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Saikat Pal - New Jersey Institute of Technology. Newark, NJ, US

Saikat Pal

Assistant Professor | New Jersey Institute of Technology

Newark, NJ, UNITED STATES

Saikat Pal studies human movement, musculoskeletal disorders, sports performance and robotic technology to improve mobility.

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Biography

Saikat Pal is an assistant professor of biomedical engineering and director of the Life Sciences Motion Capture Lab (LSMC), which studies human movement, musculoskeletal disorders, sports performance and robotic technology. The lab uses monitoring and recording equipment to measure the gaits of children with cerebral palsy, test robotic exoskeletons used by military veterans with spinal cord injuries and quantify the limits of human performance.

LSMC is part of the larger Computational Orthopaedics and Rehabilitation Engineering Lab that Pal directs.

Pal's research has been published in the Journal of Orthopaedic Research, Medical Physics and the Journal of Applied Biomechanics.

He is a member of the International Society of Biomechanics and Orthopaedics Research Society.

Before NJIT, he worked at Stanford University, as a research associate, the U.S. Department of Veteran Affairs, as a biomedical engineer, and California Polytechnic State University, as an assistant professor.

Areas of Expertise (9)

Biomedical Engineering

Mobility Disorders

Human Movement

Robotic Technology

Mechanical Engineering

Musculoskeletal Disorders

Assistive Technologies

Biomechanics

Rehabiliation Robotics

Education (3)

University of Denver: M.S., Mechanical Engineering 2004

University of Denver: B.S., Computer Engineering 2002

University of Denver: Ph.D., Mechanical Engineering 2008

Languages (3)

  • English
  • Hindi
  • Bengali

Articles (5)

Muscle co-contractions are greater in older adults during walking at self-selected speeds over uneven compared to even surfaces

Journal of Biomechanics

Matthew M DaSilva, Vishnu D Chandran, Philippe C Dixon, Ji Meng Loh, Jack T Dennerlein, Jeffrey M Schiffman, Saikat Pal

2021 Falls in the aging population are a major public health concern. Outdoor falls in community-dwelling older adults are often triggered by uneven pedestrian walkways. Our understanding of the motor control adaptations to walk over an uneven surface, and the effects of aging on these adaptations is sparse. Here, we study changes in muscle co-contraction, a clinically accepted measure of motor control, due to changes in walking surfaces typically encountered in the outdoor built environment.

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Tibiofemoral forces during FES rowing in individuals with spinal cord injury

Computer Methods in Biomechanics and Biomedical Engineering

Vishnu D Chandran, Rebecca L Lambach, Robin S Gibbons, Brian J Andrews, Gary S Beaupre, Saikat Pal

2021 The purpose of this study is to determine the tibiofemoral forces during functional electrical stimulation (FES) rowing in individuals with spinal cord injury (SCI). We analysed the motion of five participants with SCI during FES rowing, with simultaneous measurements of (i) three-dimensional marker trajectories, (ii) foot reaction forces (FRFs), (iii) ergometer handle forces, and (iv) timestamps for electrical stimulation of the quadriceps and hamstrings muscles. We created full-body musculoskeletal models in OpenSim to determine subject-specific tibiofemoral forces during FES rowing.

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Knee muscle co-contractions are greater in old compared to young adults during walking and stair use

Gait & Posture

Vishnu D Chandran, Jan A Calalo, Philippe C Dixon, Jack T Dennerlein, Jeffrey M Schiffman, Saikat Pal

2019 Muscle co-contraction is an accepted clinical measure to quantify the effects of aging on neuromuscular control and movement efficiency. However, evidence of increased muscle co-contraction in old compared to young adults remains inconclusive. Are there differences in lower-limb agonist/antagonist muscle co-contractions in young and old adults, and males and females, during walking and stair use?

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Patellofemoral cartilage stresses are most sensitive to variations in vastus medialis muscle forces

Computer Methods in Biomechanics and Biomedical Engineering

Saikat Pal, Thor F Besier, Garry E Gold, Michael Fredericson, Scott L Delp, Gary S Beaupre

2019 The purpose of this study was to evaluate the effects of variations in quadriceps muscle forces on patellofemoral stress. We created subject-specific finite element models for 21 individuals with chronic patellofemoral pain and 16 pain-free control subjects.

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The role of cartilage stress in patellofemoral pain

Medicine and Science in Sports and Exercise

Thor F Besier, Saikat Pal, Christine E Draper, Michael Fredericson, Garry E Gold, Scott L Delp, Gary S Beaupré

2015 We used experimental data and computational modeling to determine whether patients with patellofemoral pain had elevated cartilage stress compared to pain-free controls and test the hypothesis that females exhibit greater cartilage stress than males. We created finite element models of 24 patients with patellofemoral pain (11 males; 13 females) and 16 pain-free controls (8 males; 8 females) to estimate peak patellar cartilage stress (strain energy density) during a stair climb activity. Simulations took into account cartilage morphology from MRI, joint posture from weight-bearing MRI, and muscle forces from an EMG-driven model.

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