This video show five nerve gliding exercises that would help reduce, or prevent injury to the ulnar nerve. It starts off with explicit detail of what cubital tunnel syndrome is and provides a few examples of how one could develop cubital tunnel. The movie gives you step by step direction for the nerve gliding techniques, so it is easy to write these tips down while watching the video!
This is a very good video demonstrating median nerve gliding. I found this very interesting because I have been told I have problems with my nerves in the same area. I am starting to wonder if this is something I may benefit from.
Very helpful video! I am gonna try it. I have alot of neck pain anyway, and I think this may help me? If not, maybe I will at least get a good stretch out of it. :)
Any Catholics out there -- the familiar papal blessing hand gesture used by popes throughout the centuries is thought to have been because of ulnar nerve damage of the first pope. Other popes followed suit and it stuck. This article is interesting in that it explains ulnar nerve damage and explains some history in the process.
I found some very interesting information about upper extremity amputation. The article tells about the procedure and the role of the occupational therapist in the recovery process. With this procedure, an electrical prosthesis is controlled by the mind via nerve innervation. The nerves from the amputated arm are transferred to the pectoral muscles where they regenerate, which in turn allows movement of the prosthetic arm. I included this link from another website as well because there are videos available to watch.
http://www.ric.org/conditions/prosthetics-orthotics/bionic/
This web site provides a list of video tips for hand therapy such as tendon and nerve gliding. The videos help me understand some of the therapy exercises Teri listed in her articulate lesson on CTDs.
This article details the most common type of nerve compression syndromes of the hand. It describes the anatomy, site of compression, symptoms, and treatment for each one. I think it is very useful information for our upcoming exam.
Advances in bionic hands have restored a sense of touch to two patients for more than a year, report US scientists. The men can now delicately pluck the stalks out of cherries. Sensors on the artificial hand are used to send signals directly to the nerves, the study, published in Science Translational Medicine, said.
Prevention of Musculoskeletal Disorders in the Workplace Musculoskeletal disorders (MSDs) affect the muscles, nerves and tendons. Work related MSDs (including those of the neck, upper extremities and low back) are one of the leading causes of lost workday injury and illness.
This is a really great website that talks about ergonomics in the workplace. It specifically talks about how to prevent musculoskeletal disorders. One thing unique about this website is that it also address what the employers responsibilities are and what rights the worker has in regards to prevention, and a safe workplace. It gives multiple links to OSHA standards for a workplace, and also a list of some of the top careers that result in musculoskeletal disorders.
Signal Strengthening An important goal following TMR is strengthening reinnervated muscles so they generate electrical signals that can be detected by surface electrodes. Strengthening the contraction of the transferred-nerve muscles before the fitting helps the patient develop the adequate endurance needed to proceed with TMR myoelectric prosthetic training.
A cumulative trauma disorder, also known as CTD, is defined as the excessive wear and tear on tendons, muscles and sensitive nerve tissue caused by continuous use over an extended period of time. CTDs can develop from improper work positioning, repetition or force. Millions of Americans work in front of computers every day.
Getting a Leg Up: Toe-Operated Mouse Works Like Flip Flop Loss of upper limb function can be devastating for a number of reasons, not the least of which is the disruption of normal, everyday activities. Using a computer mouse becomes impossible for people without the use of their arms, and it's exceptionally difficult for people with nerve damage or other arm injuries.
The world of prosthesis is constantly growing in technology and this video shows just how far technology has come. The bionics are controlled by neural commands rather than nerve impulses, which allows for a more accurate ambulation. In this video Hugh Herr describes how the bionics are made and what the measuring process is for the patient. I think this will help reinforce what we learned this past Friday about amputated limbs. Also, there is a lot of information as to whom these bionics would be good for and how one may get one.