Your search keyword '"Pronation physiology"' showing total 679 results

51. Running mechanics during 1600 meter track runs in young adults with and without chronic ankle instability.

Author

Colapietro M, Fraser JJ, Resch JE, and Hertel J

Subjects

Biomechanical Phenomena physiology, Case-Control Studies, Chronic Disease, Female, Gait physiology, Humans, Male, Pronation physiology, Young Adult, Ankle Joint physiopathology, Joint Instability physiopathology, Running physiology

Abstract

Objective: To evaluate biomechanical measures in runners with and without chronic ankle instability (CAI) using wearable sensors during two 1600 m track runs at a slow- and fast-pace., Design: Observational case-control., Setting: Field., Participants: 18 recreational runners (CAI: n = 9; Healthy: n = 9) with rearfoot strike patterns., Main Outcome Measures: Pronation excursion, maximum pronation velocity, peak braking g, peak impact g, contact time, cycle time, and stride length of every step of two 1600 m runs were collected using RunScribe™ sensors and binned to each 400 m lap (Lap 1 to Lap 4)., Results: Significant group-by-lap interactions were identified for contact time (p = .05) during the slow-intensity run. The CAI group had greater contact time (p = 0.05) that progressively increased with distance completed. CAI group also had higher impact g than the control group throughout the slow-intensity run (p = .03). During the fast-intensity run, significant group by lap interaction was observed for pronation excursion with the CAI group exhibiting less pronation excursion than the healthy group as the run progressed (p = .002)., Conclusions: Regardless of speed, runners with CAI demonstrated altered gait mechanics compared to healthy controls. During the higher intensity run, decreased pronation excursion was observed in the CAI group and differences became more prominent as the distance increased., Competing Interests: Declaration of competing interest None declared., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2020

52. Intra- and intersession reliabilities of the flexor carpi radialis H-reflex while sitting with forearm pronation.

Author

Alrowayeh HN

Subjects

Adult, Female, Humans, Male, Middle Aged, Reproducibility of Results, Supination physiology, Electromyography standards, Forearm physiology, H-Reflex physiology, Muscle, Skeletal physiology, Pronation physiology, Sitting Position

Abstract

Purpose: The flexor carpi radialis H-reflex recordings were more robust when the participants were in a sitting position with forearm pronation than with forearm supination. The reliability of flexor carpi radialis recordings obtained with the participant in sitting posture with forearm supination is well established. However, similar reliability utilizing a sitting posture with forearm pronation has not been established. The purpose of this study was to establish the intra and intersession reliabilities of flexor carpi radialis H-reflex recordings acquired with the participants in a sitting with forearm pronation. Materials and methods: The flexor carpi radialis maximum H-reflex amplitude and latency were recorded unilaterally in twenty participants. The forearm was positioned in either a supination or a pronation position on two separate days. Four traces were recorded, and the intraclass correlation coefficients were calculated. Results: The intrasession intraclass correlation coefficients of the four traces of the flexor carpi radialis H-reflex amplitude during pronation on days 1 (0.96) and 2 (0.94) were more consistent than those acquired during supination on days 1 (0.78) and 2 (0.93). The intersession intraclass correlation coefficients of the average traces of the flexor carpi radialis H-reflex amplitude during pronation between days 1 and 2 were more consistent (0.9) than those during supination (0.55). Conclusions: The flexor carpi radialis H-reflex recordings acquired with the participant in a sitting position are more reliable with forearm pronation than with supination within and between sessions. These results should encourage clinicians and researchers to use this position when examining the neuromuscular function of the upper extremities in healthy individuals and those with neuromuscular disorders.

Published

2020

53. Radial osteotomy for the correction of forearm deformities in hereditary multiple osteochondroma.

Author

Klein C, Pejin Z, Salon A, Finidori G, Glorion C, and Pannier S

Subjects

Adolescent, Child, Child, Preschool, Disability Evaluation, Exostoses, Multiple Hereditary diagnostic imaging, Exostoses, Multiple Hereditary physiopathology, Female, Follow-Up Studies, Humans, Male, Pronation physiology, Radiography, Retrospective Studies, Supination physiology, Exostoses, Multiple Hereditary surgery, Osteotomy methods, Radius surgery

Abstract

Forearm deformities are often observed in patients with hereditary multiple osteochondroma, resulting in functional disability and cosmetic impairment. The aim of this study was to assess clinical and radiological outcomes after corrective osteotomy of the radius (COR). We performed a retrospective analysis of clinical and radiologic data from patients with forearm deformities who underwent COR combined with osteochondroma resection between 1978 and 2015. Seventeen patients (17 forearms) were included. The mean (range) age at surgery was 11.8 years (3.2-14.4), and the mean interval between surgery and last follow-up was 8.2 years (2-34.2). Range of motion was moderately increased and postoperative radiological assessments found significant improvements in ulnar variance, radial articular angle, bowing of the radius, and carpal slip. At last follow-up, a loss of ulnar variance correction was noted in 11 cases (mean loss: 4mm). The mean score on the Quick Disabilities of the Arm, Shoulder and Hand self-administered questionnaire was 13.9. Our results show that a forearm deformity in a patient with hereditary multiple osteochondroma is an appropriate indication for COR combined with osteochondroma resection and should be performed at the end of growth. This simple, safe technique corrects bowing of the radius and radius-ulna length discrepancy and could limit the risk of radial head dislocation. LEVEL OF EVIDENCE: IV., (Copyright © 2019 SFCM. Published by Elsevier Masson SAS. All rights reserved.)

Published

2020

54. Volar locking plate fixation of distal radius fractures: Isokinetic assessment of the influence of an ulnar styloid process fracture on pronation-supination strength.

Author

Daumillare A, Bosch C, Julia M, Coulet B, Mares O, and Chammas M

Subjects

Adult, Case-Control Studies, Female, Fracture Fixation, Internal, Humans, Male, Radius Fractures physiopathology, Retrospective Studies, Torque, Ulna Fractures physiopathology, Bone Plates, Pronation physiology, Radius Fractures surgery, Supination physiology, Ulna Fractures surgery, Wrist Joint physiopathology

Abstract

Although distal radius fractures (DRF) are frequent, the management of associated ulnar styloid process (USP) lesions is still controversial. According to recent studies, a fracture of the USP does not appear to affect functional outcomes after treatment of a DRF with plate fixation. We sought to compare the impact of a USP fracture on pronation and supination strength in isometric and isokinetic tests. We included patients with a DRF who underwent volar locking plate fixation. We divided our population into three groups: one group consisted of patients who had a fracture of the USP base, one group composed of patients without USP fracture or with a distal ulnar fracture only, and a control group composed of subjects with normal wrists. Inclusion criteria included an age of 18 to 50 years and a minimum follow-up of 10 months post-surgery. The main exclusion criteria were complex intraarticular fractures and postoperative complications. The assessment was based on clinical examination and recording of forearm rotation strength during pronation and supination in isokinetic and isometric tests. The ratio between the operated and contralateral sides was compared for each patient. Thirty-six participants were included (mean age 31.1±4.5 years). The mean postoperative follow-up was 17.9±6.9 months. Participants with a USP fracture differed from other participants in their peak torque on the isokinetic test at 45°/s for pronation and supination, but not on isokinetic tests at 120°/s or in isometric tests. Isokinetic tests revealed a decrease in pronation-supination strength during sustained effort for patients with associated basal USP fractures. These findings may have clinical implications for management of the USP but need to be specified with further study. LEVEL OF EVIDENCE: prognostic study level III., (Copyright © 2019 SFCM. Published by Elsevier Masson SAS. All rights reserved.)

Published

2020

55. The effects of forearm position and contraction intensity on cortical and spinal excitability during a submaximal force steadiness task of the elbow flexors.

Author

Yacyshyn AF, Kuzyk S, Jakobi JM, and McNeil CJ

Subjects

Adult, Elbow physiology, Electric Stimulation, Electromyography, Humans, Male, Mastoid, Transcranial Magnetic Stimulation, Young Adult, Cervical Cord physiology, Evoked Potentials, Motor physiology, Motor Cortex physiology, Motor Neurons physiology, Muscle Contraction physiology, Muscle, Skeletal physiology, Pronation physiology, Supination physiology

Abstract

Elbow flexor force steadiness is less with the forearm pronated (PRO) compared with neutral (NEU) or supinated (SUP) and may relate to neural excitability. Although not tested in a force steadiness paradigm, lower spinal and cortical excitability was observed separately for biceps brachii in PRO, possibly dependent on contractile status at the time of assessment. This study aimed to investigate position-dependent changes in force steadiness as well as spinal and cortical excitability at a variety of contraction intensities. Thirteen males (26 ± 7 yr; means ± SD) performed three blocks (PRO, NEU, and SUP) of 24 brief (~6 s) isometric elbow flexor contractions (5, 10, 25 or 50% of maximal force). During each contraction, transcranial magnetic stimulation or transmastoid stimulation was delivered to elicit a motor-evoked potential (MEP) or cervicomedullary motor-evoked potential (CMEP), respectively. Force steadiness was lower in PRO compared with NEU and SUP ( P ≤ 0.001), with no difference between NEU and SUP. Similarly, spinal excitability (CMEP/maximal M wave) was lower in PRO than NEU (25 and 50% maximal force; P ≤ 0.010) and SUP (all force levels; P ≤ 0.004), with no difference between NEU and SUP. Cortical excitability (MEP/CMEP) did not change with forearm position ( P = 0.055); however, a priori post hoc testing for position showed excitability was 39.8 ± 38.3% lower for PRO than NEU at 25% maximal force ( P = 0.006). The data suggest that contraction intensity influences the effect of forearm position on neural excitability and that reduced spinal and, to a lesser extent, cortical excitability could contribute to lower force steadiness in PRO compared with NEU and SUP. NEW & NOTEWORTHY To address conflicting reports about the effect of forearm position on spinal and cortical excitability of the elbow flexors, we examine the influence of contraction intensity. For the first time, excitability data are considered in a force steadiness context. Motoneuronal excitability is lowest in pronation and this disparity increases with contraction intensity. Cortical excitability exhibits a similar pattern from 5 to 25% of maximal force. Lower corticospinal excitability likely contributes to relatively poor force steadiness in pronation.

Published

2020

56. Comparison of a standard locking screw versus a double-threaded cortical compression screw for fixation of die-punch fragments in distal radius fractures with volar plating.

Author

Muccioli C, Hidalgo Diaz JJ, Pizza C, Gouzou S, Facca S, and Liverneaux P

Subjects

Adult, Aged, Aged, 80 and over, Bone Plates, Disability Evaluation, Female, Fracture Fixation, Internal, Humans, Male, Middle Aged, Pronation physiology, Prosthesis Design, Radius Fractures physiopathology, Supination physiology, Young Adult, Bone Screws, Radius Fractures surgery, Range of Motion, Articular physiology, Wrist Joint physiopathology

Abstract

The aim of this study was to use a compression screw in the epiphyseal medial orifice of a volar plate to reduce and stabilize the die-punch fragment in distal radius fractures (DRF) undergoing open reduction and internal fixation (ORIF). The main hypothesis was that the range of motion (ROM) in supination would be poorer when a standard screw was used. Our case series included 19 patients with an average age of 59 years (24-91) (SD -35.32) (10 male patients and 9 females) who underwent ORIF of DRFs with a volar plate. Group I included 10 patients in which the die-punch fragment was fixed with a standard locking screw and group II included the 9 patients in which the die-punch fragment was fixed with an angle stable compression screw through both cortices. At the 6-month follow-up visit, the average ROM in flexion was 83% in group I and 81% in group II (-2.327 [-13.657; 8.960]), the ROM in extension was 91% and 89% (-2.754 [-13.410; 7.602]), the ROM in pronation was 100% and 102% (+3.178 [-5.242; 11.457]), the ROM in supination 100% and 97% (-3.171 [-10.825; 4.537]), the pain level was 0.6/10 and 1/10 (+0.106 [-0.809; 0.977]), the QuickDASH score was 8.1/100 and 17.17/100 (+5.790 [-2.934; 15.012]), the PRWE was 6.2/100 and 22/100 (+13.109 [4.416; 22.779]) and the grip strength was 95% and 74% of the contralateral side (-12.478 [-24.832; 0.538]). No complications, nonunions or revision surgery were reported in the two groups. One case of secondary displacement of the die-punch fragment occurred in each group. The main hypothesis was not proven. In conclusion, despite what several biomechanical studies have suggested, the use of double-threaded compression screws for die-punch fragment fixation in DRFs does not improve the clinical outcomes compared to standard locking screws., (Copyright © 2019 SFCM. Published by Elsevier Masson SAS. All rights reserved.)

Published

2020

57. Biomechanical Effects of Shoe Gear on the Lower Extremity.

Author

Spencer S

Subjects

Humans, Pronation physiology, Subtalar Joint physiology, Gait physiology, Lower Extremity physiology, Shoes

Abstract

The information gleaned from kinetic and kinematic studies on foot function and gait in relation to shoes can be applied clinically after considering the key findings of the research discussed in this article. These studies demonstrate the events of the gait cycle are somewhat different from what many providers have been taught. Greater pronation of the subtalar joint when entering the propulsive period, where resupination will most likely be occurring, would be expected., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2020

58. Is There Any Association Between Foot Posture and Lower Limb-Related Injuries in Professional Male Basketball Players? A Cross-Sectional Study.

Author

Lopezosa-Reca E, Gijon-Nogueron G, Morales-Asencio JM, Cervera-Marin JA, and Luque-Suarez A

Subjects

Adult, Ankle Injuries epidemiology, Ankle Injuries physiopathology, Cross-Sectional Studies, Humans, Incidence, Male, Patellar Ligament injuries, Patellar Ligament physiopathology, Posture physiology, Prevalence, Sprains and Strains epidemiology, Sprains and Strains physiopathology, Tendinopathy epidemiology, Tendinopathy physiopathology, Young Adult, Basketball injuries, Foot physiology, Pronation physiology

Abstract

Background: Several studies have shown that foot posture is related to the incidence of ankle sprains in athletes and in nonathletic populations, but this association has not previously been considered in basketball players. This study investigates the relationship between foot posture and lower limb injuries in elite basketball players., Design and Method: Two hundred twenty participants were recruited as a convenience sample. The players had a mean age of 22.51 ± 3.88 years and a body mass index of 23.98 ± 1.80. The players' medical records were accessed from the preceding 10 years, and injuries were recorded according to their location (knee, foot, and/or ankle). In addition, the Foot Posture Index (FPI) was scored for each player, and their playing positions were noted., Results: An average FPI score of 2.66 was obtained across all players, with guards presenting a significantly lower average FPI of -0.48 (P < 0.001) compared with the rest of playing positions, indicating a more supinated foot. However, center players presented an average FPI of 5.15 (P < 0.001), indicating a more pronated foot. The most common injuries observed were lateral ankle sprain (n = 214) and patellar tendinopathy (n = 126). Patellar tendinopathy was more common in supinated feet (30.08%) compared with 20.7% and 19.8% in pronated and neutral feet, respectively., Conclusions: The most common lower limb injuries observed in basketball players were lateral ankle sprain and patellar tendinopathy. Patellar tendinopathy was more commonly associated with the supinated feet. Guard players tended to have a more supinated foot, whereas centers presented a more pronated foot.

Published

2020

59. Effect of linear running velocity on the increase on foot pronation.

Author

Libardoni Dos Santos JO, Gomes ALR, Lima AB, de Paiva Vieira E, Bezerra ES, and Rossato M

Subjects

Acceleration, Adult, Biomechanical Phenomena physiology, Humans, Male, Foot physiology, Pronation physiology, Running physiology

Abstract

The purpose of this study was to investigate the behavior of foot pronation at different percentages of peak velocity in 23 physically active men. An ergospirometric test was carried out with an initial velocity of 9kmh -1 and increments of 1kmh -1 until exhaustion. 2D kinematic analysis was performed in the posterior frontal plane at all velocities to identify the maximal angle of pronation (MAP) of the right leg. The analyses were performed between the initial periods (0%), 25%, 50%, 75%, and 100% (peak of velocity - PV). All comparisons of the PV phases with the MAP showed an increase in the angle of foot pronation, with the exception of between the start and 25% of PV. Only 4 (∼17%) subjects maintained MAP values within a normal range until PV was reached. Control of the volume and intensity of training, as well as the running technique is suggested and strengthening of the muscles responsible for stabilization of the foot pronation., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

60. No effect on functional outcome after repair of pronator quadratus in volar plating of distal radial fractures: a randomized clinical trial.

Author

Sonntag J, Woythal L, Rasmussen P, Branner U, Hølmer P, Jensen AK, Lange KHW, and Brorson S

Subjects

Adult, Aged, Aged, 80 and over, Double-Blind Method, Female, Follow-Up Studies, Fracture Fixation, Internal instrumentation, Health Status Indicators, Humans, Male, Middle Aged, Muscle Strength physiology, Muscle, Skeletal injuries, Muscle, Skeletal physiology, Postoperative Complications etiology, Postoperative Complications prevention & control, Pronation physiology, Recovery of Function, Treatment Outcome, Bone Plates, Fracture Fixation, Internal methods, Muscle, Skeletal surgery, Radius Fractures surgery

Abstract

Aims: The aim of this study was to investigate the difference in functional outcome after repair and non-repair of the pronator quadratus muscle in patients undergoing surgical treatment for a distal radial fracture with volar plating., Patients and Methods: A total of 72 patients with a distal radial fracture were included in this randomized clinical trial. They were allocated to have the pronator quadratus muscle repaired or not, after volar locked plating of a distal radial fracture. The patients, the assessor, the primary investigator, and the statistician were blinded to the allocation. Randomization was irreversibly performed using a web application that guaranteed a secure and tamper-free assignment. The primary outcome measure was the Patient Rated Wrist Evaluation (PRWE) after 12 months. Secondary outcomes included the Disabilities of the Arm, Shoulder and Hand (DASH) score, pronation strength, grip strength, the range of pronation and supination, complications, and the operating time., Results: Of the 72 patients, 63 (87.5%) completed follow-up for the primary outcome measure: 31 (86.1%) from the non-repair group and 32 (88.9%) from the repair group. At the 12-month follow-up, the mean difference in PRWE of 5.47 (95% confidence interval (CI) -4.02 to 14.96) between the repair (mean 18.38 (95% CI 10.34 to 26.41)) and non-repair group (mean 12.90 (95% CI 7.55 to 18.25)) was not statistically significant (p = 0.253). There was a statistically significant difference between pronation strength, favouring non-repair. We found no difference in the other secondary outcomes., Conclusion: We found that repairing pronator quadratus made no difference to the clinical outcome, 12 months after volar plating of a distal radial fracture. We conclude that there is no functional advantage in repairing this muscle under these circumstances and advise against it. Cite this article: Bone Joint J 2019;101-B:1498-1505.

Published

2019

61. Anteromedial Release for Posttraumatic Flexion-pronation Contracture of the Wrist: Surgical Technique.

Author

Babazadeh S, Puig de la Bellacasa I, Jamieson RP, Rodríguez-Baeza A, and Garcia-Elias M

Subjects

Contracture physiopathology, Contraindications, Procedure, Female, Humans, Joint Capsule surgery, Male, Middle Aged, Muscle, Skeletal surgery, Tendons surgery, Wrist Injuries physiopathology, Wrist Joint physiopathology, Young Adult, Contracture surgery, Orthopedic Procedures methods, Pronation physiology, Wrist Joint surgery

Abstract

Wrist stiffness can be a complication of trauma. A small percentage of patients fail to improve with nonoperative management and require operative intervention to regain range of motion and function. These group of patients can present with a soft tissue flexion-pronation contracture, which is hypothesized to be caused by capsular contraction of the distal radioulna joint, musculotendinous contracture of the flexor carpi ulnaris, contracture of the volar ulnar carpal ligaments and of the pronator quadratus muscle. This complication significantly restricts functional dart-thrower's range of motion and is highly disabling. A surgical option to manage this condition is release of pathologic structures with an anteromedial approach to the wrist. We describe a safe, effective, and reproducible technique to treat these patients.

Published

2019

62. Association of anthropometric parameters with amplitude and crosstalk of mechanomyographic signals during forearm flexion, pronation and supination torque tasks.

Author

Talib I, Sundaraj K, and Lam CK

Subjects

Adult, Electromyography, Humans, Male, Range of Motion, Articular, Skinfold Thickness, Torque, Forearm physiology, Muscle Contraction physiology, Muscle, Skeletal physiology, Pronation physiology, Supination physiology

Abstract

This study aimed to quantify the association of four anthropometric parameters of the human arm, namely, the arm circumference (CA), arm length (LA), skinfold thickness (ST) and inter-sensor distance (ISD), with amplitude (RMS) and crosstalk (CT) of mechanomyography (MMG) signals. Twenty-five young, healthy, male participants were recruited to perform forearm flexion, pronation and supination torque tasks. Three accelerometers were employed to record the MMG signals from the biceps brachii (BB), brachialis (BRA) and brachioradialis (BRD) at 80% maximal voluntary contraction (MVC). Signal RMS was used to quantify the amplitude of the MMG signals from a muscle, and cross-correlation coefficients were used to quantify the magnitude of the CT among muscle pairs (BB & BRA, BRA & BRD, and BB & BRD). For all investigated muscles and pairs, RMS and CT showed negligible to low negative correlations with CA, LA and ISD (r = -0.0001--0.4611), and negligible to moderate positive correlations with ST (r = 0.004-0.511). However, almost all of these correlations were statistically insignificant (p > 0.05). These findings suggest that RMS and CT values for the elbow flexor muscles recorded and quantified using accelerometers appear invariant to anthropometric parameters.

Published

2019

63. Detection of pronator muscle overactivity in children with unilateral spastic cerebral palsy: Development of a semi-automatic method using EMG data.

Author

Sarcher A, Brochard S, Perrouin-Verbe B, Raison M, Letellier G, Leboeuf F, and Gross R

Subjects

Adolescent, Biomechanical Phenomena, Case-Control Studies, Cerebral Palsy complications, Child, Elbow physiopathology, Electromyography methods, Female, Humans, Male, Muscle Spasticity etiology, Predictive Value of Tests, Pronation physiology, Reproducibility of Results, Supination physiology, Cerebral Palsy physiopathology, Electromyography statistics & numerical data, Muscle Spasticity diagnosis

Abstract

Background: The pronator teres and pronator quadratus muscles are frequently injected with neuromuscular blocking agents to improve supination in children with spastic cerebral palsy and limited active elbow supination. However, determining by simple clinical examination whether these muscles are overactive during active movement is difficult., Objective: This study aimed to develop a semi-automatic method to detect pronator muscle overactivity by using surface electromyography (EMG) during active supination movements in children with cerebral palsy., Methods: In total, 25 children with unilateral spastic cerebral palsy (10 males; mean [SD] age 10.6 [3.0] years) and 12 typically developing children (7 males; mean age 11.0 [3.0] years) performed pronation-supination movements at 0.50Hz. Kinematic parameters and surface EMG signals were recorded for both pronator muscles. Three experts visually assessed muscle overactivity in the EMG signals of the children with cerebral palsy, in comparison with the reference group. The reliability and discrimination ability of the visual assessments were analysed. Overactivity detection thresholds for the semi-automatic method were adjusted by using the visual assessment by the EMG experts. The positive and negative predictive values of the semi-automatic detection method were calculated., Results: Intra-rater reliability of visual assessment by EMG experts was excellent and inter-rater reliability was moderate. For the 25 children with unilateral spastic cerebral palsy, EMG experts could discriminate different profiles of pronator overactivity during active supination: no pronator overactivity, one overactive pronator, or overactivity of both pronators. The positive and negative predictive values were 96% and 91%, respectively, for this semi-automatic detection method., Conclusions: Detection of pronator overactivity by using surface EMG provides an important complement to the clinical examination. This method can be used clinically, with the condition that clinicians be aware of surface EMG limitations. We believe use of this method can increase the accuracy of treatment for muscle overactivity, resulting in improved motor function and no worsening of paresis., (Copyright © 2019 Elsevier Masson SAS. All rights reserved.)

Published

2019

64. Elbow-flexion force estimation during arm posture dynamically changing between pronation and supination.

Author

Hu R, Chen X, Huang C, Cao S, Zhang X, and Chen X

Subjects

Adult, Electromyography instrumentation, Humans, Male, Young Adult, Elbow Joint physiology, Electromyography methods, Isometric Contraction physiology, Posture physiology, Pronation physiology, Supination physiology

Abstract

Objective: In this study, we proposed a dynamic voluntary contraction force estimation framework and implemented it for elbow-flexion force estimation during arm posture dynamically changing between pronation and supination., Approach: High-density surface electromyography (HD-sEMG) from biceps brachii and brachialis muscles and the elbow-flexion force were measured synchronously. The simplified Hill model was adopted to establish the relation between HD-sEMG and the elbow-flexion force. In the training process of the force estimation model, HD-sEMG data from static isometric elbow flexion tasks in two force modes (staircase and sinusoidal) and two postures (supination or pronation) were used. The nonnegative matrix factorization (NMF) algorithm was adopted to decompose HD-sEMG into activation patterns and the corresponding time-varying coefficient vectors. The major activation pattern was used to select the appropriate sEMG channels for extracting the input signal of the force estimation model. In the testing phase, the elbow-flexion force estimation during arm posture dynamically changing between pronation and supination was conducted. HD-sEMG was also decomposed using NMF algorithm. In this case, the concept of the major activation pattern is no longer applicable because the activation areas of biceps brachii and brachialis vary with the change of arm posture. An improved channel selection scheme based on the ratio of activation intensities was presented to extract the input signal of the well-trained simplified Hill model., Main Results: (1) the improved channel selection scheme could locate effectively the primary muscle activation areas related to the change of arm posture; (2) the input signal extraction method based on the ratio of activation intensities obtained the best force estimation performance compared to the method based on all channels of HD-sEMG array and the method based on major activation pattern; (3) the force estimation performance was better when the simplified Hill model was calibrated with the sinusoidal force data rather than staircase data., Significance: This research provides an effective solution to realize muscle force estimation during a dynamic voluntary contraction task. It can be further extended to the research fields of biomechanics, sports, and rehabilitation medicine.

Published

2019

65. The Effectiveness of a Hinged Elbow Orthosis in Medial Collateral Ligament Injuries: An In Vitro Biomechanical Study.

Author

Manocha RHK, Johnson JA, and King GJW

Subjects

Aged, Aged, 80 and over, Athletic Injuries physiopathology, Biomechanical Phenomena, Cadaver, Exercise Therapy, Female, Forearm physiology, Humans, Joint Instability physiopathology, Male, Movement, Pronation physiology, Range of Motion, Articular, Rotation, Supination physiology, Braces, Collateral Ligaments injuries, Collateral Ligaments physiopathology, Elbow physiopathology, Joint Instability rehabilitation, Elbow Injuries

Abstract

Background: Medial collateral ligament (MCL) injuries are common after elbow trauma and in overhead throwing athletes. A hinged elbow orthosis (HEO) is often used to protect the elbow from valgus stress early after injury and during early return to play. However, there is minimal evidence regarding the efficacy of these orthoses in controlling instability and their influence on long-term clinical outcomes., Purpose: (1) To quantify the effect of an HEO on elbow stability after simulated MCL injury. (2) To determine whether arm position, forearm rotation, and muscle activation influence the effectiveness of an HEO., Study Design: Controlled laboratory study., Methods: Seven cadaveric upper extremity specimens were tested in a custom simulator that enabled elbow motion via computer-controlled actuators and motors attached to relevant tendons. Specimens were examined in 2 arm positions (dependent, valgus) and 2 forearm positions (pronation, supination) during passive and simulated active elbow flexion while unbraced and then while braced with an HEO. Testing was performed in intact elbows and repeated after simulated MCL injury. An electromagnetic tracking device measured valgus angulation as an indicator of elbow stability., Results: When the arm was dependent, the HEO increased valgus angle with the forearm in pronation (+1.0°± 0.2°, P = .003) and supination (+1.5°± 0.0°, P = .006) during active motion. It had no significant effect on elbow stability during passive motion. In the valgus position, the HEO had no effect on elbow stability during passive or active motion in pronation and supination. With the arm in the valgus position with the HEO, muscle activation reduced instability during pronation (-10.3°± 2.5°, P = .006) but not supination ( P = .61)., Conclusion: In this in vitro study, this HEO did not enhance mechanical stability when the arm was in the valgus and dependent positions after MCL injury., Clinical Relevance: After MCL injury, an HEO likely does not provide mechanical elbow stability during rehabilitative exercises or when the elbow is subjected to valgus stress such as occurs during throwing.

Published

2019

66. The biomechanical difference between running with traditional and 3D printed orthoses.

Author

Mo S, Leung SHS, Chan ZYS, Sze LKY, Mok KM, Yung PSH, Ferber R, and Cheung RTH

Subjects

Adult, Athletic Injuries prevention & control, Biomechanical Phenomena, Exercise Test, Female, Gait physiology, Humans, Perception, Pronation physiology, Running injuries, Orthotic Devices, Personal Satisfaction, Printing, Three-Dimensional, Prosthesis Design, Running physiology

Abstract

Running-related injuries have been associated with excessive foot pronation and high vertical loading rates. Traditional plaster-molded (TPM) foot orthoses are commonly prescribed to minimize these atypical biomechanical patterns. Recently, 3D printed (3DP) orthoses have become popular, yet the functional difference between these two types of orthoses remains unknown. Therefore, this study compared running biomechanics and perceived comfort during treadmill running in three orthotic conditions: 3DP orthoses, TPM orthoses, and a no-orthoses control condition (CON). Thirteen female asymptomatic runners with excessive foot pronation were recruited. Rearfoot eversion angle and velocity (at initial contact and peak) during stance, vertical loading rates, and perceived comfort were compared. Results showed lower peak rearfoot eversion angles during running with TPM ( p =0.001, d =0.38) or 3DP orthoses ( p =0.002, d =0.24) than CON. No differences were observed in other biomechanical parameters among the three conditions ( p >0.05). Running with TPM ( p ≤0.001, d =1.74-1.82) and 3DP orthoses ( p <0.003, d =1.06-1.34) resulted in better perceived comfort in "medial-lateral control" and "heel cushioning" than CON. There were no statistical differences in all parameters between TPM and 3DP orthoses. The present findings indicate improved comfort during running with TPM or 3DP orthoses, which hinted 3DP orthoses could be a viable alternative to TPM orthoses for clinical practice.

Published

2019

67. Self-measured wrist range of motion by wrist-injured and wrist-healthy study participants using a built-in iPhone feature as compared with a universal goniometer.

Author

Modest J, Clair B, DeMasi R, Meulenaere S, Howley A, Aubin M, and Jones M

Subjects

Adult, Aged, Cohort Studies, Cross-Sectional Studies, Female, Healthy Volunteers, Humans, Male, Middle Aged, Pronation physiology, Supination physiology, Young Adult, Arthrometry, Articular instrumentation, Mobile Applications, Range of Motion, Articular physiology, Smartphone, Wrist Joint physiopathology

Abstract

Study Design: Cross-sectional cohort., Introduction: Smartphone gyroscope and goniometer applications have been shown to be a reliable way to measure wrist ROM when used by researchers or trained staff. If wrist-injured patients could reliably measure their own ROM, rehabilitation efforts could be more effectively tailored., Purpose of the Study: To assess agreement of self-measured ROM by wrist-injured and wrist-healthy study participants using a built-in iPhone 5 level feature as compared to researcher-measured ROM using a universal goniometer (UG)., Methods: Thirty wrist-healthy and 30 wrist-injured subjects self-measured wrist flexion, extension, supination, and pronation ROM using the built-in preinstalled digital level feature on an iPhone 5. Simultaneously a researcher measured ROM with a UG., Results: Average absolute deviation between the self-measured iPhone 5 level feature and researcher-measured UG ROM was less than 2° for all 4 movements individually and combined was found to be 1.6° for both populations. Intraclass correlation coefficient showed high correlation with values over 0.94 and Bland-Altman plots showed very strong agreement. There was no statistical difference in the ability of wrist-injured and healthy patients to self-measure wrist ROM., Discussion: Both populations showed very high agreement between their self-measured ROM using the built-in level feature on an iPhone 5 and the researcher-measured ROM using the UG. Both populations were able to use the iPhone self-measurement equally well and the injury status of the subject did not affect the agreement results., Conclusion: Wrist-healthy and wrist-injured subjects were able to reliably and independently measure ROM using a smartphone level feature., (Copyright © 2018 Hanley & Belfus. Published by Elsevier Inc. All rights reserved.)

Published

2019

68. Foot hyperpronation alters lumbopelvic muscle function during the stance phase of gait.

Author

Yazdani F, Razeghi M, Karimi MT, Salimi Bani M, and Bahreinizad H

Subjects

Adult, Biomechanical Phenomena, Female, Humans, Low Back Pain physiopathology, Walking physiology, Young Adult, Foot physiology, Gait physiology, Lumbosacral Region physiology, Muscle, Skeletal physiology, Pelvis physiology, Pronation physiology

Abstract

Background: Although altered muscular control of the lumbopelvic region is one of the main risk factors for the development of low back pain and dysfunction, the influence of abnormal foot posture on lumbopelvic muscular function has not been investigated., Research Question: To determine possible functional changes due to hyperpronation in the main muscles that control the lumbopelvic segment., Methods: Kinematic and kinetic data were collected from 15 persons with hyperpronated feet and compared to a control group of 15 persons with normally aligned feet during the stance phase of gait. A generic OpenSim musculoskeletal model was scaled for each participant. A computed muscle control approach was used to produce a forward dynamic simulation of walking to determine muscle function., Results: In the hyperpronation group significantly greater peak forces were observed in the erector spinae, iliopsoas and abdominals compared to controls. The former group showed peak latencies for abdominal muscles during early stance, and for erector spinae muscles during both early and late stance. No significant between-group differences were found in gluteus maximus muscle activation in the stance phase of gait., Significance: Abnormal foot pronation can change the timing and intensity of lumbopelvic muscle activation. These changes may predispose people to develop secondary dysfunctions., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

69. Effects of medially wedged insoles on the biomechanics of the lower limbs of runners with excessive foot pronation and foot varus alignment.

Author

Braga UM, Mendonça LD, Mascarenhas RO, Alves COA, Filho RGT, and Resende RA

Subjects

Adult, Ankle Joint physiology, Biomechanical Phenomena, Female, Hip Joint physiology, Humans, Kinetics, Knee Joint physiology, Male, Middle Aged, Principal Component Analysis, Range of Motion, Articular, Foot physiology, Foot Orthoses, Lower Extremity physiology, Pronation physiology, Running physiology, Shoes

Abstract

Background: Excessive foot pronation during running in individuals with foot varus alignment may be reduced by medially wedged insoles., Research Question: This study investigated the effects of a medially wedged insole at the forefoot and at the rearfoot on the lower limbs angles and internal moments of runners with excessive foot pronation and foot varus alignment., Methods: Kinematic and kinetic data of 19 runners (11 females and 8 males) were collected while they ran wearing flat (control condition) and medially wedged insoles (insole condition). Both insoles had arch support. We used principal component analysis for data reduction and dependent t-test to compare differences between conditions., Results: The insole condition reduced ankle eversion (p = 0.003; effect size = 0.63); reduced knee range of motion in the transverse plane (p = 0.012; effect size = 0.55); increased knee range of motion in the frontal plane in early stance and had earlier knee adduction peak (p = 0.018; effect size = 0.52); reduced hip range of motion in the transverse plane (p = 0.031; effect size = 0.48); reduced hip adduction (p = 0.024; effect size = 0.50); reduced ankle inversion moment (p = 0.012; effect size = 0.55); and increased the difference between the knee internal rotation moment in early stance and midstance (p = 0.012; effect size = 0.55)., Significance: Insoles with 7˚ medial wedges at the forefoot and rearfoot are able to modify motion and moments patterns that are related to lower limb injuries in runners with increased foot pronation and foot varus alignment with some non-desired effects on the knee motion in the frontal plane., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

70. Ground reaction forces and muscle activity while walking on sand versus stable ground in individuals with pronated feet compared with healthy controls.

Author

Jafarnezhadgero A, Fatollahi A, Amirzadeh N, Siahkouhian M, and Granacher U

Subjects

Electromyography, Female, Humans, Male, Muscle, Skeletal physiopathology, Sand, Weight-Bearing physiology, Young Adult, Foot Deformities physiopathology, Gait physiology, Lower Extremity physiopathology, Pronation physiology, Walking physiology

Abstract

Background: Sand is an easy-to-access, cost-free resource that can be used to treat pronated feet (PF). Therefore, the aims of this study were to contrast the effects of walking on stable ground versus walking on sand on ground reaction forces (GRFs) and electromyographic (EMG) activity of selected lower limb muscles in PF individuals compared with healthy controls., Methods: Twenty-nine controls aged 22.2±2.5 years and 30 PF individuals aged 22.2±1.9 years were enrolled in this study. Participants walked at preferred speed and in randomized order over level ground and sand. A force plate was included in the walkway to collect GRFs. Muscle activities were recorded using EMG system., Results: No statistically significant between-group differences were found in preferred walking speed when walking on stable ground (PF: 1.33±0.12 m/s; controls: 1.35±0.14 m/s; p = 0.575; d = 0.15) and sand (PF: 1.19±0.11 m/s; controls: 1.23±0.18 m/s; p = 0.416; d = 0.27). Irrespective of the group, walking on sand (1.21±0.15 m/s) resulted in significantly lower gait speed compared with stable ground walking (1.34±0.13 m/s) (p<0.001; d = 0.93). Significant main effects of "surface" were found for peak posterior GRFs at heel contact, time to peak for peak lateral GRFs at heel contact, and peak anterior GRFs during push-off (p<0.044; d = 0.27-0.94). Pair-wise comparisons revealed significantly smaller peak posterior GRFs at heel contact (p = 0.005; d = 1.17), smaller peak anterior GRFs during push-off (p = 0.001; d = 1.14), and time to peak for peak lateral GRFs (p = 0.044; d = 0.28) when walking on sand. No significant main effects of "group" were observed for peak GRFs and their time to peak (p>0.05; d = 0.06-1.60). We could not find any significant group by surface interactions for peak GRFs and their time to peak. Significant main effects of "surface" were detected for anterior-posterior impulse and peak positive free moment amplitude (p<0.048; d = 0.54-0.71). Pair-wise comparisons revealed a significantly larger peak positive free moment amplitude (p = 0.010; d = 0.71) and a lower anterior-posterior impulse (p = 0.048; d = 0.38) when walking on sand. We observed significant main effects of "group" for the variable loading rate (p<0.030; d = 0.59). Pair-wise comparisons revealed significantly lower loading rates in PF compared with controls (p = 0.030; d = 0.61). Significant group by surface interactions were observed for the parameter peak positive free moment amplitude (p<0.030; d = 0.59). PF individuals exhibited a significantly lower peak positive free moment amplitude (p = 0.030, d = 0.41) when walking on sand. With regards to EMG, no significant main effects of "surface", main effects of "group", and group by surface interactions were observed for the recorded muscles during the loading and push-off phases (p>0.05; d = 0.00-0.53)., Conclusions: The observed lower velocities during walking on sand compared with stable ground were accompanied by lower peak positive free moments during the push-off phase and loading rates during the loading phase. Our findings of similar lower limb muscle activities during walking on sand compared with stable ground in PF together with lower free moment amplitudes, vertical loading rates, and lower walking velocities on sand may indicate more relative muscle activity on sand compared with stable ground. This needs to be verified in future studies., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

71. Forearm Shortening Impact on Pronation and Supination.

Author

Schnapp L, Colakoglu S, Couceiro J, Oron A, Brock G, and Banegas RN

Subjects

Cadaver, Humans, Male, Rotation, Forearm physiology, Osteotomy, Pronation physiology, Radius surgery, Supination physiology, Ulna surgery

Abstract

Background: Shortening has been described to treat severely mangled extremities, replantations and nonunions. Outcomes after this procedure in the forearm are vaguely described. This study addresses how the forearm rotation is affected by: (1) location of the shortening; (2) the amount of the shortening at different locations. Methods: Nine fresh cadaveric forearms were dissected preserving intact proximal and distal radio ulnar joints and interosseous membrane. The widest point of the interosseous space and its location over the ulna were measured, defining the peak interosseous distance (PID) and the peak interosseous distance level (PIDL). Stabilization and fixation of the specimens were performed by using a platform and external fixators. Consecutive ostectomies were performed within one centimeter intervals at the distal, middle and proximal forearm thirds. A repeated measures mixed-effects (RMME) specific model was designed for the statistical analysis. Results: Before intervention, the average full forearm rotation was 157° (101-185), supination 80° (56-90)/pronation 77° (45-95). The average PID was 15.6 mm in supination and 12.5 mm in pronation. The PIDP were 52.2% and 58.3% of the ulna length in supination and pronation, respectively. The rotation lost were: middle third 5.31°/cm in supination and 6.12°/cm in pronation, distal third 1.62°/cm in supination and 2.20°/cm in pronation, the proximal third was not affected by up to 5 cm of shortening. Conclusions: These data suggest that shortening of the middle and distal third of the forearm might have more significant adverse effect on forearm rotation compared with the proximal third.

Published

2019

72. The relationship between supination resistance and the kinetics and kinematics of the foot and ankle during gait.

Author

McBride S, Dixon P, Mokha M, and Samuel Cheng M

Subjects

Adolescent, Adult, Ankle, Biomechanical Phenomena, Female, Healthy Volunteers, Humans, Kinetics, Male, Middle Aged, Posture, Range of Motion, Articular, Weight-Bearing, Young Adult, Ankle Joint physiology, Foot physiology, Gait physiology, Pronation physiology, Supination physiology

Abstract

Background: Clinical tests of foot posture and mobility are not strongly related to the dynamic kinematics of the foot during gait. These measures may be more directly related to foot and ankle kinetics. The supination resistance test (SRT) is a clinical test that may more directly measure forces acting on the weightbearing foot to provide clinicians with insight about the loading of foot structures., Research Question: What is the relationship between the SRT in relaxed calcaneal stance and in single-leg-stance and the kinetics and kinematics of the foot and ankle during gait?, Methods: 10 healthy adults between the ages of 18 and 65 were recruited to participate in this study. Three-dimensional motion analysis was performed using the Oxford Foot Model during gait. The results of the SRT were compared with peak midfoot and ankle joint moments, power generation and absorption, joint angles, and peak angular velocities and accelerations. Correlation coefficients were calculated to assess the strength of relationships between these variables and the SRT., Results: The SRT demonstrated significant relationships with several variables. In relaxed calcaneal stance, the SRT was inversely related to maximum midfoot pronation moments (r = -0.51), maximum midfoot plantarflexion moments (rho = -0.71), and peak midfoot power generation (r = -0.61). In single-leg-stance, the SRT was significantly related to maximum midfoot plantarflexion moments (rho = -0.55) and peak midfoot power generation (r = -0.47)., Significance: The SRT is significantly associated to several kinetic variables that quantify midfoot loading during gait. Interventions that decrease supination resistance may have the potential to increase midfoot power generation., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

73. Measurement of thumb pronation and palmar abduction angles with a small motion sensor: a comparison with Kapandji scores.

Author

Kuroiwa T, Nimura A, Suzuki S, Sasaki T, Okawa A, and Fujita K

Subjects

Accelerometry, Aged, Case-Control Studies, Female, Humans, Male, Middle Aged, Carpal Tunnel Syndrome physiopathology, Pronation physiology, Range of Motion, Articular physiology, Thumb physiopathology

Abstract

The Kapandji score is used widely to record thumb opposition and is the only alternative to angular measurements. We aimed to verify the extent to which the Kapandji score reflects the angle of pronation. We recruited volunteers with unaffected upper limbs (33 hands) and patients with carpal tunnel syndrome (20 hands). We attached a small gyroscope to the thumb metacarpal and measured the pronation and palmar abduction angles at each position of the Kapandji score in both groups. The Kapandji score showed a strong ceiling effect, and the increase in angle size at each Kapandji score levelled off around a score of 6 in both groups. A Kapandji score greater than 6 does not necessarily reflect thumb opposition. Level of Evidence: III.

Published

2019

74. Lateral Trochlear Ridge: A Non-Articulating Zone for Anterior-to-Posterior Screw Placement in Fractures Involving the Capitellum and Trochlea.

Author

Matache BA, Culliton K, Chang Y, Cron GO, Louati H, and Pollock JW

Subjects

Biomechanical Phenomena, Cadaver, Female, Fracture Fixation, Internal methods, Humans, Intra-Articular Fractures surgery, Male, Observer Variation, Pronation physiology, Range of Motion, Articular physiology, Sensitivity and Specificity, Supination physiology, Elbow Injuries, Bone Screws, Elbow Joint surgery, Fracture Fixation, Internal instrumentation, Humeral Fractures surgery

Abstract

Background: Coronal shear fractures of the distal aspect of the humerus that involve the capitellum and the trochlea are rare; nevertheless, they are difficult to treat because of the complex fracture patterns and osteochondral nature of the fragments, limiting optimal screw placement. The use of anterior-to-posterior screw fixation by a lag technique (without countersinking) could potentially improve the strength of the construct. Our primary research question was to anatomically determine if there is a non-articulating zone for screw placement along the anterior aspect of the lateral trochlear ridge (aLTR) throughout normal elbow range of motion., Methods: Eight fresh-frozen cadaveric elbows were used. The region of interest was defined with 3 polymeric pins inserted in the inferior, middle, and superior-most aspects of the aLTR of each elbow, with use of an extensor digitorum communis (EDC) split approach. The elbows were then mounted on a magnetic resonance imaging (MRI)-compatible compression frame and subjected to high-resolution 7-T MRI at 90°, 120°, and 145° of flexion (positions of potential impingement), and at neutral and maximal pronation and maximal supination for each position of flexion. Portions of the aLTR that had free adjacent space were identified using the sagittal and coronal scans. This non-articulating region was identified as the "non-articulating zone" (NAZ)., Results: The NAZ was found to encompass the proximal 38.2% (range, 30.2% to 48.9%) of the aLTR, measuring, on average, 5.2 mm in width. It was consistently located either directly adjacent to the apex of the ridge or just medial to it. The distal 61.8% of the aLTR articulated with either the ulna or the radial head in some of the elbows., Conclusions: Our results suggest that there is a portion of the aLTR that, despite being covered with articular cartilage, is non-articulating throughout normal elbow range of motion., Clinical Relevance: In situations in which headless anterior-to-posterior and posterior-to-anterior screw insertion results in inadequate fixation of capitellar-trochlear fractures, anterior-to-posterior lag screw instrumentation along the non-articulating portion of the aLTR may provide a location for additional fixation in some patients. However, because of variation between patients, each case must be individualized.

Published

2019

75. Toward the Development of Data-Driven Diagnostic Subgroups for People With Patellofemoral Pain Using Modifiable Clinical, Biomechanical, and Imaging Features.

Author

Drew BT, Conaghan PG, Smith TO, Selfe J, Hensor EMA, Dube B, Grainger AJ, and Redmond AC

Subjects

Adult, Biomechanical Phenomena, Cluster Analysis, Female, Foot physiology, Humans, Longitudinal Studies, Magnetic Resonance Imaging, Male, Muscle Strength physiology, Muscle, Skeletal physiopathology, Pain Measurement, Patellofemoral Pain Syndrome physiopathology, Patellofemoral Pain Syndrome therapy, Patient Reported Outcome Measures, Prognosis, Pronation physiology, Treatment Outcome, Patellofemoral Pain Syndrome classification, Patellofemoral Pain Syndrome diagnosis

Abstract

Background: Unfavorable treatment outcomes for people with patellofemoral pain (PFP) have been attributed to the potential existence of subgroups that respond differently to treatment., Objectives: This study aimed to identify subgroups within PFP by combining modifiable clinical, biomechanical, and imaging features and exploring the prognosis of these subgroups., Methods: This was a longitudinal cohort study, with baseline cluster analyses. Baseline data were analyzed using a 2-stage cluster analysis; 10 features were analyzed within 4 health domains before being combined at the second stage. Prognosis of the subgroups was assessed at 12 months, with subgroup differences reported as global rating of change and analyzed with an exploratory logistic regression adjusted for known confounders., Results: Seventy participants were included (mean age, 31 years; 43 [61%] female). Cluster analysis revealed 4 subgroups: "strong," "pronation and malalignment," "weak," and "active and flexible." Descriptively, compared to the strong subgroup (55% favorable), the odds of a favorable outcome were lower in the weak subgroup (31% favorable; adjusted odds ratio [OR] = 0.30; 95% confidence interval [CI]: 0.07, 1.36) and the pronation and malalignment subgroup (50%; OR = 0.64; 95% CI: 0.11, 3.66), and higher in the active and flexible subgroup (63%; OR = 1.24; 95% CI: 0.20, 7.51). After adjustment, compared to the strong subgroup, differences between some subgroups remained substantive, but none were statistically significant., Conclusion: In this relatively small cohort, 4 PFP subgroups were identified that show potentially different outcomes at 12 months. Further research is required to determine whether a stratified treatment approach using these subgroups would improve outcomes for people with PFP., Level of Evidence: Diagnosis, level 2b. J Orthop Sports Phys Ther 2019;49(7):536-547. doi:10.2519/jospt.2019.8607 .

Published

2019

76. An alternative static progressive orthosis for forearm pronation and supination.

Author

Bai Z, Shu T, Hao Y, and Niu W

Subjects

Forearm physiopathology, Humans, Pronation physiology, Rotation, Supination physiology, Equipment Design, Orthotic Devices

Published

2019

77. Biomechanical Analysis of Capsular Repair Versus Arthrex TFCC Ulnar Tunnel Repair for Triangular Fibrocartilage Complex Tears.

Author

Johnson JC, Pfeiffer FM, Jouret JE, and Brogan DM

Subjects

Aged, Arthroscopy methods, Cadaver, Female, Forearm diagnostic imaging, Forearm physiology, Humans, Joint Instability surgery, Male, Postoperative Complications epidemiology, Pronation physiology, Supination physiology, Tears, Triangular Fibrocartilage pathology, Ulna physiology, Ulna surgery, Wrist Joint surgery, Biomechanical Phenomena physiology, Forearm surgery, Joint Capsule surgery, Triangular Fibrocartilage surgery

Abstract

Background: This study compares the effectiveness of a peripheral capsular repair with a knotless arthroscopic transosseous ulnar tunnel repair (TR) in restoring distal radioulnar joint (DRUJ) stability and stiffness in the setting of a massive triangular fibrocartilage complex (TFCC) tear. Methods: Eight matched pairs of fresh-frozen cadaveric forearms were tested. Each forearm was tested in supination and pronation using 3-dimensional (3D) optical tracking devices prior to any intervention. Each specimen then underwent a diagnostic wrist arthroscopy and sectioning of the TFCC's deep and superficial fibers. All specimens were then retested to assess instability secondary to the tear. The TFCC was repaired with either a peripheral capsular repair (CR) using three 2-0 polydioxanone sutures or a transosseous ulnar TR using a 2-0 FiberWire, and then retested (statistical significance; P < .05). Results: After TFCC arthroscopic sectioning, all specimens were unstable with a significant increase in translation and a significant decrease in stiffness. TFCC repair with TR resulted in displacement and stiffness similar to the native tissue. CR specimens were found to have significantly greater displacement and significantly decreased stiffness compared with the intact state. Conclusions: Arthroscopic sectioning of the TFCC resulted in DRUJ instability, as measured by stiffness and ulnar translation. TR effectively restored DRUJ stability and demonstrated no significant difference in postoperative stiffness or maximal displacement when compared with the intact specimen in pronation and supination. This study provides biomechanical evidence that an arthroscopic ulnar tunnel technique can restore stability to the DRUJ after a massive TFCC tear.

Published

2019

78. Optoelectronic measurement of wrist movements in various casts and orthoses used in scaphoid fractures.

Author

Waton A, Forrest S, and Whatling GM

Subjects

Adolescent, Adult, Healthy Volunteers, Humans, Middle Aged, Optical Devices, Optics and Photonics, Scaphoid Bone injuries, Young Adult, Casts, Surgical, Fractures, Bone therapy, Pronation physiology, Splints, Supination physiology, Wrist Joint physiology

Abstract

We developed an optoelectronic motion analysis protocol to measure anatomical and functional ranges of wrist motion in Colles'-type and scaphoid-type splints and casts. The protocol was used to study the restriction of wrist motion in casts and splints in ten healthy volunteers. Scaphoid-type casts were no more restrictive to wrist motion than Colles'-type casts, but casts were significantly more restrictive than removable splints. Removable splints were more restrictive than no immobilization. Results suggest there is no benefit in using scaphoid-type casts rather than Colles'-type casts to reduce wrist motion.

Published

2019

79. Effect of natural full weight-bearing during standing on the rotation of the first metatarsal bone.

Author

Ota T, Nagura T, Yamada Y, Yamada M, Yokoyama Y, Ogihara N, Matsumoto M, Nakamura M, and Jinzaki M

Subjects

Adult, Female, Humans, Male, Metatarsal Bones diagnostic imaging, Pronation physiology, Tomography, X-Ray Computed methods, Young Adult, Metatarsal Bones physiology, Rotation, Standing Position, Weight-Bearing

Abstract

To evaluate the rotational change in the first metatarsal bone (1MT) of the foot during natural standing using an upright computed tomography (CT) scanner with 320-detector rows. A total of 52 feet of 28 asymptomatic subjects (aged 23-39 years) were evaluated in the natural standing position with or without weight-bearing. A foot pressure plate was used to determine the non-weight-bearing (NWB) or single leg full-weight-bearing (s-FWB) conditions. CT examinations were performed using a noise index of 15 for a slice thickness of 5 mm, rotation speed of 0.5 sec, and slice thickness of 0.5 mm. The rotation of the 1MT was measured on the coronal CT image, which cut the sesamoids' bellies in the frontal slide of the first metatarsal and sesamoids perpendicular to the longitudinal bisection of the third metatarsal, and compared between the weight-bearing conditions. Intra- and inter-observer reliabilities of the rotation angle were also evaluated. The intra- and inter-observer correlation coefficients were 0.961 and 0.934, respectively. The 1MT pronation angle was significantly greater in the s-FWB condition than in the NWB condition (15.2° ± 5.4° vs. 12.5° ± 5.3°, P < 0.01). No sex difference was found in the magnitude of the 1MT pronation angle as a result of weight-bearing. This study first demonstrated that pronation of 1MT occurs due to natural full-weight-bearing in asymptomatic feet. The 1MT's rotational movement under weight-bearing conditions may relate to the onset and pathogenesis of the hallux valgus. Clin. Anat. 32:715-721, 2019. © 2019 Wiley Periodicals, Inc., (© 2019 Wiley Periodicals, Inc.)

Published

2019

80. Normal values of distal radioulnar translation assessed by three-dimensional C-arm scans: a cadaveric study.

Author

Swartman B, Benner L, Grechenig S, Franke J, Grützner PA, and Schnetzke M

Subjects

Aged, Aged, 80 and over, Cadaver, Cone-Beam Computed Tomography, Humans, Reference Values, Wrist Joint physiology, Imaging, Three-Dimensional, Pronation physiology, Supination physiology, Wrist Joint anatomy & histology, Wrist Joint diagnostic imaging

Abstract

We investigated whether mobile C-arm cone beam computer tomography (CBCT) could be used to measure radioulnar translation. The study was conducted on 31 Thiel-fixed intact cadaver arms. Three-dimensional scans of each wrist were carried out in pronation and supination. Four established measurement methods were used (radioulnar line, subluxation ratio, epicentre and radioulnar ratio methods) to measure radioulnar translation. The intraclass correlation coefficient for inter-observer and intra-observer reliability were excellent in three of four methods (>0.94). The reference ranges for physiological radioulnar translation were between -30% and 91% (radioulnar line method), -32% and 87% (subluxation ratio method), -40% and 23% (epicentre method), and 2% and 73% (radioulnar ratio method). Our results indicate that radioulnar translation in the distal radioulnar joint can be determined reliably using mobile C-arm CBCT. The normal values provide a basis for further experimental and clinical studies.

Published

2019

81. Benefits of Additional Procedures for Metacarpophalangeal Hyperextension on Simple Trapeziectomy in Thumb Basal Osteoarthritis: A Biomechanical Cadaver Study.

Author

Dumont CE and von Campe A

Subjects

Aged, Aged, 80 and over, Arthrodesis, Biomechanical Phenomena physiology, Cadaver, Female, Humans, Joint Capsule surgery, Male, Metacarpophalangeal Joint physiopathology, Osteoarthritis physiopathology, Pronation physiology, Supination physiology, Tendon Transfer, Thumb physiopathology, Carpometacarpal Joints physiopathology, Metacarpophalangeal Joint surgery, Osteoarthritis surgery, Thumb surgery, Trapezium Bone surgery

Abstract

Background: Patients with advanced osteoarthritis of the first carpometacarpal joint (CMC-1) may develop hyperextension of the first metacarpophalangeal joint (MCP-1). No clear clinical benefice has been reported consecutively to the surgical treatment of the MCP-hyperextension combined to a trapeziectomy. The reason of the missing benefit may be due to changes in the thumb position impairing the thumb stability secondary to the surgical procedures. We assessed changes in the transmission of forces at the thumb's end phalanx following a trapeziectomy combined with the surgical adjustment of the hyperextension of the MCP-1-joint in a biomechanical investigation using cadavers. Methods: The thumb muscles were loaded with nylon cables connected to a tension meter in 8 forearm cadavers. A 6-axis force sensor assessed the termino-lateral key-pinch orthogonal strength vectors at the level of the thumb distal phalanx prior to any surgery, and following a simple trapeziectomy, a trapeziectomy combined to a MCP-1-capsulodesis and the transfer of the extensor pollicis brevis over the metacarpal-1 head, or to an MCP-1-arthrodesis. Results: Combination of the trapeziectomy with the MCP-1- joint palmar capsulodesis and EPB-transfer or with a MCP-arthrodesis in neutral pronation-supination resulted in a significant shift of the thumb in pronation-abduction with respect to the preoperative assessment. The lowest shift was achieved when performing the arthrodesis in 20° supination or by overloading of the adductor pollicis. Conclusions: Combining the trapeziectomy with surgeries addressing the MCP-1-joint hyperextension induced a shift of the thumb in pronation-abduction that could impair the key-pinch stability. When considering additional procedures for MCP-1-joint hyperextension deformities, it should be recommended to fix the EPB-tendon on the radial aspect of the metacarpal head if a tendon transfer is considered, otherwise the MCP joint arthrodesis should be performed in supinated position, in order to achieve lateral key-pinch stability.

Published

2019

82. The effects of incremental ulnar styloid osteotomies on distal radioulnar joint stability: a biomechanical cadaveric study.

Author

Cheema AN, Dardas AZ, Hast MW, and Gray BL

Subjects

Aged, Aged, 80 and over, Biomechanical Phenomena physiology, Cadaver, Female, Humans, Male, Middle Aged, Pronation physiology, Rotation, Supination physiology, Osteotomy, Ulna surgery, Wrist Joint diagnostic imaging, Wrist Joint physiology

Abstract

The purpose of this study was to systematically quantify distal radioulnar joint stability with a cadaveric model, using radiographic and joint contact force measurements. Six fresh-frozen cadavers underwent sequential ulnar styloid osteotomies. Posteroanterior and lateral stress radiographs were obtained and joint contact forces and areas were measured. Posteroanterior radiographs showed a significant increase in the distal radioulnar joint gap after osteotomy of the base of the ulnar styloid. Contact force and contact area measurements were not significantly different. We conclude that fractures that involve the ulnar styloid base should be considered for operative fixation when carrying out open reduction and internal fixation of fractures of the distal radius.

Published

2019

83. During forearm rotation the three-dimensional ulnolunate distance is affected more by translation of the ulnar head than change in ulnar variance.

Author

Shin SH, Lee YS, Choi KY, Kwak DS, and Chung YG

Subjects

Adult, Aged, Female, Forearm physiology, Humans, Lunate Bone physiology, Male, Middle Aged, Pronation physiology, Supination physiology, Tomography, X-Ray Computed, Ulna physiology, Imaging, Three-Dimensional, Lunate Bone diagnostic imaging, Rotation, Ulna diagnostic imaging

Abstract

Ulnolunate abutment has been thought to be aggravated by pronation because of an increase in ulnar variance. We hypothesized that the ulnolunate distance might be greater in pronation because the ulnar head is dorsally translated. Twenty-one three-dimensional reconstructions of computed tomographic scans of wrists taken in supination and pronation were investigated. The ulnolunate distance was measured in each position, and the change in ulnolunate distance from supination to pronation was calculated. The changes in ulnar variance from supination to pronation and the amount of translation of the ulnar head were measured directly by superimposing three-dimensional reconstructions. The mean ulnolunate distance in pronation was significantly greater than in supination. There was no significant correlation between the changes in ulnolunate distance and in the ulnar variance. The change in ulnolunate distance had a significant positive linear relationship with the amount of translation of the ulnar head. The change in ulnolunate distance during forearm rotation is determined by the amount of translation of the ulnar head rather than by change in ulnar variance. Level of evidence: IV.

Published

2019

84. The Effect of Distal Radius Fracture Location on Distal Radioulnar Joint Stability: A Cadaveric Study.

Author

Trehan SK, Gould HP, Meyers KN, and Wolfe SW

Subjects

Cadaver, Humans, Interosseous Membrane anatomy & histology, Osteotomy, Pronation physiology, Radius surgery, Supination physiology, Joint Instability physiopathology, Radius Fractures physiopathology, Wrist Joint physiopathology

Abstract

Purpose: To investigate whether the location of distal radius osteotomy/shortening relative to the radial insertion of the distal interosseous membrane (DIOM) is correlated with distal radioulnar joint (DRUJ) instability. We hypothesized that distal radius osteotomy and shortening proximal to the DIOM insertion would result in increased DRUJ instability because of induced laxity in the DIOM., Methods: Osteotomies of the distal radius were performed proximal and distal to the DIOM insertion in 14 fresh-frozen cadaveric specimens. Using a volar plate, 5 conditions were tested: anatomical radius alignment; 2- and 4-mm shortening at the proximal osteotomy site; and 2- and 4-mm shortening at the distal osteotomy site. Basilar ulnar styloid osteotomy was performed to simulate triangular fibrocartilage complex (TFCC) detachment-specimens were tested with the ulnar styloid detached and the ulnar styloid fixed (to restore normal anatomy). The DRUJ stability was quantified using dorsal-volar displacement of the radius in response to 20 N of force using a force-displacement probe in neutral, pronation, and supination. Posttesting specimen dissections assessed DIOM and distal oblique bundle (DOB) anatomy. The DRUJ stability in each experimental condition was compared with a multifactor repeated measures analysis of variance with the specimen treated as the repeated factor., Results: There were no significant differences in dorsal-volar translation of the radius (ie, DRUJ stability) between radial osteotomy/shortening proximal and distal to the DIOM insertion, regardless of forearm rotational position or magnitude of shortening. Five (36%) of the 14 specimens had a DOB present. There was a significant increase in DRUJ instability in the setting of TFCC detachment (via basilar ulnar styloid osteotomy)., Conclusions: No difference in DRUJ stability was observed between distal radius osteotomy/shortening proximal and distal to the DIOM radial insertion, regardless of forearm rotation, magnitude of shortening, and/or TFCC detachment., Clinical Relevance: Distal radius osteotomy and shortening did not affect DRUJ stability regardless of location relative to the DIOM insertion., (Copyright © 2019 American Society for Surgery of the Hand. Published by Elsevier Inc. All rights reserved.)

Published

2019

85. Can short-term effectiveness of anti-pronation taping predict the long-term outcomes of customized foot orthoses: developing predictors to identify characteristics of patients with plantar heel pain likely to benefit from customized foot orthoses.

Author

Wu FL, Shih YF, Lee SH, Luo HJ, and Wang WT

Subjects

Adult, Female, Heel, Humans, Male, Middle Aged, Pain physiopathology, Pain Measurement, Prognosis, Pronation physiology, Prospective Studies, Treatment Outcome, Ankle Joint physiopathology, Athletic Tape, Foot Orthoses, Pain diagnosis, Pain Management instrumentation

Abstract

Background: Foot orthoses are widely used to manage plantar heel pain (PHP). However, the evidence concerning the effect of foot orthoses on PHP is not conclusive. The study aims to identify the characteristics of patients with PHP likely to achieve a positive outcome after customized foot orthoses and to verify the concept that patients who respond positively to anti-pronation taping would achieve a positive prognosis after wearing foot orthoses for six months., Methods: This is a prospective observational cohort study. Seventy-four patients with PHP underwent a baseline examination and received anti-pronation taping to their painful feet. The taping effects on pain and function were assessed at the 7-day follow-up visit. Then, all patients received an intervention for their PHP with customized foot orthoses for six months. Outcome was assessed with a numeric pain rating scale, the patient-specific functional scale, the foot function index, and the global rating of perceived change. Significant reduction of pain, increase of function, and perception of a meaningful improvement were considered a positive response., Results: Of 74 patients, 49 had a positive response to the customized foot orthosis treatment. Five predictors were identified: (1) the average pain intensity decreased by over 1.5 points with taping, (2) the range of ankle plantarflexion > 54 degrees, (3) the strength of ankle plantarflexors on the symptomatic side was equal to or stronger than that on the other side, (4) the range of hip internal rotation < 39 degrees, and (5) the range of hip external rotation > 45 degrees. The presence of three or more predictors increased the rate of achieving positive outcome from 66 to 89%., Conclusions: The predictors of customized foot orthosis outcome in patients with PHP are related to several physical measures of a lower extremity. Findings of the study can be used to screen and select patients with PHP for foot orthosis intervention. Moreover, patients who respond positively to anti-pronation taping would also benefit from the customized foot orthoses. However, since there was no control group in the current study, it is inappropriate to draw conclusions about the effectiveness of the foot orthoses treatment., Trial Registration: The trial was retrospectively registered with the Australian and New Zealand Clinical Trials Registry (ACTRN 12617000119392 ).

Published

2019

86. Immediate improvements of supination range of motion and strength following pronator teres muscle friction massage: a clinical trial comparing people with and without supination limited motion.

Author

Kim JH, Hwang UJ, Jung SH, Gwak GT, and Kwon OY

Subjects

Adult, Biomechanical Phenomena, Female, Forearm physiopathology, Forearm Injuries physiopathology, Friction, Humans, Male, Muscle Strength physiology, Muscle, Skeletal physiology, Pronation physiology, Treatment Outcome, Young Adult, Forearm Injuries therapy, Massage methods, Range of Motion, Articular, Supination physiology

Abstract

Objectives: To investigate the effects of friction massage techniques on the pronator teres muscle on supination range of motion (ROM) and supinator strength in individuals with and without limited supination ROM., Methods: In total, 26 subjects (13 with limited supination ROM and 13 healthy subjects) volunteered to participate in this study. We used a customized wrist cuff. Supination ROM and supinator strength were measured with a 9-axis inertial motion sensor and load cell. The friction massage protocol was executed with the pronator teres muscle in a relaxed position. Then supination ROM and supinator strength were measured again., Results: There was no significant interaction effect on supination ROM, which was significantly greater in the limited supination and control groups. A post hoc t-test revealed that the limited supination group achieved a significantly increased post-test supination ROM (51.7 ± 7.8°) compared to the pre-test value (43.6 ± 5.2°). In addition, the control group achieved a significant increase in post-test supination ROM (67.7 ± 10.0°) compared to the pre-test value (61.4 ± 7.7°). There was no significant interaction effect on supinator strength. Supinator strength was significantly greater in the limited supination and control groups. A post hoc t-test revealed a significant difference in supinator strength between the pre- and post-test values in the limited supination group., Discussion: Friction massage helps restore a limited ROM of the forearm supination motion and immediately increases supinator muscle strength. This technique can be used as an intervention method to improve muscle strength in patients with limited supination ROM.

Published

2019

87. Salter-Harris II Ankle Fractures in Children: Does Fracture Pattern Matter?

Author

Binkley A, Mehlman CT, and Freeh E

Subjects

Ankle Fractures diagnosis, Ankle Joint diagnostic imaging, Child, Female, Follow-Up Studies, Humans, Male, Radiography, Retrospective Studies, Ankle Fractures surgery, Ankle Joint physiopathology, Fracture Fixation, Internal methods, Pronation physiology, Range of Motion, Articular physiology, Supination physiology

Abstract

Objectives: To determine the correlation of Salter-Harris II fracture patterns with premature physeal closure (PPC) and resultant angular deformity of the ankle., Design: Retrospective review., Setting: Cincinnati Children's Hospital Medical Center (outpatient level of care)., Patients/participants: We searched the digital ankle radiographs taken at our institution from 2001 to 2010, identifying all skeletally immature patients with confirmed ankle fractures., Intervention: Fracture patterns were subclassified according to the Dias-Tachdjian classification system. Only patients with a minimum of 6 months of follow-up were included., Main Outcome Measures: Rates of PPC, initial operative interventions, subsequent surgical interventions, and final angular deformities of the ankle in the coronal plane were recorded and considered significant if more than 10 degrees., Results: One hundred forty-one patients met our criteria. Fifty-two pronation-external rotation (PER) injuries, 35 supination-external rotation (SER) injuries, and 54 supination-plantar flexion (SPF) injuries were included. Of the PER injuries, 15 (28.8%) PPCs occurred with 6 patients having a resultant angular deformity of the ankle of at least 10 degrees at latest follow-up. Thirteen (24.1%) of the SPF patients went on to PPC with no resultant angular deformities. Of the SER injuries, 4 (11.4%) went on to PPC also with no patients having resultant angular deformities. The PER group had a statistically significantly higher rate of resultant angular deformity (P = 0.021)., Conclusions: Salter-Harris II fractures of the ankle are common in children, with fracture pattern directly related to PPC and the chance for angular deformity. PER injuries are more likely to have a PPC associated with an angular deformity compared with SER and supination-plantar flexion injuries. The odds ratio of having an angular deformity with PER injuries compared with SER and SPF injuries is 25., Significance: Fracture pattern of the ankle is related to growth disturbance, which must be taken into consideration when treating these injuries and addressed with the patient and family., Level of Evidence: Prognostic Level III. See Instructions for Authors for a complete description of levels of evidence.

Published

2019

88. Rethinking Dynamic Knee Valgus and Its Relation to Knee Injury: Normal Movement Requiring Control, Not Avoidance.

Author

Dischiavi SL, Wright AA, Hegedus EJ, and Bleakley CM

Subjects

Biomechanical Phenomena, Humans, Pelvis physiology, Pronation physiology, Risk Factors, Rotation, Task Performance and Analysis, Torso physiology, Athletic Injuries physiopathology, Knee physiology, Knee Injuries physiopathology, Movement physiology

Abstract

The risk of knee injury in sport may be related to deviations in lower-limb alignment. An example of biomechanical deviation is dynamic knee valgus, considered by many to be one of the most important predictors of serious knee injury; however, the predictive validity of commonly used screening tests for dynamic knee valgus has recently been questioned. In this Viewpoint, the authors argue that assessing the risk of knee injury is complex and endeavor to present pelvic pronation and system tension as a 3-D construct to consider during physical assessments and exercise design, and to recognize dynamic knee valgus as a normal and necessary response to ground reaction forces. J Orthop Sports Phys Ther 2019;49(4):216-218. doi:10.2519/jospt.2019.0606.

Published

2019

89. Additional Dorsal Fibrocartilage Repair in a Combined Radial Collateral Ligament and Dorsal Fibrocartilage Injury of the Thumb Metacarpophalangeal Joint.

Author

Kim BS, Doermann A, McGarry M, Akeda M, Ihn H, and Lee TQ

Subjects

Aged, Cadaver, Collateral Ligaments injuries, Female, Humans, Joint Dislocations surgery, Joint Instability surgery, Male, Middle Aged, Pronation physiology, Wrist Joint surgery, Collateral Ligaments surgery, Fibrocartilage surgery, Metacarpophalangeal Joint surgery, Orthopedic Procedures methods, Thumb surgery

Abstract

The purpose of this study was to evaluate the necessity of an additional dorsal fibrocartilage (DFC) repair in combined radial collateral ligament (RCL) and DFC injuries of the thumb metacarpophalangeal joint (MPJ). Eight cadaveric thumbs were used. Ulnar/radial deviation, prosupination, and volar/dorsal laxity were measured. Serial sectioning was performed of the RCL and the DFC. The RCL followed by the DFC were then reattached sequentially. Measurements were performed for intact, RCL cut, RCL+DFC cut, RCL repair alone, and RCL+DFC repair. The neutral position shifted ulnarly, pronated, and subluxed volarly after RCL+DFC cut. Volar subluxation was reduced with RCL+DFC repair compared with RCL repair alone. With external loading, ulnar deviation, pronation, and volar laxity increased significantly after RCL+DFC cut. Ulnar deviation reduced significantly with RCL+DFC repair (12.4°, 10.8°, and 10.9°) compared with RCL repair alone (14.4°, 14.3°, and 18.9°) at 0°, 30°, and 60°, respectively. Pronation reduced significantly with RCL+DFC repair (7.1° and 9.4°) compared with RCL repair alone (10.2° and 12.6°) at 0° and 30°, respectively. Volar subluxation reduced significantly with RCL+DFC repair (0.9 mm and 1.2 mm) compared with RCL repair alone (2.1 mm and 1.8 mm) at 30°and 60°, respectively. Radial collateral ligament repair alone does not restore anatomic dorsoradial stability of the thumb MPJ in a combined RCL and DFC injury. Combined repair of the RCL and the DFC is recommended to reduce the MPJ to its native position and minimize postoperative laxity. [Orthopedics. 2019; 42(2):e268-e272.]., (Copyright 2019, SLACK Incorporated.)

Published

2019

90. An analysis of the foot in turnout using a dance specific 3D multi-segment foot model.

Author

Carter SL, Bryant AR, and Hopper LS

Subjects

Adolescent, Biomechanical Phenomena physiology, Female, Humans, Imaging, Three-Dimensional methods, Metatarsophalangeal Joint physiology, Models, Anatomic, Posture physiology, Range of Motion, Articular physiology, Rotation, Young Adult, Dancing physiology, Foot Joints physiology, Pronation physiology

Abstract

Introduction: Recent three-dimensional (3D) kinematic research has revealed foot abduction is the strongest predictor of standing functional and forced turnout postures. However, it is still unknown how the internal foot joints enable a large degree of foot abduction in turnout. The primary purpose of this study was to use a dance specific multi-segment foot model to determine the lower leg and foot contributions to turnout that female university-level ballets use to accentuate their turnout., Methods: Eighteen female dance students (mean age, 18.8 ± 1.6 years) volunteered for this study. Retro-reflective markers were attached to the dancers' dominant foot. Each dancer performed three repetitions of functional turnout, forced turnout and ten consecutive sautés in first position. Repeated measures ANOVA with Bonferroni adjustments for the multiple comparisons were used to determine the kinematic adjustments, hindfoot eversion, midfoot and forefoot abduction, navicular drop (i.e. lowering of the medial longitudinal arch) and first metatarsophalangeal joint abduction between natural double leg up-right posture and the first position conditions., Results: Hindfoot eversion (4.6°, p  < 0.001) and midfoot abduction (2.8°, p  < 0.001) significantly increased in functional turnout compared to the natural double leg up-right posture. Thirteen dancers demonstrated increased first metatarsophalangeal joint (MTPJ) abduction in forced turnout, however no statistically significant increase was found. Navicular drop during sautés in first position significantly increased by 11 mm ( p  < 0.001) compared to the natural double leg up-right posture., Conclusion: Our findings suggest dancers do pronate, via hindfoot eversion and midfoot abduction in both functional and forced turnout, however, no immediate association was found between forced turnout and first MTPJ abduction. Foot pronation does play a role in achieving turnout. Further prospective research on in situ measures of the lower limb in turnout and injury surveillance is required to improve our understanding of the normal and abnormal dance biomechanics., Competing Interests: Not applicable.This research was approved by the Edith Cowan University Human Research Ethics, reference: 12534 HOPPER. Informed written consent was obtained from each participant prior to the study.Consent was obtained to publish unidentifiable individual participant data.Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Published

2019

91. Kinematics reduction applied to the comparison of highly-pronated, normal and highly-supinated feet during walking.

Author

Sanchis-Sales E, Rodríguez-Cervantes PJ, and Sancho-Bru JL

Subjects

Adult, Analysis of Variance, Biomechanical Phenomena, Female, Gait physiology, Humans, Male, Principal Component Analysis, Range of Motion, Articular physiology, Foot physiology, Foot Joints physiology, Pronation physiology, Supination physiology, Walking physiology

Abstract

Background: Kinematic analysis could help to study how variations in the static foot posture affect lower limb biomechanical function. The analysis of foot kinematics is complex because it involves managing the time-dependent joint angles in different joints and in all three planes of motion. But it could be simplified if joint angles are coordinated., Methods: The kinematics of the ankle, midtarsal and metatarsophalangeal joints were registered in 20 highly-pronated, 30 normal and 20 highly-supinated subjects (assessed by the Foot Posture Index - FPI) as they walked barefoot. Coordination for each sample was analysed through principal component analysis applied to the dorsiflexion, abduction and inversion angles measured. Finally, a systematic comparison among the samples was performed through a set of ANOVAs applied to the reduced variables corresponding to the factors found., Results: Three principal components (coordination patterns) accounted for about 70% of the variance of the joint angles, and were affected by the FPI. The main coordination in normal feet was the supination movement, while in highly-supinated and highly-pronated feet it was the flexion coordination of all foot joints, which could work against adaptation in cases of varying terrain. The original joint angles were reduced to three factors, and the ANOVAs applied to them showed that highly-pronated feet presented a delayed propulsion peak and smaller ranges of motion during propulsion regarding all factors, and that highly-supinated feet require more pronation time to fully support the foot during walking., Significance: The coordination patterns of normal feet might be considered the normal patterns used for an efficient gait, and may help in planning surgical procedures and designing foot prostheses or orthotics. Dimensional reduction makes it possible to perform more systematic kinematic analyses, which have revealed that highly-pronated feet are in poorer propulsive condition, and this in turn may make them more prone to injury., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2019

92. Effects of foot pronation on the lower limb sagittal plane biomechanics during gait.

Author

Resende RA, Pinheiro LSP, and Ocarino JM

Subjects

Adult, Biomechanical Phenomena, Female, Healthy Volunteers, Humans, Male, Principal Component Analysis, Gait physiology, Lower Extremity physiology, Pronation physiology, Range of Motion, Articular physiology, Walking physiology

Abstract

Background: Increased foot pronation may compromise ankle plantarflexion moment during the stance phase of gait, which may overload knee and hip., Research Question: This study investigated the influence of increased foot pronation on lower limbs angular displacement, internal moments and power in the sagittal plane and ground reaction force and center of pressure displacement during the stance phase of gait., Methods: Kinematic and kinetic data of 22 participants (10 women and 12 men) were collected while they walked wearing flat (control condition) and laterally wedged sandals to induce foot pronation (inclined condition). We used principal component analysis for data reduction and dependent t-test to compare differences between conditions with α = 0.05., Results: The inclined condition increased forefoot range of motion (p < 0.001; effect size = 0.73); increased ankle plantarflexion angle (p < 0.001; effect size = 0.96); reduced ankle plantarflexion moment in mid and terminal stance phases and delayed and increased ankle plantarflexion moment in late stance (p < 0.001; effect size = 0.72); increased range of ankle power during late stance (p = 0.006; effect size = 0.56); reduced knee range of moment (p < 0.001; effect size = 0.76); increased range of knee power in early stance and reduced knee power generation in late stance (p = 0.005; effect size = 0.56); reduced the anterior displacement of the center of pressure (p < 0.001; effect size = 0.82) and increased the ground reaction force in the anterior direction (p = 0.003; effect size = 0.60)., Significance: Increased foot pronation compromises lower limb mechanics in the sagittal plane during the stance phase of gait. These findings are explained by the fact that foot pronation increases foot segments flexibility and compromises foot lever arm function during the stance of gait., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2019

93. Cranio-caudal and medio-lateral navicular translation are representative surrogate measures of foot function in asymptomatic adults during walking.

Author

Eichelberger P, Pohl J, Jaspers T, Ferraro M, Krause F, and Baur H

Subjects

Adolescent, Adult, Cross-Sectional Studies, Female, Foot anatomy & histology, Humans, Male, Metatarsal Bones anatomy & histology, Metatarsal Bones physiology, Middle Aged, Models, Anatomic, Movement physiology, Tarsal Bones anatomy & histology, Tibia anatomy & histology, Tibia physiology, Biomechanical Phenomena physiology, Foot physiology, Pronation physiology, Range of Motion, Articular physiology, Tarsal Bones physiology, Walking physiology

Abstract

Introduction: The translation of the navicular bone is thought to be a representative surrogate measure to assess foot pronation and hence foot function; however, it is not known how it is related to multi-segment foot kinematics., Methods: Cranio-caudal (NCC) and medio-lateral (NML) navicular translation and multi-segment foot kinematics from the Oxford Foot Model (OFM) were simultaneously assessed during the stance phase of walking in 20 healthy adults. Relationships to forefoot to hindfoot (FFtoHF), hindfoot to tibia (HFtoTBA) and global hindfoot (HFL) motion were explored by cross-correlations at zero phase shift., Results: FFtoHF sagittal, transversal and frontal plane angles showed median cross correlations of -0.95, 0.82 and 0.53 with NCC and of 0.78, -0.81 and -0.90 with NML. HFtoTBA transversal and frontal plane angles had correlations of 0.15 and 0.74 with NCC and of -0.38 and -0.83 with NML. The HFL frontal plane angle showed correlations of 0.41 and -0.44 with NCC and NML, respectively., Discussion: The strongest relationships were found between FFtoHF sagittal plane angles and NCC and between FFtoHF frontal plane angles and NML. However, cranio-caudal and medio-lateral navicular translation seem to be reasonable surrogates for the triplanar motion between the fore- and hindfoot. The medial longitudinal arch dropped and bulged medially, while the forefoot dorsiflexed, abducted and everted with respect to the hindfoot and vice-versa. The lower cross-correlation coefficients between the rear foot parameters and NCC/NML indicated no distinct relationships between rearfoot frontal plane and midfoot kinematics. The validity of rearfoot parameters, like Achilles tendon or Calcaneal angle, to assess midfoot function must be therefore questioned. The study could also not confirm a systematic relationship between midfoot kinematics and the internal/external rotation between the hindfoot and the tibia. The measurement of navicular translation is suggested as an alternative to more complex multi-segment foot models to assess foot function., Competing Interests: The authors have declared that no competing interests exist.

Published

2018

94. A new method of measuring the thumb pronation and palmar abduction angles during opposition movement using a three-axis gyroscope.

Author

Kuroiwa T, Fujita K, Nimura A, Miyamoto T, Sasaki T, and Okawa A

Subjects

Accelerometry methods, Aged, Carpal Tunnel Syndrome diagnostic imaging, Female, Humans, Male, Metacarpal Bones diagnostic imaging, Middle Aged, Thumb diagnostic imaging, Accelerometry instrumentation, Carpal Tunnel Syndrome physiopathology, Metacarpal Bones physiology, Pronation physiology, Range of Motion, Articular physiology, Thumb physiology

Abstract

Background: Thumb opposition is vital for hand function and involves pronation and palmar abduction. The improvement of pronation is often used as one of the evaluation items of the opponensplasty method for severe carpal tunnel syndrome. However, most of the studies used substitution evaluation methods for measurement of the pronation angle. Thus, there is still no appropriate method for measuring thumb pronation angle accurately in carpal tunnel syndrome patients. In recent reports, a wearable gyroscope was used to evaluate upper extremity motions and it can be possibly used for accurate measurement of the thumb pronation angle along the three-dimensionally moving bone axis. Thus, we investigated the reliability of measuring thumb pronation using a gyroscope and evaluated whether this method can be used to detect opposition impairment., Methods: The participants were volunteers with unaffected upper limbs (32 hands) and patients with carpal tunnel syndrome (27 hands). The pronation and palmar abduction angles during opposition movements were measured using a three-axis gyroscope that included a three-axis accelerometer. The gyroscope was fixed onto the first metacarpal bone and the thumb phalanx., Results: The pronation and palmar abduction angles of the metacarpal bone and the palmar abduction angles of the phalanx significantly decreased in the carpal tunnel syndrome group. The pronation angle of the metacarpal bone during opposition movement peaked later than the palmar abduction angle in all hands., Conclusions: We were able to measure the thumb pronation and palmar abduction angles using the three-axis gyroscope, and this tool was able to detect impairments of thumb opposition due to carpal tunnel syndrome. This could be a tool for measuring thumb and finger angles and for detecting impairments caused by various diseases.

Published

2018

95. Effect of decrease in radial inclination of distal radius fractures on distal radioulnar joint stability: a biomechanical study.

Author

Bessho Y, Nakamura T, Nishiwaki M, Nagura T, Matsumoto M, Nakamura M, and Sato K

Subjects

Aged, 80 and over, Biomechanical Phenomena physiology, Cadaver, Female, Fractures, Malunited physiopathology, Humans, Male, Triangular Fibrocartilage injuries, Joint Instability physiopathology, Pronation physiology, Radius Fractures physiopathology, Supination physiology, Wrist Joint physiopathology

Abstract

We investigated the relationship between the radial inclination of the distal radius and distal radioulnar joint stability. Six fresh-frozen upper extremities were used. Radial inclination was decreased by 10° and 20° and increased by 10° from the original radial inclination. Distal radioulnar joint stiffness was assessed with an intact radioulnar ligament and after partial and then complete sectioning of the radioulnar ligament. Radial angulation deformities significantly increased distal radioulnar joint stiffness when the radioulnar ligament is totally or partially attached to the ulnar fovea. After complete sectioning of the radioulnar ligament, distal radioulnar joint stiffness decreased significantly; additional radial angulation deformity slightly increased distal radioulnar joint stiffness, but the distal radioulnar joint never recovered to the original stiffness. Based on the results, radial angulation deformities of the distal radius should be corrected within 10° when the radioulnar ligament is intact, to reduce the risk of symptomatic distal radioulnar joint instability.

Published

2018

96. Pronator teres selective neurectomy in children with cerebral palsy.

Author

Helin M, Bachy M, Stanchina C, and Fitoussi F

Subjects

Adolescent, Child, Female, Follow-Up Studies, Forearm physiopathology, Hemiplegia physiopathology, Humans, Male, Muscle Spasticity physiopathology, Muscle, Skeletal surgery, Pronation physiology, Retrospective Studies, Supination physiology, Cerebral Palsy physiopathology, Denervation, Forearm surgery, Muscle Spasticity surgery, Muscle, Skeletal innervation

Abstract

The objective of this study was to evaluate the results after selective pronator teres (PT) neurectomy in children with spastic hemiplegia. Patients with PT spasticity without contracture and an active supination improvement after PT botulinum toxin injection were included. Hand function and deformities were evaluated with the House score, Gschwind and Tonkin pronation deformity classification and Zancolli's classification. Twenty-two patients (mean age 11.6 years) were included in this study. The average follow-up was 32.6 months. All but one patient improved their supination with a preoperative mean active supination of 5° (range -80-70°) and postoperative of 48° (range 10-90°). Active pronation was always maintained at the last follow-up. PT selective neurectomy appears to improve active and passive forearm supination and should be included in a global strategy of treatments to improve upper limb function in children with cerebral palsy., Level of Evidence: IV.

Published

2018

97. Posture of the foot: Don't keep it out of sight, out of mind in knee osteoarthritis.

Author

Al-Bayati Z, Coskun Benlidayi I, and Gokcen N

Subjects

Aged, Female, Humans, Knee Joint physiopathology, Male, Middle Aged, Pronation physiology, Radiography, Supination physiology, Foot physiopathology, Osteoarthritis, Knee physiopathology, Posture physiology

Abstract

Background: There are many contributors of knee osteoarthritis including the postural abnormalities of the adjacent joints. The relationship between foot posture and the clinical-radiological parameters of knee osteoarthritis is poorly understood., Research Question: Is foot posture related to the clinical and radiological parameters in patients with knee osteoarthritis?, Methods: Patients diagnosed with primary clinical and radiographic medial tibiofemoral knee osteoarthritis were included in the study. Anteroposterior knee radiographs were staged by using the Kellgren-Lawrence grading system. Computer-based measurements of the medial joint space width (mJSW), condylar angle, anatomical axis angle, tibial plateau angle and condylar plateau angle were performed on digital anteroposterior knee radiographs. The Western Ontario and Mc Master University Osteoarthritis Index (WOMAC) questionnaire was used to assess pain and the functional status of the patients. Foot posture was assessed by the Foot Posture Index (FPI) system and feet were categorized into three (pronated, neutral and supinated)., Results: The study included 150 patients (150 knees and feet at one side) with a mean age of 61.2 ± 10.1 years. In terms of foot posture groups; percentages for supination, neutral and pronation were 22.66%, 68.66% and 8.66%, respectively. In the group with supinated FPI; WOMAC total score, pain and function subscale scores were higher (p < 0.001), mJSW was narrowed (p = 0.038) and the condylar plateau angle was increased (p = 0.009). In the FPI pronation group; anatomic axis angle values were found to change in the varus direction (p = 0.012)., Significance: The potential postural dysfunction of the foot should be taken into consideration during the assessment and/or management of a patient with knee osteoarthritis., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

98. Effect of postoperative pneumatic compression after volar plate fixation of distal radial fractures: a randomized controlled trial.

Author

Alkner BA, Halvardsson C, Bråkenhielm G, Eskilsson T, Andersson E, and Fritzell P

Subjects

Activities of Daily Living, Aged, Aged, 80 and over, Edema physiopathology, Female, Hand Strength physiology, Humans, Male, Middle Aged, Pronation physiology, Prospective Studies, Radius Fractures physiopathology, Supination physiology, Visual Analog Scale, Wrist Joint physiology, Bone Plates, Fracture Fixation, Internal, Intermittent Pneumatic Compression Devices, Postoperative Care, Radius Fractures rehabilitation, Radius Fractures surgery

Abstract

We investigated the difference between postoperative rehabilitation with or without adjunctive intermittent pneumatic compression therapy following distal radial fracture treated with volar plating. A total of 115 patients were randomized to a control or to an experimental group. After 4 weeks of immobilization the experimental group received intermittent pneumatic compression therapy in addition to conventional postoperative rehabilitation. Primary outcome up to 1 year postoperatively was assessed using the Canadian Occupational Performance Measure. No significant differences between groups were found. There were no clinically relevant differences regarding the secondary outcome measures swelling, strength, pain and flexibility. We conclude that postoperative intermittent pneumatic compression treatment had no major benefits. The results of the present study do not support general use of intermittent pneumatic compression initiated 4 weeks following volar plating surgery for distal radial fracture., Level of Evidence: I.

Published

2018

99. Lower leg and foot contributions to turnout in female pre-professional dancers: A 3D kinematic analysis.

Author

Carter SL, Duncan R, Weidemann AL, and Hopper LS

Subjects

Biomechanical Phenomena, Dancing injuries, Female, Humans, Knee Joint physiology, Posture, Pronation physiology, Range of Motion, Articular, Rotation, Time and Motion Studies, Young Adult, Dancing physiology, Foot physiology, Leg physiology

Abstract

Turnout is a central element of classical ballet which involves sustained external rotation of the lower limbs during dance movements. Lower leg and foot compensation mechanisms which are often used to increase turnout have been attributed to the high incidence of lower limb injury in dancers. Evaluation of dancers' leg posture is needed to provide insight into the lower limb kinematic strategies used to achieve turnout. The primary purpose of this study was to use 3D kinematic analyses to determine the lower leg and foot compensations that are incorporated by female university dancers to accentuate their turnout. Active and passive external tibiofemoral rotation (TFR) was also measured. A moderate-strong negative relationship was observed between hip external rotation (HER) and foot abduction in the three first position conditions. A moderate negative relationship was found between passive TFR and foot abduction in all first position conditions. Our findings suggest dancers are more likely to pronate, than rotate the knee to compensate for limited HER. Dancers with a limited capacity to pronate may force additional rotation via the knee. Ongoing research would benefit from more in-depth analyses of the foot/ankle complex using a multi-segment foot model.

Published

2018

100. In Vivo Three-Dimensional Analysis of Malunited Forearm Diaphyseal Fractures with Forearm Rotational Restriction.

Author

Abe S, Murase T, Oka K, Shigi A, Tanaka H, and Yoshikawa H

Subjects

Adolescent, Adult, Child, Forearm Injuries diagnostic imaging, Forearm Injuries physiopathology, Fractures, Malunited diagnostic imaging, Humans, Imaging, Three-Dimensional, Pronation physiology, Radius Fractures diagnostic imaging, Retrospective Studies, Supination physiology, Tomography, X-Ray Computed, Ulna Fractures diagnostic imaging, Young Adult, Fractures, Malunited physiopathology, Radius Fractures physiopathology, Range of Motion, Articular physiology, Ulna Fractures physiopathology

Abstract

Background: The aim of this study was to clarify the mechanisms of rotational restriction in malunited forearm diaphyseal fractures., Methods: We retrospectively analyzed the cases of 18 patients with malunited forearm diaphyseal fractures and rotational restriction. All patients underwent bilateral computed tomography (CT) of the forearm in maximum supination, pronation, and neutral positions. From these images, we created 3-dimensional (3-D) bone surface models. We quantified the 3-D deformities, identified instances of osseous impingement between the radius and the ulna during forearm rotation, calculated the path length of the central band (CB) of the interosseous membrane, and measured forearm range of motion., Results: Sixteen patients had extension deformity of the radius (the RE group) and 2 had flexion deformity (the RF group). In the RE group, extension deformity of the radius and valgus deformity of the ulna had significant negative correlation with pronation range of motion (R = -0.50, p = 0.046) and supination range of motion (R = -0.63, p = 0.027), respectively. Osseous impingement was mainly observed during pronation (15 of 16 patients). The CB path with the largest changes in length originated from the distal CB attachment area of the radius and ran toward the proximal area of the ulna (the transverse CB). The transverse CB significantly increased in length in supination compared with that in pronation (p < 0.001). Therefore, tightness of the transverse CB appeared to cause supination restriction in the RE group. In the RF group, osseous impingement caused supination restriction. The greatest increases in the transverse CB length were observed in pronation in the RF group, which appeared to cause pronation restriction., Conclusions: In the RE group, pronation restriction was associated with osseous impingement that was due to extension deformity of the radius, and supination restriction was associated with CB tightness that was due to valgus deformity of the ulna. In the RF group, our results suggested that pronation restriction was caused by CB tightness and that supination restriction was caused by osseous impingement., Clinical Relevance: Three-dimensional corrective osteotomy for extension deformity of the radius in malunited forearm diaphyseal fractures would improve rotational restriction by relieving osseous impingement during pronation and CB tightness during supination.

Published

2018