Your search keyword '"Fascicle length"' showing total 692 results

651. Behavior of human gastrocnemius muscle fascicles during ramped submaximal isometric contractions.

Author

Héroux ME, Stubbs PW, and Herbert RD

Subjects

Adult, Ankle Joint diagnostic imaging, Ankle Joint physiology, Electromyography methods, Female, Humans, Magnetic Resonance Imaging methods, Male, Middle Aged, Muscle Contraction physiology, Muscle, Skeletal diagnostic imaging, Muscle, Skeletal physiology, Random Allocation, Torque, Ultrasonography methods, Isometric Contraction physiology, Muscle Fibers, Skeletal physiology, Muscle, Skeletal anatomy & histology

Abstract

Precise estimates of muscle architecture are necessary to understand and model muscle mechanics. The primary aim of this study was to estimate continuous changes in fascicle length and pennation angle in human gastrocnemius muscles during ramped plantar flexor contractions at two ankle angles. The secondary aim was to determine whether these changes differ between proximal and distal fascicles. Fifteen healthy subjects performed ramped contractions (0-25% MVC) as ultrasound images were recorded from the medial (MG, eight sites) and lateral (LG, six sites) gastrocnemius muscle with the ankle at 90° and 120° (larger angles correspond to shorter muscle lengths). In all subjects, fascicles progressively shortened with increasing torque. MG fascicles shortened 5.8 mm (11.1%) at 90° and 4.5 mm (12.1%) at 120°, whereas LG muscle fascicles shortened 5.1 mm (8.8%) at both ankle angles. MG pennation angle increased 1.4° at 90° and 4.9° at 120°, and LG pennation angle decreased 0.3° at 90° and increased 2.6° at 120°. Muscle architecture changes were similar in proximal and distal fascicles at both ankle angles. This is the first study to describe continuous changes in fascicle length and pennation angle in the human gastrocnemius muscle during ramped isometric contractions. Very similar changes occurred in proximal and distal muscle regions. These findings are relevant to studies modeling active muscle mechanics., (© 2016 The Authors. Physiological Reports published by Wiley Periodicals, Inc. on behalf of the American Physiological Society and The Physiological Society.)

Published

2016

652. Hamstring Architectural and Functional Adaptations Following Long vs. Short Muscle Length Eccentric Training.

Author

Guex K, Degache F, Morisod C, Sailly M, and Millet GP

Abstract

Most common preventive eccentric-based exercises, such as Nordic hamstring do not include any hip flexion. So, the elongation stress reached is lower than during the late swing phase of sprinting. The aim of this study was to assess the evolution of hamstring architectural (fascicle length and pennation angle) and functional (concentric and eccentric optimum angles and concentric and eccentric peak torques) parameters following a 3-week eccentric resistance program performed at long (LML) vs. short muscle length (SML). Both groups performed eight sessions of 3-5 × 8 slow maximal eccentric knee extensions on an isokinetic dynamometer: the SML group at 0° and the LML group at 80° of hip flexion. Architectural parameters were measured using ultrasound imaging and functional parameters using the isokinetic dynamometer. The fascicle length increased by 4.9% (p < 0.01, medium effect size) in the SML and by 9.3% (p < 0.001, large effect size) in the LML group. The pennation angle did not change (p = 0.83) in the SML and tended to decrease by 0.7° (p = 0.09, small effect size) in the LML group. The concentric optimum angle tended to decrease by 8.8° (p = 0.09, medium effect size) in the SML and by 17.3° (p < 0.01, large effect size) in the LML group. The eccentric optimum angle did not change (p = 0.19, small effect size) in the SML and tended to decrease by 10.7° (p = 0.06, medium effect size) in the LML group. The concentric peak torque did not change in the SML (p = 0.37) and the LML (p = 0.23) groups, whereas eccentric peak torque increased by 12.9% (p < 0.01, small effect size) and 17.9% (p < 0.001, small effect size) in the SML and the LML group, respectively. No group-by-time interaction was found for any parameters. A correlation was found between the training-induced change in fascicle length and the change in concentric optimum angle (r = -0.57, p < 0.01). These results suggest that performing eccentric exercises lead to several architectural and functional adaptations. However, further investigations are required to confirm the hypothesis that performing eccentric exercises at LML may lead to greater adaptations than a similar training performed at SML.

Published

2016

653. In vivo measurements of biceps brachii and triceps brachii fascicle lengths using extended field-of-view ultrasound.

Author

Nelson CM, Dewald JPA, and Murray WM

Subjects

Adult, Aged, Arm anatomy & histology, Elbow anatomy & histology, Female, Humans, Male, Middle Aged, Muscle, Skeletal diagnostic imaging, Reproducibility of Results, Ultrasonography, Young Adult, Muscle, Skeletal anatomy & histology

Abstract

Muscle fascicle lengths are commonly measured in vivo using static 2D ultrasound. However, static ultrasound is best suited for muscles with shorter, pennate fascicles, in which entire fascicles can be viewed in one static image. An informal review of data from cadaver dissections suggests that over 60% of muscles in the upper and lower limbs have optimal lengths longer than the field-of-view of standard ultrasound transducers. Extended field-of-view ultrasound (EFOV) has been validated for measurement of fascicle lengths, but has yet to be implemented in the upper extremity in humans. In this study, EFOV ultrasound was used to measure the lengths of fascicles sampled from the anterior portion of the biceps brachii (long head) and the distal half of the triceps brachii (lateral head). Data were collected from both limbs of eleven healthy subjects in three elbow postures under passive conditions. Image analysis was completed via Image J. Fascicle length measurements were highly reliable, with intra-class correlations ranging from .92 to .95 for biceps and .81-.92 for triceps (p<.001). Systematic, significant differences in measured lengths, consistent with muscle function, were observed between elbow positions. In vivo measurements for both muscles in this study were within the range of cadaver data. This work establishes the feasibility and reliability of EFOV ultrasound for measurement of the long fascicles of muscles in the upper limb., (Published by Elsevier Ltd.)

Published

2016

654. Within- and between-session reliability of medial gastrocnemius architectural properties.

Author

McMahon JJ, Turner A, and Comfort P

Abstract

This study aimed to determine the within- and between-session reliability of medial gastrocnemius (MG) architecture (e.g. muscle thickness (MT), fascicle length (FL) and pennation angle (PA)), as derived via ultrasonography followed by manual digitization. A single rater recorded three ultrasound images of the relaxed MG muscle belly for both legs of 16 resistance trained males, who were positioned in a pronated position with their knees fully extended and the ankles in a neutral (e.g. 90°) position. A subset of participants (n = 11) were retested under the same conditions ~48-72 hours after baseline testing. The same rater manually digitized each ultrasound image on three occasions to determine MG MT, FL and PA before pooling the data accordingly to allow for within-image (n = 96), between-image (n = 32) and between-session reliability (n = 22) to be determined. Intraclass correlation coefficients (ICCs) demonstrated excellent within-image (ICCs = 0.99-1.00, P < 0.001) and very good between-image (ICCs = 0.83-0.95, P < 0.001) and between-session (ICCs = 0.89-0.95, P < 0.001) reliability for MT, FL and PA. Between-session coefficient of variation was low (≤ 3.6%) for each architectural parameter and smallest detectible difference values of 10.6%, 11.4% and 9.8% were attained for MT, FL and PA, respectively. Manually digitizing ultrasound images of the MG muscle at rest yields highly reliable measurements of its architectural properties. Furthermore, changes in MG MT, FL and PA of ≥ 10.6%, 11.4% and 9.8% respectively, as brought about by any form of intervention, should be considered meaningful.

Published

2016

655. Difference in fascicle behaviors between superficial and deep quadriceps muscles during isometric contractions.

Author

Ando R, Nosaka K, Inami T, Tomita A, Watanabe K, Blazevich AJ, and Akima H

Subjects

Adult, Humans, Male, Quadriceps Muscle diagnostic imaging, Ultrasonography, Young Adult, Isometric Contraction physiology, Quadriceps Muscle physiology

Abstract

Introduction: In this study we examined changes in fascicle length and pennation of vastus intermedius (VI) and vastus lateralis (VL) from rest to isometric contraction., Methods: Fourteen healthy men performed submaximal (30% and 50% of maximal voluntary contraction; MVC) isometric knee extensions at 60° and 110° knee flexion (0° = full extension). Panoramic images of VL and VI were obtained at rest and during contractions to measure fascicle length and pennation using extended field-of-view ultrasonography, after confirmation that the technique could be used reliably during sustained submaximal isometric contractions., Results: The relative change in fascicle length from rest to 50% MVC was greater in VI than VL at 110° (P < 0.05). Pennation increased during contraction at 60° for VL (P < 0.05), but not for VI., Conclusion: Muscle-dependent fascicle behaviors were observed during contraction. These findings may provide a mechanistic underpinning for differences in sarcomere length changes, relative force contribution, and blood flow during contraction., (© 2016 Wiley Periodicals, Inc.)

Published

2016

656. Measurement of gastrocnemius muscle elasticity by shear wave elastography: association with passive ankle joint stiffness and sex differences.

Author

Chino K and Takahashi H

Subjects

Adult, Elasticity Imaging Techniques, Female, Humans, Male, Range of Motion, Articular, Sex Factors, Ankle Joint physiology, Elasticity, Muscle, Skeletal physiology

Abstract

Purpose: Passive joint stiffness is an important quantitative measure of flexibility, but is affected by muscle volume and all of the anatomical structures located within and over the joint. Shear wave elastography can assess muscle elasticity independent of the influences of muscle volume and the other nearby anatomical structures. We determined how muscle elasticity, as measured using shear wave elastography, is associated with passive joint stiffness and patient sex., Methods: Twenty-six healthy men (24.4 ± 5.9 years) and 26 healthy women (25.2 ± 4.8 years) participated in this study. The passive ankle joint stiffness and tissue elasticity of the medial gastrocnemius (MG) were quantified with the ankle in 30° plantar flexion (PF), a neutral anatomical position (NE), and 20° dorsiflexion (DF)., Results: No significant difference in passive joint stiffness by sex was observed with the ankle in PF, but significantly greater passive ankle joint stiffness in men than in women was observed in NE and DF. The MG elasticity was not significantly associated with joint stiffness in PF or NE, but it was significantly associated with joint stiffness in DF. There were no significant differences in MG elasticity by sex at any ankle position., Conclusions: Muscle elasticity, measured independent of the confounding effects of muscle volume and the other nearby anatomical structures, is associated with passive joint stiffness in the joint position where the muscle is sufficiently lengthened, but does not vary by sex in any joint position tested.

Published

2016

657. FASCICLE LENGTH AND PENNATION ANGLE OF THE HUMAN BICEPS FEMORIS MUSCLE AT REST AND DURING SUBMAXIMAL CONTRACTION

Author

R K. Walker, J L. Schwartz, G S. Chleboun, M D. Wattenbarger, and S R. Riegel

Subjects

Submaximal contraction, Biceps femoris muscle, business.industry, Medicine, Fascicle length, Physical Therapy, Sports Therapy and Rehabilitation, Orthopedics and Sports Medicine, Anatomy, business, Rest (music)

Published

2001

658. Homogeneity of fascicle architecture following repeated contractions in the human gastrocnemius medialis.

Author

Thomas NM, Dewhurst S, and Bampouras TM

Subjects

Adult, Humans, Male, Muscle Fatigue, Muscle, Skeletal diagnostic imaging, Ultrasonography, Isometric Contraction, Muscle, Skeletal physiology

Abstract

This investigation sought to determine the effects of fatigue on fascicle architecture across the length of the human gastrocnemius medialis (GM). With institutional ethical approval, fifteen healthy males performed repeated isometric plantar flexion maximal voluntary contractions (MVC) until peak force fell 30% below baseline. Brightness-mode ultrasound was used to determine fascicle length and pennation angle at rest and during MVC prior to and following the fatiguing contractions. The results show a significant increase in fascicle length during MVC in the distal (2.8 mm, 8.1%) middle, (4.9 mm, 14.1%), and proximal (5.2 mm, 14.7%) regions post-fatigue compared to pre-fatigue (p < 0.05). There was also a significant decrease of pennation angle during MVC in the distal (3.3°, 8.8%), middle (3.9°, 9.4%), and proximal (2.9°, 6.9%) regions post-fatigue compared to pre-fatigue (p < 0.05). These changes, however, were not region specific. These are the first results to show that fascicle shortening within the GM remains homogeneous following fatigue, suggesting that the fascicles were fatigued in a similar pattern throughout the muscle. The significant reduction of fascicle shortening may reflect an additional strategy to maintain an optimal force output in fatigued conditions, although future work is needed to confirm this notion., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

659. Local architecture of the vastus intermedius is a better predictor of knee extension force than that of the other quadriceps femoris muscle heads.

Author

Ando R, Saito A, Umemura Y, and Akima H

Subjects

Adult, Humans, Image Interpretation, Computer-Assisted methods, Knee Joint diagnostic imaging, Male, Reproducibility of Results, Sensitivity and Specificity, Stress, Mechanical, Ultrasonography, Knee Joint physiology, Muscle Contraction physiology, Muscle Strength physiology, Muscle, Skeletal physiology, Muscle, Skeletal ultrastructure, Range of Motion, Articular physiology

Abstract

The purpose of this study was to determine whether the muscle architecture of each head of the quadriceps femoris (QF) at multiple regions can be used to predict knee extension force. Muscle thickness and pennation angle were measured using sonographic images from multiple regions on each muscle of the QF with the knee flexed to 90°. The fascicle lengths of the rectus femoris (RF), vastus lateralis (VL) and vastus intermedius (VI) muscles were estimated based on sonographic images taken along the length of the thigh. The muscle architecture of the vastus intermedius was determined in two separate locations using sonographic images of the anterior (ant-VI) and lateral portions (lat-VI). The maximal voluntary contraction (MVC) was measured during isometric knee extension at a knee joint angle of 90°. The relationship between MVC force and muscle architecture was examined using a stepwise linear regression analysis with MVC force as the dependent variable. The muscle thickness of the ant-VI was selected as an independent variable in the first step of the linear regression analysis (R(2) = 0.66, P<0.01). In the second step, pennation angle of the lat-VI was added to the model (R(2) = 0.91, P<0.01). These results suggest that among the four muscles that make up the QF, the muscle architecture of the VI is the best predictor of knee extension force., (© 2014 Scandinavian Society of Clinical Physiology and Nuclear Medicine. Published by John Wiley & Sons Ltd.)

Published

2015

660. Stretch-induced changes in tension generation process and stiffness are not accompanied by alterations in muscle architecture of the middle and distal portions of the two gastrocnemii.

Author

Cè E, Longo S, Rampichini S, Devoto M, Limonta E, Venturelli M, and Esposito F

Subjects

Adult, Ankle Joint physiology, Humans, Male, Range of Motion, Articular physiology, Reproducibility of Results, Tendons physiology, Young Adult, Ergometry methods, Muscle Spindles physiology, Muscle Stretching Exercises methods, Muscle, Skeletal physiology

Abstract

The study aimed to evaluate the stretch-induced changes in muscle architecture in different portions of the gastrocnemius medialis (GM) and lateralis (GL) muscles. The reliability and sensitivity of the measurements were also assessed. Fascicle length (FL) and pennation angle (PA) were calculated in the middle and distal portions of GM and GL at 0°, 10° and 20° of ankle dorsiflexion. At the same angles, passive torque (Tpass), peak torque (pT) and myotendinous junction displacement of GM were determined. Stiffness was calculated at muscle-tendon unit (MTU), muscle and tendon level. After static stretching administration, Tpass, pT and MTU stiffness decreased by 22%, 12% and 16%, respectively (p<0.05). Muscle and tendon stiffness decreased by 15% and 16% (p<0.05). Nevertheless, no changes in FL and PA occurred. The reliability of the approach was always very high (intraclass correlation coefficient>0.90), with an adequate level of sensitivity. pT after static stretching was related to decreases in MTU, muscle and tendon stiffness, but not to alterations in muscle architecture., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

661. Automatic measurement of pennation angle and fascicle length of gastrocnemius muscles using real-time ultrasound imaging.

Author

Zhou GQ, Chan P, and Zheng YP

Subjects

Adult, Algorithms, Ankle anatomy & histology, Ankle physiology, Computer Simulation, Feasibility Studies, Female, High-Energy Shock Waves, Humans, Male, Muscle, Skeletal anatomy & histology, Phantoms, Imaging, Range of Motion, Articular physiology, Reference Values, Ultrasonography, Models, Biological, Muscle Contraction physiology, Muscle, Skeletal diagnostic imaging, Muscle, Skeletal physiology

Abstract

Muscle imaging is a promising field of research to understand the biological and bioelectrical characteristics of muscles through the observation of muscle architectural change. Sonomyography (SMG) is a technique which can quantify the real-time architectural change of muscles under different contractions and motions with ultrasound imaging. The pennation angle and fascicle length are two crucial SMG parameters to understand the contraction mechanics at muscle level, but they have to be manually detected on ultrasound images frame by frame. In this study, we proposed an automatic method to quantitatively identify pennation angle and fascicle length of gastrocnemius (GM) muscle based on multi-resolution analysis and line feature extraction, which could overcome the limitations of tedious and time-consuming manual measurement. The method started with convolving Gabor wavelet specially designed for enhancing the line-like structure detection in GM ultrasound image. The resulting image was then used to detect the fascicles and aponeuroses for calculating the pennation angle and fascicle length with the consideration of their distribution in ultrasound image. The performance of this method was tested on computer simulated images and experimental images in vivo obtained from normal subjects. Tests on synthetic images showed that the method could identify the fascicle orientation with an average error less than 0.1°. The result of in vivo experiment showed a good agreement between the results obtained by the automatic and the manual measurements (r=0.94±0.03; p<0.001, and r=0.95±0.02, p<0.001). Furthermore, a significant correlation between the ankle angle and pennation angle (r=0.89±0.05; p<0.001) and fascicle length (r=-0.90±0.04; p<0.001) was found for the ankle plantar flexion. This study demonstrated that the proposed method was able to automatically measure the pennation angle and fascicle length of GM ultrasound images, which made it feasible to investigate muscle-level mechanics more comprehensively in vivo., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2015

662. Influence of joint angular velocity on electrically evoked concentric force potentiation induced by stretch-shortening cycle in young adults.

Author

Fukutani A, Kurihara T, and Isaka T

Abstract

Background: During a stretch- shortening cycle (SSC), muscle force attained during concentric contractions (shortening phase) is potentiated by the preceding eccentric contractions (lengthening phase). The purpose of this study was to examine the influence of joint angular velocity on force potentiation induced by SSC (SSC effect)., Findings: Twelve healthy men (age, 24.2 ± 3.2 years; height, 1.73 ± 0.05 m; body mass, 68.1 ± 11.0 kg) participated in this study. Ankle joint angle was passively moved by a dynamometer, with range of motion from dorsiflexion (DF) 15° to plantarflexion (PF) 15°. Muscle contractions were evoked by tetanic electrical stimulation. Joint angular velocity of concentric contraction was set at 30°/s and 150°/s. Magnitude of SSC effect was calculated as the ratio of joint torque obtained by concentric contraction with preliminary eccentric contraction trial relative to that obtained by concentric contraction without preliminary eccentric contraction trial. As a result, magnitude of SSC effect calculated at three joint angles was significantly larger in the 150°/s condition than in the 30°/s condition (p < 0.05)., Conclusions: These results indicate that the magnitude of SSC effect is affected by joint angular velocity, which is larger when joint angular velocity is larger. This phenomenon would be caused by insufficient duration to increase activation level in the large joint angular velocity condition. When the duration to increase activation level is insufficient due to short contraction duration, preactivation (one of the factors of SSC effect) leads to a significant increase in joint torque.

Published

2015

663. High resolution muscle measurements provide insights into equinus contractures in patients with cerebral palsy.

Author

Mathewson MA, Ward SR, Chambers HG, and Lieber RL

Subjects

Adolescent, Biomechanical Phenomena physiology, Biopsy, Case-Control Studies, Cerebral Palsy pathology, Cerebral Palsy physiopathology, Child, Equinus Deformity pathology, Equinus Deformity physiopathology, Female, Humans, Male, Muscle, Skeletal pathology, Muscle, Skeletal physiopathology, Sarcomeres pathology, Sarcomeres physiology, Tendons diagnostic imaging, Tendons pathology, Tendons physiopathology, Ultrasonography, Cerebral Palsy diagnostic imaging, Equinus Deformity diagnostic imaging, Muscle, Skeletal diagnostic imaging, Sarcomeres diagnostic imaging

Abstract

Muscle contractures that occur after upper motor neuron lesion are often surgically released or lengthened. However, surgical manipulation of muscle length changes a muscle's sarcomere length (Ls ), which can affect force production. To predict effects of surgery, both macro- (fascicle length (Lf )) and micro- (Ls ) level structural measurements are needed. Therefore, the purpose of this study was to quantify both Ls and Lf in patients with cerebral palsy (CP) as well as typically developing (TD) children. Soleus ultrasound images were obtained from children with CP and TD children. Lf was determined and, with the joint in the same position, CP biopsies were obtained and formalin fixed, and Ls was measured by laser diffraction. Since soleus Ls values were not measurable in TD children, TD Ls values were obtained using three independent methods. While average Lf did not differ between groups (CP=3.6±1.2 cm, TD=3.5±0.9 cm; p>0.6), Ls was dramatically longer in children with CP (4.07±0.45 µm vs. TD=2.17±0.24 µm; p<0.0001). While Lf values were similar between children with CP and TD children, this was due to highly stretched sarcomeres within the soleus muscle. Surgical manipulation of muscle-tendon unit length will thus alter muscle sarcomere length and change force generating capacity of the muscle., (© 2014 Orthopaedic Research Society. Published by Wiley Periodicals, Inc.)

Published

2015

664. Skeletal muscle architectural adaptations to marathon run training.

Author

Murach K, Greever C, and Luden ND

Subjects

Adult, Cohort Studies, Female, Humans, Image Processing, Computer-Assisted, Lactic Acid blood, Male, Muscle, Skeletal physiology, Oxygen Consumption, Physical Endurance, Physical Exertion, Pilot Projects, Quadriceps Muscle diagnostic imaging, Quadriceps Muscle physiology, Recreation, Reproducibility of Results, Running, Ultrasonography, Young Adult, Adaptation, Physiological, Exercise, Muscle, Skeletal diagnostic imaging, Stress, Physiological

Abstract

We assessed lateral gastrocnemius (LG) and vastus lateralis (VL) architecture in 16 recreational runners before and after 12 weeks of marathon training. LG fascicle length decreased 10% while pennation angle increased 17% (p < 0.05). There was a significant correlation between diminished blood lactate levels and LG pennation angle change (r = 0.90). No changes were observed in VL. This is the first evidence that run training can modify skeletal muscle architectural features.

Published

2015

665. In vivo determination of fascicle length and pennation during voluntary contraction of human muscle 722

Author

T. Fukunaga, Yasuo Kawakami, Y. Ichinose, Masamitsu Ito, and Senshi Fukashiro

Subjects

Voluntary contraction, Human muscle, In vivo, Fascicle length, Physical Therapy, Sports Therapy and Rehabilitation, Orthopedics and Sports Medicine, Anatomy, Biology

Published

1996

666. Vastus lateralis exhibits non-homogenous adaptation to resistance training.

Author

Wells AJ, Fukuda DH, Hoffman JR, Gonzalez AM, Jajtner AR, Townsend JR, Mangine GT, Fragala MS, and Stout JR

Subjects

Adolescent, Anthropometry, Female, Humans, Quadriceps Muscle anatomy & histology, Quadriceps Muscle diagnostic imaging, Statistics as Topic, Ultrasonography, Young Adult, Adaptation, Physiological physiology, Muscle Strength physiology, Quadriceps Muscle physiology, Resistance Training

Abstract

Introduction: Variations in transverse point of measure on the vastus lateralis (VL) may significantly affect the relationship between structure and function. The purpose of this study was to compare changes in muscle architecture at 2 commonly used points of measure (VL0 and VL5)., Methods: Maximal strength (1-repetition maximum [1RM] barbell squat) and muscle architecture were assessed PRE and POST 15 weeks of periodized resistance training. VL0 was 50% of the straight line distance between the greater trochanter and lateral epicondyle of the femur. VL5 was 5cm medial to VL0., Results: Increases in 1RM strength (3.7 ± 2.4 kg; P = 0.004) were observed. Changes in muscle thickness (MT) at VL5 were significantly greater than at VL0 (P = 0.006). Changes in strength correlated with changes in muscle architecture at VL0 only (MT: r = 0.561; fascicle length: r = 0.503)., Conclusions: Changes in muscle architecture appear to occur in a non-homogeneous manner., (© 2014 Wiley Periodicals, Inc.)

Published

2014

667. Evaluation of spasticity after stroke by using ultrasound to measure the muscle architecture parameters: a clinical study.

Author

Yang YB, Zhang J, Leng ZP, Chen X, and Song WQ

Abstract

Objective: This study aims to compare the difference and the change trend of Muscle Architecture Parameters (MAP) between spastic and normal muscle tone patients after stroke, and analysis the application and value of Muscle Architecture Parameters in evaluating spasticity after stroke., Methods: 41 stroke patients were divided into spastic group (26 cases), normal muscle tone control group (15 cases). Modified Ashworth Scale (MAS) was applied in both groups for assessing muscle tone of lower limbs (no influence, contralateral). Muscle architectural parameters of ultrasound measurement include muscle thickness, fascicle length and pennation angle. The difference of three muscle architectural parameters between the affected side and the contralateral side in spastic group and the difference of MAS and three muscle architectural parameters between spastic group and normal control group were compared., Results: MAS score, Pennation Angle (PA) and Muscular Thickness (MT) value of MAP in spastic group were significantly higher than the control group, Fascicle length (FL) is significantly lower than the control group (P < 0.05). In spastic group, MAS score, PA and MT value of MAP of affected side muscle was substantially higher than that of contralateral, FL value significantly lower than that of contralateral (P < 0.05). There was positive correlation between MAS and PA and MT but was negative correlation between MAS and FL, rank correlation coefficient test was statistical significant (p < 0.05). Logistic multivariate regression analysis showed that spasticity can lead PA and FL to change (p < 0.05), there is no clear correlation between MT and spasticity occurs (P > 0.05)., Conclusion: MAP has a better sensitivity in evaluating muscle tone between spastic patients and non-spastic patients, and degrees of spasticity have a clear corresponding exponential relationship to MAP. Combing MAS and MAP can assess muscle tone more objectively and accurately because subtle changes can be observed by testing values of architecture parameters that compensating for the shortcomings of MAS in reliability and validity. Thus it is helpful for guiding clinical antispastic practice.

Published

2014

668. Measurement of muscle architecture concurrently with muscle hardness using ultrasound strain elastography.

Author

Chino K, Akagi R, Dohi M, and Takahashi H

Subjects

Adult, Elastic Modulus physiology, Hardness physiology, Humans, Male, Models, Anatomic, Muscle, Skeletal diagnostic imaging, Reproducibility of Results, Sensitivity and Specificity, Ultrasonography, Algorithms, Image Interpretation, Computer-Assisted methods, Muscle, Skeletal cytology, Muscle, Skeletal physiology

Abstract

Background: The B-mode ultrasound image that can measure muscle architecture is displayed side by side with the ultrasound strain elastogram that can assess muscle hardness. Consequently, muscle architecture can be measured concurrently with muscle hardness using ultrasound strain elastography., Purpose: To demonstrate the measurement of muscle architecture concurrently with muscle hardness using ultrasound strain elastography., Material and Methods: Concurrent measurements of muscle architectural parameters (muscle thickness, pennation angle, and fascicle length) and muscle hardness of the medial gastrocnemius were performed with ultrasound strain elastography. Separate measurements of the muscle architectural parameters were also performed for use as reference values for the concurrent measurements. Both types of measurements were performed twice at 20° dorsiflexion, neutral position, and 30° plantar flexion., Results: Coefficients of variance of the muscle architectural parameters obtained from the concurrent measurements (≤7.6%) were significantly higher than those obtained from the separate measurements (≤2.4%) (all P < 0.05). Intraclass correlation coefficients of the architectural parameters were lower in the concurrent measurements (≥0.74) than in the separate measurements (≥0.97). However, there were no significant differences in any muscle architectural parameters between the concurrent and separate measurements (all P > 0.05)., Conclusion: The use of ultrasound strain elastography for the concurrent measurement of muscle architecture and muscle hardness is feasible., (© The Foundation Acta Radiologica 2013 Reprints and permissions: sagepub.co.uk/journalsPermissions.nav.)

Published

2014

669. Relationship between sprint performance of front crawl swimming and muscle fascicle length in young swimmers.

Author

Nasirzade A, Ehsanbakhsh A, Ilbeygi S, Sobhkhiz A, Argavani H, and Aliakbari M

Abstract

The purpose of this study was to investigate the relationship between 25-m sprint front crawl swimming performance and muscle fascicle length in young male swimmers. 23 swimmers were selected and divided into two groups according to their best records of 25-m sprint performance: 14.6-15.7 sec (S1, n = 11) and 15.8-17 sec (S2, n = 12). Muscle thickness and pennation angle of Biceps Brachii (BB; only muscle thickness), Triceps Brachii (TB), Vastus Lateralis (VL), Gastrocnemius Medialis (GM) and Lateralis (GL) muscles were measured by B-mode ultrasonography, and fascicle length was estimated. Although, there was no significant differences between groups in anthropometrical parameter as standing height, body mass, arm length, thigh length and leg length (p < 0.001), however, S1 significantly had a greater muscle thickness in VL, GL, and TB muscles (p < 0.05). Pennation angle only in TB was significantly smaller in S1 (p < 0.05). S1 in VL, GL, and TB muscles significantly had greater absolute fascicle length and in VL and TB muscles had relatively (relative to limb length) greater fascicle length (p < 0.05). Moreover, there was a significant relationship between sprint swimming time and absolute and relative fascicle length in VL (absolute: r = -0.49 and relative: r = -0.43, both p < 0.05) and GL (absolute: r = -0.47 and relative: r = -0.42, both p < 0.05). Potentially, it seems that fascicle geometry developed in muscles of faster young swimmers to help them to perform their high speed movement. Key PointsThis study investigated the relationship between muscle fascicle length and sprint front crawl performance in young male swimmers.It seems that young swimmers with faster front crawl sprint swimming performance trend to have smaller pennation angle and greater absolute and relative fascicle length (relative to limb length) in their locomotor muscles.Potentially, fascicle geometry developed in faster swimmers to help them to perform higher speed movement via higher output power, however, the adaptive response of fiber length follownig training is not well underestood.

Published

2014

670. Effects of load magnitude, muscle length and velocity during eccentric chronic loading on the longitudinal growth of the vastus lateralis muscle.

Author

Sharifnezhad A, Marzilger R, and Arampatzis A

Subjects

Adult, Biomechanical Phenomena, Electromyography, Humans, Knee Joint physiology, Leg physiology, Exercise physiology, Isometric Contraction physiology, Quadriceps Muscle anatomy & histology, Quadriceps Muscle physiology

Abstract

The present study investigated the longitudinal growth of the vastus lateralis muscle using four eccentric exercise protocols with different mechanical stimuli by modifying the load magnitude, lengthening velocity and muscle length at which the load was applied. Thirty-one participants voluntarily participated in this study in two experimental and one control group. The first experimental group (N=10) exercised the knee extensors of one leg at 65% (low load magnitude) of the maximum isometric voluntary contraction (MVC) and the second leg at 100% MVC (high load magnitude) with 90 deg s(-1) angular velocity, from 25 to 100 deg knee angle. The second experimental group (N=10) exercised one leg at 100% MVC, 90 deg s(-1), from 25 to 65 deg knee angle (short muscle length). The other leg was exercised at 100% MVC, 240 deg s(-1) angular velocity (high muscle lengthening velocity) from 25 to 100 deg. In the pre- and post-intervention measurements, we examined the fascicle length of the vastus lateralis at rest and the moment-angle relationship of the knee extensors. After 10 weeks of intervention, we found a significant increase (~14%) of vastus lateralis fascicle length compared with the control group, yet only in the leg that was exercised with high lengthening velocity. The findings provide evidence that not every eccentric loading causes an increase in fascicle length and that the lengthening velocity of the fascicles during the eccentric loading, particularly in the phase where the knee joint moment decreases (i.e. deactivation of the muscle), seems to be an important factor for longitudinal muscle growth., (© 2014. Published by The Company of Biologists Ltd.)

Published

2014

671. Tendon properties and muscle architecture for knee extensors and plantar flexors in boys and men.

Author

Kubo K, Teshima T, Ikebukuro T, Hirose N, and Tsunoda N

Subjects

Adult, Age Factors, Biomechanical Phenomena physiology, Child, Humans, Male, Muscle, Skeletal anatomy & histology, Quadriceps Muscle physiology, Tendons anatomy & histology, Young Adult, Achilles Tendon anatomy & histology, Elasticity physiology, Foot physiology, Isometric Contraction physiology, Knee Joint physiology, Muscle, Skeletal physiology, Tendons physiology

Abstract

Background: The purpose of this study was to compare the elastic properties and size of tendinous structures and muscle architecture for knee extensors and plantar flexors in boys and men., Methods: Twenty-two early pubescent boys (9.6-12.7yrs) and 23 young adult men (19.8-26.2yrs) participated in this study. The maximal strain and thickness of tendinous structures for knee extensors and plantar flexors were measured using ultrasonography. In addition, the fascicle lengths of vastus lateralis and medial gastrocnemius muscles were measured., Findings: The maximal strain of tendinous structures for plantar flexors was significantly greater in boys than in men, while there was no difference in the maximal strain for knee extensors between the two groups. The relative thickness (to body mass(1/3)) of Achilles tendon was significantly greater in boys than in men, although there was no difference in that of patellar tendon between the two groups. The relative fascicle length (to limb length) of vastus lateralis muscle was significantly lower in boys than in men, although there was no difference in that of medial gastrocnemius muscle between the two groups., Interpretation: These results suggest that the amount of changes in the elastic properties and sizes of tendinous structures and in the fascicle lengths from early pubescence to maturity is different for different muscle groups (in particular, the knee extensors and the plantar flexors)., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

672. Validity of fascicle length estimation in the vastus lateralis and vastus intermedius using ultrasonography.

Author

Ando R, Taniguchi K, Saito A, Fujimiya M, Katayose M, and Akima H

Subjects

Aged, Aged, 80 and over, Cadaver, Female, Humans, Male, Quadriceps Muscle, Reproducibility of Results, Ultrasonography, Leg diagnostic imaging, Leg physiology, Muscle, Skeletal diagnostic imaging, Muscle, Skeletal physiology

Abstract

The purpose of this study was to determine the validity of fascicle length estimation in the vastus lateralis (VL) and vastus intermedius (VI) using ultrasonography. The fascicle lengths of the VL and VI muscles were measured directly (dFL) using calipers, and were estimated (estmFL) using ultrasonography, in 10 legs from five Thiel's embalmed cadavers. To determine the validity of the estmFLs, FL was estimated using five previously published models and compared with dFL. The intraclass correlation coefficients (ICCs) of two of the five models were>0.75, indicating that these estimates were valid. Both of these models combined measurement of the length of the visible part of the fascicle with linear extrapolation of the length of the part of the fascicle that was not visible on the sonographic image. The ICCs and absolute% difference were best in models that used appropriate pennation angles. These results suggest that two of the five previously published models are valid for obtaining estmFL of the VL and VI using ultrasonography., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

673. Muscle and fascicle excursion in children with cerebral palsy.

Author

Matthiasdottir S, Hahn M, Yaraskavitch M, and Herzog W

Subjects

Adolescent, Ankle Joint physiopathology, Body Weights and Measures, Cerebral Palsy pathology, Cerebral Palsy physiopathology, Child, Electromyography, Female, Humans, Male, Muscle Spasticity pathology, Muscle Spasticity physiopathology, Muscle, Skeletal pathology, Muscle, Skeletal physiopathology, Range of Motion, Articular physiology, Reproducibility of Results, Ultrasonography, Ankle Joint diagnostic imaging, Cerebral Palsy diagnostic imaging, Muscle Spasticity diagnostic imaging, Muscle, Skeletal diagnostic imaging

Abstract

Background: Fascicle length and fascicle excursion measurements in children with cerebral palsy have yielded inconsistent results. The purpose of this study was to measure in vivo passive fascicle lengths and fascicle excursions in the Medial Gastrocnemius muscle of children with cerebral palsy and typically developing controls., Methods: We measured 11 children with spastic cerebral palsy and 14 controls between the ages of 9 and 16years. Ultrasound imaging was used to measure fascicle lengths while a dynamometer moved the ankle joint through the range of motion. A common range of motion for all subjects was used for analysis of fascicle excursion., Findings: Fascicle lengths in children with cerebral palsy were 43% smaller than those for control subjects throughout the range of motion. The relative fascicle excursion was 92% greater on average for the cerebral palsy compared to the control group children. The muscle excursion for the control group children was greater than for the cerebral palsy group children., Interpretation: Since the fascicles in children with spastic cerebral palsy are shorter, but they go through the same excursion as fascicles in typically developing children, sarcomeres within the medial gastrocnemius muscle must be working over a larger range of sarcomere lengths. Combined with findings of overstretched sarcomeres in spastic muscles reported in the literature, our results suggest that the increased passive forces and the weakness found in spastic muscles may be caused by a decrease in contractile filament overlap as sarcomeres are pulled to extreme lengths in children with cerebral palsy., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

674. Soleus fascicle length changes are conserved between young and old adults at their preferred walking speed.

Author

Panizzolo FA, Green DJ, Lloyd DG, Maiorana AJ, and Rubenson J

Subjects

Adult, Aged, Biomechanical Phenomena, Electromyography, Gait physiology, Humans, Leg physiology, Male, Middle Aged, Young Adult, Aging physiology, Ankle Joint physiology, Muscle Contraction physiology, Muscle, Skeletal physiology, Walking physiology

Abstract

Older adults have been shown to naturally select a walking speed approximately 20% slower than younger adults. We explored the possibility that a reduction in preferred speed in older adults represents a strategy to preserve the mechanical function of the leg muscles. We examined this question in the soleus muscle in eight healthy young (25.8±3.5 years) and eight healthy older adults (66.1±2.3 years) who were paired so that their preferred speed differed by ∼20%. Soleus muscle fascicle lengths were recorded dynamically using ultrasound, together with simultaneous measurements of soleus EMG activity and ankle joint kinematics while (a) older adults walked on a treadmill at a speed 20% above their preferred speed (speeds matched to the preferred speed of young adults), and (b) young and older adults walked at their preferred treadmill speeds. Analyses of mean muscle fascicle length changes revealed that, at matched speeds, older adults had a statistically different soleus fascicle length pattern compared to young adults, where the muscle's stretch-shorten cycle during stance was diminished. However, older adults walking at their preferred speed exhibited a more pronounced stretch-shorten cycle that was not statistically different from young adults. Conserving muscle length patterns through a reduction in speed in older adults may represent a physiologically relevant modulation of muscle function that permits greater force and power production. Our findings offer a novel mechanical explanation for the slower walking speed in older adults, whereby a reduction in speed may permit muscles to function in a mechanically similar manner to that of younger adults., (Copyright © 2013 Elsevier B.V. All rights reserved.)

Published

2013

675. Foliar injury and shoot growth in response to prolonged acidic misting ofPinus strobus seedlings

Author

Charles G. Maurice and Richard Crang

Subjects

biology, Health, Toxicology and Mutagenesis, Nutritional content, Microscopic level, Growing season, General Medicine, Fascicle, Toxicology, biology.organism_classification, Pollution, Horticulture, Seedling, Shoot, Botany, Fascicle length, Elongation

Abstract

Two-yr-oldPinus strobus seedling shoots were exposed to pH 5.6, 4.6, 3.6, and 2.6 mists, nightly during a 24-wk period coinciding with the growing season. Throughout the misting period, seedlings were well-fertilized and mist water was excluded from the soil of each seedling in order to render inconsequential the higher nutritional content (NO3− and SO42−) of the more acidified mists. Foliar necrosis appeared in all plants exposed to acidity levels below pH 5.6. Injury magnitude and quantity was pH-dependent, ranging from no injury of the pH 5.6 needles to more than 50% injury of needle tissue from the pH 2.6 group. No significant differences were observed in the macroscopic growth of seedlings between the four different treatment groups. This was determined through measurements of both the seasonal increase in seedling heights and the fascicle lengths at the end of the season. In addition, no statistically significant differences were found at the microscopic level after the measurement of whole-needle transectional areas of healthy-appearing, green needle segments. Areas of component regions in these transections also did not yield statistical differences. These microscopic results combined with the fascicle length measurements lead to the conclusion that needle elongation progressed in a normal, unaffected manner despite needle injury.

Published

1989

676. Estimating Leaf-Area Growth in Pine

Author

William R. Harms

Subjects

Combinatorics, Tree (descriptive set theory), Ecology, Botany, Pine tree, Fascicle length, Fascicle, Ecology, Evolution, Behavior and Systematics, Mathematics

Abstract

Nondestructive estimates of the leaf—area growth (A) of a pine tree can be obtained from periodic measurements of the green length and the average fascicle length of the foliated portion (fascicle cluster) of individual branches. The prediction equation is A = b_0N + b_1 (Sum of N G_iL_i) where G_i is the green length, L_i is the average fascicle length for the ith fascicle cluster (i = 1,2,...,N), and N is the number of fascicle clusters on the tree. The coefficients for the equation are determined by the method of least squares from a representative sample of fascicle clusters of known leaf area and varying G and L. See full-text article at JSTOR

Published

1971

677. The Effects of Tenotomy on the Morphology of the Rabbit Digastric Muscle

Author

R.J. Waryjas and Z.F. Muhl

Subjects

Male, Sarcomeres, 0301 basic medicine, medicine.medical_treatment, Tenotomy, Sarcomere, Tendons, 03 medical and health sciences, 0302 clinical medicine, medicine, Animals, Regeneration, General Dentistry, Digastric muscle, business.industry, Pinnation, Effective force, 030206 dentistry, Anatomy, Fascicle, Tendon, 030104 developmental biology, medicine.anatomical_structure, Masticatory Muscles, Fascicle length, Rabbits, business

Abstract

The digastric muscles of 17 New Zealand White rabbits were subjected to tenotomy. A sham operation was performed on six animals. Groups of three or four animals were killed at one hour, one day, 10 days, 30 days, and 60 days after the tenotomy. There was evidence of tendon regeneration by 10 days, and by 30 days the tendon appeared normal macroscopically. The tendon was normal in microscopic appearance in the animals examined at 60 days.Muscle belly length and fascicle length decreased after the tenotomy, and the angle of pinnation increased. Sarcomere lengths underwent a transient decrease within one hour of the tenotomy, but then were as long as or longer than those in the sham-operated group.A biomechanical analysis suggests that the net result of the morphological changes produced by the tenotomy leads to a reduction in force capability of only about 12%. The shorter belly and fascicle lengths, however, may diminish the effective range over which effective force can be exerted.

Published

1987

678. Ultrasonographic measurement of the biceps femoris long-head muscle architecture

Author

Freitas, Sandro R., Marmeleira, João, Valamatos, Maria J., Blazevich, Anthony J., Mil-Homens, Pedro, Freitas, Sandro R., Marmeleira, João, Valamatos, Maria J., Blazevich, Anthony J., and Mil-Homens, Pedro

Abstract

Freitas, S. R., Marmeleira, J., Valamatos, M. J., Blazevich, A., & Mil‐Homens, P. (2018). Ultrasonographic Measurement of the Biceps Femoris Long‐Head Muscle Architecture. Journal of Ultrasound in Medicine, 37(4), 977-986. Available here.

679. Biceps femoris long-head architecture assessed using different sonographic techniques

Author

Pimenta, Ricardo, Blazevich, Anthony J., Freitas, Sandro R., Pimenta, Ricardo, Blazevich, Anthony J., and Freitas, Sandro R.

Abstract

Pimenta, R., Blazevich, A. J., & Freitas, S. R. (2018). Biceps femoris long-head architecture assessed using different sonographic techniques. Medicine and Science in Sports and Exercise, 50(12). 2584-2594. Available here.

680. Difference in fascicle behaviors between superficial and deep quadriceps muscles during isometric contractions

Author

Ando,, Ryosuke, Nosaka, Kazunori, Inami, Takayuki, Tomita, Aya, Watanabe, Kohei, Blazevich, Anthony J, Akima, Hiroshi, Ando,, Ryosuke, Nosaka, Kazunori, Inami, Takayuki, Tomita, Aya, Watanabe, Kohei, Blazevich, Anthony J, and Akima, Hiroshi

Abstract

Ando, R., Nosaka, K., Inami, T., Tomita, A., Watanabe, K., Blazevich, A. J. and Akima, H. (2016), Difference in fascicle behaviors between superficial and deep quadriceps muscles during isometric contractions. Muscle Nerve, 53: 797–802. Available here

681. Neuromuscular adaptations associated with knee joint angle-specific force change

Author

Noorkõiv, Marika, Nosaka, Kazunori, Blazevich, Anthony J, Noorkõiv, Marika, Nosaka, Kazunori, and Blazevich, Anthony J

Abstract

Noorkoiv M., Nosaka K., & Blazevich A.J. (2014). Neuromuscular adaptations associated with knee joint angle-specific force change. Medicine and Science in Sports and Exercise, 46(8), 1525-1537. Available here

682. Distribution and innervation of short, interdigitated muscle fibers in parallel-fibered muscles of the cat hindlimb

Author

C. A. Pratt, Gerald E. Loeb, C. M. Chanaud, and F. J. R. Richmond

Subjects

Electromyography, Histocytochemistry, Muscles, Action Potentials, Anatomy, Hindlimb, Biology, Fascicle, Muscle mass, Motor Endplate, Carnivora, Cats, Fascicle length, Animals, Animal Science and Zoology, Fiber, Developmental Biology, Muscle Contraction

Abstract

The cat hindlimb contains several long, biarticular strap mus- cles composed of parallel muscle fascicles that attach to short tendons. Three of these muscles - sartorius, tenuissimus, and semitendinosus - were studied by dissecting individual gold-stained fibers and determining the surface dis- tribution of acetylcholinesterase-stained end-plate zones. In each muscle, fascicles were composed of muscle fibers that ran only part of the fascicle length and tapered to end as fine strands that interdigitated with other taper- ing fibers within the muscle mass. Most muscle fibers measured 2-3 cm in length. Fascicles of muscle fibers were crossed by short transverse bands of endplates (1 mm wide by 1-5 mm long) that were spaced at fairly regular intervals from the origin to the insertion of the muscle. The endplate pattern suggested that the fiber fascicles were organized into multiple longitudinal strips. In the sartorius, the temporospatial distribution of electromyographic (EMG) activity evoked by stimulating fine, longitudinal branches of the parent nerve confirmed that each strip was selectively innervated by a small subset of the motor axons. These axons appeared to distribute their endings through- out the entire length of the fascicles, providing for synchronous activation of their in-series fibers. Although mammalian muscles can exhibit a remarkable variety of forms (Warwick and Williams, '731, most can be classified as pin- nate or parallel according to their fiber ori- entations (e.g. McMahon, '84; Pierrynowksi and Morrison, '85). Pinnate muscles are usu- ally composed of fibers that are much shorter than the muscle as a whole and run obliquely between two (or more) closely approximated planes of attachment. In contrast, parallel- fibered muscles commonly consist of fiber fascicles running most of the length of the muscle and arranged in sheet-like or strap- like arrays that are parallel to the line-of- pull of the muscle. The functional signifi- cance of fascicle arrangements in pinnate versus parallel muscles has been examined theoretically and experimentally in some de- tail (Gans and Bock, '65; Gans, '82), and it is now well recognized that the architectural arrangement has a significant effect on the length-tension relationship, shortening ve- locities, and force-developing capabilities of the muscle.

Published

1987

683. [Untitled]

Subjects

Flexibility (anatomy), biology, Physiology, business.industry, Athletes, 030229 sport sciences, medicine.disease_cause, biology.organism_classification, Static stretching, 03 medical and health sciences, Gastrocnemius muscle, 0302 clinical medicine, medicine.anatomical_structure, Jumping, Physiology (medical), Anesthesia, Medicine, Fascicle length, Ankle dorsiflexion, business, Muscle architecture, 030217 neurology & neurosurgery

Abstract

This study examined the effects of high-volume static stretching training on gastrocnemius muscle architecture, ankle angle and jump height in 21 female adolescent volleyball players. Static stretching of the plantar flexors of one leg (STR) was performed five times/week for 12 weeks, in addition to volleyball training, with the contra-lateral leg used as control (CON). Total duration of stretching per session increased from 540 s (week 1) to 900 s (week 12). At baseline, week 12 and after 3 weeks of detraining, muscle architecture at the middle and the distal part of both gastrocnemius heads (medialis and lateralis) and ankle angle were examined at rest and at maximum dorsiflexion. At the same time-points gastrocnemius cross-sectional area (CSA) was also assessed, while jumping height was measured at baseline and week 12. Following intervention, ankle dorsiflexion increased in both legs with a greater increase in STR than CON (22 ± 20% vs. 8 ± 17%, p < 0.001). Fascicle length at the middle part of gastrocnemius medialis increased only in the STR, at rest (6 ± 7%, p = 0.006) and at maximum dorsiflexion (11 ± 7%, p < 0.001). Fascicle length at maximum dorsiflexion also increased at the distal part of gastrocnemius lateralis of STR (15 ± 13%, p < 0.001). A greater increase in CSA (23 ± 14% vs. 13 ± 14%, p < 0.001) and in one-leg jumping height (27 ± 30% vs. 17 ± 23%, p < 0.001) was found in STR than CON. Changes in ankle angle, fascicle length and CSA were maintained following detraining. High-volume stretching training for 12 weeks results in ankle dorsiflexion, fascicle length and muscle cross sectional area increases in adolescent female volleyball players. These adaptations may partly explain improvements in jump performance.

684. [Untitled]

Subjects

medicine.medical_specialty, Physiology, Chemistry, Medial gastrocnemius, 030229 sport sciences, medicine.disease_cause, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Jumping, Physiology (medical), Internal medicine, Joint stiffness, medicine, Cardiology, Fascicle length, Stretch reflex, medicine.symptom, Ankle, Range of motion, Muscle architecture, 030217 neurology & neurosurgery

Abstract

Muscle architecture is an important component of muscle function, and recent studies have shown changes in muscle architecture with fatigue. The stretch-shortening cycle is a natural way to study human locomotion, but little is known about how muscle architecture is affected by this type of exercise. This study investigated potential changes in medial gastrocnemius (MG) muscle architecture after exhaustive stretch-shortening cycle exercise. Male athletes (n = 10) performed maximal voluntary contractions (MVC) and maximal drop jump (DJ) tests before and after an exercise task consisting of 100 maximal DJs followed by successive rebound jumping to 70% of the initial maximal height. The exercise task ceased upon failure to jump to 50% of maximal height or volitional fatigue. Muscle architecture of MG was measured using ultrasonography at rest and during MVC, and performance variables were calculated via a force plate and motion analysis. After SSC exercise, MVC (-13.1%; p = 0.005; dz = 1.30), rebound jump height (-14.8%, p = 0.004; dz = 1.32), and ankle joint stiffness (-26.3%; p = 0.008; dz = 1.30) decreased. Ankle joint range of motion (+20.2%; p = 0.011; dz = 1.09) and MG muscle-tendon unit length (+12.0%; p = 0.037; dz = 0.91) during the braking phase of DJ, the immediate drop-off in impact force (termed peak force reduction) (Δ27.3%; p = 0.033; dz = 0.86), and lactate (+9.5 mmol/L; p < 0.001; dz = 3.58) increased. Fascicle length increased at rest (+4.9%; p = 0.013; dz = 1.16) and during MVC (+6.8%; p = 0.048; dz = 0.85). Pennation angle decreased at rest (-6.5%; p = 0.034, dz = 0.93) and during MVC (-9.8%; p = 0.012; dz = 1.35). No changes in muscle thickness were found at rest (-2.6%; p = 0.066; dz = 0.77) or during MVC (-1.6%; p = 0.204; dz = 0.49). The greater MG muscle-tendon stretch during the DJ braking phase after exercise indicates that muscle damage likely occurred. The lower peak force reduction and ankle joint stiffness, indicative of decreased active stiffness, suggests activation was likely reduced, causing fascicles to shorten less during MVC.

685. [Untitled]

Subjects

medicine.medical_specialty, Physiology, business.industry, Public Health, Environmental and Occupational Health, Stimulation, 030229 sport sciences, General Medicine, 03 medical and health sciences, Electrophysiology, 0302 clinical medicine, Physical medicine and rehabilitation, Motor imagery, Physiology (medical), Neuroplasticity, Medicine, Fascicle length, Orthopedics and Sports Medicine, Ultrasonography, business, Training program, Muscle architecture, 030217 neurology & neurosurgery

Abstract

Introduction Training stimuli that partially activate the neuromuscular system, such as motor imagery (MI) or neuromuscular electrical stimulation (NMES), have been previously shown as efficient tools to induce strength gains. Here the efficacy of MI, NMES or NMES + MI trainings has been compared. Methods Thirty-seven participants were enrolled in a training program of ten sessions in 2 weeks targeting plantar flexor muscles, distributed in four groups: MI, NMES, NMES + MI and control. Each group underwent forty contractions in each session, NMES + MI group doing 20 contractions of each modality. Before and after, the neuromuscular function was tested through the recording of maximal voluntary contraction (MVC), but also electrophysiological and mechanical responses associated with electrical nerve stimulation. Muscle architecture was assessed by ultrasonography. Results MVC increased by 11.3 ± 3.5% in NMES group, by 13.8 ± 5.6% in MI, while unchanged for NMES + MI and control. During MVC, a significant increase in V-wave without associated changes in superimposed H-reflex has been observed for NMES and MI, suggesting that neural adaptations occurred at supraspinal level. Rest spinal excitability was increased in the MI group while decreased in the NMES group. No change in muscle architecture (pennation angle, fascicle length) has been found in any group but muscular peak twitch and soleus maximal M-wave increased in the NMES group only. Conclusion Finally, MI and NMES seem to be efficient stimuli to improve strength, although both exhibited different and specific neural plasticity. On its side, NMES + MI combination did not provide the expected gains, suggesting that their effects are not simply cumulative, or even are competitive.

686. [Untitled]

Subjects

musculoskeletal diseases, medicine.medical_specialty, Materials science, Proprioception, business.industry, Ultrasound, Physical Therapy, Sports Therapy and Rehabilitation, 030229 sport sciences, Tendon tissue, Muscle stiffness, musculoskeletal system, Tendon, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Physical therapy, medicine, Fascicle length, Orthopedics and Sports Medicine, PNF stretching, Range of motion, business, 030217 neurology & neurosurgery, Biomedical engineering

Abstract

The purpose of this study was to investigate the influence of a single static, ballistic, or proprioceptive neuromuscular facilitation (PNF) stretching exercise on the various muscle-tendon parameters of the lower leg and to detect possible differences in the effects between the methods. Volunteers (n = 122) were randomly divided into static, ballistic, and PNF stretching groups and a control group. Before and after the 4 × 30 s stretching intervention, we determined the maximum dorsiflexion range of motion (RoM) with the corresponding fascicle length and pennation angle of the gastrocnemius medialis. Passive resistive torque (PRT) and maximum voluntary contraction (MVC) were measured with a dynamometer. Observation of muscle-tendon junction (MTJ) displacement with ultrasound allowed us to determine the length changes in the tendon and muscle, respectively, and hence to calculate stiffness. Although RoM increased (static: +4.3%, ballistic: +4.5%, PNF: +3.5%), PRT (static: -11.4%, ballistic: -11.5%, PNF: -13,7%), muscle stiffness (static: -13.1%, ballistic: -20.3%, PNF: -20.2%), and muscle-tendon stiffness (static: -11.3%, ballistic: -10.5%, PNF: -13.7%) decreased significantly in all the stretching groups. Only in the PNF stretching group, the pennation angle in the stretched position (-4.2%) and plantar flexor MVC (-4.6%) decreased significantly. Multivariate analysis showed no clinically relevant difference between the stretching groups. The increase in RoM and the decrease in PRT and muscle-tendon stiffness could be explained by more compliant muscle tissue following a single static, ballistic, or PNF stretching exercise.

687. Effect of prolonged critical care admissions on upper and lower limb muscle architecture

Author

R Hay, Jamie S. McPhee, Ingeborg Welters, JK Taylor, Peter Turton, and J Little

Subjects

Pathology, medicine.medical_specialty, Rehabilitation, business.industry, medicine.medical_treatment, Critical Care and Intensive Care Medicine, Lower limb, Lower limb muscle, Physical medicine and rehabilitation, medicine.anatomical_structure, Intensive care, Poster Presentation, Fascicle length, Medicine, Upper limb, medicine.symptom, business, Muscle architecture, Wasting

Abstract

Muscle wasting is a common consequence of long-term stay in the critical care environment, which may slow down the rehabilitation of survivors. Previous ultrasound studies have demonstrated a loss of cross-sectional area of lower limb muscles during a 10-day intensive care stay. In this study, we have looked at how markers of muscle architecture (muscle thickness, pennation angle and fascicle length) change in the lower limb, as well as looking at changes in muscle thickness in the upper limb.

688. [Untitled]

Subjects

musculoskeletal diseases, biology, Physiology, business.industry, Eccentric contractions, Strain (injury), 030229 sport sciences, Anatomy, Fascicle, musculoskeletal system, medicine.disease, Tendon, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Eccentric exercise, Physiology (medical), medicine, biology.protein, Fascicle length, Eccentric, Creatine kinase, business, 030217 neurology & neurosurgery

Abstract

Aim: The aim of this paper was to determine whether; 1) patella tendon stiffness, 2) the magnitude of vastus lateralis fascicle lengthening, and 3) eccentric torque correlate with markers of exercise induced muscle damage. Method: Combining dynamometry and ultrasonography, patella tendon properties and vastus lateralis architectural properties were measured pre and during the first of six sets of 12 maximal voluntary eccentric knee extensions. Maximal isometric torque loss and creatine kinase activity were measured pre-damage (-48 hrs), 48, 96 and 168 hrs post-damage as markers of exercise-induced muscle damage. Results: A significant increase in creatine kinase (883 ± 667 UL) and a significant reduction in maximal isometric torque loss (21%) was reported post-eccentric contractions. Change in creatine kinase from pre to peak significantly correlated with the relative change in vastus lateralis fascicle length during eccentric contractions (r = 0.53, p = 0.02) and with eccentric torque (r = 0.50, p = 0.02). Additionally, creatine kinase tended to correlate with estimated patella tendon lengthening during eccentric contractions (p < 0.10). However, creatine kinase did not correlate with resting measures of patella tendon properties or vastus lateralis properties. Similarly, torque loss did not correlate with any patella tendon or vastus lateralis properties at rest or during eccentric contractions. Conclusion: The current study demonstrates that the extent of fascicle strain during eccentric contractions correlates with the magnitude of the creatine kinase response. Although at rest, there is no relationship between patella tendon properties and markers of muscle damage; during eccentric contractions however, the patella tendon may play a role in the creatine kinase response following EIMD.

689. [Untitled]

Subjects

musculoskeletal diseases, medicine.medical_specialty, Physiology, Adolescent athletes, Muscle hypertrophy, 03 medical and health sciences, 0302 clinical medicine, Physiology (medical), Internal medicine, medicine, biology, medicine.diagnostic_test, Athletes, business.industry, Magnetic resonance imaging, 030229 sport sciences, musculoskeletal system, biology.organism_classification, Patellar tendon, Tendon, medicine.anatomical_structure, Cardiology, Fascicle length, Early adolescents, business, 030217 neurology & neurosurgery

Abstract

Adolescent athletes can feature significantly greater muscle strength and tendon stiffness compared to untrained peers. However, to date, it is widely unclear if radial muscle and tendon hypertrophy may contribute to loading-induced adaptation at this stage of maturation. The present study compares the morphology of the vastus lateralis (VL) and the patellar tendon between early-adolescent athletes and untrained peers. In 14 male elite athletes (A) and 10 untrained controls (UC; 12-14 years of age), the VL was reconstructed from full muscle segmentations of magnetic resonance imaging (MRI) sequences and ultrasound imaging was used to measure VL fascicle length and pennation angle. The physiological cross-sectional area (PCSA) of the VL was calculated by dividing muscle volume by fascicle length. The cross-sectional area (CSA) of the patellar tendon was measured over its length based on MRI segmentations as well. Considering body mass as covariate in the analysis, there were no significant differences between groups considering the VL anatomical cross-sectional area (ACSA) over its length or maximum ACSA (UC: 24.0 ± 8.3 cm2, A: 28.1 ± 5.3 cm2, p > 0.05), yet athletes had significantly greater VL volume (UC: 440 ± 147 cm3, A: 589 ± 121 cm3), PCSA (UC: 31 ± 9 cm2, A: 46 ± 9 cm2), pennation angle (UC: 8.2 ± 1.4°, A: 10.1 ± 1.3°), and average patellar tendon CSA (UC: 1.01 ± 0.18 cm2, A: 1.21 ± 0.18 cm2) compared to the untrained peers (p < 0.05). However, the ratio of average tendon CSA to VL PCSA was significantly lower in athletes (UC: 3.4 ± 0.1%, A: 2.7 ± 0.5%; p < 0.05). When inferring effects of athletic training based on the observed differences between groups, these results suggest that both muscle and tendon of the knee extensors respond to athletic training with radial growth. However, the effect seems to be stronger in the muscle compared to the tendon, with an increase of pennation angle contributing to the marked increase of muscle PCSA. A disproportionate response to athletic training might be associated with imbalances of muscle strength and tendon stiffness and could have implications for the disposition towards tendon overuse injury.

690. [Untitled]

Subjects

musculoskeletal diseases, Muscle fascicle, Physiology, Chemistry, Knee flexion, Anatomy, Fascicle, Knee Joint, musculoskeletal system, Plantar flexion, medicine.anatomical_structure, Neural regulation, Physiology (medical), medicine, Fascicle length, Ankle

Abstract

While medial gastrocnemius (MG) and soleus (SOL) are considered synergists, they are anatomically exclusive in that SOL crosses only the ankle, while MG crosses both the knee and ankle. Due to the force-length properties of both active and passive structures, activation of SOL and MG must be constantly regulated to provide the required joint torques for any planned movement. As such, the aim of this study was to investigate the neural regulation of MG and SOL when independently changing their length by changing only the knee joint angle, thus exclusively altering the length of MG fibers. MG and SOL motor units (MU) were recorded intramuscularly along with ultrasound imaging of MG and SOL fascicle lengths, while moving the knee through 60° of rotation and maintaining a low level of voluntary plantar flexor torque. The results showed a reciprocal activation of MG and SOL as the knee was moved into flexion and extension. A clear reduction in MG MU firing rates occurred as the knee was flexed (MG fascicles shortening), with de-recruitment of most MG MU occurring at close to full knee flexion. A concomitant increase in SOL MU activity was observed while no change in the length of its fascicles was found. The opposite effects were found when the knee was moved into extension. A strong correlation (ICC = 0.78) was found between the fascicle length at which MG MUs were de-recruited and subsequently re-recruited. This was stronger than the relationship of derecruitment and re-recruitment with knee angle (ICC = 0.52), indicating that in this instance, muscle fascicle length rather than joint angle is more influential in regulating MG recruitment. Such a reciprocal arrangement like the one presented here for SOL and MG is essential for human voluntary movements such as walking or cycling.

691. Repetitive Contractions at Short and Long Lengths: Do Not Subtract Passive Force!

Author

Brian R. MacIntosh and Elias K. Tomaras

Subjects

Physics, Contraction (grammar), Active force, Muscle fatigue, Biophysics, Medial gastrocnemius, Fascicle length, Ion distribution, Short length, Metabolic demand, Biomedical engineering

Abstract

Several reports have compared the consequence of repetitive contractions at long and short lengths, with the goal of gaining an understanding of factors causing muscle fatigue: metabolic vs ion distribution. This is traditionally done calculating active force as peak force - passive force. Alternatively, it has recently been shown that during contraction of whole muscle, fascicle length shortens, and it would be more appropriate to subtract the passive force associated with the fascicle length at the peak of the contraction. These two approaches will give different results, for contractions at long length. Contractions of the rat medial gastrocnemius muscle were obtained at 0.3Hz (trains of 50 Hz, 400 ms duration) at a length either 3.6mm shorter or 3.6mm longer than the reference length. During the repetitive contractions, muscle length was changed periodically to the other length to observe 1-2 contractions, then returned to the test length. Initial active force was 2.53±0.4 (mean ± SD) and 6.26±1.2 N at short and long lengths respectively. Active force at the long length would be similar to that of the short length if active force was calculated in the traditional manner. Active force decreased to 1.90±0.5 and 1.8±1.0 N at the short and long lengths respectively. During repetitive contractions at the short length, active force was 3.6±1.1 N, when measured at the long length. During repetitive contractions at the long length, active force was 0.67±0.4 N, when measured at the short length. Clearly, the long length resulted in substantially greater fatigue than the short length. There would be no explanation for this if active force was calculated in the traditional manner. The higher real active force and therefore metabolic demand of contractions at the long length can explain the greater fatigue.

692. Muscle Architecture of the Human Lower Limb

Author

Roland R. Roy, Thomas L. Wickiewicz, V. R. Edgerton, and P. L. Powell

Subjects

Human cadaver, Knee extensors, business.industry, General Medicine, Anatomy, musculoskeletal system, Plantar flexion, Lower limb, body regions, medicine.anatomical_structure, Physiological cross-sectional area, Medicine, Fascicle length, Orthopedics and Sports Medicine, Surgery, Ankle, business, Muscle architecture

Abstract

The architectural features of the major knee extensors and flexors and ankle plantar flexors and dorsiflexors were determined in three human cadavers. There was marked uniformity of fiber length throughout a given muscle and a trend toward similar fiber lengths within muscles of a synergistic group.

Published

1983