Your search keyword '"Neale A. Tillin"' showing total 4 results

1. The associations between asymmetries in quadriceps strength and gait in individuals with unilateral transtibial amputation

Author

Amy R Sibley, Siobhan Strike, Sarah C. Moudy, and Neale A. Tillin

Subjects

medicine.medical_specialty, Rehabilitation, Vertical ground reaction force, Biophysics, Quadriceps strength, Walking, Isometric exercise, Knee extension, Stride length, Amputation, Surgical, Quadriceps Muscle, Preferred walking speed, Gait (human), Physical medicine and rehabilitation, Torque, Transtibial amputation, medicine, Humans, Orthopedics and Sports Medicine, Gait, human activities, Mathematics

Abstract

Background Individuals with unilateral transtibial amputations (ITTAs) are asymmetrical in quadriceps strength. It is unknown if this is associated with gait performance characteristics such as walking speed and limb symmetry. Research question Are quadriceps strength asymmetries related to walking speed and/ or gait asymmetries in ITTAs? Methods Knee-extensor isometric maximum voluntary torque (MVT) and rate of torque development (RTD) were measured in eight ITTAs. Gait data were captured as the ITTAs walked at self-selected habitual and fast speeds. Step length and single support time, peak knee extension moments and their impulse and peak vertical ground reaction force (vGRF) in the braking and propulsive phases of stance were extracted. Bilateral Asymmetry Index (BAI) and, for gait variables only, difference in BAI between walking speeds (ΔBAI) were calculated. Correlation analyses assessed the relationships between MVT and RTD asymmetry and (1) walking speed; (2) gait asymmetries. Results Associations between strength and gait BAIs generally became more apparent at faster walking speeds, and when the difference in BAI between fast and habitual walking speed was considered. BAI RTD was strongly negatively correlated with habitual and fast walking speeds (r=∼0.83). Larger BAI RTD was strongly correlated with propulsive vGRF BAI in fast walking, and larger ΔBAIs in vGRF during both the braking and propulsion phases of gait (r = 0.74–0.92). ITTAs who exhibited greater BAI MVT showed greater ΔBAI in single support time (r = 0.83). Significance While MVT and RTD BAI appear to be associated with gait asymmetries in ITTAs, the magnitude of the asymmetry in RTD appears to be a more sensitive marker of walking speed. Based on these results, it’s possible that strengthening the knee-extensors of the amputated limb to improve both MVT and RTD symmetry may benefit walking speed, and reduce asymmetrical loading in gait.

Published

2021

2. Progressive hyperthermia elicits distinct responses in maximum and rapid torque production

Author

Neale A. Tillin, Ralph Gordon, Christopher J. Tyler, Ceri Diss, and Federico Castelli

Subjects

Adult, Male, Hyperthermia, medicine.medical_specialty, Hot Temperature, Physical Therapy, Sports Therapy and Rehabilitation, Isometric exercise, Electromyography, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, Humans, Torque, Medicine, Orthopedics and Sports Medicine, Muscle Strength, 030212 general & internal medicine, Muscle, Skeletal, medicine.diagnostic_test, business.industry, Excitation–contraction coupling, Repeated measures design, Humidity, Rectal temperature, 030229 sport sciences, medicine.disease, Cardiology, medicine.symptom, business, Body Temperature Regulation, Muscle Contraction, Muscle contraction

Abstract

Objectives To investigate the effect of progressive whole-body hyperthermia on maximal, and rapid voluntary torque production, and their neuromuscular determinants. Design Repeated measures, randomised. Methods Nine participants performed sets of neuromuscular assessments in HOT conditions (∼50 °C, ∼35% relative humidity) at rectal temperatures (Tre) of 37, 38.5 and 39.5 °C and in CON conditions (∼22 °C, ∼35% relative humidity) at a Tre of ∼37 °C and pre-determined comparative time-points. Electrically evoked twitch (single impulse) and octet (8 impulses at 300 Hz) responses were measured at rest. Maximum voluntary torque (MVT), surface electromyography (EMG) normalised to maximal M-wave, and voluntary activation (VA) were measured during 3−5 s isometric maximal voluntary contractions. Rate of torque development (RTD) and normalised EMG were measured during rapid voluntary isometric contractions from rest. Results All neuromuscular variables were unaffected by time in CON. In HOT, MVT, normalised EMG at MVT and VA were lower at 39.5 °C compared to 37 °C (p 0.05), despite lower normalised EMG at Tre 39.5 °C (p Conclusions Hyperthermia reduced late-phase voluntary RTD, likely due to reduced neural drive and the reduction in MVT. In contrast, early- and middle-phase voluntary RTD were unaffected by hyperthermia, likely due to the conflicting effects of reduced neural drive but faster intrinsic contractile properties.

Published

2021

3. Rate of torque development scaled to maximum torque available is velocity dependent

Author

Shaun X.T. Ang, Anthony L. Hessel, and Neale A. Tillin

Subjects

Knee Joint, Knee extensors, Rehabilitation, Biomedical Engineering, Biophysics, Angular velocity, Mechanics, Rate of force development, Torque, Isometric Contraction, Muscle strength, Humans, Knee, Orthopedics and Sports Medicine, Muscle, Skeletal, Maximum torque, Muscle Contraction, Mathematics

Abstract

The influence of angular velocity on rate of torque development (RTD) is unknown, despite the inverse, curvilinear torque-velocity relationship for angle- and velocity-specific maximum available torque (Tmax) being well-established. This study investigated the relationship between angular velocity and RTD scaled to Tmax. In 17 participants, tetanic contractions (100-Hz) of the knee extensors were evoked as the knee was passively extended at different iso-velocities between 0° s−1 and 200° s−1. Each condition consisted of evoking 0.25-s contractions without pre-activation (for measuring RTD) commencing as the knee passed 95° of extension, and 1.25-s contractions with pre-activation (for measuring Tmax), commencing 1 s prior to the knee reaching 95°. Torque at 100 ms after torque onset (T100) and peak RTD (RTDpeak) in the contractions without pre-activation were normalised to Tmax. The torque-velocity relationship for T100 was flat in comparison to an inverse, curvilinear relationship for Tmax, resulting in linear increases in normalised T100 and RTDpeak with increased velocity. Results also showed normalised T100 and RTDpeak were likely overestimated due to shortening-induced force depression (FD) which would be greater in contractions with- than without- pre-activation. However, these effects of FD cannot explain the faster normalised RTD with increased velocity, as the relative difference in work done (a proxy for FD) between contractions with and without pre-activation decreased – and thus the overestimation of normalised RTD metrics likely decreased – with increased velocity. In conclusion, RTD scaled to Tmax increases with increased velocity, which appears to be an intrinsic contractile property independent of the effects of force depression.

Published

2021

4. Identification of contraction onset during explosive contractions. Response to Thompson et al. 'Consistency of rapid muscle force characteristics: Influence of muscle contraction onset detection methodology' [J Electromyogr Kinesiol 2012;22(6):893–900]

Author

Jonathan P. Folland, Neale A. Tillin, and Matthew T.G. Pain

Subjects

Male, Contraction (grammar), Explosive material, business.industry, Biophysics, Neuroscience (miscellaneous), Signal Processing, Computer-Assisted, Anatomy, Muscle strength, Humans, Medicine, Muscle Strength, Neurology (clinical), medicine.symptom, Muscle, Skeletal, business, Muscle Contraction, Muscle contraction, Muscle force

Published

2013