دانشیار

نوید ارجمند

زمینه های موردعلاقه

بیومکانیک
ارگونومی
آنالیز حرکت

زمینه کاری

بیومکانیک

صفحه شخصی

دکتری

دانشگاه مونترال

1386

کارشناسی ارشد

دانشگاه صنعتی شریف

1379

کارشناسی

دانشگاه علم و صنعت

1377

شماره اتاق: 505

شماره تلفن: 66165684

شماره فکس: 66000021

مقالات چاپ شده در سایت

Title:

Estimation of spinal loads using a detailed finite element model of the L4-L5 lumbar segment derived by medical imaging kinematics; A feasibility stud

Authors:

Yousefsani, S.A, Farahmand, F., Shamloo, A.

Year:

2018

Abstract:

Low back pain is the most prevalent orthopedic disorder and the first main cause of poor working functionality in developed as wells as many developing countries. In Absence of noninvasive in vivo measurement approaches, biomechanical

Title:

Three-dimensional primary and coupled range of motions and movement coordination of the pelvis, lumbar and thoracic spine in standing posture using in

Authors:

Khakrah, H., Shamloo, A., Kazemzadeh Hannani, S

Year:

2018

Abstract:

Evaluation of spinal range of motions (RoMs) and movement coordination between its segments (thorax, lumbar, and pelvis) has clinical and biomechanical implications. Previous studies have not recorded three-dimensional primary/coupled

Title:

Effects of eight different ligament property datasets on biomechanics of a lumbar L4-L5 finite element model

Authors:

Fazlali, M.R, Arghavani, J, Eskandari, M

Year:

2018

Abstract:

Ligaments assist trunk muscles in balancing external moments and providing spinal stability. In absence of the personalized material properties for ligaments, finite element (FE) models use dispersed data from the literature. This stud

Title:

A model-based approach for estimation of changes in lumbar segmental kinematics associated with alterations in trunk muscle forces

Authors:

Habibi, M, Hashemi, R, Ghazanfari, A, Naghdabadi, R, Assempour, A.

Year:

2018

Abstract:

The kinematics information from imaging, if combined with optimization-based biomechanical models, may provide a unique platform for personalized assessment of trunk muscle forces (TMFs). Such a method, however, is feasible only if dif

Title:

Trunk musculoskeletal response in maximum voluntary exertions: A combined measurement-modeling investigation

Authors:

Shahbazi, H, Karimi, S, Hosseini, V, Yazgi, D, Torbatian, S

Year:

2018

Abstract:

Maximum voluntary exertion (MVE) tasks quantify trunk strength and maximal muscle electromyography (EMG) activities with both clinical and biomechanical implications. The aims here are to evaluate the performance of an existing trunk m

Title:

A combined passive and active musculoskeletal model study to estimate L4-L5 load sharing

Authors:

Reza Kashyzadeh, K, Farrahi, G.H, Shariyat, M, Ahmadian, M.T

Year:

2018

Abstract:

A number of geometrically-detailed passive finite element (FE) models of the lumbar spine have been developed and validated under in vitro loading conditions. These models are devoid of muscles and thus cannot be directly used to simul

Title:

Obesity and spinal loads; a combined MR imaging and subject-specific modeling investigation

Authors:

Raha, H.E, Shafii, M.B, Roshandel, R

Year:

2018

Abstract:

Epidemiological studies have identified obesity as a possible risk factor for low back disorders. Biomechanical models can help test such hypothesis and shed light on the mechanism involved. A novel subject-specific musculoskeletal-mod

Title:

A novel stability-based EMG-assisted optimization method for the spine

Authors:

SAYYAADI, H, SOLTANI, A

Year:

2018

Abstract:

Traditional electromyography-assisted optimization (TEMG) models are commonly employed to compute trunk muscle forces and spinal loads for the design of clinical/treatment and ergonomics/prevention programs. These models calculate musc

Title:

Trunk Hybrid Passive–Active Musculoskeletal Modeling to Determine the Detailed T12–S1 Response Under In Vivo Loads

Authors:

Year:

2018

Abstract:

Biomechanical models of the spine either simplify intervertebral joints (using spherical joints or deformable beams) in musculoskeletal (MS) or overlook musculature in geometrically-detailed passive finite element (FE) models. These di

لیست مقالات چاپ شده

Gholipour, A., Arjmand, N.,(2016), Artificial neural networks to predict 3D spinal posture in reaching and lifting activities; Applications in biomechanical models. J Biomech. 6; 49 (13): 2946-2952. doi: 10.1016/j.jbiomech.2016.07.008.

Jamshidnejad, S., Arjmand, N.,(2015), Variations in trunk muscle activities and spinal loads following posterior lumbar surgery; A combined in vivo and modeling investigation. Clinical Biomechanics , 30(10):1036-42.

Hajihosseinali, M., Arjmand, N., Shirazi-Adl, A.,(2015). Effect of body weight on spinal loads in various activities: a personalized biomechanical modeling approach. J Biomech. 21;48(2):276-82. doi: 10.1016/j.jbiomech.2014.11.033.

Rajaee, M.A., Arjmand, N., Shirazi-Adl, A., Plamondon, A., Schmidt, H.,(2015),Comparative evaluation of six quantitative lifting tools to estimate spine loads during static activities, Appl Ergon,48:22-32. doi: 10.1016/j.apergo.2014.11.002.

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