Your search keyword '"Wearing, Scott"' showing total 289 results

251. Is the energy loss of footwear related to Achilles tendon loading during treadmill walking?

Author

Reed, Lloyd, Brauner, Torsten, Horstmann, Thomas, and Wearing, Scott

Published

2023

252. Elevation of extracellular osmolarity improves signs of myotonia congenita in vitro: a preclinical animal study.

Author

Hoppe, Kerstin, Chaiklieng, Sunisa, Lehmann‐Horn, Frank, Jurkat‐Rott, Karin, Wearing, Scott, and Klingler, Werner

Subjects

*OSMOLAR concentration, *MYOTONIA congenita, *MUSCLE strength, *SKELETAL muscle, *CARBOXYLIC acids

Abstract

Key points: During myotonia congenita, reduced chloride (Cl−) conductance results in impaired muscle relaxation and increased muscle stiffness after forceful voluntary contraction.Repetitive contraction of myotonic muscle decreases or even abolishes myotonic muscle stiffness, a phenomenon called 'warm up'.Pharmacological inhibition of low Cl− channels by anthracene‐9‐carboxylic acid in muscle from mice and ADR ('arrested development of righting response') muscle from mice showed a relaxation deficit under physiological conditions compared to wild‐type muscle.At increased osmolarity up to 400 mosmol L–1, the relaxation deficit of myotonic muscle almost reached that of control muscle.These effects were mediated by the cation and anion cotransporter, NKCC1, and anti‐myotonic effects of hypertonicity were at least partly antagonized by the application of bumetanide. Low chloride‐conductance myotonia is caused by mutations in the skeletal muscle chloride (Cl−) channel gene type 1 (CLCN1). Reduced Cl− conductance of the mutated channels results in impaired muscle relaxation and increased muscle stiffness after forceful voluntary contraction. Exercise decreases muscle stiffness, a phenomena called 'warm up'. To gain further insight into the patho‐mechanism of impaired muscle stiffness and the warm‐up phenomenon, we characterized the effects of increased osmolarity on myotonic function. Functional force and membrane potential measurements were performed on muscle specimens of ADR ('arrested development of righting response') mice (an animal model for low gCl– conductance myotonia) and pharmacologically‐induced myotonia. Specimens were exposed to solutions of increasing osmolarity at the same time as force and membrane potentials were monitored. In the second set of experiments, ADR muscle and pharmacologically‐induced myotonic muscle were exposed to an antagonist of NKCC1. Upon osmotic stress, ADR muscle was depolarized to a lesser extent than control wild‐type muscle. High osmolarity diminished myotonia and facilitated the warm‐up phenomenon as depicted by a faster muscle relaxation time (T90/10). Osmotic stress primarily resulted in the activation of the NKCC1. The inhibition of NKCC1 with bumetanide prevented the depolarization and reversed the anti‐myotonic effect of high osmolarity. Increased osmolarity decreased signs of myotonia and facilitated the warm‐up phenomenon in different in vitro models of myotonia. Activation of NKCC1 activity promotes warm‐up and reduces the number of contractions required to achieve normal relaxation kinetics. Key points: During myotonia congenita, reduced chloride (Cl−) conductance results in impaired muscle relaxation and increased muscle stiffness after forceful voluntary contraction.Repetitive contraction of myotonic muscle decreases or even abolishes myotonic muscle stiffness, a phenomenon called 'warm up'.Pharmacological inhibition of low Cl− channels by anthracene‐9‐carboxylic acid in muscle from mice and ADR ('arrested development of righting response') muscle from mice showed a relaxation deficit under physiological conditions compared to wild‐type muscle.At increased osmolarity up to 400 mosmol L–1, the relaxation deficit of myotonic muscle almost reached that of control muscle.These effects were mediated by the cation and anion cotransporter, NKCC1, and anti‐myotonic effects of hypertonicity were at least partly antagonized by the application of bumetanide. [ABSTRACT FROM AUTHOR]

Published

2019

253. Lower material stiffness in rupture-repaired Achilles tendon during walking: transmission-mode ultrasound for post-surgical tendon evaluation.

Author

Wulf, Mathias, Shanker, Mihir, Schuetz, Michael, Lutz, Michael, Langton, Christian M., Hooper, Sue L., Smeathers, James E., Brauner, Torsten, and Wearing, Scott C.

Subjects

*ULTRASONIC imaging, *TENDON injuries, *TENDON injury treatment, *REHABILITATION, *LOCOMOTION

Abstract

Purpose: This cross-sectional study used transmission-mode ultrasound to evaluate dynamic tendon properties during walking in surgically repaired and contralateral Achilles tendon (AT), with a median (range) post-operative period of 22 (4-58) months. It was hypothesised that the axial transmission speed of ultrasound (TSOU) during walking would be slower, indicating lower material stiffness in repaired compared with contralateral AT.Methods: Ten patients [median (range) age 47 (37-69) years; height 180 (170-189) cm; weight 93 (62-119) kg], who had undergone open surgical repair of the AT and were clinically recovered according to their treating clinicians, walked barefoot on a treadmill at self-selected speed (1.0 ± 0.2 m/s). Synchronous measures of TSOU, sagittal ankle motion, vertical ground reaction force (GRF), and spatiotemporal gait parameters were recorded during 20 s of steady-state walking. Paired t tests were used to evaluate potential between-limb differences in TSOU, GRF, ankle motion, and spatiotemporal gait parameters.Results: TSOU was significantly lower (≈175 m/s) in the repaired than in the contralateral AT over the entire gait cycle (P < 0.05). Sagittal ankle motion was significantly greater (≈3°) in the repaired than in the contralateral limb (P = 0.036). There were no significant differences in GRF or spatiotemporal parameters between limbs.Conclusions: Repaired AT was characterised by a lower TSOU, reflecting a lower material stiffness in the repaired tendon than in the contralateral tendon. A lower material stiffness may underpin greater ankle joint motion of the repaired limb during walking and long-term deficits in the muscle-tendon unit reported with AT repair. Treatment and rehabilitation approaches that focus on increasing the material stiffness of the repaired AT may be clinically beneficial. Transmission-mode ultrasound would seem useful for quantifying tendon properties post AT rupture repair and may have the potential to individually guide rehabilitation programmes, thereby aiding safer return to physical activity.Level Of Evidence: II. [ABSTRACT FROM AUTHOR]

Published

2018

254. Effects of footwear and heel elevation on tensile load in the Achilles tendon during treadmill walking.

Author

Brauner, Torsten, Hooper, Sue, Horstmann, Thomas, and Wearing, Scott

Abstract

This study used transmission-mode ultrasound (US) to evaluate the effect of footwear, with differing heel elevation, on Achilles tendon loading and basic gait parameters. Axial transmission velocity of US was measured in the right Achilles tendon of 20 healthy adults (10 male and 10 female; age: 31 ± 9 years; height: 1.72 ± 0.04 m; weight: 67.8 ± 14.2 kg) while walking barefoot (BF) and in four prototype athletic shoes (S1–S4) on an instrumented treadmill. Shoes were constructed from identical materials and differed only in heel elevation (S1: 0.4 mm; S2: 5 mm, S3: 9.9 mm, S4: 14.8 mm), which was achieved by varying the graded thickness of the midsole beneath the rearfoot. Temporospatial gait parameters, sagittal ankle movement, and vertical ground reaction force were simultaneously recorded at rate of 120 Hz. Shod walking conditions were characterized by a significantly lower cadence, longer stance duration, greater ankle dorsiflexion, larger peak vertical ground reaction force, and higher US transmission velocity in the Achilles tendon than BF walking (P< .05). Incremental heel elevation in footwear resulted in a progressive increase in peak vertical force, a reduction in peak external loading rate, and a small but progressive reduction in US transmission velocity in the Achilles tendon (P< .05). Simple regression modelling predicted that a shoe with 58 mm of heel elevation would effectively replicate values observed during BF walking. Peak US transmission velocity, and hence tensile load, in the Achilles tendon was higher during shod than BF walking and was partially countered by increasing the heel elevation of the shoe. These findings have important clinical implications for the use of footwear in performance applications and in the prevention and rehabilitation of Achilles tendon disorders. [ABSTRACT FROM PUBLISHER]

Published

2018

255. Achilles Tendon Load is Progressively Increased with Reductions in Walking Speed.

Author

Brauner, Torsten, Pourcelot, Philippe, Crevier-Denoix, Nathalie, Horstmann, Thomas, and Wearing, Scott C.

Subjects

*ACHILLES tendon, *ANALYSIS of variance, *ANKLE, *BODY weight, *DIAGNOSIS, *POSTURAL balance, *GAIT in humans, *GROUND reaction forces (Biomechanics), *KINEMATICS, *STATURE, *ULTRASONIC imaging, *TREADMILLS, *PLANTARFLEXION, *PHYSIOLOGY

Abstract

Introduction: Achilles tendon rehabilitation protocols commonly recommend a gradual increase in walking speed to progressively intensify tendon loading. This study used transmission-mode ultrasound to evaluate the influence of walking speed on loading of the human Achilles tendon in vivo. Methods: Axial transmission speed of ultrasound was measured in the right Achilles tendon of 33 adults (mean ± SD: age, 29 ± 3 yr; height, 1.725 ± 0.069 m; weight, 71.4 ± 19.9 kg) during unshod, steady-state treadmill walking at three speeds (slow, 0.85 ± 0.12 ms; preferred, 1.10 ± 0.13 m⋅s-1; fast, 1.35 ± 0.20 m⋅s-1). Ankle kinematics, spatiotemporal gait parameters and vertical ground reaction force were simultaneously recorded. Statistical comparisons were made using repeated-measures ANOVA models. Results: Increasing walking speed was associated with higher cadence, longer step length, shorter stance duration, greater ankle plantarflexion, higher vertical ground reaction force peaks, and a greater loading rate (P < 0.05). Maximum (F1,38 = 7.38, P < 0.05) and minimum (F1,46 = 8.95, P < 0.05) ultrasound transmission velocities in the Achilles tendon were significantly lower (16-23 m⋅s-1) during the stance but not swing phase of gait, with each increase in walking speed. Conclusions: Despite higher vertical ground reaction forces and greater ankle plantarflexion, increasing walking speed resulted in a reduction in the axial transmission velocity of ultrasound in the Achilles tendon; indicating a speed-dependent reduction in tensile load within the triceps surae muscle-tendon unit during walking. These findings question the rationale for current progressive loading protocols involving the Achilles tendon, in which reduced walking speeds are advocated early in the course of treatment to lower Achilles tendon loads. [ABSTRACT FROM AUTHOR]

Published

2017

256. Gait in People With Nonhealing Diabetes-Related Plantar Ulcers

Author

Robert G. Crowther, Peter A Lazzarini, Jonathan Golledge, Kunwarjit S. Sangla, Malindu E. Fernando, Scott C. Wearing, Petra Buttner, Fernando, Malindu E, Crowther, Robert G, Lazzarini, Peter A, Sangla, Kunwarjit S, Wearing, Scott, Buttner, Petra, and Golledge, Jonathan

Subjects

Adult, Male, medicine.medical_specialty, 030209 endocrinology & metabolism, Physical Therapy, Sports Therapy and Rehabilitation, Walking, Diabetes Complications, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, Diabetes mellitus, medicine, Humans, diabetes-related plantar foot ulcers, 030212 general & internal medicine, Foot Ulcer, Gait, diabetes, business.industry, Case-control study, Middle Aged, medicine.disease, Diabetic Foot, Preferred walking speed, Peripheral neuropathy, abnormal gait parameters, Case-Control Studies, Female, Observational study, business, human activities, Body mass index, Foot (unit)

Abstract

Background Abnormalities in gait have been associated with high plantar pressures and diabetes-related plantar foot ulcers. Whether these are a transient response to the ulcer or are representative of long-term lower limb biomechanical abnormalities is currently unknown. Objective The aim of this study was to examine whether 12 gait parameters identified as being associated with nonhealing diabetes-related plantar foot ulcers at baseline remained associated during a 6-month follow-up period. Design This was a longitudinal observational case-control study. Methods Gait assessments were performed at entry and twice during follow-up over a 6-month period in 12 participants with nonhealing diabetes-related plantar foot ulcers (case participants) and 62 people with diabetes and no history of foot ulcers (control participants) using a standardized protocol. Linear mixed-effects random-intercept models were used to identify gait parameters that consistently differed between case participants and control participants at all assessments after adjustment for age, sex, body mass index, presence of peripheral neuropathy, and follow-up time. Standardized mean differences (SMD) were used to measure effect sizes. Results Five of the 12 gait parameters were significantly different between case participants and control participants at all 3 time points. Case participants had a more abducted foot progression angle (SMD = 0.37), a higher pelvic obliquity at toe-off (SMD = −0.46), a greater minimum pelvic obliquity (SMD = −0.52), a lower walking speed (SMD = −0.46), and a smaller step length (SMD = −0.46) than control participants. Limitations The limitations included a small sample size, the observational nature of the study, and the inability to evaluate the impact of gait on wound healing. Conclusions This study identified abnormal gait parameters consistently associated with nonhealing diabetes-related plantar foot ulcers. Further research is needed to test the clinical importance of these gait characteristics.

Published

2019

257. Within- and Between-Body-Site Agreement of Skin Autofluorescence Measurements in People With and Without Diabetes-Related Foot Disease

Author

Kunwarjit S. Sangla, Scott C. Wearing, Petra Buttner, Robert G. Crowther, Jonathan Golledge, Peter A Lazzarini, Malindu E. Fernando, Fernando, Malindu E, Crowther, Robert G, Lazzarini, Peter A, Sangla, Kunwarjit S, Wearing, Scott, Buttner, Petra, and Golledge, Jonathan

Subjects

Glycation End Products, Advanced, Male, Endocrinology, Diabetes and Metabolism, Arbitrary unit, Concordance, Biomedical Engineering, Bioengineering, Special Section: Technology for Diabetic Foot Disease, skin autofluorescence, Diabetes mellitus, Internal Medicine, medicine, Humans, Skin, measurement variability, business.industry, advanced glycation end products, Optical Imaging, Reproducibility of Results, Repeatability, Middle Aged, medicine.disease, Diabetic foot, tissue glycation, Diabetic Foot, Confidence interval, Autofluorescence, Diabetes Mellitus, Type 2, Case-Control Studies, diabetes mellitus, Female, Nuclear medicine, business, diabetic foot, Foot (unit)

Abstract

Background: Skin autofluorescence has been used to assess longer term glycemic control and risk of complications. There is however no agreed site at which autofluorescence should be measured. This study evaluated the within- and between-site agreement in measurement of skin autofluorescence using a noninvasive advanced glycation end product (AGE) reader. Methods: Overall, 132 participants were included: 16 with diabetes-related foot ulcers (DFU), 63 with diabetes but without foot ulcers (DMC), 53 without diabetes or foot ulcers (HC). Skin autofluorescence was measured using the AGE Reader (DiagnOptics technologies BV, the Netherlands). Three consecutive skin autofluorescence measurements were each performed at six different body sites: the volar surfaces of both forearms (arms), dorsal surfaces of both calves (legs), and plantar surfaces of both feet (feet). Within- and between-site agreements were analyzed with concordance correlation coefficients (CCC) and 95% confidence intervals (95% CI), absolute mean differences (±standard deviation), and Bland-Altman limits of agreement. Results: The agreement between repeat assessments at the same site was almost perfect (CCC [95% CI] ranging from 0.94 [0.91-0.96] for assessments in the right foot to 0.99 [0.99-0.99] for assessments in the left arm). The limits of agreement were narrow within ±0.5 arbitrary units for all sites. The between-site agreement in measurements was poor (CCC < 0.65) with large maximum absolute mean differences (±SD) in arbitrary units (DFU = 3.40 [±2.04]; DMC = 3.15 [±2.45]; HC = 2.72 [±1.83]) and wide limits of agreement. Conclusions: Skin autofluorescence measurements can be repeated at the same site with adequate repeatability but measurements at different sites in the same patient have marked differences. The reason for this variation across sites and whether this has any role in diabetes-related complications needs further investigation.

Published

2019

258. Hypermetabolism in B–lymphocytes from malignant hyperthermia susceptible individuals

Author

Werner Klingler, Alberto Zullo, Kerstin Hoppe, Antonella Carsana, Scott C. Wearing, Guido Hack, Karin Jurkat-Rott, Frank Lehmann-Horn, Hoppe, Kerstin, Hack, Guido, Lehmann–horn, Frank, Jurkat–rott, Karin, Wearing, Scott, Zullo, Alberto, Carsana, Antonella, and Klingler, Werner

Subjects

Adult, Male, 0301 basic medicine, medicine.medical_specialty, Biology, Article, Cresols, Young Adult, Malignant hyperthermia, 03 medical and health sciences, 0302 clinical medicine, 030202 anesthesiology, Caffeine, Internal medicine, medicine, Humans, Diagnostic marker, Myocyte, ddc:610, Cell Line, Transformed, RYR1, B-Lymphocytes, Multidisciplinary, Dose-Response Relationship, Drug, Ryanodine receptor, Skeletal muscle, Ryanodine Receptor Calcium Release Channel, Metabolic acidosis, Hydrogen-Ion Concentration, Middle Aged, Neuromuscular disease, medicine.disease, musculoskeletal system, 030104 developmental biology, Muscle Rigidity, medicine.anatomical_structure, Endocrinology, Mutation, Leukocytes, Mononuclear, Hypermetabolism, Calcium, Female, Disease Susceptibility, Energy Metabolism, Biomarkers

Abstract

Malignant hyperthermia (MH) is a pharmacogenetic disorder of skeletal muscle metabolism which is characterized by generalized muscle rigidity, increased body temperature, rhabdomyolysis, and severe metabolic acidosis. The underlying mechanism of MH involves excessive Ca2+ release in myotubes via the ryanodine receptor type 1 (RyR1). As RyR1 is also expressed in B–lymphocytes, this study investigated whether cellular metabolism of native B–lymphocytes was also altered in MH susceptible (MHS) individuals. A potent activator of RyR1, 4–chloro–m–cresol (4-CmC) was used to challenge native B-lymphocytes in a real–time, metabolic assay based on a pH–sensitive silicon biosensor chip. At the cellular level, a dose–dependent, phasic acidification occurred with 4–CmC. The acidification rate, an indicator of metabolic activation, was significantly higher in B–lymphocytes from MHS patients and required 3 to 5 fold lower concentrations of 4–CmC to evoke similar acidification rates to MHN. Native B–lymphocytes from MHS individuals are more sensitive to 4–CmC than those from MHN, reflecting a greater Ca2+ turnover. The acidification response, however, was less pronounced than in muscle cells, presumably reflecting the lower expression of RyR1 in B–lymphocytes.

Published

2016

259. Plantar pressures are higher in cases with diabetic foot ulcers compared to controls despite a longer stance phase duration

Author

Kunwarjit S. Sangla, Petra Buttner, Peter A Lazzarini, Scott C. Wearing, Robert G. Crowther, Malindu E. Fernando, Jonathan Golledge, Fernando, Malindu E, Crowther, Robert G, Lazzarini, Peter A, Sangla, Kunwarjit S, Wearing, Scott, Buttner, Petra, and Golledge, Jonathan

Subjects

Male, Endocrinology, Diabetes and Metabolism, Logistic regression, Body Mass Index, 0302 clinical medicine, offloading, Biomechanics, Foot ulcers, Plantar pressure, Foot Ulcer, foot ulceration, 2. Zero hunger, peripheral diabetic neuropathy, Stance phase, Age Factors, General Medicine, Middle Aged, Diabetic Foot, 3. Good health, Biomechanical Phenomena, Diabetic foot disease, plantar pressure, Peripheral diabetic neuropathy, Female, Foot (unit), Research Article, medicine.medical_specialty, Foot ulceration, 030209 endocrinology & metabolism, biomechanics, 03 medical and health sciences, Sex Factors, Internal medicine, Diabetes mellitus, medicine, Pressure, Humans, Aged, Plantar ulcers, business.industry, Foot, Offloading, medicine.disease, Diabetic foot, Confidence interval, Logistic Models, diabetic foot disease, Physical therapy, plantar ulcers, business, Body mass index, 030217 neurology & neurosurgery

Abstract

Background Current international guidelines advocate achieving at least a 30 % reduction in maximum plantar pressure to reduce the risk of foot ulcers in people with diabetes. However, whether plantar pressures differ in cases with foot ulcers to controls without ulcers is not clear. The aim of this study was to assess if plantar pressures were higher in patients with active plantar diabetic foot ulcers (cases) compared to patients with diabetes without a foot ulcer history (diabetes controls) and people without diabetes or a foot ulcer history (healthy controls). Methods Twenty-one cases with diabetic foot ulcers, 69 diabetes controls and 56 healthy controls were recruited for this case-control study. Plantar pressures at ten sites on both feet and stance phase duration were measured using a pre-established protocol. Primary outcomes were mean peak plantar pressure, pressure-time integral and stance phase duration. Non-parametric analyses were used with Holm’s correction to correct for multiple testing. Binary logistic regression models were used to adjust outcomes for age, sex and body mass index. Median differences with 95 % confidence intervals and Cohen’s d values (standardised mean difference) were reported for all significant outcomes. Results The majority of ulcers were located on the plantar surface of the hallux and toes. When adjusted for age, sex and body mass index, the mean peak plantar pressure and pressure-time integral of toes and the mid-foot were significantly higher in cases compared to diabetes and healthy controls (p

Published

2016

260. The importance of foot pressure in diabetes

Author

Scott C. Wearing, Malindu E. Fernando, Robert G. Crowther, Fernando, Malindu E, Crowther, Robert G, and Wearing, Scott

Subjects

medicine.medical_specialty, validity, Open wounds, pressure-time integral, pedobarography, Plantar surface, 030209 endocrinology & metabolism, Type 2 diabetes, orthoses, sensors, 03 medical and health sciences, 0302 clinical medicine, Diabetes mellitus, Medicine, Foot ulcers, Foot pressure, reproducibility, business.industry, diabetic peripheral neuropathy, foot pressure, medicine.disease, shear pressure, Peripheral neuropathy, foot ulcers, diabetes mellitus, footwear, Physical therapy, plantar pressure, business, 030217 neurology & neurosurgery, Foot (unit), peak plantar pressure

Abstract

Foot pressure assessment refers to the study of pressure fields acting between the plantar surface of the foot and a supporting surface using typically electronic sensors. Individuals with both type 1 and type 2 diabetes are at risk of developing diabetic peripheral neuropathy (loss of peripheral sensory and motor function), which predisposes them to the development of plantar foot ulcers (open wounds). Foot pressure assessments have been extensively utilized to investigate the outcomes of biomechanical features in individuals with diabetes related foot complications termed the “high-risk” foot. Thus, the application of foot pressure measurements in individuals with diabetes includes monitoring patients for risk of ulceration, determining pressure off-loading capacities, and investigating the mechanical factors responsible for foot ulceration and ulcer healing. The ideal application of foot pressure would be to utilize measurements to predict sites of potential ulceration, prior to ulcer occurrence, and to effectively guide pressure off-loading of ulcerated sites to progress wound healing. Although these two applications represent the overall importance of foot pressure assessments within the field of diabetes, such applications have limited use due to various reasons. The aim of this chapter is to provide the reader with an overview of foot pressure assessment in relation to diabetes mellitus and describe the factors which influence foot pressure assessments. In doing this, we hope to provide a focused discussion of the relevance of foot pressures in diabetes mellitus, utilizing the most up-to-date literature on the topic.

Published

2016

261. The Biomechanics of Musculoskeletal Tissues during Activities of Daily Living: Dynamic Assessment Using Quantitative Transmission-Mode Ultrasound Techniques.

Author

Wearing SC, Hooper SL, Langton CM, Keiner M, Horstmann T, Crevier-Denoix N, and Pourcelot P

Abstract

The measurement of musculoskeletal tissue properties and loading patterns during physical activity is important for understanding the adaptation mechanisms of tissues such as bone, tendon, and muscle tissues, particularly with injury and repair. Although the properties and loading of these connective tissues have been quantified using direct measurement techniques, these methods are highly invasive and often prevent or interfere with normal activity patterns. Indirect biomechanical methods, such as estimates based on electromyography, ultrasound, and inverse dynamics, are used more widely but are known to yield different parameter values than direct measurements. Through a series of literature searches of electronic databases, including Pubmed, Embase, Web of Science, and IEEE Explore, this paper reviews current methods used for the in vivo measurement of human musculoskeletal tissue and describes the operating principals, application, and emerging research findings gained from the use of quantitative transmission-mode ultrasound measurement techniques to non-invasively characterize human bone, tendon, and muscle properties at rest and during activities of daily living. In contrast to standard ultrasound imaging approaches, these techniques assess the interaction between ultrasound compression waves and connective tissues to provide quantifiable parameters associated with the structure, instantaneous elastic modulus, and density of tissues. By taking advantage of the physical relationship between the axial velocity of ultrasound compression waves and the instantaneous modulus of the propagation material, these techniques can also be used to estimate the in vivo loading environment of relatively superficial soft connective tissues during sports and activities of daily living. This paper highlights key findings from clinical studies in which quantitative transmission-mode ultrasound has been used to measure the properties and loading of bone, tendon, and muscle tissue during common physical activities in healthy and pathological populations.

Published

2024

262. A Method-Comparison Study Highlighting the Disparity between Osseous- and Skin-Based Measures of Foot Mobility.

Author

Wearing SC, Jones B, Horstmann T, and Robertson A

Subjects

Humans, Radiography, Weight-Bearing, Healthy Volunteers, Foot diagnostic imaging, Movement

Abstract

Purpose: This study examined the validity of standard clinical measures of arch height mobility, midfoot width mobility (MWM), and foot mobility magnitude (FMM) relative to skin-based and osseous measures derived from radiographs., Methods: Skin-based clinical indices of foot mobility were calculated from standard, caliper-based measures of foot length, midfoot width, and dorsal arch height of the left limb of 20 healthy participants (8-71 yr) during non-weight-bearing and weight-bearing. Skin-based radiographic and osseous indices were derived from concurrent anteroposterior and lateral radiographs. Agreement between skin-based clinical and skin-based radiographic measures of foot mobility with those of osseous measures was investigated using the Bland and Altman approach., Results: Foot mobility indices derived from clinical measures were significantly higher (20%-50%) than skin-based radiographic measures ( P < 0.01), which were, in turn, significantly higher (200%-250%) than osseous measures ( P < 0.01). Clinical measures demonstrated significant levels of proportional bias compared with radiographic measures of foot mobility ( P < 0.01). The contribution of osseous movement to skin-based clinical measures of mobility was highly variable between individuals, ranging between 19% and 81% for arch height mobility, between 4% and 87% for MWM, and between 14% and 75% for FMM. The limits of tolerance for clinical measures of foot mobility ranged from ±3.2 mm for MWM to ±6.6 mm for measures of FMM. The limits of tolerance for skin-based clinical and skin-based radiographic measures were generally larger than osseous movement with weight-bearing., Conclusions: Skin-based measures of foot mobility, whether clinical or radiographic methods, are not interchangeable and are poor indicators of osseous mobility. Although further research regarding the utility of osseous measures is warranted, these findings strongly caution against the use of skin-based clinical measures of foot mobility in clinical and research settings., (Copyright © 2023 by the American College of Sports Medicine.)

Published

2024

263. Do increasingly unstable balance devices provide a graded challenge to bipedal stance in total hip arthroplasty patients?

Author

Gras N, Brauner T, Wearing S, and Horstmann T

Subjects

Humans, Middle Aged, Aged, Extremities, Postural Balance, Exercise Therapy, Lumbosacral Region, Arthroplasty, Replacement, Hip rehabilitation

Abstract

Background: Progressive balance exercises are critical to early functional rehabilitation after total hip arthroplasty (THA) but little is known regarding the challenge imposed by common balance devices., Research Question: Do progressively unstable balance devices provide a graded challenge to bipedal stance during early functional rehabilitation in THA patients?, Methods: Postural control was evaluated in 42 patients (age, 63.7 ± 9.6 years; height, 1.72 ± 0.08 m and body mass, 78.9 ± 14.6 kg) approximately 3 weeks (23 ± 6 days) following unilateral primary THA. Patients were divided into two groups, based on their ability to complete a 20-second unipedal stance test (UPST) on the operated limb. A lumbar mounted inertial sensor monitored center of mass (COM) displacement during bipedal balance conditions involving three balance pads of progressive stiffness and an oscillatory platform, used in isolation and in combination with the most stable balance pad. COM displacement was normalised to bipedal stance on a hard surface. Differences between conditions and patient groups were assessed using a mixed-model analysis of variance., Results: Twenty patients (48%) were able to complete the UPST on their operated limb. There was a significant effect of balance condition on COM displacement during bipedal stance (F 4 , 160 = 82.6, p < .01). COM displacement was lowest for the oscillatory platform but increased non-linearly across the three balance pads (p < .05). There was no significant difference in COM displacement between THA patients able and unable to complete the UPST., Significance: Increasingly compliant balance pads provided a progressive, though nonlinear, challenge to bipedal balance control in THA patients that was greater than that of an oscillating platform and independent of the ability to stand independently on the operated limb. These findings serve as a guide for the design of progressive training programs that enhance balance in THA patients., Competing Interests: Declaration of Competing Interest The authors declare no competing interests., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2024

264. Reversing the Mismatch With Forefoot Striking to Reduce Running Injuries.

Author

Davis IS, Chen TL, and Wearing SC

Abstract

Recent studies have suggested that 95% of modern runners land with a rearfoot strike (RFS) pattern. However, we hypothesize that running with an RFS pattern is indicative of an evolutionary mismatch that can lead to musculoskeletal injury. This perspective is predicated on the notion that our ancestors evolved to run barefoot and primarily with a forefoot strike (FFS) pattern. We contend that structures of the foot and ankle are optimized for forefoot striking which likely led to this pattern in our barefoot state. We propose that the evolutionary mismatch today has been driven by modern footwear that has altered our footstrike pattern. In this paper, we review the differences in foot and ankle function during both a RFS and FFS running pattern. This is followed by a discussion of the interaction of footstrike and footwear on running mechanics. We present evidence supporting the benefits of forefoot striking with respect to common running injuries such as anterior compartment syndrome and patellofemoral pain syndrome. We review the importance of a gradual shift to FFS running to reduce transition-related injuries. In sum, we will make an evidence-based argument for the use of minimal footwear with a FFS pattern to optimize foot strength and function, minimize ground reaction force impacts and reduce injury risk., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Davis, Chen and Wearing.)

Published

2022

265. Stepping Back to Minimal Footwear: Applications Across the Lifespan.

Author

Davis IS, Hollander K, Lieberman DE, Ridge ST, Sacco ICN, and Wearing SC

Subjects

Biomechanical Phenomena, Foot, Humans, Lower Extremity, Longevity, Shoes

Abstract

Minimal footwear has existed for tens of thousands of years and was originally designed to protect the sole of the foot. Over the past 50 yr, most footwear has become increasingly more cushioned and supportive. Here, we review evidence that minimal shoes are a better match to our feet, which may result in a lower risk of musculoskeletal injury., (Copyright © 2021 by the American College of Sports Medicine.)

Published

2021

266. Adolescent Running Biomechanics - Implications for Injury Prevention and Rehabilitation.

Author

McSweeney SC, Grävare Silbernagel K, Gruber AH, Heiderscheit BC, Krabak BJ, Rauh MJ, Tenforde AS, Wearing SC, Zech A, and Hollander K

Abstract

Global participation in running continues to increase, especially amongst adolescents. Consequently, the number of running-related injuries (RRI) in adolescents is rising. Emerging evidence now suggests that overuse type injuries involving growing bone (e.g., bone stress injuries) and soft tissues (e.g., tendinopathies) predominate in adolescents that participate in running-related sports. Associations between running biomechanics and overuse injuries have been widely studied in adults, however, relatively little research has comparatively targeted running biomechanics in adolescents. Moreover, available literature on injury prevention and rehabilitation for adolescent runners is limited, and there is a tendency to generalize adult literature to adolescent populations despite pertinent considerations regarding growth-related changes unique to these athletes. This perspective article provides commentary and expert opinion surrounding the state of knowledge and future directions for research in adolescent running biomechanics, injury prevention and supplemental training., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 McSweeney, Grävare Silbernagel, Gruber, Heiderscheit, Krabak, Rauh, Tenforde, Wearing, Zech and Hollander.)

Published

2021

267. A novel simplified biomechanical assessment of the heel pad during foot plantarflexion.

Author

Ugbolue UC, Yates EL, Rowland KE, Wearing SC, Gu Y, Lam WK, Baker JS, Sculthorpe NF, and Dutheil F

Subjects

Biomechanical Phenomena, Female, Humans, Male, Prospective Studies, Walking, Foot, Heel

Abstract

The heel pad (HP) which is located below the calcaneus comprises a composition of morphometrical and morphological arrangements of soft tissues that are influenced by factors such as gender, age and obesity. It is well known that HP pain and Achilles tendonitis consist of discomfort, pain and swelling symptoms that usually develop from excessive physical activities such as walking, jumping and running. The purpose of this study was to develop biomechanical techniques to evaluate the function and characteristics of the HP. Ten healthy participants (five males and five females) participated in this laboratory-based study, each performing a two-footed heel raise to mimic the toe-off phase during human locomotion. Twenty-six (3 mm) retroreflective markers were attached to the left and right heels (thirteen markers on each heel). Kinematic data was captured using three-dimensional motion analysis cameras synchronised with force plates. Descriptive and multivariate statistical tests were used in this study. In addition, a biomechanical technique that utilises only six markers from 26 markers to assess HP deformation and function has been developed and used in this study. Overall HP displacement was significantly higher in males on the most lateral part of the right heel ( p < 0.05). No significant differences were evident when comparing the non-dominant and dominant heels during the baseline, unloading and loading phases ( p > 0.05). Findings from this study suggested that biomechanical outputs expressed as derivatives from tracked HP marker movements can morphologically and morphometrically characterise HP soft tissue deformation changes. The outcome of this study highlights the importance of 3D motion analysis being used as a potential prospective intervention to quantify the function / characteristics of the heel pad soft tissues.

Published

2021

268. Effects of idiopathic flatfoot deformity on knee adduction moments during walking.

Author

Byrnes SK, Wearing S, Böhm H, Dussa CU, and Horstmann T

Subjects

Adolescent, Child, Cohort Studies, Female, Flatfoot pathology, Gait Analysis, Humans, Male, Retrospective Studies, Biomechanical Phenomena physiology, Flatfoot complications, Foot Deformities complications, Knee Joint physiopathology, Walking physiology

Abstract

Introduction: Flatfoot deformity is commonly characterized by a subtalar valgus, a low medial longitudinal arch, and abduction of the forefoot. Although flatfoot deformity has been associated with lower first (KAM1) and second (KAM2) peak knee adduction moments during walking, the biomechanical connection remains unknown., Research Question: We hypothesized that hindfoot eversion, lateral calcaneal shift correlate with KAM1 and forefoot abduction and arch height with KAM2, due to the lateralization of the ground reaction force vector resulting from shifted heel and forefoot in flatfoot deformity., Methods: Gait data from 103 children with flatfoot deformity who underwent three-dimensional gait analysis with the Oxford Foot Model were retrospectively included. Children with knee varus/valgus, in- and out-toeing were excluded. Fifteen healthy children with a rectus foot type were also collected from the database. Lateral calcaneal shift was defined as the distance between the projection of the ankle joint center onto the calcaneal axis and the midpoint of the calcaneal axis formed by the medial and lateral calcaneal markers. A subgroup of children with idiopathic flatfoot deformity that had received corrective surgery was also identified. Statistical analysis included Pearson's correlations and independent and paired t-tests (α < .05)., Results: When compared to a norm cohort, flatfooted children had significant lower KAM1 and KAM2 (t-test, P < .001). Lateral calcaneal shift correlated with KAM1 and KAM2 (r = 0.42, p < .001 and r = 0.32, P < .001, respectively). Arch height correlated with KAM2 (r = 0.23, p = 0.017). KAM1 and KAM2 normalized after surgery and the change in KAM1 correlated with the change in lateral calcaneal shift for children who underwent corrective surgery., Significance: Lateral calcaneal shift explains the reduction of KAM1 by lateralization of the point of force application in flatfooted children. It is recommended to consider the lateral calcaneal shift when investigating KAM in gait analysis research., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2021

269. Transmission-Mode Ultrasound for Monitoring the Instantaneous Elastic Modulus of the Achilles Tendon During Unilateral Submaximal Vertical Hopping.

Author

Wearing SC, Kuhn L, Pohl T, Horstmann T, and Brauner T

Abstract

Submaximal vertical hopping capitalizes on the strain energy storage-recovery mechanism associated with the stretch-shortening cycle and is emerging as an important component of progressive rehabilitation protocols in Achilles tendon injury and a determinant of readiness to return to sport. This study explored the reliability of transmission mode ultrasound in quantifying the instantaneous modulus of elasticity of human Achilles tendon during repetitive submaximal hopping. A custom-built ultrasound transmission device, consisting of a 1 MHz broadband emitter and four regularly spaced receivers, was used to measure the axial velocity of ultrasound in the Achilles tendon of six healthy young adults (mean ± SD; age 26 ± 5 years; height 1.78 ± 0.11 m; weight 79.8 ± 13.6 kg) during steady-state unilateral hopping (2.5 Hz) on a piezoelectric force plate. Vertical ground reaction force and lower limb joint kinematics were simultaneously recorded. The potential sensitivity of the technique was further explored in subset of healthy participants ( n = 3) that hopped at a slower rate (1.8 Hz) and a patient who had undergone Achilles tendon rupture-repair (2.5 Hz). Reliability was estimated using the mean-within subject coefficient of variation calculated at each point during the ground-contact phase of hopping, while cross-correlations were used to explore the coordination between lower limb kinematics ground reaction forces and ultrasound velocity in the Achilles tendon. Axial velocity of ultrasound in the Achilles tendon was highly reproducible during hopping, with the mean within-subject coefficient of variation ranging between 0.1 and 2.0% across participants. Ultrasound velocity decreased immediately following touch down (-19 ± 13 ms -1 ), before increasing by 197 ± 81 ms -1 , on average, to peak at 2230 ± 87 ms -1 at 67 ± 3% of ground contact phase in healthy participants. Cross-correlation analysis revealed that ultrasound velocity in the Achilles tendon during hopping was strongly associated with knee (mean r = 0.98, range 0.95-1.00) rather than ankle (mean r = 0.67, range 0.35-0.79) joint motion. Ultrasound velocity was sensitive to changes in hopping frequency in healthy adults and in the surgically repaired Achilles tendon was characterized by a similar peak velocity (2283 ± 13 ms -1 ) but the change in ultrasound velocity (447 ± 21 ms -1 ) was approximately two fold that of healthy participants (197 ± 81 ms -1 ). Although further research is required, the technique can be used to reliably monitor ultrasound velocity in the Achilles tendon during hopping, can detect changes in the instantaneous elastic modulus of tendon with variation in hopping frequency and tendon pathology and ultimately may provide further insights into the stretch-shortening cycle and aid clinical decision concerning tendon rehabilitation protocols and readiness to return to sport., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2020 Wearing, Kuhn, Pohl, Horstmann and Brauner.)

Published

2020

270. Paxilline Prevents the Onset of Myotonic Stiffness in Pharmacologically Induced Myotonia: A Preclinical Investigation.

Author

Hoppe K, Sartorius T, Chaiklieng S, Wietzorrek G, Ruth P, Jurkat-Rott K, Wearing S, Lehmann-Horn F, and Klingler W

Abstract

Reduced Cl - conductance causes inhibited muscle relaxation after forceful voluntary contraction due to muscle membrane hyperexcitability. This represents the pathomechanism of myotonia congenita. Due to the prevailing data suggesting that an increased potassium level is a main contributor, we studied the effect of a modulator of a big conductance Ca 2+ - and voltage-activated K + channels (BK) modulator on contraction and relaxation of slow- and high-twitch muscle specimen before and after the pharmacological induction of myotonia. Human and murine muscle specimens (wild-type and BK -/- ) were exposed to anthracene-9-carboxylic acid (9-AC) to inhibit CLC-1 chloride channels and to induce myotonia in-vitro . Functional effects of BK-channel activation and blockade were investigated by exposing slow-twitch (soleus) and fast-twitch (extensor digitorum longus) murine muscle specimens or human musculus vastus lateralis to an activator (NS1608) and a blocker (Paxilline), respectively. Muscle-twitch force and relaxation times (T 90/10 ) were monitored. Compared to wild type, fast-twitch muscle specimen of BK -/- mice resulted in a significantly decreased T 90/10 in presence of 9-AC. Paxilline significantly shortened T 90/10 of murine slow- and fast-twitch muscles as well as human vastus lateralis muscle. Moreover, twitch force was significantly reduced after application of Paxilline in myotonic muscle. NS1608 had opposite effects to Paxilline and aggravated the onset of myotonic activity by prolongation of T 90/10 . The currently used standard therapy for myotonia is, in some individuals, not very effective. This in vitro study demonstrated that a BK channel blocker lowers myotonic stiffness and thus highlights its potential therapeutic option in myotonia congenital (MC)., (Copyright © 2020 Hoppe, Sartorius, Chaiklieng, Wietzorrek, Ruth, Jurkat-Rott, Wearing, Lehmann-Horn and Klingler.)

Published

2020

271. Correction to: Preclinical pharmacological in vitro investigations on low chloride conductance myotonia: effects of potassium regulation.

Author

Hoppe K, Chaiklieng S, Lehmann-Horn F, Jurkat-Rott K, Wearing S, and Klingler W

Abstract

The original article contains an error during online publication. Table 2 was included during production round and now deleted. The Original article has been corrected.

Published

2020

272. Structural and Functional Changes in the Coupling of Fascial Tissue, Skeletal Muscle, and Nerves During Aging.

Author

Zullo A, Fleckenstein J, Schleip R, Hoppe K, Wearing S, and Klingler W

Abstract

Aging is a one-way process associated with profound structural and functional changes in the organism. Indeed, the neuromuscular system undergoes a wide remodeling, which involves muscles, fascia, and the central and peripheral nervous systems. As a result, intrinsic features of tissues, as well as their functional and structural coupling, are affected and a decline in overall physical performance occurs. Evidence from the scientific literature demonstrates that senescence is associated with increased stiffness and reduced elasticity of fascia, as well as loss of skeletal muscle mass, strength, and regenerative potential. The interaction between muscular and fascial structures is also weakened. As for the nervous system, aging leads to motor cortex atrophy, reduced motor cortical excitability, and plasticity, thus leading to accumulation of denervated muscle fibers. As a result, the magnitude of force generated by the neuromuscular apparatus, its transmission along the myofascial chain, joint mobility, and movement coordination are impaired. In this review, we summarize the evidence about the deleterious effect of aging on skeletal muscle, fascial tissue, and the nervous system. In particular, we address the structural and functional changes occurring within and between these tissues and discuss the effect of inflammation in aging. From the clinical perspective, this article outlines promising approaches for analyzing the composition and the viscoelastic properties of skeletal muscle, such as ultrasonography and elastography, which could be applied for a better understanding of musculoskeletal modifications occurring with aging. Moreover, we describe the use of tissue manipulation techniques, such as massage, traction, mobilization as well as acupuncture, dry needling, and nerve block, to enhance fascial repair., (Copyright © 2020 Zullo, Fleckenstein, Schleip, Hoppe, Wearing and Klingler.)

Published

2020

273. Do habitual foot-strike patterns in running influence functional Achilles tendon properties during gait?

Author

Wearing SC, Davis IS, Brauner T, Hooper SL, and Horstmann T

Subjects

Achilles Tendon diagnostic imaging, Adult, Ankle physiology, Biomechanical Phenomena, Female, Humans, Male, Ultrasonography, Young Adult, Achilles Tendon physiology, Foot physiology, Gait physiology, Running physiology

Abstract

The capacity of foot-strike running patterns to influence the functional properties of the Achilles tendon is controversial. This study used transmission-mode ultrasound to investigate the influence of habitual running foot-strike pattern on Achilles tendon properties during barefoot walking and running. Fifteen runners with rearfoot (RFS) and 10 with a forefoot (FFS) foot-strike running pattern had ultrasound transmission velocity measured in the right Achilles tendon during barefoot walking (≈1.1 ms -1 ) and running (≈2.0 ms -1 ). Temporospatial gait parameters, ankle kinematics and vertical ground reaction force were simultaneously recorded. Statistical comparisons between foot-strike patterns were made using repeated measure ANOVAs. FFS was characterised by a significantly shorter stance duration (-4%), greater ankle dorsiflexion (+2°), and higher peak vertical ground reaction force (+20% bodyweight) than RFS running (P < .05). Both groups adopted a RFS pattern during walking, with only the relative timing of peak dorsiflexion (3%), ground reaction force (1-2%) and peak vertical force loading rates (22-23%) differing between groups (P < .05). Peak ultrasound transmission velocity in the Achilles tendon was significantly higher in FFS during walking (≈100 ms -1 ) and running (≈130 ms -1 ) than RFS (P < .05). Functional Achilles tendon properties differ with habitual footfall patterns in recreational runners.

Published

2019

274. Overuse Injury: The Result of Pathologically Altered Myofascial Force Transmission?

Author

Wilke J, Vleeming A, and Wearing S

Subjects

Athletic Injuries pathology, Cumulative Trauma Disorders pathology, Fascia pathology, Humans, Muscle, Skeletal pathology, Athletic Injuries physiopathology, Cumulative Trauma Disorders physiopathology, Fascia physiopathology, Muscle, Skeletal physiopathology

Abstract

Overuse injuries are suggested to result from repetitive microdamage eliciting pain in the affected tissue. Therapy commonly focuses on the area of symptom localization; however, such approach may oversimplify the true etiopathology. This review hypothesizes that the development of some sports-related soft tissue disorders, such as plantar fasciitis or lumbago, is promoted by pathologically altered force transmission from anatomically connected structures.

Published

2019

275. Within- and Between-Body-Site Agreement of Skin Autofluorescence Measurements in People With and Without Diabetes-Related Foot Disease.

Author

Fernando ME, Crowther RG, Lazzarini PA, Sangla KS, Wearing S, Buttner P, and Golledge J

Subjects

Case-Control Studies, Diabetes Mellitus, Type 2 complications, Female, Glycation End Products, Advanced analysis, Humans, Male, Middle Aged, Reproducibility of Results, Skin, Diabetic Foot diagnosis, Optical Imaging methods

Abstract

Background: Skin autofluorescence has been used to assess longer term glycemic control and risk of complications. There is however no agreed site at which autofluorescence should be measured. This study evaluated the within- and between-site agreement in measurement of skin autofluorescence using a noninvasive advanced glycation end product (AGE) reader., Methods: Overall, 132 participants were included: 16 with diabetes-related foot ulcers (DFU), 63 with diabetes but without foot ulcers (DMC), 53 without diabetes or foot ulcers (HC). Skin autofluorescence was measured using the AGE Reader (DiagnOptics technologies BV, the Netherlands). Three consecutive skin autofluorescence measurements were each performed at six different body sites: the volar surfaces of both forearms (arms), dorsal surfaces of both calves (legs), and plantar surfaces of both feet (feet). Within- and between-site agreements were analyzed with concordance correlation coefficients (CCC) and 95% confidence intervals (95% CI), absolute mean differences (±standard deviation), and Bland-Altman limits of agreement., Results: The agreement between repeat assessments at the same site was almost perfect (CCC [95% CI] ranging from 0.94 [0.91-0.96] for assessments in the right foot to 0.99 [0.99-0.99] for assessments in the left arm). The limits of agreement were narrow within ±0.5 arbitrary units for all sites. The between-site agreement in measurements was poor (CCC < 0.65) with large maximum absolute mean differences (±SD) in arbitrary units (DFU = 3.40 [±2.04]; DMC = 3.15 [±2.45]; HC = 2.72 [±1.83]) and wide limits of agreement., Conclusions: Skin autofluorescence measurements can be repeated at the same site with adequate repeatability but measurements at different sites in the same patient have marked differences. The reason for this variation across sites and whether this has any role in diabetes-related complications needs further investigation.

Published

2019

276. Fascial tissue research in sports medicine: from molecules to tissue adaptation, injury and diagnostics: consensus statement.

Author

Zügel M, Maganaris CN, Wilke J, Jurkat-Rott K, Klingler W, Wearing SC, Findley T, Barbe MF, Steinacker JM, Vleeming A, Bloch W, Schleip R, and Hodges PW

Subjects

Aging, Athletic Injuries prevention & control, Athletic Performance, Biomedical Research, Consensus, Exercise physiology, Humans, Musculoskeletal Diseases prevention & control, Sports physiology, Sports Medicine, Adaptation, Physiological, Athletic Injuries diagnosis, Fascia injuries, Fascia physiology, Musculoskeletal Diseases diagnosis

Abstract

The fascial system builds a three-dimensional continuum of soft, collagen-containing, loose and dense fibrous connective tissue that permeates the body and enables all body systems to operate in an integrated manner. Injuries to the fascial system cause a significant loss of performance in recreational exercise as well as high-performance sports, and could have a potential role in the development and perpetuation of musculoskeletal disorders, including lower back pain. Fascial tissues deserve more detailed attention in the field of sports medicine. A better understanding of their adaptation dynamics to mechanical loading as well as to biochemical conditions promises valuable improvements in terms of injury prevention, athletic performance and sports-related rehabilitation. This consensus statement reflects the state of knowledge regarding the role of fascial tissues in the discipline of sports medicine. It aims to (1) provide an overview of the contemporary state of knowledge regarding the fascial system from the microlevel (molecular and cellular responses) to the macrolevel (mechanical properties), (2) summarise the responses of the fascial system to altered loading (physical exercise), to injury and other physiological challenges including ageing, (3) outline the methods available to study the fascial system, and (4) highlight the contemporary view of interventions that target fascial tissue in sport and exercise medicine. Advancing this field will require a coordinated effort of researchers and clinicians combining mechanobiology, exercise physiology and improved assessment technologies., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2018. Re-use permitted under CC BY-NC. No commercial re-use. See rights and permissions. Published by BMJ.)

Published

2018

277. Frontiers in fascia research.

Author

Avila Gonzalez CA, Driscoll M, Schleip R, Wearing S, Jacobson E, Findley T, and Klingler W

Subjects

Fascia anatomy & histology, Fascia diagnostic imaging, Humans, Biomedical Research, Fascia physiology

Abstract

Basic sciences are the backbone of every clear understanding of how the body is composed and how different structures and functions are connected with each other. It is obvious that there is a huge variability in human beings - not only in terms of the outer appearance such as measurements of height, weight, muscle mass and other physical properties, but also with respect to metabolic and functional parameters. This article highlights recent developments of research activities in the field of fascia sciences with a special emphasis on assessment strategies as the basis of further studies. Anatomical and histological studies show that fascial tissue is highly variable in terms of density, stiffness, and other parameters such as metabolic and humoral activity. Moreover, it encompasses nerves and harbours a system of micro-channels, also known as the primo vascular system. As ultrasound is a widely available method, its use is appealing not only for imaging of fascial structures, but also for thorough scientific analysis. Unlike most other imaging technologies, US has the advantage of real-time analysis of active or passive movements. In addition, other assessment methods for fascial tissue are discussed. In conclusion, fascial tissue plays an important role not only in functional anatomy, but also in evolutionary and molecular biology, sport, and exercise science as well as in numerous therapeutic approaches. A high density of nerves is found in fascial tissue. Knowledge of individual characteristics, especially by visualizing with ultrasound, leads to personalized therapeutic approaches, such as in pain therapy., (Crown Copyright © 2018. Published by Elsevier Ltd. All rights reserved.)

Published

2018

278. Foot Mobility Magnitude and Stiffness in Children With and Without Calcaneal Apophysitis.

Author

McSweeney SC, Reed L, and Wearing S

Subjects

Adolescent, Child, Preschool, Foot Diseases epidemiology, Humans, Calcaneus, Foot Diseases physiopathology

Abstract

Background: This study evaluated quasi-static measures of foot mobility magnitude (FMM) and foot stiffness (FS) in children, aged 8 to 14 years, with and without calcaneal apophysitis., Methods: Between 2016 and 2017, FMM and FS measurements were captured on 41 children (22 cases and 19 controls) using a custom-built foot assessment platform. The platform incorporated a portable force plate that allowed quantification of vertical force during double-limb stance (DLS)., Results: There was no significant difference in FS in children with and without calcaneal apophysitis ( P = .459). FMM was significantly greater (+19%) in children with calcaneal apophysitis than in those without ( P = .045). The mean difference in FMM between groups (1.4 mm), however, did not exceed the minimum detectable change at the 95% confidence level (MDC 95% ) for the measurement (±2.5 mm)., Conclusion: Differences in FMM in children with calcaneal apophysitis were small and within the observed error of measurement. Clinical measures of FS did not differ in children with and without calcaneal apophysitis during quasistatic loading. Further research evaluating the level of uncertainty of the measurement techniques in children and under dynamic loading conditions is recommended. These findings question the rationale behind interventions which aim to modify quasistatic foot mobility and stiffness in children with calcaneal apophysitis., Level of Evidence: Level III, comparative series.

Published

2018

279. Predictors of chronic pain following total knee replacement in females and males: an exploratory study.

Author

Bossmann T, Brauner T, Wearing S, and Horstmann T

Subjects

Aged, Autonomic Nervous System physiopathology, Female, Humans, Male, Middle Aged, Nociception, Pain Measurement, Prospective Studies, Stress, Psychological complications, Arthroplasty, Replacement, Knee adverse effects, Chronic Pain diagnosis, Chronic Pain etiology, Pain, Postoperative diagnosis, Pain, Postoperative etiology

Abstract

Aim: This study explored whether nociceptive (NS) and autonomic nervous system (ANS) dysregulation and psychological distress were predictive of pain 6 months after primary total knee replacement., Patients & Methods: ANS and NS regulation, psychological distress and self-reported pain, stiffness and function were evaluated preoperatively in 56 patients. Pain severity measured 6 months after surgery was used as the primary outcome in an analysis of covariance model., Results: The data of 47 patients (85.5%) could be analyzed. Postoperative pain severity 6 months after surgery was significantly associated with reduced heart rate variability and tended to be related to a lower conditioned pain modulation effect, but the latter only in females., Conclusion: Due to the small sample size the results must be interpreted with caution. A dysregulation of ANS and NS may be predictive of pain severity 6 months after total knee replacement. The impact of the conditioned pain modulation effect could be sex specific.

Published

2017

280. Why forefoot striking in minimal shoes might positively change the course of running injuries.

Author

Davis IS, Rice HM, and Wearing SC

Abstract

It is believed that human ancestors evolved the ability to run bipedally approximately 2 million years ago. This form of locomotion may have been important to our survival and likely has influenced the evolution of our body form. As our bodies have adapted to run, it seems unusual that up to 79% of modern day runners are injured annually. The etiology of these injuries is clearly multifactorial. However, 1 aspect of running that has significantly changed over the past 50 years is the footwear we use. Modern running shoes have become increasingly cushioned and supportive, and have changed the way we run. In particular, they have altered our footstrike pattern from a predominantly forefoot strike (FFS) landing to a predominantly rearfoot strike (RFS) landing. This change alters the way in which the body is loaded and may be contributing to the high rate of injuries runners experience while engaged in an activity for which they were adapted. In this paper, we will examine the benefits of barefoot running (typically an FFS pattern), and compare the lower extremity mechanics between FFS and RFS. The implications of these mechanical differences, in terms of injury, will be discussed. We will then provide evidence to support our contention that FFS provides an optimal mechanical environment for specific foot and ankle structures, such as the heel pad, the plantar fascia, and the Achilles tendon. The importance of footwear will then be addressed, highlighting its interaction with strike pattern on mechanics. This analysis will underscore why footwear matters when assessing mechanics. Finally, proper preparation and safe transition to an FFS pattern in minimal shoes will be emphasized. Through the discussion of the current literature, we will develop a justification for returning to running in the way for which we were adapted to reduce running-related injuries.

Published

2017

281. Track B. Biomechanics and Orthopaedics.

Author

Wearing SC, Langton CM, Klingler W, Hooper SL, and Brauner T

Published

2016

282. The Effect of an In-shoe Orthotic Heel Lift on Loading of the Achilles Tendon During Shod Walking.

Author

Wulf M, Wearing SC, Hooper SL, Bartold S, Reed L, and Brauner T

Subjects

Achilles Tendon diagnostic imaging, Adult, Humans, Male, Middle Aged, Ultrasonography, Weight-Bearing, Young Adult, Achilles Tendon physiology, Heel, Orthotic Devices, Shoes, Walking physiology

Abstract

Study Design: Controlled laboratory study., Background: Orthotic heel lifts are thought to lower tension in the Achilles tendon, but evidence for this effect is equivocal., Objective: To investigate the effect of a 12-mm, in-shoe orthotic heel lift on Achilles tendon loading during shod walking using transmission-mode ultrasonography., Methods: The propagation speed of ultrasound, which is governed by the elastic modulus and density of tendon and proportional to the tensile load to which it is exposed, was measured in the right Achilles tendon of 12 recreationally active men during shod treadmill walking at matched speeds (3.4 ± 0.7 km/h), with and without addition of a heel lift. Vertical ground reaction force and spatiotemporal gait parameters were simultaneously recorded. Data were acquired at 100 Hz during 10 seconds of steady-state walking. Statistical comparisons were made using paired t tests (α = .05)., Results: Ultrasound transmission speed in the Achilles tendon was characterized by 2 maxima (P1, P2) and minima (M1, M2) during walking. Addition of a heel lift to footwear resulted in a 2% increase and 2% decrease in the first vertical ground reaction force peak and the local minimum, respectively (P<.05). Ultrasonic velocity in the Achilles tendon (P1, P2, M2) was significantly lower with the addition of an orthotic heel lift (P<.05)., Conclusion: Peak ultrasound transmission speed in the Achilles tendon was lower with the addition of a 12-mm orthotic heel lift, indicating that the heel lift reduced tensile load in the Achilles tendon, thereby counteracting the effect of footwear observed in previous studies. These findings support the addition of orthotic heel lifts to footwear in the rehabilitation of Achilles tendon disorders where management aims to lower tension within the tendon.

Published

2016

283. Tendinopathy alters cumulative transverse strain in the patellar tendon after exercise.

Author

Wearing SC, Locke S, Smeathers JE, and Hooper SL

Subjects

Adolescent, Humans, Microcirculation, Patellar Ligament blood supply, Patellar Ligament diagnostic imaging, Stress, Physiological, Tendinopathy diagnostic imaging, Ultrasonography, Exercise physiology, Patellar Ligament physiopathology, Tendinopathy physiopathology

Abstract

Introduction: This research evaluated the effect of tendinopathy on the cumulative transverse strain response of the patellar tendon to a bout of resistive quadriceps exercise., Methods: Nine adults with unilateral patellar tendinopathy (age, 18.2 ± 0.7 yr; height, 1.92 ± 0.06 m; weight, 76.8 ± 6.8 kg) and 10 healthy adults free of knee pain (age, 17.8 ± 0.8 yr; height, 1.83 ± 0.05 m; weight, 73.2 ± 7.6 kg) underwent standardized sagittal sonograms (7.2-14 MHz linear array transducer) of both patellar tendons immediately before and after 45 repetitions of a double-leg decline squat exercise performed against a resistance of 145% body weight. Tendon thickness was determined 5 and 25 mm distal to the patellar pole. Transverse Hencky strain was calculated as the natural log of the ratio of post- to preexercise tendon thickness and expressed as percentage. Measures of tendon echogenicity were calculated within the superficial and deep aspects of each tendon site from grayscale profiles. Intratendinous microvessels were evaluated using power Doppler ultrasound., Results: The cumulative transverse strain response to exercise in symptomatic tendinopathy was significantly lower than that in asymptomatic and healthy tendons (P < 0.05). There was also significant reduction (57%) in the area of microvascularity immediately after exercise (P = 0.05), which was positively correlated (r = 0.93, P < 0.05) with a Victorian Institute of Sport Assessment for patellar tendinopathy score., Conclusions: This study is the first to show that patellar tendinopathy is associated with altered morphological and mechanical response of the tendon to exercise, which is manifest by reduction in cumulative transverse strain and microvascularity, when present. Research directed toward identifying factors that influence the acute microvascular and transverse strain response of the patellar tendon to exercise in the various stages of tendinopathy is warranted.

Published

2015

284. Can measures of limb loading and dynamic stability during the squat maneuver provide an index of early functional recovery after unilateral total hip arthroplasty?

Author

Brauner T, Wearing S, Rämisch E, Zillober M, and Horstmann T

Subjects

Aged, Biomechanical Phenomena, Cohort Studies, Exercise Test, Female, Humans, Male, Middle Aged, Movement physiology, Postoperative Period, Predictive Value of Tests, Self Report, Time Factors, Arthroplasty, Replacement, Hip rehabilitation, Postural Balance physiology, Recovery of Function physiology, Weight-Bearing physiology

Abstract

Objective: To investigate limb loading and dynamic stability during squatting in the early functional recovery of patients who had undergone total hip arthroplasty (THA)., Design: Cohort study., Setting: Inpatient rehabilitation clinic., Participants: Of the total participants (N=99), a random sample of patients who had undergone THA (n=61; 34 men and 27 women; mean age, 62±9y; weight, 77±14kg; height, 174±9 cm) was assessed twice, 13.2±3.8 days (t1) and 26.6±3.3 days postsurgery (t2), and compared with a healthy reference group (n=38; 22 men and 16 women; mean age, 47±12y; weight, 78±20kg; height, 175±10cm)., Interventions: Patients who had undergone THA received 2 weeks of standard inpatient rehabilitation., Main Outcome Measures: Interlimb vertical force distribution and dynamic stability during the squat maneuver, as defined by the root mean square of the center of pressure in anteroposterior and mediolateral directions, of operated and nonoperated limbs. Self-reported function was assessed via the Function Assessment Questionnaire Hannover for Osteoarthritis questionnaire., Results: At t1, unloading of the operated limb was 15.8% greater (P<.001; d=1.070) and anteroposterior and mediolateral center of pressure root mean square values were 30% to 34% higher in patients who had undergone THA than in the healthy reference group (P<.05). Unloading was reduced by 12.8% toward a more equal distribution from t1 to t2 (P<.001; d=.874). Although mediolateral stability improved between t1 and t2 (operated limb: 14.8%; P=.024; d=.397; nonoperated limb: 13.1%; P=.015; d=.321), anteroposterior stability was not significantly different. Self-reported physical function improved by 15.8% (P<.001; d=.965)., Conclusions: Patients who had undergone THA unload the operated limb and are dynamically more unstable during squatting in the early rehabilitation phase after THA than are healthy adults. Although loading symmetry and mediolateral stability improved to the level of healthy adults with rehabilitation, anteroposterior stability remained impaired. Measures of dynamic stability and load symmetry during squatting provide quantitative information that can be used to clinically monitor early functional recovery from THA., (Copyright © 2014 American Congress of Rehabilitation Medicine. Published by Elsevier Inc. All rights reserved.)

Published

2014

285. Running shoes increase achilles tendon load in walking: an acoustic propagation study.

Author

Wearing SC, Reed L, Hooper SL, Bartold S, Smeathers JE, and Brauner T

Subjects

Acoustics, Adult, Ankle physiology, Biomechanical Phenomena, Gait physiology, Humans, Male, Tendinopathy prevention & control, Young Adult, Achilles Tendon physiology, Shoes, Walking physiology, Weight-Bearing

Abstract

Background: Footwear remains a prime candidate for the prevention and rehabilitation of Achilles tendinopathy because it is thought to decrease tension in the tendon through elevation of the heel. However, evidence for this effect is equivocal., Purpose: This study used an acoustic transmission technique to investigate the effect of running shoes on Achilles tendon loading during barefoot and shod walking., Methods: Acoustic velocity was measured in the Achilles tendon of 12 recreationally active males (age, 31 ± 9 yr; height, 1.78 ± 0.06 m; weight, 81.0 ± 16.9 kg) during barefoot and shod walking at matched self-selected speed (3.4 ± 0.7 km·h). Standard running shoes incorporating a 10-mm heel offset were used. Vertical ground reaction force and spatiotemporal parameters were determined with an instrumented treadmill. Axial acoustic velocity in the Achilles tendon was measured using a custom-built ultrasonic device. All data were acquired at a rate of 100 Hz during 10 s of steady-state walking. Statistical comparisons between barefoot and shod conditions were made using paired t-tests and repeated-measure ANOVA., Results: Acoustic velocity in the Achilles tendon was highly reproducible and was typified by two maxima (P1, P2) and minima (M1, M2) during walking. Footwear resulted in a significant increase in step length, stance duration, and peak vertical ground reaction force compared with barefoot walking. Peak acoustic velocity in the Achilles tendon (P1, P2) was significantly higher with running shoes., Conclusions: Peak acoustic velocity in the Achilles tendon was higher with footwear, suggesting that standard running shoes with a 10-mm heel offset increase tensile load in the Achilles tendon. Although further research is required, these findings question the therapeutic role of standard running shoes in Achilles tendinopathy.

Published

2014

286. Force-deformation properties of the human heel pad during barefoot walking.

Author

Wearing SC, Hooper SL, Dubois P, Smeathers JE, and Dietze A

Subjects

Adult, Biomechanical Phenomena, Elasticity physiology, Female, Gait physiology, Humans, Male, Middle Aged, Pressure, Weight-Bearing, Heel physiology, Walking physiology

Abstract

Introduction: The plantar heel pad is a specialized fibroadipose tissue that attenuates and, in part, dissipates the impact energy associated with heel strike. Although a near-maximal deformation of the heel pad has been shown during running, an in vivo measurement of the deformation and structural properties of the heel pad during walking remains largely unexplored. This study used a fluoroscope, synchronized with a pressure platform, to obtain force-deformation data for the heel pad during walking., Methods: Dynamic lateral foot radiographs were acquired from 6 male and 10 female adults (mean ± SD; age = 45 ± 10 yr, height = 1.66 ± 0.10 m, and weight = 80.7 ± 10.8 kg) while walking barefoot at preferred speeds. The inferior aspect of the calcaneus was digitized, and the sagittal thickness and deformation of the heel pad relative to the support surface were calculated. A simultaneous measurement of the peak force beneath the heel was used to estimate the principal structural properties of the heel pad., Results: Transient loading profiles associated with walking induced rapidly changing deformation rates in the heel pad and resulted in irregular load-deformation curves. The initial stiffness (32 ± 11 N·mm) of the heel pad was 10 times lower than its final stiffness (212 ± 125 N·mm), and on average, only 1.0 J of energy was dissipated by the heel pad with each step during walking. Peak deformation (10.3 mm) approached that predicted for the limit of pain tolerance (10.7 mm)., Conclusion: These findings suggest that the heel pad operates close to its pain threshold even at speeds encountered during barefoot walking and provides insight as to why barefoot runners may adopt "forefoot" strike patterns that minimize heel loading.

Published

2014

287. The time course of in vivo recovery of transverse strain in high-stress tendons following exercise.

Author

Wearing SC, Smeathers JE, Hooper SL, Locke S, Purdam C, and Cook JL

Subjects

Achilles Tendon ultrastructure, Adult, Cumulative Trauma Disorders diagnostic imaging, Cumulative Trauma Disorders rehabilitation, Exercise physiology, Healthy Volunteers, Humans, Muscle, Skeletal physiology, Patellar Ligament ultrastructure, Recovery of Function physiology, Sprains and Strains diagnostic imaging, Ultrasonography, Weight-Bearing physiology, Achilles Tendon injuries, Patellar Ligament injuries, Resistance Training methods, Sprains and Strains rehabilitation

Abstract

Objective: To evaluate the time course of the recovery of transverse strain in the Achilles and patellar tendon following a bout of resistance exercise., Methods: Seventeen healthy adults underwent sonographic examination of the right patellar (n=9) and Achilles (n=8) tendons immediately prior to and following 90 repetitions of weight-bearing quadriceps and gastrocnemius-resistance exercise performed against an effective resistance of 175% and 250% body weight, respectively. Sagittal tendon thickness was determined 20 mm from the enthesis and transverse strain, as defined by the stretch ratio, was repeatedly monitored over a 24 h recovery period., Results: Resistance exercise resulted in an immediate decrease in Achilles (t7=10.6, p<0.01) and patellar (t8=8.9, p<0.01) tendon thickness, resulting in an average transverse stretch ratio of 0.86±0.04 and 0.82±0.05, which was not significantly different between tendons. The magnitude of the immediate transverse strain response, however, was reduced with advancing age (r=0.63, p<0.01). Recovery in transverse strain was prolonged compared with the duration of loading and exponential in nature. The average primary recovery time was not significantly different between the Achilles (6.5±3.2 h) and patellar (7.1±3.2 h) tendons. Body weight accounted for 62% and 64% of the variation in recovery time, respectively., Conclusions: Despite structural and biochemical differences between the Achilles and patellar tendon, the mechanisms underlying transverse creep recovery in vivo appear similar and are highly time dependent. These novel findings have important implications concerning the time required for the mechanical recovery of high-stress tendons following an acute bout of exercise.

Published

2014

288. The effect of exercise repetition on the frequency characteristics of motor output force: implications for Achilles tendinopathy rehabilitation.

Author

Grigg NL, Wearing SC, O'Toole JM, and Smeathers JE

Subjects

Adult, Humans, Longitudinal Studies, Male, Middle Aged, Achilles Tendon physiology, Exercise Therapy, Tendinopathy rehabilitation

Abstract

Objectives: To investigate the frequency characteristics of the ground reaction force (GRF) recorded throughout the eccentric Achilles tendon rehabilitation programme described by Alfredson., Design: Controlled laboratory study, longitudinal., Methods: Nine healthy adult males performed six sets (15 repetitions per set) of eccentric ankle exercise. Ground reaction force was recorded throughout the exercise protocol. For each exercise repetition the frequency power spectrum of the resultant ground reaction force was calculated and normalised to total power. The magnitude of peak relative power within the 8-12 Hz bandwidth and the frequency at which this peak occurred was determined., Results: The magnitude of peak relative power within the 8-12 Hz bandwidth increased with each successive exercise set and following the 4th set (60 repetitions) of exercise the frequency at which peak relative power occurred shifted from 9 to 10 Hz., Conclusions: The increase in magnitude and frequency of ground reaction force vibrations with an increasing number of exercise repetitions is likely connected to changes in muscle activation with fatigue and tendon conditioning. This research illustrates the potential for the number of exercise repetitions performed to influence the tendons' mechanical environment, with implications for tendon remodelling and the clinical efficacy of eccentric rehabilitation programmes for Achilles tendinopathy., (Copyright © 2013 Sports Medicine Australia. Published by Elsevier Ltd. All rights reserved.)

Published

2014

289. Sagittal movement of the medial longitudinal arch is unchanged in plantar fasciitis.

Author

Wearing SC, Smeathers JE, Yates B, Sullivan PM, Urry SR, and Dubois P

Subjects

Biomechanical Phenomena, Case-Control Studies, Fasciitis, Plantar diagnostic imaging, Female, Fluoroscopy methods, Humans, Image Processing, Computer-Assisted, Male, Man-Machine Systems, Metatarsophalangeal Joint anatomy & histology, Middle Aged, Ultrasonography, Fasciitis, Plantar physiopathology, Foot physiology, Gait physiology

Abstract

Background: Although a lowered medial longitudinal arch has been cited as a causal factor in plantar fasciitis, there is little experimental evidence linking arch motion to the pathogenesis of the condition. This study investigated the sagittal movement of the arch in subjects with and without plantar fasciitis during gait., Methods: Digital fluoroscopy was used to acquire dynamic lateral radiographs from 10 subjects with unilateral plantar fasciitis and 10 matched control subjects. The arch angle and the first metatarsophalangeal joint angle were digitized and their respective maxima recorded. Sagittal movement of the arch was defined as the angular change between heel strike and the maximum arch angle observed during the stance phase of gait. The thickness of the proximal plantar fascia was determined from sagittal sonograms of both feet. ANOVA models were used to identify differences between limbs with respect to each dependent variable. Relationships between arch movement and fascial thickness were investigated using correlations., Results: There was no significant difference in either the movement or maximum arch angle between limbs. However, subjects with plantar fasciitis were found to have a larger metatarsophalangeal joint angle than controls (P < 0.05). Whereas the symptomatic and asymptomatic plantar fascia were thicker than those of control feet (P < 0.05), significant correlations were noted between fascial thickness and peak arch and metatarsophalangeal joint angles (P < 0.05) in the symptomatic limb only., Conclusions: Neither abnormal shape nor movement of the arch are associated with chronic plantar fasciitis. However, arch mechanics may influence the severity of plantar fasciitis, once the condition is present. Digital flexion, in contrast, has a protective role in what might be a bilateral disease process.

Published

2004