Your search keyword '"Haddara, Raneem"' showing total 10 results

1. Anterior cruciate ligament agonist and antagonist muscle force differences between males and females during perturbed walking

Author

Haddara, Raneem, Harandi, Vahidreza Jafari, and Lee, Peter Vee Sin

Published

2020

2. Gait compensatory mechanisms in unilateral transfemoral amputees

Author

Harandi, Vahidreza Jafari, Ackland, David Charles, Haddara, Raneem, Lizama, L. Eduardo Cofré, Graf, Mark, Galea, Mary Pauline, and Lee, Peter Vee Sin

Published

2020

3. A method for measuring in vivo finger kinematics using electromagnetic tracking.

Author

Tanashi, Ahmed, Haddara, Raneem, Haddara, Mohammad M., Ferreira, Louis, and Lalone, Emily

Subjects

*FINGERS, *FINGER joint, *KINEMATICS, *COMPUTER simulation, *EVALUATION methodology, *DIGITIZATION

Abstract

Accurate in vivo measurement of finger joint kinematics is important for evaluation of treatment methods, implant designs, and for the development and validation of computer models of the hand. The main objective of this project was to develop a standardized finger kinematic measurement system employing electromagnetic (EM) tracking to measure in vivo finger motion pathways. A landmark digitization protocol was developed and used in vivo, in a biomechanical study using EM trackers secured to the finger segments. In vivo results for finger flexion/extension showed no significant differences between EM and goniometer results, 5°±3°; p = 0.735. [ABSTRACT FROM AUTHOR]

Published

2022

4. Effect of ProphylacticKneeBracing on Anterior Cruciate Ligament Agonist and Antagonist Muscle Forces During Perturbed Walking.

Author

Haddara, Raneem, Harandi, Vahidreza Jafari, and Lee, Peter Vee Sin

Published

2021

5. Individual muscle contributions to hip joint-contact forces during walking in unilateral transfemoral amputees with osseointegrated prostheses.

Author

Harandi, Vahidreza Jafari, Ackland, David Charles, Haddara, Raneem, Cofré Lizama, L. Eduardo, Graf, Mark, Galea, Mary Pauline, and Lee, Peter Vee Sin

Subjects

RESIDUAL limbs, ARTIFICIAL arms, PROSTHETICS, AMPUTEES, ARTIFICIAL legs, MUSCULOSKELETAL system diseases, JOINT pain, MUSCLES

Abstract

Direct skeletal attachment of prostheses in transfemoral amputees circumvents skin-interface complications associated with conventional sockets; however, joint pain and musculoskeletal disease is known to occur postoperatively. This study quantified hip contact forces and the roles of individual muscles in producing hip contact forces during walking in transfemoral amputees with osseointegrated prostheses. Musculoskeletal models were developed for four transfemoral amputees. Gluteus maximus and gluteus medius were the major contributors to the hip contact forces, and the intact limb hip muscles demonstrated greater contributions to hip contact forces than those of the residual limb. The findings may be useful for mitigating walking asymmetry. [ABSTRACT FROM AUTHOR]

Published

2020

6. Elbow Patients’ Data Collection and Analysis: An Examination of Electromyography Healing Patterns

Author

Haddara, Raneem

Subjects

EMG, Electromyography, Rehabilitation, Elbow, Arm, Bioelectrical and Neuroengineering, Biomedical Devices and Instrumentation, Smart Devices

Abstract

Musculoskeletal conditions are the most common cause of severe long-term pain and physical disability, accounting for the highest disability costs of about $17 billion yearly. To provide better rehabilitation tactics, the knowledge gap between injuries and their healing mechanisms needs to be addressed. The use of electromyography (EMG) is very popular in detecting neuromuscular diseases or nerve lesions; however, there is limited knowledge available for quantifying healing patterns of EMG in orthopedic patients who have injured their joints, muscles, or bones. In order to quantify the progress of orthopedic patients and assess their neuromuscular health and muscle synergy patterns, EMG signals were collected from 16 healthy individuals and 15 injured patients as they underwent rehabilitation. Subjects performed a series of standard motions such as flexion–extension of elbow and pronation–supination of the arm. Different metrics were used to process and analyze the EMG data collected using MATLAB. The metrics were as follows: root mean square, average rectified signal, mean spike amplitude, zero crossings, median power frequency, and mean power frequency. A normal range across the muscle groups has been identified and to which the patient population was compared. This comparison showed statistically significant differences in the magnitudes of muscle recruitment and activation between the two groups. Furthermore, a comparison within the patient population at the beginning of their therapy versus at the end of the therapy was conducted. Statistical differences arose in this second analysis, further proving that patients’ signals tend to change and showing trends closer to those of the healthy population. The time domain metrics showed the greatest significant differences between the groups, specifically the root mean square and average rectified signal. This analysis was successful in showing a general trend of increased mean in the patient population compared to healthy individuals. The frequency domain metrics did not show statistical significance. The work presented successfully used several EMG metrics in order to distinguish an injured person from a healthy person and to determine if an injured patient is healing. Additionally, a database of EMG signals to be fed into the control system of the mechatronics rehabilitative brace was created. This work has advanced the use of EMG beyond the scope of nerve damage. The experiments conducted showed that EMG could be used as method to assess musculoskeletal health.

Published

2016

7. The role of the ankle plantar flexor muscles in trip recovery during walking: a computational modeling study.

Author

Namayeshi T, Haddara R, Ackland D, and Lee PVS

Abstract

Background: Reactive lower limb muscle function during walking plays a role in balance, stability, and ultimately fall prevention. The objective of this study was to evaluate muscle and joint function used to regain balance after trip-based perturbations during walking., Research Question: How are lower limb muscles used to recover from external tripping during walking?, Method: The dominant legs of 20 healthy adult participants with similar athletic backgrounds were tripped using a split-belt instrumented treadmill. High- and medium-intensity trips were simulated by deceleration of the dominant leg at initial contact from the speed of 1.1 m/s to 0 m/s and back to 1.1 m/s in 0.4 s and 0.8 s, respectively. Lower limb kinematics, kinetics, and muscle forces following perturbations were computed to pre-perturbation values using statistical parametric mapping (SPM) paired t -test., Results: A greater ankle dorsiflexion angle (mean difference: 5.3°), ankle plantar flexion moment (mean difference: 0.6 Nm / kg ), and gastrocnemius and soleus muscle forces (mean difference: 4.27 N / kg and 13.56 N / kg for GAS and SOL, respectively) were observed post-perturbation step despite the magnitude of the perturbation., Significance: This study concludes that adequate timely response of ankle function during a compensatory step is required for a successful recovery after tripping during walking in young healthy adults. Weakness in plantar flexors suggests insufficient ankle moments, which ultimately can result in falls. The findings of this paper can be used as a reference for the joint moments and range of motion needed to recover trips in the design of assistive devices. In addition to that, clinicians can use the estimated values of muscle forces and the pattern of muscle activities to design targeted training in fall prevention among the elderly., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (© 2023 Namayeshi, Haddara, Ackland and Lee.)

Published

2023

8. Effect of Prophylactic Knee Bracing on Anterior Cruciate Ligament Agonist and Antagonist Muscle Forces During Perturbed Walking.

Author

Haddara R, Harandi VJ, and Lee PVS

Abstract

Background: Anterior cruciate ligament (ACL) injuries most commonly occur after a perturbation. Prophylactic knee braces (PKBs) are off-the-shelf braces designed to prevent and reduce the severity of knee injuries during sports, yet their effectiveness has been debated., Purpose: To identify differences in ACL agonist and antagonist muscle forces, during braced and unbraced conditions, while walking with the application of unexpected perturbations., Study Design: Controlled laboratory study., Methods: A total of 20 recreational athletes were perturbed during walking at a speed of 1.1 m/s, and motion analysis data were used to create patient-specific musculoskeletal models. Static optimization was performed to calculate the lower-limb muscle forces. Statistical parametric mapping was used to compare muscle forces between the braced and unbraced conditions during the stance phase of the perturbed cycle., Results: The brace reduced muscle forces in the quadriceps (QUADS), gastrocnemius (GAS), and soleus (SOL) but not in the hamstrings. The peak QUADS muscle force was significantly lower with the brace versus without at 49% to 60% of the stance phase (28.9 ± 12.98 vs 14.8 ± 5.06 N/kg, respectively; P < .001) and again at 99% of the stance phase (1.7 ± 0.4 vs 3.6 ± 0.13 N/kg, respectively; P = .049). The SOL muscle force peak was significantly lower with the brace versus without at 25% of the stance phase (1.9 ± 1.7 vs 4.6 ± 3.4 N/kg, respectively; P = .031) and at 39% of the stance phase (1.9 ± 1.4 vs 5.3 ± 5.6 N/kg, respectively; P = .007). In the GAS, there were no significant differences between conditions throughout the whole stance phase except between 97% and 100%, where the braced condition portrayed a smaller peak force (0.23 ± 0.13 vs 1.4 ± 1.1 N/kg for unbraced condition; P = .024)., Conclusion: These findings suggested that PKBs that restrict knee hyperextension and knee valgus/varus motion can alter neuromuscular patterns, which result in a reduction of QUADS force., Clinical Relevance: Understanding the way PKBs alter muscle function and knee mechanics can provide invaluable information that will help in making decisions about their use. Further studies should investigate different types of braces and perturbations to evaluate the effectiveness of PKBs., Competing Interests: One or more of the authors has declared the following potential conflict of interest or source of funding: This work was mainly supported by the Melbourne International Research Scholarship and in part by The Commonwealth of Australia (represented by the Defence Science and Technology Group) through a Defence Science Partnerships Agreement. Additionally, POD Orthotic Pty provided the knee braces used in this study. AOSSM checks author disclosures against the Open Payments Database (OPD). AOSSM has not conducted an independent investigation on the OPD and disclaims any liability or responsibility relating thereto., (© The Author(s) 2021.)

Published

2021

9. Effect Of Arm Deweighting Using End-Effector Based Robotic Devices On Muscle Activity.

Author

Fong J, Crocher V, Haddara R, Ackland D, Galea M, Tan Y, and Oetomo D

Subjects

Electromyography, Humans, Movement, Muscle, Skeletal, Robotics, Arm

Abstract

Deweighting of the limb is commonly performed for patients with a neurological injury, such as stroke, as it allows these patients with limited muscle activity to perform movements. Deweighting has been implemented in exoskeletons and other multi-contact devices, but not on an end-effector based device with single contact point between the assisting robot and the human limb being assisted. This study inves-tigates the effects of deweighting using an end-effector based device on healthy subjects. The muscle activity of five subjects was measured in both static postures and dynamic movements. The results indicate a decrease in the activity of muscles which typically act against gravity - such as the anterior deltoid and the biceps brachii - but also suggest an increase in activity in muscles which act with gravity - such as the posterior deltoid and the lateral triceps. This can be explained by both the change in required muscle-generated torques and a conscious change in approach by the participants. These observations have implications for neurorehabilitation, particularly with respect to the muscle activation patterns which are trained through rehabilitation exercises.

Published

2018

10. Postoperative healing patterns in elbow using electromyography: Towards the development of a wearable mechatronic elbow brace.

Author

Haddara R, Zhou Y, Chinchalkar S, and Trejos AL

Subjects

Elbow surgery, Electromyography instrumentation, Electromyography methods, Humans, Muscle Contraction physiology, Muscle, Skeletal physiology, Arm Injuries rehabilitation, Braces, Elbow physiopathology

Abstract

Musculoskeletal (MSK) conditions are the most common cause of severe long-term pain and physical disability. Current postoperative treatment for patients requires them to follow a long-term physiotherapy program customized for each specific case; however, this process can be complex, time-consuming and without the right therapy it may end up being ineffective. A possible solution involves the development of wearable mechatronic elbow braces that use electromyography (EMG) to identify patient intent. However, EMG characteristics change based on the health of the individual and therefore require further investigation. In order to quantify the progress of MSK injury patients and assess their neuromuscular health, EMG signals from 16 healthy individuals and 15 postoperative patients were collected and analyzed. The experiments conducted show that EMG can be used as a method for assessing MSK health. A normal range across the muscle groups has been identified to which the patient population was compared. This showed statistically significant differences in the magnitudes of muscle recruitment and activation between the two groups. Furthermore, a comparison within the patient population at the beginning of their therapy versus at the end of their therapy was conducted. Statistical differences arose in this second analysis further proving that patients' signals tend to change and show trends closer to those of the healthy population.

Published

2017