jensen D

Subjects

Humans, Menthol, Brain physiology, Dyspnea, Perception, Trigeminal Nerve physiology, Magnetic Resonance Imaging, Olfactory Nerve, Olfactory Perception physiology

Abstract

Breathlessness is a centrally processed symptom, as evidenced by activation of distinct brain regions such as the insular cortex and amygdala, during the anticipation and/or perception of breathlessness. Inhaled L-menthol or blowing cool air to the face/nose, both selective trigeminal nerve (TGN) stimulants, relieve breathlessness without concurrent improvements in physiological outcomes (e.g., breathing pattern), suggesting a possible but hitherto unexplored central mechanism of action. Four databases were searched to identify published reports supporting a link between TGN stimulation and activation of brain regions involved in the anticipation and/or perception of breathlessness. The collective results of the 29 studies demonstrated that TGN stimulation activated 12 brain regions widely implicated in the anticipation and/or perception of breathlessness, including the insular cortex and amygdala. Inhaled L-menthol or cool air to the face activated 75% and 33% of these 12 brain regions, respectively. Our findings support the hypothesis that TGN stimulation contributes to breathlessness relief by altering the activity of brain regions involved in its central neural processing., Competing Interests: Declaration of Competing Interest All authors declare they have no conflicting interests., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023

16. Effects of foot orthoses on the biomechanics of the lower extremities in adults with and without musculoskeletal disorders during functional tasks: A systematic review.

Author

Moisan G, Robb K, Mainville C, and Blanchette V

Subjects

Adult, Biomechanical Phenomena, Foot, Humans, Lower Extremity, Foot Orthoses, Musculoskeletal Diseases

Abstract

Background: Foot orthoses are among the most commonly used external supports to treat musculoskeletal disorders. It remains unclear how they change the biomechanics of the lower extremities during functional tasks. This systematic review aimed to determine the effects of foot orthoses on primary outcomes (i.e., kinematics, kinetics and electromyography of the lower extremities) in adults with and without musculoskeletal disorders during functional tasks., Methods: A literature search was conducted for articles published from inception to June 2021 in Medline, CINAHL, SPORTDiscus, Cochrane libraries and PEDro electronic databases. Two investigators independently assessed the titles and abstracts of retrieved articles based on the inclusion criteria. Of the 5578 citations, 24 studies were included in the qualitative synthesis as they reported the effects of foot orthoses on the primary outcomes. Risk of bias of included studies was determined using the modified Downs and Black Quality Index., Findings: During low impact tasks, foot orthoses decrease ankle inversion and increase midfoot plantar forces and pressure. During higher impact tasks, foot orthoses had little effects on electromyography and kinematics of the lower extremities but decreased ankle inversion moments., Interpretation: Even though the effects of foot orthoses on the biomechanics of the lower extremities seem task-dependent, foot orthoses mainly affected the biomechanics of the distal segments during most tasks. However, few studies determined their effects on the biomechanics of the foot. It remains unclear to what extent foot orthoses features induce different biomechanical effects and if foot orthoses effects change for different populations., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

17. Sex-specific effects of a repetitive fatiguing task on stability: Analysis with motor equivalence model.

Author

Hasanbarani F, Yang C, Bailey CA, Slopecki M, and Côté JN

Subjects

Adult, Arm, Biomechanical Phenomena, Fatigue, Female, Humans, Male, Middle Aged, Movement, Psychomotor Performance, Young Adult, Hand, Muscle Fatigue

Abstract

Although studies showed that several internal factors affect task-specific stability, the sex-specific effects of fatigue on whole-limb stability during a semi-cycle repetitive pointing task remain unidentified. Synergy and Motor Equivalence concepts in the UCM framework have been developed to explain task-specific stability. The motor equivalence model quantifies the amount of deviation in the space of elemental variables that occurs in two directions; one that preserves the performance variable (good variance), and the other that affects it (bad variance). Synergy index (the difference between good and bad variance divided by the total variance > 0) represent stability in performing a task. Healthy adults (n = 26, 13F; age: 35.3 ± 10.6 yrs.) performed an RPT by moving their dominant arm between a proximal target and a distal target in a standing position until near fatigue (Borg CR10 rating 8/10). Tridimensional kinematics of trunk, upper arm, forearm, and hand segments were captured by high-resolution cameras every minute, and joint angles were extracted according to the ZX'Y″ Euler sequence. Results showed the synergy > 0 for both women and men, reflecting synergies stabilizing the endpoint coordinate in both Non-Fatigue and Fatigue conditions. Statistics (ANOVA) showed a significant Condition * Sex effect (p = 0.01), with higher good (by 0.19 ± 0.1 rad) and bad variances (by 0.15 ± 0.09 rad) in women compared to men after fatigue. Higher good and bad variability, with no change in women's performance could represent a less stable strategy, leading to the development of risk factors for neck-shoulder disorders., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

18. Evaluation of a virtual reality E-cigarette prevention game for adolescents.

Author

Weser VU, Duncan LR, Sands BE, Schartmann A, Jacobo S, François B, and Hieftje KD

Subjects

Adolescent, Child, Humans, Male, Behavior, Addictive, Electronic Nicotine Delivery Systems, Tobacco Products, Vaping, Virtual Reality

Abstract

Objective: To test preliminary efficacy and acceptability of Invite Only VR: A Vaping Prevention Game (Invite Only VR), an electronic cigarette (e-cigarette) prevention game that uses virtual reality (VR) hardware., Methods: 285 adolescents (146 boys; ages 11-14; M = 12.45 years; SD = 0.57) were enrolled in this non-equivalent control groups design through their middle school. Participants who played Invite Only VR for 1.5 h were compared to treatment as usual at 4 timepoints: baseline, post gameplay, 3 and 6 months. Evidence of the efficacy of the game to influence e-cigarette use, e-cigarette knowledge, nicotine addiction knowledge, perceived addictiveness of e-cigarettes, perceived likelihood of using e-cigarettes, perceptions of harm, self-efficacy to refuse, social approval of e-cigarettes, and e-cigarette social perceptions was assessed using mixed between-within subjects ANOVAS. Intervention acceptability was indicated by measures of gameplay experience/satisfaction, VR experience, and perceived responsibility for game-based decisions., Results: From baseline to 6 months, Invite Only VR players improved in e-cigarette knowledge, nicotine addiction knowledge, perceived addictiveness of e-cigarettes, perceptions of harm, and social perceptions about e-cigarette use compared to the control group. No significant changes were observed for the other dependent variables, including e-cigarette use. Ratings of gameplay experience and satisfaction, VR experience, and game-based decisions were high., Conclusions: Invite Only VR may help players develop knowledge about e-cigarettes and nicotine addiction, as well as encourage the development of healthy harm and social perceptions regarding e-cigarette use that persist 6 months beyond gameplay. Adolescents' satisfaction with the VR gameplay indicates preliminary intervention acceptability., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

19. Potential Non-invasive Brain Stimulation Targets to Alleviate Freezing of Gait in Parkinson's Disease.

Author

Potvin-Desrochers A and Paquette C

Subjects

Gait, Humans, Quality of Life, Transcranial Magnetic Stimulation, Gait Disorders, Neurologic etiology, Gait Disorders, Neurologic therapy, Motor Cortex, Parkinson Disease complications, Parkinson Disease therapy

Abstract

Freezing of gait (FOG) is a common motor symptom in Parkinson's disease (PD). Although FOG reduces quality of life, affects mobility and increases the risk of falls, there are little to no effective treatments to alleviate FOG. Non-invasive brain stimulation (NIBS) has recently yielded attention as a potential treatment to reduce FOG symptoms however, stimulation parameters and protocols remain inconsistent and require further research. Specifically, targets for stimulation require careful review. Thus, with current neuroimaging and neuro-electrophysiological evidence, we consider potential cortical targets thought to be involved in the pathophysiology of FOG according to the Interference model, and within reach of NIBS. We note that the primary motor cortex, the supplementary motor area and the dorsolateral prefrontal cortex have already drawn attention as NIBS targets for FOG, but based on neuroimaging evidence the premotor cortex, the medial prefrontal cortex, the cerebellum, and more particularly, the posterior parietal cortex should be considered as potential regions for stimulation. We also discuss different methodological considerations, such as stimulation type, medication state, and hemisphere to target, and future perspectives for NIBS protocols in FOG., (Copyright © 2021 IBRO. Published by Elsevier Ltd. All rights reserved.)

Published

2021

20. Multidimensional breathlessness response to exercise: Impact of COPD and healthy ageing.

Author

Lewthwaite H, Li PZ, O'Donnell DE, and Jensen D

Subjects

Adult, Aged, Exercise Test, Female, Humans, Male, Middle Aged, Young Adult, Aging physiology, Dyspnea physiopathology, Exercise physiology, Pulmonary Disease, Chronic Obstructive physiopathology

Abstract

This study compared the multidimensional breathlessness response to incremental cardiopulmonary cycle exercise testing (CPET) in people with chronic obstructive pulmonary disease (COPD; n = 14, aged 69 ± 9 years, forced expiratory volume in 1-sec = 54 ± 16 % predicted) and healthy older (OA) (n = 35, aged 68 ± 5 years) and younger (YA) (n = 19, aged 28 ± 8 years) adults. Participants performed CPET and successively rated overall breathlessness intensity, unsatisfied inspiration, breathing too shallow, work/effort of breathing, and breathlessness-related unpleasantness, fear, and anxiety using the 0-10 Borg scale. At any given percent predicted peak minute ventilation, people with COPD rated all breathlessness sensations higher than OA and YAs, who were similar. Most between group differences disappeared when examined in relation to inspiratory reserve volume, except people with COPD reported higher levels of unsatisfied inspiration and breathing too shallow (vs YA), and breathlessness-related fear and anxiety (vs OA and YAs). Multidimensional ratings of breathlessness sensations during CPET provides further insight into differences in exertional symptom perceptions among people with COPD and without COPD., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2021

21. Test-retest reliability of force plate-derived measures of reactive stepping.

Author

Saumur TM, Mathur S, Nestico J, Perry SD, Mochizuki G, and Mansfield A

Subjects

Adult, Humans, Reproducibility of Results, Foot, Postural Balance

Abstract

Characterizing reactive stepping is important to describe the response's effectiveness. Timing of reactive step initiation, execution, and termination have been frequently reported to characterize reactive balance control. However, the test-retest reliabilities of these measures are unknown. Accordingly, the purpose of this study was to determine the between- and within-session test-retest reliabilities of various force plate-derived measures of reactive stepping. Nineteen young, healthy adults responded to 6 small (~8-10% of body weight) and 6 large perturbations (~13-15% of body weight) using an anterior lean-and-release system. Tests were conducted during two visits separated by at least two days. Participants were instructed to recover balance in as few steps as possible. Step onset, foot-off, swing, and restabilization times were extracted from force plates. Relative test-retest reliability was determined through intraclass correlation coefficients (ICCs) and 95% confidence intervals (CIs). Absolute test-retest reliability was assessed using the standard error of the measurement (SEM). Foot-off and swing times had the highest between- and within-session test-retest reliabilities regardless of perturbation size (between-session ICC = 0.898-0.942; within-session ICC = 0.455-0.753). Conversely, step onset and restabilization times had lower ICCs and wider CIs (between-session ICC = 0.495-0.825; within-session ICC = -0.040-0.174). Between-session test-retest reliability was higher (ICC = 0.495-0.942) for all measures than within-session test-retest reliability (ICC = -0.040-0.753). Time to restabilization had the highest SEM, indicating the worst absolute reliability of the measures. These findings suggest multiple baseline sessions are needed for measuring restabilization and step onset times. The minimal detectable changes reported provide an index for measuring meaningful change due to an intervention., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2021

22. A quasi-experimental test of a virtual reality game prototype for adolescent E-Cigarette prevention.

Author

Weser VU, Duncan LR, Pendergrass TM, Fernandes CS, Fiellin LE, and Hieftje KD

Subjects

Adolescent, Humans, Male, Social Norms, Electronic Nicotine Delivery Systems, Tobacco Products, Vaping, Virtual Reality

Abstract

Objective: To test the preliminary impact and participant experience/satisfaction of Invite Only VR: A Vaping Prevention Game (Invite Only VR), an electronic cigarette (e-cigarette) prevention game prototype using virtual reality (VR) hardware., Methods: Forty-seven adolescents (38 boys; mean age = 14.23 years, SD = 0.914) were enrolled to test the preliminary impact of Invite Only VR on knowledge, perceived likelihood of using e-cigarettes, perceptions of harm, attitudes, social norms, and self-efficacy to refuse e-cigarettes using a pre/post design. Experience/satisfaction was measured following gameplay. Paired-samples t-tests and associated effect sizes were used to assess changes in the dependent variables. Descriptive statistics were used to report on gameplay experience/satisfaction., Results: From pre- to post-gameplay, players significantly increased in knowledge (t(34) = -5.594, p < .001, Cohen's d = 0.946) and perceptions of e-cigarette harm (t(34) = -3.370, p = .002, Cohen's d = 0.530) and decreased their perceived likelihood of using e-cigarettes in the future (t(35) = 2.140, p = .039, Cohen's d = 1.274). No significant change was found for attitudes towards e-cigarettes, social norm perceptions, nor refusal self-efficacy. Participants reported that they enjoyed playing the game (M = 3.00, SD = 0.99) and that they would tell their friends to play (M = 3.08, SD = 0.91)., Conclusions: Invite Only VR may help players develop knowledge and correct harm perceptions regarding e-cigarettes while reducing their perceived likelihood of using them in the future. Participant enjoyment also provides an initial indication that the intervention may be acceptable for use with adolescents., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2021

23. Age-related changes in human single muscle fibre passive elastic properties are sarcomere length dependent.

Author

Noonan AM, Mazara N, Zwambag DP, Weersink E, Power GA, and Brown SHM

Subjects

Aged, Humans, Male, Muscle Contraction, Muscle, Skeletal, Muscle Fibers, Skeletal, Sarcomeres

Abstract

Purpose: Studies have revealed an age-related decrease in the ability to produce force as well as an increase in the contractile stiffness and passive stress of single muscle fibres. However, further insight into age-related changes to the passive properties of human skeletal muscles is needed. The aim of this study was to characterize single muscle fibre passive properties from young and old males across a physiologic range of sarcomere lengths (SLs)., Methods: Ten young ([YM]: mean age: 25.4 years) and ten old ([OM]: mean age: 68.9 years) males participated. Vastus lateralis muscles were biopsied and 182 fibres were tested and analyzed (90 YM and 92 OM) using a cumulative stretch-relaxation protocol. Passive mechanical characteristics of each fibre were obtained by fitting the integral of the logistic function to experimental stress-SL data., Results: Muscle fibres from older individuals had significantly greater passive elastic moduli at short SL (1.9-2.65 μm) compared with young (p < 0.05). This resulted in a significantly larger passive stress for SLs between 2.1 μm and 3.55 μm for older individuals when compared with young (p < 0.05)., Conclusion: These results provide novel insight into the length dependency of changes in single muscle fibre passive mechanical properties with age., Competing Interests: Declaration of competing interest The authors declare that they have no conflict of interest., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

24. Sex differences in postures of the upper body during a simulated work task performed above shoulder level.

Author

Cid MM, Côté JN, Zancanaro LL, and Oliveira AB

Subjects

Female, Humans, Male, Movement, Posture, Sex Characteristics, Musculoskeletal Diseases, Shoulder

Abstract

The aim of this study was to evaluate if there are sex differences in postures of upper arm, upper back, head and neck after muscle fatigue induced by a simulated work task, requiring upper arm movements performed above shoulder level. Nineteen females and 18 males were evaluated. Upper arm elevation, upper back, head and neck forward flexion postures were recorded using digital inclinometers. The first and the last cycles of the task were considered as pre- and post-fatigue periods, respectively. For both periods, Amplitude Probability Distribution Function (APDF) was calculated for 10th, 50th and 90th percentiles, as well as the angular ranges between the 5th and 95th percentiles (APDF 5-95 range). The APDF 5-95 range for upper arm elevation was higher with fatigue, but with a higher increase for males. After fatigue, there was also a decrease in the upper arm elevation, with a larger decrease in males for the 10th and 50th percentiles. For head and neck, females showed higher APDF 5-95 ranges than males, regardless of the task period evaluated. After muscle fatigue, males adopted more neutral postures of the upper arm than females. Furthermore, females showed more non-neutral postures for head and neck. These findings suggest that the kinematic strategies adopted by females and males during a simulated work task are different and may predispose females to a higher risk of developing work-related musculoskeletal disorders of the neck., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2020

25. Extending the center of pressure to incorporate handhold forces: Derivation and sample application.

Author

Borrelli J, Komisar V, Novak AC, Maki BE, and King EC

Subjects

Adult, Foot, Humans, Movement, Postural Balance, Self-Help Devices

Abstract

Measures describing movement of the center of pressure (CoP) are frequently used to characterize postural control. Estimates of CoP often focus on forces that individuals exert in a single plane through the feet (standing on force plates). However, balance may also be supported by forces other than those developed at the feet, especially when walkers, handrails, and other aids are used. In these cases, it is common to neglect the contributions of handheld supports. Here, we derive and apply equations for an extended CoP that incorporates handhold forces. We then examine the influence of CoP definition (i.e., including or ignoring handhold forces) on common metrics (path length; RMS and maximum excursion; average and maximum velocity) for 12 younger adults with a handrail located lateral to the participants' dominant hand. Participants attempted balance recovery in response to a range of small, medium and large forward and backward platform translations. Significant interactions between perturbation magnitude and CoP definition were found for most metrics. Notably, the interaction of CoP definition and perturbation magnitude significantly affected path length (p-values < 0.001). Post-hoc analyses revealed larger CoP path length when handrail forces were incorporated in CoP estimates compared to ignoring handrail forces at medium (backward: 59.9 vs. 19.0% height; forward: 70.5 vs 22.4% height) and large perturbation magnitudes (backward: 69.9 vs 22.4% height; forward: 103.5 vs 24.6% height). Incorporation of hand forces in CoP calculations can present a different view of postural balance control than relying on a feet-only CoP. This measure could be useful in assessing balance control tasks that involve the use of handrails or hand-held mobility devices., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Crown Copyright © 2020. Published by Elsevier Ltd. All rights reserved.)

Published

2020

26. Eccentric versus conventional cycle training to improve muscle strength in advanced COPD: A randomized clinical trial.

Author

Bourbeau J, De Sousa Sena R, Taivassalo T, Richard R, Jensen D, Baril J, Rocha Vieira DS, and Perrault H

Subjects

Aged, Exercise, Heart Rate, Humans, Male, Middle Aged, Pulmonary Disease, Chronic Obstructive physiopathology, Quadriceps Muscle, Bicycling, Dyspnea physiopathology, Exercise Therapy methods, Fatigue physiopathology, Muscle Strength, Pulmonary Disease, Chronic Obstructive rehabilitation

Abstract

Objectives: To compare eccentric (ECC) and conventional concentric (CON) cycle training on quadriceps muscle strength in advanced COPD. Secondary objective was to assess functional capacity., Methods: A parallel-group, assessor-blind, randomized trial was conducted. Severe COPD patients were randomized to either an ECC (n = 13) or CON (n = 11) cycling program for 30-min, 3 times/week for 10 weeks. ECC group trained at ∼4-fold higher power than the CON group at similar relative heart rate intensity., Results: Isometric and isokinetic quadriceps peak torque improved after ECC but not CON; between group difference was significant for isometric peak muscle force (p < 0.05). Peak cycling power and endurance time increased in both groups (p < 0.05). Dyspnea at peak cycling power improved only after ECC training (p < 0.05). Sensory intensity ratings of dyspnea and leg fatigue were significantly lower (p < 0.05) during ECC compared with CON at equivalent relative heart rate intensities., Conclusions: ECC could be an effective alternative and/or adjunct modality to pulmonary rehabilitation in severely ventilatory limited COPD patients., Competing Interests: Declaration of Competing Interest None., (Copyright © 2020. Published by Elsevier B.V.)

Published

2020

27. Changing vergence function in persons with Parkinson's disease and convergence insufficiency.

Author

Machan CM, Chriqui E, Law C, Norman B, Alhassan M, Almeida QJ, Kergoat H, and Irving EL

Subjects

Aged, Comorbidity, Humans, Middle Aged, Ocular Motility Disorders epidemiology, Parkinson Disease epidemiology, Treatment Outcome, Neurological Rehabilitation methods, Ocular Motility Disorders rehabilitation, Parkinson Disease rehabilitation

Abstract

Individuals with Parkinson's disease and convergence insufficiency were assigned vergence training. After two months, average positive fusional vergence increased and average near point of convergence decreased. Vergence can be improved with training in persons with Parkinson's disease who also have convergence insufficiency., (Copyright © 2020. Published by Elsevier Ltd.)

Published

2020

28. Physiological and perceptual responses to exercise according to locus of symptom limitation in COPD.

Author

Tracey L, Lewthwaite H, Abdallah SJ, Murray S, Wilkinson-Maitland CA, Donovan A, Maltais F, O'Donnell DE, Bourbeau J, Smith BM, and Jensen D

Subjects

Aged, Cross-Sectional Studies, Female, Humans, Male, Middle Aged, Retrospective Studies, Dyspnea physiopathology, Exercise physiology, Exercise psychology, Pulmonary Disease, Chronic Obstructive physiopathology

Abstract

Chronic obstructive pulmonary disease (COPD) is a heterogeneous disease, with pulmonary and extra-pulmonary factors contributing to exercise intolerance. The primary self-reported exercise-limiting symptom may reflect the primary pathophysiological factor contributing to exercise intolerance. We compared physiological and perceptual responses at the symptom-limited peak of incremental cardiopulmonary cycle exercise testing between people with COPD reporting breathlessness (B, n = 34), leg discomfort (LD, n = 16), or a combination of B and LD (BOTH, n = 42) as their main exercise-limiting symptom(s). Despite similarly impaired health status, symptomology and peak exercise capacity, the B group had greater restrictive constraints on tidal volume expansion at end-exercise and was more likely to report unpleasant qualities of exertional breathlessness than LD and BOTH groups. In conclusion, reporting breathlessness as the primary exercise-limiting symptom indicated the presence of distinct lung pathophysiology and symptom perception during exercise in people with COPD., Competing Interests: Declaration of Competing Interest There are no conflicts of interest to report for this work., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2020

29. Does variability in motor output at individual joints predict stride time variability in gait? Influences of age, sex, and plane of motion.

Author

Bailey CA, Porta M, Pilloni G, Arippa F, Côté JN, and Pau M

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Ankle physiology, Biomechanical Phenomena, Female, Humans, Knee physiology, Male, Middle Aged, Range of Motion, Articular, Young Adult, Aging physiology, Gait, Sex Characteristics

Abstract

Old age is associated with variability in gait motor output, particularly in females, and is linked to fall risk. However, little is known about how older age and sex affect variability in the outputs of individual joints, and how these variabilities contribute to the collective gait output. Healthy adults aged 18-99 years (N = 102, 57 females) completed six trials of straight walking at self-selected speed. Stride time variability (coefficient of variation) and variabilities of lower limb tridimensional joint angles (standard deviations: SD) were calculated. Age * Sex (A * S) mixed models were conducted on all measures and year-by-year rates of change were subsequently estimated. Correlations and stepwise linear regression analyses were computed between joint angular variabilities and stride time variability. Each year of age was associated with 0.022% higher stride time variability (A: p = .002), 0.07° lower variability in peak ankle dorsiflexion (A: p = .004), 0.002-0.098° higher variability in mean ankle inversion/eversion, mean pelvic obliquity, and pelvic rotation range of motion (A: p < .05), and 0.024° higher variability in knee flexion/extension range of motion in males (A * S: p = .003). Higher variability in mean ankle and hip flexion/extension and in mean ankle inversion/eversion correlated with (ρ = 0.211-0.336; ps < 0.05) and independently predicted higher stride time variability (ps < 0.05), together explaining 21.9% of variance. Results suggest that higher stride time variability with older age may be produced by a shift from sagittal plane variability to frontal plane variability at the ankle., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2020

30. Changes in Resting-State Functional Connectivity Related to Freezing of Gait in Parkinson's Disease.

Author

Potvin-Desrochers A, Mitchell T, Gisiger T, and Paquette C

Subjects

Aged, Female, Gait Disorders, Neurologic pathology, Humans, Image Processing, Computer-Assisted methods, Magnetic Resonance Imaging methods, Male, Middle Aged, Neural Pathways pathology, Parkinson Disease pathology, Pedunculopontine Tegmental Nucleus pathology, Pedunculopontine Tegmental Nucleus physiopathology, Severity of Illness Index, Brain Mapping methods, Gait Disorders, Neurologic physiopathology, Neural Pathways physiopathology, Parkinson Disease physiopathology

Abstract

Freezing of gait (FOG) is a common motor symptom in Parkinson's disease (PD) thought to arise from the dysfunctional cortico-basal ganglia-thalamic circuity. The purpose of this study was to assess the changes in brain resting-state functional connectivity (rs-FC) of subcortical structures comprising the cortico-basal ganglia-thalamic circuity in individuals with PD with and without FOG. Resting-state functional magnetic resonance imaging was acquired in 27 individuals with idiopathic PD (14 with FOG and 13 without FOG). A seed-to-voxel analysis was performed with the seeds in the bilateral basal ganglia nuclei, thalamus, and pedunculopontine nucleus. Between-group differences in rs-FC revealed that the bilateral thalamus and globus pallidus external were significantly more connected with visual areas in PD with FOG compared to PD without FOG. In addition, PD with FOG had increased connectivity between the left putamen and retrosplenial cortex as well as with the cerebellum. Our findings suggest an increased connectivity at rest of subcortical and cortical regions involved in sensory and visuospatial processing that may be compensating for sensorimotor deficits in FOG. This increased connectivity may contribute to the hypothesized overload in the cortico-basal ganglia-thalamic circuity processing capacity, which may ultimately result in FOG occurrence., (Copyright © 2019 IBRO. Published by Elsevier Ltd. All rights reserved.)

Published

2019

31. The effects of dual-tasking on temporal gait adaptation and de-adaptation to the split-belt treadmill in older adults.

Author

Conradsson D, Hinton DC, and Paquette C

Subjects

Aged, Cross-Sectional Studies, Female, Humans, Male, Middle Aged, Adaptation, Physiological, Gait, Multitasking Behavior

Abstract

Background: It has been well established that with aging, walking becomes more challenging when dividing attention towards other tasks (i.e. dual-tasks) and when adapting walking to environmental demands. Although these gait-related features are believed to contribute to an increased risk of falling in older adults, little is known about the interplay between dual-tasking and gait adaptation., Objective: To investigate whether the rate and variability of temporal gait adaptation to a split-belt treadmill and ensuing aftereffects are altered by dual-tasking in healthy older adults., Methods: Split-belt walking was assessed in 28 healthy older adults (mean age 69 years) who were free of any ongoing medical conditions affecting gait. Participants adapted their walking pattern to a split-belt treadmill at a 2:1 speed ratio (10 min) followed by 3 min of de-adaptation (both belts at the same speed) to assess aftereffects. Half of the participants performed an intermittent dual-task (auditory cognitive task) during the adaptation period, whereas the other half completed the adaptation period as a single task. Double support symmetry magnitude and variability were used to compare group differences in rate of adaptation to the split-belt condition and retention of aftereffects during de-adaptation., Results: During adaptation, the presence of a dual-task slowed the rate of adaptation to the split-belts and was characterized by greater variability in the dual-task group compared to the single-task group. During the first minute of de-adaptation, both groups similarly decreased their double support asymmetry towards baseline performance. Still, the dual-task group had a significant decrease in asymmetry during the end of de-adaptation and spent less steps within baseline performance during the entire de-adaptation period compared to the single-task group (35% vs 50%)., Conclusion: Dual-tasking led to slower and more variable temporal gait adaptation to the split-belt treadmill and larger variability during de-adaptation. Our findings indicate that in older adults, gait adaptation is affected by a competing cognitive task and highlights the importance of being aware of the influence of dual-task on short-term learning when developing rehabilitation programs for cognitive-motor interference., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

32. Sex-independent and dependent effects of older age on cycle-to-cycle variability of muscle activation during gait.

Author

Bailey CA, Porta M, Pilloni G, Arippa F, Pau M, and Côté JN

Subjects

Adult, Aged, Aged, 80 and over, Electromyography, Female, Gait Disorders, Neurologic, Healthy Volunteers, Humans, Linear Models, Male, Middle Aged, Muscle Contraction, Range of Motion, Articular, Young Adult, Aging physiology, Gait, Muscle, Skeletal physiology, Sex Factors

Abstract

Background: Older age is associated with higher stride time variability in female and male gait, which may have a neuromuscular origin. We sought to determine how older age and sex affect muscle activation variability during gait, and how these patterns relate to stride time variability., Methods: Ninety-three adults (51 females; aged 20-82 years) completed six gait trials at their self-selected speed. Cycle-to-cycle variabilities (CCVs) were calculated for stride time, and for amplitude of electromyography (EMG) of the rectus femoris (RF), tibialis anterior (TA), and gastrocnemius lateralis (GL) recorded over different gait phases. Statistical models tested for Age × Sex × Muscle effects and for relationships between EMG CCVs and stride time CCVs., Results: Significant Age and Age × Muscle effects on EMG CCV were observed in several phases of gait (p < .05), where each year of age was associated with 0.11-0.18% higher EMG CCV, generally in the RF. A significant Age × Sex × Muscle effect on EMG CCV at mid-stance (p < .05) indicated that, in females, each year of age was associated with 0.11% lower GL CCV. Significant but low strength correlations (ρ = 0.298-0.351) were found between EMG CCV and stride time CCV., Conclusions: Associations between older age and higher muscle activation variability were generally sex-independent. A sex-dependency in GL activation variability may contribute to gait instability in aging females. Individual variabilities of muscle activation were not strongly related to stride time variability., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

33. Effect of weight loss via bariatric surgery for class III obesity on exertional breathlessness.

Author

Mainra A, Abdallah SJ, Reid RER, Andersen RE, and Jensen D

Subjects

Adult, Dyspnea etiology, Dyspnea surgery, Female, Humans, Longitudinal Studies, Male, Middle Aged, Obesity, Morbid complications, Obesity, Morbid surgery, Outcome Assessment, Health Care, Bariatric Surgery, Dyspnea physiopathology, Exercise physiology, Obesity, Morbid physiopathology, Respiratory Physiological Phenomena, Weight Loss physiology

Abstract

We examined the impact of bariatric surgery on cardiometabolic, ventilatory and breathlessness responses to incremental cycle exercise testing in adults with class III obesity (n = 6). O 2 consumption, CO 2 production, minute ventilation (V̇) and breathing frequency were reduced during submaximal exercise after surgery. Inspiratory capacity (IC) and inspiratory reserve volume were lower at rest and any given V̇ E during exercise after surgery. In the transition from rest to peak exercise, dynamic IC decreased by 0.13 L before surgery and increased by 0.21 L after surgery. Breathlessness intensity ratings were lower during exercise at power outputs ≥75-watts after surgery (e.g., by 1.0 and 1.4 Borg 0-10 scale units at 75-watts and the highest equivalent power output of 117-watts, respectively). In contrast, bariatric surgery had no effect on breathlessness-V̇ E relationships during exercise. In conclusion, relief of exertional breathlessness following bariatric surgery could not be explained by improved dynamic breathing mechanics, but reflected the awareness of reduced metabolic and ventilatory requirements of exercise., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

34. Gait and trunk kinematics during prolonged turning in Parkinson's disease with freezing of gait.

Author

Mitchell T, Conradsson D, and Paquette C

Subjects

Aged, Biomechanical Phenomena, Female, Gait physiology, Humans, Male, Middle Aged, Torso, Walking physiology, Gait Disorders, Neurologic etiology, Gait Disorders, Neurologic physiopathology, Parkinson Disease complications, Parkinson Disease physiopathology

Abstract

Introduction: Although turning during walking is known to trigger freezing of gait (FOG) in Parkinson's disease (PD), little is known about kinematic strategies used by individuals with PD and FOG while performing prolonged turning., Objective: Our aim was to compare gait and trunk kinematics during straight walking and continuous turning over 20-min in PD with and without FOG., Methods: 18 individuals with idiopathic PD (n = 9 with FOG, n = 9 without FOG), performed two 20-min walking tasks: straight ahead, and turning, in a laboratory setting in their OFF medication state. Accelerometer-based spatial and temporal gait parameters and trunk kinematics (range of motion, peak velocity, variability of range of motion and peak velocity) were analyzed., Results: During turning, PD with FOG reduced cadence more compared to PD without FOG (P <0.045), despite similar decline in stride velocity (28-32%) and stride length (24-27%). Participants with FOG had decreased variability of gait speed (P <0.011), stride length (P <0.035), frontal trunk range of motion (P <0.040) and peak trunk velocity (P <0.017) compared to PD without FOG during turning, whereas there was no difference between groups during straight walking. Gait speed variability and cadence between these two tasks differentiated the PD groups (sensitivity 89% and specificity 78%)., Conclusions: We demonstrate that PD with FOG decreased cadence and reduced variability of walking speed, stride length, and lateral flexion of the trunk compared to PD without FOG during prolonged turning. These real-life gait markers are observable during lab-based gait that is similar to daily-life., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

35. More than just sleeping in: a late timing of sleep is associated with health problems and unhealthy behaviours in adolescents.

Author

Gariépy G, Doré I, Whitehead RD, and Elgar FJ

Subjects

Adolescent, Canada, Child, Cross-Sectional Studies, Female, Health Surveys, Humans, Male, Time Factors, Adolescent Behavior physiology, Circadian Rhythm physiology, Health Behavior physiology, Health Status, Sleep physiology

Abstract

Objective: New research suggests that the timing of sleep, or chronotype, affects the mental well-being of adolescents, however evidence of its links to physical health is limited. We investigated the associations between chronotype and various health outcomes and behaviours in a national sample of Canadian adolescents., Methods: Data were from the 2014 Canadian Health Behaviour in School-Aged Children survey (29,470 students; ages 10-18). Chronotype was estimated using the midpoint of sleep on weekends, corrected for catch-up sleep. We tested the associations with physical health (headache, stomach ache, back ache, dizziness, overweight, self-rated health) and health behaviours (consumption of fruits, vegetables, sweets, soft drinks, and energy drinks, smoking, physical activity, screen time) using random-effects regressions adjusted for sleep duration and individual, family, and school characteristics., Results: The average chronotype was 4:11 a.m. for boys and 4:10 for girls. Each 1-h delay in chronotype was associated with more headaches, stomach aches, and back aches [proportional odds ratios (PropORs) 1.08, 1.08, 1.07, respectively (boys), 1.10, 1.10, 1.08, respectively (girls)], and dizziness and worse self-rated health in girls (PropORs 1.10 and 1.09, respectively), but not overweight. A 1-h delay in chronotype also related to daily soft drink consumption [ORs 1.17 (boys), 1.11 (girls)], smoking [ORs 1.23 (boys), 1.37 (girls)], screen time [additional 0.64 h (boys), 0.74 h (girls)], less vegetable consumption in boys (OR 0.96), and daily energy drink consumption in girls (OR 1.42)., Conclusion: A later chronotype related to worse physical health and unhealthy behaviours in Canadian adolescents. Studies are needed to clarify the underlying mechanisms., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2019

36. Sex-dependent and sex-independent muscle activation patterns in adult gait as a function of age.

Author

Bailey CA, Corona F, Pilloni G, Porta M, Fastame MC, Hitchcott PK, Penna MP, Pau M, and Côté JN

Subjects

Adult, Aged, Aged, 80 and over, Electromyography, Female, Healthy Volunteers, Humans, Linear Models, Male, Middle Aged, Muscle Contraction, Range of Motion, Articular, Young Adult, Aging physiology, Gait, Muscle, Skeletal physiology, Sex Factors

Abstract

Introduction: Aging leads to poorer neuromuscular control that may impact mobility. However, the specific decades when these changes occur, and whether these time-based changes are sex-specific, are unclear., Methods: Adults aged 20-82 years (N = 93, 51 females) walked six gait trials at their preferred speed over a 10-m platform. Electromyography (EMG) of the rectus femoris (RF), tibialis anterior (TA), and gastrocnemius lateralis (GL) were measured using wireless surface sensors. Root mean square (RMS) and within-cycle coefficient of variation (CV) values were calculated for several phases of gait. Mixed effect models were conducted to test for Age, Sex, Muscle, and interaction effects, covarying for gait speed and stride length., Results: A significant Age × Sex × Muscle interaction on RMS at the mid-swing phase was found (p = .036), showing 4.2% higher RF RMS for males (β = 0.42, p = .008) and 3.3% higher GL RMS for females (β = 0.33, p = .038) with each of the three decades investigated. Significant Age × Muscle interactions on GL RMS were found at loading, mid-stance, and over the full gait cycle (ps < .05), with 2.0-4.3% higher values per decade (β = 0.20-0.43, ps < .05). There was generally higher CV with higher age at mid-swing and over the full gait cycle (significant Age effects, ps < .05). Females showed higher CV at loading, mid-stance, and terminal stance (significant Age × Sex effects, ps < .05)., Discussion/conclusion: Results suggest sex-dependent influences of age on muscle recruitment during a few specific phases of gait, and sex-independent influences of age on the recruitment of the ankle musculature, and on the overall gait cycle. These influences may help explain overall increased instability and fall risk in older adults., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2018

37. Changes in movement variability and task performance during a fatiguing repetitive pointing task.

Author

Yang C, Bouffard J, Srinivasan D, Ghayourmanesh S, Cantú H, Begon M, and Côté JN

Subjects

Adult, Biomechanical Phenomena, Female, Humans, Male, Muscle Fatigue, Range of Motion, Articular, Shoulder physiology, Task Performance and Analysis, Young Adult, Elbow Joint physiology, Movement physiology, Muscle, Skeletal physiology, Neck physiology, Shoulder Joint physiology

Abstract

Changes in neuromuscular strategies employed with fatigue during multi-joint movements are still poorly understood. Studies have shown that motor variability of individual joints increases when performing upper limb tasks to fatigue, while movement parameters related to the task goal remain constant. However, how the inter-limb coordination and its variability change during specific movement phases with fatigue is still unclear. The aim of this study was to assess the effects of neck-shoulder fatigue on shoulder and elbow kinematic variabilities, shoulder-elbow coordination and its variability, and endpoint characteristics during different phases of a forward pointing movement. Nineteen healthy young adults continuously performed a repetitive pointing task until fatigue (Borg rating of 8/10). Changes in elbow-shoulder coordination through the movement were assessed using the continuous relative phase and statistical nonparametric mapping methods. At the end of the task, muscle fatigue was evidenced by significant increases in anterior deltoid (+13%) and biceps brachii (+30%) activity. Shoulder horizontal abduction, elbow flexion variability and shoulder-elbow coordination variability were increased with fatigue at different moments of the movement cycle (shoulder: during the first 17% and most of the second half movement, elbow: from 73% to 91%, coordination: almost the whole movement). However, movement timing errors and endpoint spatial variability were mostly preserved, even with fatigue. We showed that increased variability with fatigue is not only observed in the fatigued joint (shoulder), but also in the elbow and shoulder-elbow coordination, and may have a goal of preserving global task performance., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

38. Short-latency muscle response patterns to multi-directional, unpredictable perturbations to balance applied to the arm are context dependent.

Author

Forghani A, Preuss R, and Milner TE

Subjects

Adult, Analysis of Variance, Biomechanical Phenomena, Electromyography, Evoked Potentials, Motor physiology, Feedback, Sensory physiology, Female, Humans, Male, Muscle, Skeletal innervation, Young Adult, Arm physiology, Muscle, Skeletal physiology, Orientation physiology, Postural Balance physiology, Posture physiology, Reaction Time physiology

Abstract

A number of studies have shown that sensory inputs from the hand can have a profound effect in stabilizing upright posture. This suggests that the central nervous system can extract information about body motion and external forces acting on the body from cutaneous sensory signals. We have recently shown that the central nervous system determines the direction of an unpredictable force applied to the hand so rapidly that it is able to activate ankle muscles in advance of the perturbing effect that this force has at the ankles. In this study we investigate whether this rapid change in activation of lower limb muscles is an invariant response determined by the pattern of somatosensory information arising from sensory receptors in the hand or whether it adapts to changes in postural stability. We manipulated lateral stability of upright stance by changing stance width which had no effect on the activation of upper limb muscles or hand kinematics, but produced profound changes in the activation patterns of lower limb muscles when perturbations were in the medial/lateral direction without affecting the activation patterns of muscles when perturbations were in the anterior/posterior direction., (Copyright © 2017 IBRO. Published by Elsevier Ltd. All rights reserved.)

Published

2017

39. Pre- and unplanned walking turns in Parkinson's disease - Effects of dopaminergic medication.

Author

Conradsson D, Paquette C, Lökk J, and Franzén E

Subjects

Aged, Biomechanical Phenomena, Female, Humans, Male, Motor Activity drug effects, Motor Activity physiology, Rotation, Severity of Illness Index, Antiparkinson Agents therapeutic use, Dopamine Agents therapeutic use, Parkinson Disease drug therapy, Parkinson Disease physiopathology, Walking physiology

Abstract

Although dopaminergic medication improves functional mobility in individuals with Parkinson's disease (PD), its effects on walking turns are uncertain. Our goals was to determine whether dopaminergic medication improves preplanned and unplanned walking turns in individuals with PD, compared to healthy controls. Nineteen older adults with mild-to-moderate PD and 17 healthy controls performed one of the following three tasks, presented randomly: walking straight, or walking and turning 180° to the right or left. The walking direction was visually cued before starting to walk (preplanned) or after (unplanned, i.e., 0.6m before reaching the turning point). Subjects with PD were assessed off dopaminergic medication (OFF) and on dopaminergic medication (ON) medication. Turning strategy (step and spin turns), turning performance (turning distance and body rotation) and walking pattern were analyzed for three turning steps. Irrespective of medication state and turning condition, step and spin turns followed a nearly 50:50 distribution. After intake of dopaminergic medication, subjects with PD increased their turning distance but not the amount of body rotation or their walking pattern. Compared to controls, turning impairments in subjects with PD remained while ON medication and problems regulating step width were the most prominent features of their walking pattern. Specifically, subjects with PD turned with narrower cross-over steps, i.e. when the external foot crossed over the line of progression of the internal leg. We conclude that turning impairments remained even after dopaminergic medication and problems modulating step width appears to be a critical feature for turning in PD., (Copyright © 2016. Published by Elsevier Ltd.)

Published

2017

40. Foot-to-foot bioelectrical impedance accurately tracks direction of adiposity change in overweight and obese 7- to 13-year-old children.

Author

Kasvis P, Cohen TR, Loiselle SÈ, Kim N, Hazell TJ, Vanstone CA, Rodd C, Plourde H, and Weiler HA

Subjects

Absorptiometry, Photon, Adolescent, Child, Electric Impedance, Female, Foot, Humans, Male, Overweight, Adipose Tissue, Adiposity, Anthropometry methods, Body Composition, Pediatric Obesity physiopathology

Abstract

Body composition measurements are valuable when evaluating pediatric obesity interventions. We hypothesized that foot-to-foot bioelectrical impedance analysis (BIA) will accurately track the direction of adiposity change, but not magnitude, in part due to differences in fat patterning. The purposes of this study were to examine the accuracy of body composition measurements of overweight and obese children over time using dual-energy x-ray absorptiometry (DXA) and BIA and to determine if BIA accuracy was affected by fat patterning. Eighty-nine overweight or obese children (48 girls, 41 boys, age 7-13 years) participating in a randomized controlled trial providing a family-centered, lifestyle intervention, underwent DXA and BIA measurements every 3 months. Bland-Altman plots showed a poor level of agreement between devices for baseline percent body fat (%BF; mean, 0.398%; +2SD, 8.685%; -2SD, -7.889%). There was overall agreement between DXA and BIA in the direction of change over time for %BF (difference between visits 3 and 1: DXA -0.8 ± 0.5%, BIA -0.7 ± 0.5%; P = 1.000) and fat mass (FM; difference between visits 3 and 1: DXA 0.7 ± 0.5 kg, BIA 0.6 ± 0.5 kg; P = 1.000). Bioelectrical impedance analysis measurements of %BF and FM at baseline were significantly different in those with android and gynoid fat (%BF: 35.9% ± 1.4%, 32.2% ± 1.4%, P < .003; FM: 20.1 ± 0.8 kg, 18.4 ± 0.8, P < .013). Bioelectrical impedance analysis accurately reports the direction of change in FM and FFM in overweight and obese children; inaccuracy in the magnitude of BIA measurements may be a result of fat patterning differences., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2015

41. Association of body mass index with cardiovascular disease biomarkers.

Author

Loprinzi PD, Crespo CJ, Andersen RE, and Smit E

Subjects

Adult, Biomarkers, Blood Glucose, Blood Pressure, Body Weights and Measures, C-Reactive Protein, Female, Humans, Lipids blood, Male, Middle Aged, Nutrition Surveys, Risk Factors, Socioeconomic Factors, United States epidemiology, Body Mass Index, Cardiovascular Diseases epidemiology

Abstract

Background: Few studies have examined the underweight-morbidity relationship, and those that have were conducted in non-U.S. populations and limited in their evaluation of cardiovascular disease (CVD) risk factors., Purpose: To examine the associations among underweight (along with overweight and obese) and various CVD risk factors in a national sample of U.S. adults (aged ≥20 years)., Methods: Ten years of data (1999-2010) from the National Health and Nutrition Examination Survey were used (analyzed in 2014). Underweight (tertiles); overweight (25-29.9); and obesity (three classes: 30-34.9, 35-39.9, and ≥40) were assessed from measured BMI. The evaluated biological and anthropometric markers included waist circumference; mean arterial pressure; C-reactive protein (CRP); fasting low-density lipoprotein (LDL) cholesterol; total cholesterol; fasting triglycerides; and fasting glucose., Results: After adjustments, underweight adults had significantly (p<0.005) lower levels of CRP (β=-0.12, Tertile 2); total cholesterol (β=-17.7 and -12.2, Tertiles 1 and 3); total cholesterol to high-density lipoprotein cholesterol ratio (β=-0.39 and -0.46, Tertiles 2 and 3); LDL cholesterol (β=-20.7, Tertile 1); and triglycerides (β=-37.1 and -18.0, Tertiles 1 and 3) compared to normal-weight individuals. The severely underweight and obese were less likely to be physically active than normal-weight adults (p<0.001). Adults in each of the overweight and obese groups had higher levels for each biomarker compared to normal-weight individuals., Conclusions: Underweight adults have lower (i.e., more favorable) levels of various CVD biomarkers., (Copyright © 2015 American Journal of Preventive Medicine. Published by Elsevier Inc. All rights reserved.)

Published

2015

42. Salivary cortisol levels are elevated in the afternoon and at bedtime in children with prenatal alcohol exposure.

Author

Keiver K, Bertram CP, Orr AP, and Clarren S

Subjects

Adolescent, Child, Circadian Rhythm drug effects, Cross-Over Studies, Female, Fetal Alcohol Spectrum Disorders diagnosis, Humans, Hydrocortisone analysis, Male, Pregnancy, Prenatal Exposure Delayed Effects diagnosis, Saliva chemistry, Time Factors, Circadian Rhythm physiology, Fetal Alcohol Spectrum Disorders metabolism, Hydrocortisone metabolism, Prenatal Exposure Delayed Effects metabolism, Saliva metabolism

Abstract

Prenatal alcohol exposure can cause dysregulation of the hypothalamic-pituitary-adrenal (HPA) axis, which may underlie some of the behavioral and adaptive problems seen in individuals with Fetal Alcohol Spectrum Disorders (FASD). Infants prenatally exposed to alcohol show altered basal and post-stress cortisol levels, but it is unknown if this persists beyond 2 years of age. It is also unknown if cortisol levels can be normalized through intervention programs. In this study, we investigated the effects of a physical activity program for children with FASD to determine: 1) if HPA dysregulation persists in school-age children with FASD, and 2) the effect of our program on cortisol levels. Twenty six children (ages 6-14 years) with FASD participated in an 8 week motor skill development program. Salivary cortisol levels were measured in 24 children and compared at 4 time points: before, immediately after, 3 months, and 1 year after program completion. Cortisol levels were also compared to 32 control children to evaluate the long-term effects of prenatal alcohol exposure on HPA regulation. For each time point, saliva was collected on each of 2 days at 3 times in the diurnal cycle: awakening, after school, and just before bedtime. Cortisol levels were significantly higher in the afternoon and at bedtime in children with FASD with confirmed prenatal exposure to high levels of alcohol (alcohol exposure rank 4), compared with Control children or children with FASD with exposure to low or unknown levels of alcohol (alcohol exposure rank 3). The program did not significantly affect cortisol levels in children with FASD as a group. These results provide support for long-term effects of prenatal alcohol exposure on the HPA system in humans, which could increase vulnerability to mental health issues and diseases later in life., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2015

43. Effect of age-related ventilatory inefficiency on respiratory sensation during exercise.

Author

Faisal A, Webb KA, Guenette JA, Jensen D, Neder JA, and O'Donnell DE

Subjects

Adult, Age Factors, Aged, Humans, Male, Middle Aged, Respiratory Dead Space physiology, Respiratory Mechanics physiology, Young Adult, Physical Fitness physiology, Pulmonary Ventilation physiology

Abstract

To examine the effect of age-related respiratory function impairment on exertional dyspnea, we compared ventilatory and perceptual responses to incremental exercise under control (CTRL) and added dead space (DS) loading conditions in healthy fit older (55-79 years) and younger (20-39 years) men. Older individuals had higher ventilatory equivalents for CO2 throughout exercise (p<0.05) suggesting greater ventilatory inefficiency but operating lung volumes were similar compared to younger individuals. With added DS compared to CTRL, both groups similarly increased tidal volume (by 0.3-0.6 L) and ventilation (by 8-13 L/min) at submaximal work rates (each p<0.05). At peak exercise with DS, both groups failed to further increase ventilation and had small reductions in peak work rate (p<0.05). Increases in dyspnea intensity ratings with the addition of DS were similar at standardized submaximal work rates in older and younger groups. We conclude that, despite differences in ventilatory efficiency, the respiratory-mechanical and sensory responses to added chemostimulation during exercise were similar in fit older and younger individuals., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2015

44. Physical activity policies and legislation in schools: a systematic review.

Author

Robertson-Wilson JE, Dargavel MD, Bryden PJ, and Giles-Corti B

Subjects

Health Behavior, Health Promotion legislation & jurisprudence, Humans, Schools legislation & jurisprudence, United States, Health Policy, Health Promotion methods, Motor Activity physiology

Abstract

Context: Current physical activity levels of youth are alarmingly low. One way to promote higher levels of physical activity to youth is through school-based government policies. The current review examines evaluation of school-based physical activity policies for youth over the past 10 years., Evidence Acquisition: Articles included met the following criteria: was an original research study published in an academic journal in English; examined or was related to physical activity behavior; applied to a youth population in a school setting; highlighted a law, bill, or policy reflective of physical activity based on government initiatives; and involved an evaluation. After searching five databases in January 2011, a total of 13 articles were selected for inclusion., Evidence Synthesis: All policies came from the U.S.; seven studies highlighted the federal Child Nutrition and Women, Infants, and Children Reauthorization Act of 2004 whereas the other six studies highlighted state-level policies dealing with safe routes to schools, physical activity-only initiatives, or physical activity as well as other initiatives. Eight articles evaluated policy implementation, three examined policy implementation and impact, and two articles considered only policy impact., Conclusions: This evaluation of the impact of policies on school-based physical activity indicates that such policies can affect health outcomes, specifically by increasing levels of physical activity. This study highlights the value of policy reform and calls attention to the need for independent evaluation of such policies., (Copyright © 2012 American Journal of Preventive Medicine. Published by Elsevier Inc. All rights reserved.)

Published

2012

45. Effects of dead space loading on neuro-muscular and neuro-ventilatory coupling of the respiratory system during exercise in healthy adults: implications for dyspnea and exercise tolerance.

Author

Jensen D, O'Donnell DE, Li R, and Luo YM

Subjects

Aged, Cross-Over Studies, Electromyography, Female, Humans, Male, Middle Aged, Oxygen Consumption physiology, Respiratory Function Tests, Dyspnea physiopathology, Exercise physiology, Exercise Tolerance physiology, Pulmonary Ventilation physiology, Respiratory Dead Space physiology, Respiratory Muscles physiology

Abstract

We examined the effects of dead space loading (DSL) on ventilation (V˙E), neural respiratory drive (EMGdi%max, diaphragm EMG expressed as a % of maximal EMGdi), contractile respiratory muscle effort (Pes,tidal%P(Imax), tidal esophageal pressure swing expressed as a % of maximal inspiratory Pes) and exertional dyspnea intensity ratings in 11 healthy adults with normal spirometry. Subjects completed, in random order, symptom-limited incremental cycle exercise tests under control (CTRL) and DSL (500 ml) conditions. Compared with CTRL, DSL decreased exercise tolerance by 20-25%; increased exertional dyspnea intensity ratings in direct proportion to concurrent increases in EMGdi%max, Pes,tidal%P(Imax) and V˙E; and had little/no effect on the inter-relationships between EMGdi%max, Pes,tidal%P(Imax) and V˙E during exercise. In conclusion, DSL was associated with an earlier onset of intolerable dyspnea; however, neuro-muscular and neuro-ventilatory coupling of the respiratory system remained relatively preserved during exercise in the presence of an increased external dead space. Under these circumstances, DSL-induced increases in exertional dyspnea intensity ratings reflected, at least in part, the awareness of increased neural respiratory drive, contractile respiratory muscle effort and ventilatory output., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2011

46. Evaluation of a flexible force sensor for measurement of helmet foam impact performance.

Author

Ouckama R and Pearsall DJ

Subjects

Acceleration, Biomechanical Phenomena, Calibration, Equipment Design, Finite Element Analysis, Head anatomy & histology, Humans, Materials Testing, Movement, Reproducibility of Results, Temperature, Brain pathology, Brain Concussion pathology, Head Protective Devices

Abstract

The association between translational head acceleration and concussion remains unclear and provides a weak predictive measure for this type of injury; thus, alternative methods of helmet evaluation are warranted. Recent finite element analysis studies suggest that better estimates of concussion risk can be obtained when regional parameters of the cranium, brain and surrounding tissues are included. Lacking, however, are empirical data at the head-helmet interface with regards to contact area and force. Hence, the purpose of this study was to evaluate a system to capture the impact force distribution of helmet foams. Thirteen Flexiforce(®) sensors were arranged in a 5 × 5 cm array, secured to a load cell. Three densities of foam were repeatedly impacted with 5 J of energy during ambient (20°C) and cold (-25°C) conditions. RMS error, calculated relative to the global force registered by the load cell, was <1.5% of the measurement range during individual calibration of the Flexiforce(®) sensors. RMS error was 5% of the measured range for the global force estimated by the sensor array. Load distribution measurement revealed significant differences between repeated impacts of cold temperature foams for which acceleration results were non-significant. The sensor array, covering only 36% of the total area, possessed sufficient spatial and temporal resolution to capture dynamic load distribution patterns. Implementation of this force mapping system is not limited to helmet testing. Indeed it may be adopted to assess other body regions vulnerable to contact injuries (e.g., chest, hip and shin protectors)., (Copyright © 2010 Elsevier Ltd. All rights reserved.)

Published

2011

47. Differences in posture-movement changes induced by repetitive arm motion in healthy and shoulder-injured individuals.

Author

Lomond KV and Côté JN

Subjects

Adult, Humans, Male, Task Performance and Analysis, Arm physiopathology, Movement, Physical Exertion physiology, Posture, Range of Motion, Articular, Shoulder Injuries, Shoulder Joint physiopathology

Abstract

Background: Neck/Shoulder pain is linked to movement repetition, awkward postures, prolonged maintenance of static postures, and muscular fatigue. Studies have examined the influence of pain and fatigue on movement characteristics, but few reported multi-dimensional adaptations to movement repetition. We compared the adaptations measured in three-dimensions during a repetitive reaching task in persons with chronic neck/shoulder pain and healthy subjects., Methods: A shoulder-injured group (intensity >3/10, duration >3 consecutive months) and an age-sex-matched control group (n=16 in each) performed a repetitive reaching task to voluntary termination. Kinematics, kinetics, heart rate and muscle activity were recorded throughout. Power output on a 10-s pushing/pulling task was assessed pre- and post-reaching. Group comparisons were made in absolute time and at task end., Findings: Control subjects performed the task 55% longer than the pain group; yet, both groups demonstrated task-related increased heart rate (6 beats per minute) and decreased power output (6 W). Throughout the task, the pain group demonstrated: higher supraspinatus activity, and less elbow flexion and endpoint movement. The control group increased movement amplitude of the endpoint, elbow, and shoulder, while the pain group moved the shoulder less and increased center of mass excursion to maintain the task., Interpretation: Both groups adapted to the task in unique ways. The control group continually increased elbow and endpoint range of motion, bringing the arm closer to the targets, possibly to prolong task performance. The pain group used a fixed, en block arm strategy, likely to reduce the load on the injured structures; however, this may place other structures at risk for pain and injury., (Copyright © 2010 Elsevier Ltd. All rights reserved.)

Published

2011

48. The effects of a Pilates training program on arm-trunk posture and movement.

Author

Emery K, De Serres SJ, McMillan A, and Côté JN

Subjects

Abdomen physiology, Adult, Female, Humans, Male, Task Performance and Analysis, Arm physiology, Movement physiology, Muscle Strength physiology, Muscle, Skeletal physiology, Physical Therapy Modalities, Posture physiology

Abstract

Background: Shoulder biomechanics and spine alignment have been found to be related to occasional and/or chronic neck-shoulder pain. Pilates is a physical training approach that focuses on posture, flexibility, segmental alignment and core control, through posture and movement exercises. The objectives of this study were to determine the effect of a Pilates training program on arm-trunk posture, strength, flexibility and biomechanical patterns during a functional shoulder flexion task., Methods: Nineteen subjects (9 controls, 10 experimental) were assessed twice, 12 weeks apart, during which the experimental group was submitted to a Pilates training program (two 1-h sessions per week). The assessment consisted of trials of seated posture, abdominal strength, shoulder range of motion, and maximal shoulder flexion, during which neck, shoulder and trunk kinematics and the activity of 16 muscles were recorded., Findings: After training, subjects showed smaller static thoracic kyphosis during quiet sitting and greater abdominal strength. The experimental group also showed reduced posterior and mediolateral scapular displacements, upper thoracic extension and lumbar lateral flexion, as well as higher activity of the ipsilateral cervical erector spinae, contralateral rhomboid muscles and lower activity of the ipsilateral lumbar erector spinae during the shoulder flexion task., Interpretation: The Pilates training program was effective in improving abdominal strength and upper spine posture as well as in stabilizing core posture as shoulder flexion movements were performed. Since deficits in these functional aspects have previously been associated with symptoms in the neck-shoulder region, our results support the use of Pilates in the prevention of neck-shoulder disorders., (Copyright (c) 2009 Elsevier Ltd. All rights reserved.)

Published

2010

49. Sarcomere dynamics in skeletal muscle myofibrils during isometric contractions.

Author

Pavlov I, Novinger R, and Rassier DE

Subjects

Animals, Cells, Cultured, Rabbits, Isometric Contraction physiology, Models, Biological, Muscle Fibers, Skeletal physiology, Sarcomeres physiology

Abstract

The main goal of this study was to evaluate the dynamics of sarcomeres during isometric activation of skeletal muscle myofibrils. Rabbit psoas myofibrils (n=14) were attached between a pair of cantilevers for force measurements at one side and a rigid glass needle at the other side, and their images were used for measurements of individual sarcomere lengths (SL) during contractions. Myofibrils were set at average SL between 2.13 and 3.06 microm, and were activated and held isometric for 20-35s during which SL and force were continuously measured. SL dispersion increased from the rest state to activation, but it remained mostly constant during the activation period. Even with the length non-uniformity developed during myofibril activation, most sarcomeres stabilized their length changes during the isometric contraction. As a result, sarcomeres contracted at different degrees of filament overlap while producing similar forces. When the myofibrils were separated in two groups that produced force at averaged short (< or =2.5 microm) or long (> or =2.5 microm) SL, the initial non-uniformity was greater in long lengths, but changes observed in sarcomeres during the activation period were similar, suggesting that sarcomere stability is not length-dependent.

Published

2009

50. A technique for conditioning and calibrating force-sensing resistors for repeatable and reliable measurement of compressive force.

Author

Hall RS, Desmoulin GT, and Milner TE

Subjects

Calibration, Electric Impedance, Equipment Design, Equipment Failure Analysis, Manometry standards, Monitoring, Physiologic standards, Reproducibility of Results, Sensitivity and Specificity, United States, Electronics instrumentation, Manometry instrumentation, Monitoring, Physiologic instrumentation, Transducers

Abstract

Miniature sensors that could measure forces applied by the fingers and hand without interfering with manual dexterity or range of motion would have considerable practical value in ergonomics and rehabilitation. In this study, techniques have been developed to use inexpensive pressure-sensing resistors (FSRs) to accurately measure compression force. The FSRs are converted from pressure-sensing to force-sensing devices. The effects of nonlinear response properties and dependence on loading history are compensated by signal conditioning and calibration. A fourth-order polynomial relating the applied force to the current voltage output and a linearly weighted sum of prior outputs corrects for sensor hysteresis and drift. It was found that prolonged (>20h) shear force loading caused sensor gain to change by approximately 100%. Shear loading also had the effect of eliminating shear force effects on sensor output, albeit only in the direction of shear loading. By applying prolonged shear loading in two orthogonal directions, the sensors were converted into pure compression sensors. Such preloading of the sensor is, therefore, required prior to calibration. The error in compression force after prolonged shear loading and calibration was consistently <5% from 0 to 30N and <10% from 30 to 40N. This novel method of calibrating FSRs for measuring compression force provides an inexpensive tool for biomedical and industrial design applications where measurements of finger and hand force are needed.

Published

2008