Cutlery – Cutting tools – Plural cooperating blades
Reexamination Certificate
1999-09-27
2001-08-14
Watts, Douglas D. (Department: 3724)
Cutlery
Cutting tools
Plural cooperating blades
C030S341000
Reexamination Certificate
active
06272754
ABSTRACT:
TECHNICAL FIELD AND BACKGROUND OF INVENTION
This invention relates to a handle attachment for scissors, such as conventional splicer snips used for cutting wire and cable. The invention is a retrofit item adapted to fit onto the existing handle portion of scissors to facilitate gripping, increase comfort, and reduce the incidence of injury to the user resulting from repeated use.
In recent years, the “human engineering” of useful tools and articles prevalent in the workplace has demanded increased consideration. “Ergonomics”, as its called, is an applied science concerned with certain human characteristics that need to be considered when designing and arranging things that we use in order that people and things will interact most effectively and safely. The impact of ergonomics takes years to develop and as such, cannot be studied in brief. Tools and articles which are designed without ergonomic consideration may result in eventual injury to the user.
These injuries are referred to generally as cumulative trauma disorders, repetitive motion injuries, or repetitive stress injuries; terms which will be used interchangeably herein. The injury is caused by a motion or impact where the contact may be small and by itself would do no real damage, but after hundreds or thousands of repetitions affecting the same area of the body over a period of time, the cumulative damage created can be immense. One of the most commonly known cumulative trauma disorder is carpal tunnel syndrome.
Carpal tunnel syndrome is a condition impacting the hand and wrist which has been linked to occupations that require repetitive use of the hands, such as typing. The condition generally results when the median nerve fails to work properly. This is thought to occur because of too much pressure on the nerve as it runs into the wrist through an opening called the “carpal tunnel”.
This occurrence is best understood given a brief explanation of some of the anatomy of the wrist. The median nerve runs into the hand to supply sensation to the thumb, index finger, long finger, and half of the ring finger. The nerve also supplies a branch to the muscles of the thumb, the thenar muscles. These muscles help move the thumb and are very important in moving the thumb so that it can touch each of the other fingers. This motion is called opposition.
The carpal tunnel is an opening into the hand that is made up of the bones of the wrist on the bottom and the transverse carpal ligament on the top. Through this opening, the median nerve and the flexor tendons run into the hand. The median nerve lies just under the transverse carpal ligament.
The flexor tendons are important because they allow us to move the fingers and the hand, such as when we grasp objects. The tendons are covered by a material called tensynovium. The tensynovium is very slippery, and allows the tendons to glide against each other as the hand is used to grasp objects. Any condition that causes irritation or inflammation of the tendons can result in swelling and thickening of the tensynovium. As the tensynovium covering all the tendons begins to swell and thicken, pressure begins to increase in the carpel tunnel because the bones and ligaments that make up the tunnel are not able to stretch in response to the swelling. Increased pressure in the carpal tunnel begins to squeeze the median nerve against the transverse carpal ligament because the nerve is the softest structure in the carpal tunnel. Eventually, the pressure reaches a point when the nerve can no longer function normally. This results in pain and numbness in the hand.
One of the first symptoms of carpal tunnel syndrome is numbness in the distribution of the median nerve. This is quickly followed by pain in the same distribution. The pain may also radiate up the arm to the shoulder and sometimes the neck. If the condition is allowed to progress, weakness the thenar muscles can occur. This results in an inability to bring the thumb into opposition with the other fingers, thereby hindering a persons ability to grasp.
Recently, physicians have begun to recognize that activities that involve highly repetitive use of the hands can result in carpal tunnel syndrome, especially if the wrist is bent. When the wrist is bent away from a neutral position (straight), the tendons and tensynovium are drawn across the bones of the wrist or transverse carpal ligament at an angle. This increases the normal pressure and friction that the tensynovium is designed to prevent. Over an extended time, this internal strain is thought to contribute greatly to the development of carpal tunnel syndrome. Additional factors that are thought to contribute to carpal tunnel syndrome are rheumatoid arthritis, previous injuries to the hand or wrist (especially broken bones), a cyst on the tendon, diabetes, and an underactive Thyroid.
Additionally, physicians have been concerned about the effects of repeated high stress loading of the palm. This occurs during routine tasks such as using pliers. Repetitive high stress grasping like this is thought to injure the tendons and tensynovium of the hand.
Shands' Handbook of Orthopedic Surgery
provides the following description of the anatomy of the soft tissue of the wrist and hand:
“Where long flexor tendons must pull at an angle, as in the wrist, distal palm (close to the fingers), and digits, they are invested (surrounded) in a double-layered synovial sac or tendon sheath (tensynovium). This delicate membrane facilitates the smooth gliding of the tendon. To prevent the flexor tendons from bow-stringing in the distal palm and fingers, the tendons and their synovial sheaths are incased in ligamentous tunnels. In these narrow passages, fibrous adhesions (bumps) of the tendon, sheath, and tunnel wall may immobilize the tendon and destroy it's function.”
With the tendons responsible for the flexing of the fingers running through the palm in these ligamentous tunnels, it follows how the tensynovium in them becomes irritated by repeated applications of high pressure or a sudden impact. There is little protection for these tendons and tunnel. Sudden impacts to the palm, like those generated when using the palm as a hammer to, for example, drive a screwdriver in to wedge a splice case open, can cause the tunnels to swell and pinch against the tendon. Continued use of the hand exacerbates the swelling. The next event will generally cause significant pain and associated dysfunction in the fingers as well as the wrist.
In view of the above considerations, it became apparent to the Applicant that scissors used by splicers, called “snips”, needed to be evaluated with respect to carpal tunnel syndrome and other repetitive motion injuries. The dangers of being cut by a sharp snip are apparent, but what about the wear and tear on the palm of the hand after splicing 2500 or 3000 pair cable.
With the typical snip, a relatively small thumb ring is placed against the mid-portion of the palm while the middle or ring finger is used to open and close the snip. This small thumb ring, which has an effective pressure area of less than ¼ square inch, is repeatedly forced into the palm with each cut. On difficult cuts, the thumb ring has a tendency to slide up the palm into the distal region. To maintain control of the snip and complete the cut, the wrist must be rotated out of the neutral position. This opens the door to carpal tunnel syndrome resulting from cumulative stress.
Moreover, the thumb ring typically rests directly over the tendon and tunnel of the finger responsible for the opposing force to make the cuts. In this case, any swelling in the tensynovium is compressed by the thumb ring thereby magnifying the resulting pressure on the tendon.
To combat this problem, the Applicant sought to develop a device that would provide an effective reduction of the stresses contributing to this and other cumulative trauma disorders. A program was launched with three main goals in mind:
1. Design a device to effectively reduce the stress and strain placed on the palm (and resultant tendons and tunnels).
2.
Adams, Schwartz & Evans P.A.
Jameson Corporation
Watts Douglas D.
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