Mohammad Mehdi Alemi
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Explore the profile of Mohammad Mehdi Alemi including associated specialties, affiliations and a list of published articles.
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20
Citations
213
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Recent Articles
1.
Chang S, Pesek T, Pote T, Hull J, Geissinger J, Simon A, et al.
Wearable Technol
. 2024 Jul;
1:e10.
PMID: 39050263
We present a passive (unpowered) exoskeleton that assists the back during lifting. Our exoskeleton uses carbon fiber beams as the sole means to store energy and return it to the...
2.
Yan C, Lynch A, Alemi M, Banks J, Bouxsein M, Anderson D
J Biomech
. 2023 Oct;
161:111821.
PMID: 37805384
Musculoskeletal models are commonly used to estimate in vivo spinal loads under various loading conditions. Typically, participant-specific measured kinematics (PSMK) are coupled with participant-specific models, but obtaining PSMK data can...
3.
Alemi M, Banks J, Lynch A, Allaire B, Bouxsein M, Anderson D
Ann Biomed Eng
. 2023 Jun;
51(10):2313-2322.
PMID: 37353715
Musculoskeletal models can uniquely estimate in vivo demands and injury risk. In this study, we aimed to compare muscle activations from subject-specific thoracolumbar spine OpenSim models with recorded muscle activity...
4.
Abitante T, Alemi M, Newman D, Duda K
Aerosp Med Hum Perform
. 2023 Jun;
94(7):523-531.
PMID: 37349933
Astronauts exercise to reduce microgravity-induced bone loss, but the resultant skeletal loading may not be sufficient to reduce fracture risk on an extended Mars mission. Adding additional exercise increases the...
5.
Kuber P, Alemi M, Rashedi E
Ann Biomed Eng
. 2023 May;
51(8):1665-1682.
PMID: 37248409
Industrial tasks that involve frequent sitting/standing transitions and squatting activities can benefit from lower-limb industrial exoskeletons; however, their use is not as widespread as their upper-body counterparts. In this review,...
6.
Rashedi E, Kathawala K, Abdollahi M, Alemi M, Mokhlespour Esfahani M, Nussbaum M
J Electromyogr Kinesiol
. 2023 Jan;
68:102743.
PMID: 36638696
Slips, trips, and falls are some of the most substantial and prevalent causes of occupational injuries and fatalities, and these events may contribute to low-back problems. We quantified lumbar kinematics...
7.
Banks J, Alemi M, Allaire B, Lynch A, Bouxsein M, Anderson D
Appl Ergon
. 2022 Sep;
106:103869.
PMID: 36055036
Static biomechanical simulations are sometimes used to estimate in vivo kinetic demands because they can be solved efficiently, but this ignores any potential inertial effects. To date, comparisons between static...
8.
Kuber P, Abdollahi M, Alemi M, Rashedi E
Ann Biomed Eng
. 2022 Aug;
50(10):1203-1231.
PMID: 35916980
With rising manual work demands, physical assistance at the workplace is crucial, wherein the use of industrial exoskeletons (i-EXOs) could be advantageous. However, outcomes of numerous laboratory studies may not...
9.
Alemi M, Simon A, Geissinger J, Asbeck A
J Appl Physiol (1985)
. 2022 Jan;
132(3):737-760.
PMID: 35023764
Despite several attempts to quantify the metabolic savings resulting from the use of passive back-support exoskeletons (BSEs), no study has modeled the metabolic change while wearing an exoskeleton during lifting....
10.
Alemi M, Burkhart K, Lynch A, Allaire B, Mousavi S, Zhang C, et al.
Front Bioeng Biotechnol
. 2021 Aug;
9:688041.
PMID: 34395398
Motion analysis is increasingly applied to spine musculoskeletal models using kinematic constraints to estimate individual intervertebral joint movements, which cannot be directly measured from the skin surface markers. Traditionally, kinematic...