Hello Everyone,
This is Anburaj Muthumani (anburaj.muthumani@msu.montana.edu)
We are having a LIDO workSET (Montana State University) and planning
to donate if someone is willing to take with their own costing of
shipping.
Below is the details of the equipment.
Description: The Lido WorkSET is a system designed to evaluate work
capacity of humans in a broad range of physical activities. The
system’s capabilities include isometric, isokinetic, and isotonic
strength measurement of peak torque, average peak torque, coefficient
of variation, and total work in lateral, tip, and palmar pinch, hand
grip, hand torque, wrist flexion and extension, forearm supination and
pronation, elbow flexion and extension, shoulder internal and external
rotation, shoulder flexion and extension, and shoulder abduction and
adduction.
The system comes with various attachments used to recreate
customizable motions encountered in typical job scenarios:
Screwdriver and Nutdriver (#19)
Pliers (#52)
Wrench (#70)
Broom/Mop/Vacuum (#50 Linear Motion Component)
Paintbrush and Scraper (#50)
Paint Roller and Squeegee (#50)
Scrub Brush and Iron (#50)
Shovel, spade, and scoop (#50)
Metal/wood file and plane (#50)
Knife (#50)
Handsaw (#50)
Pry Bar and Jack (#70)
Two-handed cutter and trimmer (#70)
One-handed punches, staplers, scissors, and shears (#52)
Small hammer and cleavers (#50)
Rakes and hoes (#50)
Diggers and tampers (#50)
Knobs and keys (#10, 11, 12, 13)
Hand Drills (#52)
Spray paint guns (#50)
Steering wheels (#61)
Large control wheels and valves (#61)
Small control wheels and valves (#20)
Drill presses (#60)
The Lido WorkSET can be used to assess injury or trauma (Malicka,
2004), evaluating the work capacity of injured or healthy individuals
(Luk et al., 2003), determining the effectiveness of different
physical medical treatments or therapies (Chuang, Cheng, Wei, Wu & Ho,
1998; Shore, Mozzon, MacDermid, Faber & King, 2008), gathering
information about level of fitness (Roy et al., 2009), and determining
the level of effort required for specific work tasks (Wood, Schulze,
Chen & Cleveland, 2000).
The Lido WorkSET includes with a manual detailing illustrated
instructions for performing these specific work evaluations, typical
activity orientation and motions, testing parameters, and standard
evaluation protocol. The system includes a computer, computer
controller, keyboard, monitor, and a cart to contain it along with
monitor covers.
Available for the cost of shipping, local pickup is also an option.
Please email to anburaj.muthumani@msu.montana.edu if you are
interested.
Chuang, D., Cheng, S., Wei, F., Wu, C., & Ho, Y. (1998). Clinical
evaluation of C7 spinal nerve transaction: 21 patients with at least 2
years’ follow-up. British Journal of Plastic Surgery, 51, 285-290.
Luk, K.D.K., Lu, W.W., Kwan, W.W., Hu, Y., Wong, Y.W, Law, K.K.P.,
Leong, J.C.Y., (2003). Isokinetic and isometric lifting capacity of
Chinese in relation to the physical demand of job. Applied
Ergonomics, 34, 201-204.
Shore, B.J., Mozzon, J.B., MacDermid, J.C., Faber, K.J., King, G.J.W.,
(2008). Chronic Posttraumatic Elbow Disorders Treated with Metallic
Radial Head Arthroplasty. The Journal of Bone and Joint Surgery
(American), 90, 271-280.
Wood, K.K., Schulze, L.J.H., Chen, J., Cleveland, T.G., (2000). The
effects of handwheel position on torque production capability of
operators. Occupational Ergonomics, 2(1), 53-65.
Malicka, I., (2004). Moment-angular velocity characteristics of trunk
muscles in women following mastectomy. Isokinetics and Exercise
Science, 12(2), 127.
Roy, J.S., MacDermid, J.C., Boyd, K.U., Faber, K.J, Drosdowech, D.,
and Athwal, G.S., (2009). Rotational strength, range of motion, and
function in people with unaffected shoulders from various stages of
life. Sports, Medicine, Arthroscopy Rehabilitation, Therapy &
Technology, 1, 4.
Thanks
This is Anburaj Muthumani (anburaj.muthumani@msu.montana.edu)
We are having a LIDO workSET (Montana State University) and planning
to donate if someone is willing to take with their own costing of
shipping.
Below is the details of the equipment.
Description: The Lido WorkSET is a system designed to evaluate work
capacity of humans in a broad range of physical activities. The
system’s capabilities include isometric, isokinetic, and isotonic
strength measurement of peak torque, average peak torque, coefficient
of variation, and total work in lateral, tip, and palmar pinch, hand
grip, hand torque, wrist flexion and extension, forearm supination and
pronation, elbow flexion and extension, shoulder internal and external
rotation, shoulder flexion and extension, and shoulder abduction and
adduction.
The system comes with various attachments used to recreate
customizable motions encountered in typical job scenarios:
Screwdriver and Nutdriver (#19)
Pliers (#52)
Wrench (#70)
Broom/Mop/Vacuum (#50 Linear Motion Component)
Paintbrush and Scraper (#50)
Paint Roller and Squeegee (#50)
Scrub Brush and Iron (#50)
Shovel, spade, and scoop (#50)
Metal/wood file and plane (#50)
Knife (#50)
Handsaw (#50)
Pry Bar and Jack (#70)
Two-handed cutter and trimmer (#70)
One-handed punches, staplers, scissors, and shears (#52)
Small hammer and cleavers (#50)
Rakes and hoes (#50)
Diggers and tampers (#50)
Knobs and keys (#10, 11, 12, 13)
Hand Drills (#52)
Spray paint guns (#50)
Steering wheels (#61)
Large control wheels and valves (#61)
Small control wheels and valves (#20)
Drill presses (#60)
The Lido WorkSET can be used to assess injury or trauma (Malicka,
2004), evaluating the work capacity of injured or healthy individuals
(Luk et al., 2003), determining the effectiveness of different
physical medical treatments or therapies (Chuang, Cheng, Wei, Wu & Ho,
1998; Shore, Mozzon, MacDermid, Faber & King, 2008), gathering
information about level of fitness (Roy et al., 2009), and determining
the level of effort required for specific work tasks (Wood, Schulze,
Chen & Cleveland, 2000).
The Lido WorkSET includes with a manual detailing illustrated
instructions for performing these specific work evaluations, typical
activity orientation and motions, testing parameters, and standard
evaluation protocol. The system includes a computer, computer
controller, keyboard, monitor, and a cart to contain it along with
monitor covers.
Available for the cost of shipping, local pickup is also an option.
Please email to anburaj.muthumani@msu.montana.edu if you are
interested.
Chuang, D., Cheng, S., Wei, F., Wu, C., & Ho, Y. (1998). Clinical
evaluation of C7 spinal nerve transaction: 21 patients with at least 2
years’ follow-up. British Journal of Plastic Surgery, 51, 285-290.
Luk, K.D.K., Lu, W.W., Kwan, W.W., Hu, Y., Wong, Y.W, Law, K.K.P.,
Leong, J.C.Y., (2003). Isokinetic and isometric lifting capacity of
Chinese in relation to the physical demand of job. Applied
Ergonomics, 34, 201-204.
Shore, B.J., Mozzon, J.B., MacDermid, J.C., Faber, K.J., King, G.J.W.,
(2008). Chronic Posttraumatic Elbow Disorders Treated with Metallic
Radial Head Arthroplasty. The Journal of Bone and Joint Surgery
(American), 90, 271-280.
Wood, K.K., Schulze, L.J.H., Chen, J., Cleveland, T.G., (2000). The
effects of handwheel position on torque production capability of
operators. Occupational Ergonomics, 2(1), 53-65.
Malicka, I., (2004). Moment-angular velocity characteristics of trunk
muscles in women following mastectomy. Isokinetics and Exercise
Science, 12(2), 127.
Roy, J.S., MacDermid, J.C., Boyd, K.U., Faber, K.J, Drosdowech, D.,
and Athwal, G.S., (2009). Rotational strength, range of motion, and
function in people with unaffected shoulders from various stages of
life. Sports, Medicine, Arthroscopy Rehabilitation, Therapy &
Technology, 1, 4.
Thanks