Date:         Mon, 21 Mar 1994 05:25:59 GMT
From:         keith@actrix.gen.nz (Keith Stewart)
Subject:      Discussion on Exercise
Organization: Actrix Information Exchange
Newsgroups:   sci.med,sci.med.occupational



OOS mentioned in the article is the name used in New Zealand for RSI i.e
we say Occupational Overuse Syndrome

Why do workplace exercises? 

F W Darby Senior Occupational Health Scientist (Ergonomics) Occupational
Safety and Health Service, Department of Labour, Wellington 

1 Introduction

Occupational health professionals advocate and teach workplace exercises,
often for the prevention and treatment of back pain and occupational
overuse syndrome. Why exactly, should workplace exercises be done? 

This article seeks to answer some aspects of this question. A particular
reason for doing exercises has perhaps been implicit in what the author
has gleaned during several years contact with others in the occupational
health field. The reason - that exercises can help develop dexterity and
technique - seems to merit explicit description. 

The principles to be discussed come, of course, from many sources. The
exercises that will be described are for pianists, but seem to have equal
application to computer users. By doing these exercises the innervation
of muscles can be improved, and the efficiency of the use of the body
can be increased. In theory, this should lead to more freedom from the
aches and pains that beset so many keyboard operators. These principles
are not new, and are doubtless known to many, but they seem to merit a
fresh airing as they are quite new to the author.

One of the most enduring thoughts about exercises is that they need to be
done in the right frame of mind. The mind needs to be engaged in the
exercise. Many times the author has seen a group of keyboard users doing
exercises, and it is evident that minds are elsewhere, typically in
conversation with others in the group. How much more value seems
possible if only minds were involved along with the muscles.

Students of Eastern martial arts appreciate this instinctively. In
Tai-Chi and Yoga, for example, an aim is the integration of mind and
body. (In documentaries of China, where the traditional shot of people
doing Tai Chi is shown, we never hear any talking!) Students at schools
of Indian classical drumming (in India) spend three years learning the
drumming rhythms in their minds and verbalising them ("ta tiki ta" etc) ,
before they even touch a drum. 

Some people don't wish to come into contact with religious overtones that
they discern in these disciplines, and this, of course, must be
respected. It seems easily possible, however, to improve technique and
control without touching on the religious aspects.Here is a vignette that
illustrates the importance of involving the mind:

Students enrolling at a University were divided into three groups -
groups "A", "B" and a control group. At the start of the term, all the
students were tested for their ability to shoot basketballs through the
hoop, in the gymnasium. Group "A" then spent 20 minutes each day of the
term practising shooting basketballs in the gym. Study group "B" sat in
the gym for 20 minutes each day and thought about shooting the
basketballs. The control group did neither. At the end of the term each
student was tested again. The control group showed no average
improvement. Group "A improved 24%, while group "B" improved 23% ! 

The principles of how exercises should be performed, as stated in the
introduction to the pianists exercises, are as follows:

1 Never work to the point of fatigue. 
2 Only exercises carried out with full concentration can be of use. 
3 Even when exercising with a single finger joint, the whole body should
  be kept ready for action in a relaxed posture.

There is a clear parallel between these exercises, for a specific
purpose, and the intent of Eastern "exercises". 

There are at least five types of exercises that can be used at work. Each
of these are explained in turn, the first four in brief.

1 Aerobic warm up 
2 Tendon stretching 
3 Exercises to stimulate blood flow 
4 Exercises to lengthen shortened muscles 
5 Exercises to help develop dexterity and technique


1 Aerobic warm up 

Warming up the body by gentle exercise which raises the heart rate has a
role in all workplaces. Walking up and down several flights of stairs
several times is a way of preparing the body for work. Minds need to be
engaged so that you don't trip.


2 Tendon stretching

As aerobic exercises prepare the heart and lungs for activity, stretching
prepares the tendons and the muscles for activity and has a place in all
workplaces. The ACC has a set of posters called "Stretch after warm up".
Stretches done before warm upmay overload the body. The mind needs to be
engaged so that tendons are not overstretched.


3 Exercises to stimulate blood flow

Particular exercises to stimulate blood flow can be used to reverse the
effects of muscle tension and to prevent occupational overuse syndrome.
These can help all staff to relax, not just keyboard operators. 

1 Arm shakes: Let the shoulder go loose and shake the whole arm. 
2 Wrist flaps: Let the wrist go loose, flap the arm to make the hand flap
about. 
3 Shoulder rolls: In a relaxed manner, circle the shoulders (hold the
rest of the body as still as possible) so that they describe the biggest
circle possible. The arms hang inactively while the shoulders move. 

4 Exercises to lengthen shortened muscles

Sometimes, our work causes us to hold some muscles short - (e.g.: the
ones on the top of the forearm, if the wrists are held raised while
typing). These need gentle lengthening. 

4 Forearm turns: Straighten the arm, hold the fingers loose. turn the arm
gently, both ways. Hold for a few seconds at the extremes. 

The four exercises just described have been found useful in the
prevention (and treatment in some cases) of OOS. Other exercises are
described in the OSH publication for the treatment of Overuse Syndrome.
Some advise that we should "imagine the thick, warm, lifegiving blood
flowing through the arteries" as we do these exercises. Certainly this
manner of engaging the mind can do no harm!


5 Exercises to help develop dexterity and technique

Exercises can be used to promote dexterity and technique. Technique can
be described as using the right muscles while avoiding the use of the
wrong muscles. 

Muscle movement is controlled by nervous impulses. Skill occurs when we
send nervous impulses to the right muscle(s) at the right moments AND
when we avoid sending unnecessary impulses. This applies to the
muscle(s) involved in the movement and to the muscles not involved in the
movement.

Skill therefore involves the brain, not just the muscles, and is a
process of learning (to send the required impulses) and unlearning (to
not send nonessential impulses). The area of control of skilled
movements is in the lower part of the brain stem - an area beyond
conscious control. This is essential - walking wouldn't be possible if
we had to think about making every muscle move.

That we can walk is evidence of the high level of integration that takes
place in movement control. Toddlers show this to perfection as they
struggle to get upright, take a few steps, and then display ever
increasing skill in walking. They also demonstrate that musculoskeletal
habits take some time to learn. This is the same as saying that it takes
time for the control of a new movement to pass from the conscious part of
the brain to the brain stem. An analogy is that it takes time to design
the software. 

That technique is located in the brain stem is demonstrated easily.
Whenever I type the word "muscles" it usually comes out "muslces". My
fingers have got into the habit of pressing the "lc" rather than "cl".
It's the same with words like "fortunatley". This is like a bug in the
software.

The disadvantage of this highly integrated control is that if we learn a
muscle action incorrectly it becomes difficult to reverse. Once a bug is
in the program, it stays there, and is difficult to locate. Sir Yehudi
Menuhin, in his autobiography, describes the lengthy struggle he had to
reverse an aspect of his technique that was preventing him from going on
to (even) greater ability in the particular skill of playing the violin. 

It is therefore vital that we begin keyboard work with a good technique.
If we have a poor technique, then there is good news - it can be
reversed through help from exercises. What we need to do, effectively,
is to reprogram the software that controls movement. The brain stem is
very receptive to reprogramming. Exercises, that break the complex
movement (of, say keyboarding) down in to small parts by concentrating
on each individual muscle action have been used for centuries. Pianists
exercises, for example, go back to the time of the early French
composer, Couperin.

An obvious exercise for keyboarders might be exercising to practice how
to raise the arms to the keyboard! This is not trivial - one of the most
common observations about keyboarders is that the muscles in the shoulder
region are tense. 

In doing exercises for this purpose, we must be prepared for time to take
its course and do its work as we do exercises in a relaxed and patient
manner. Frustration over slow progress will fight against the
reprogramming process, and must be put aside.If we do exercises in a
relaxed and flowing manner with the confident expectation of success,
then we can expect that our technique will improve. 

This principles is mentioned in the introduction to the exercises for
pianists:

"The gymnastic movements given below are intended, first of all to
facilitate correct innervation of the movement required in piano
playing."

There are further reasons for exercising. The introduction to the
pianists' exercises shows why the development of technique for typing
(using the fingers, hands and arms) requires attention to the entire
body: 

"...complementary training is necessary because the movements required at
the piano do not make thorough use of the full mobility of the muscles.
Gymnastics help to develop the muscles more quickly because, in addition
to the smaller and more strongly controlled movements required by the
instrument, they also involve full and free movements"

In the normal course of events, many of the muscles involved in
keyboarding will never get the opportunity to become fully innervated. So
we need to prepare the entire body so that the small movements done by
many of the muscles not directly involved in the keyboard movements can
be done with the least effort and, therefore, the greatest effect.

Looking at it another way, an important biomechanical principle is that
muscles should not be involved in holding and fine work at the same time.
This, of course, happens in keyboard work, computer or piano. The
shoulder muscles are required to position the arms, and in turn the
wrists and hands, so that the fingers can perform very finely
controlled, accurate and sequenced actions. One researcher thinks that
this conflict between the roles of the muscles is a main contributor to
the OOS problem.

Even though the shoulder area appears to be still and, we might be
tempted to think, uninvolved in the execution of keyboard work, it is
probably the most vital area to concentrate on. So the shoulder muscles
must be part of the exercise regime so that their use occurs in the most
relaxed, least tense manner possible. (It is worth noting that we need
to know about posture and relaxation if we are to do exercises well).

A theoretical analysis reported in the ergonomic literature is relevant
at this point. It concerned the way in which the three muscles run across
the knee joint. The analysis examined the way these three muscles could
be co-ordinated to sustain a posture with a small amount of knee bending.
The analysis showed thatthe endurance time of the posture depended on the
efficiency of muscular co-ordination. With efficient co-ordination the
holding time for the posture was eight times longer than with inefficient
co-ordination. The consequence of this is exactly in line with the
principles we are discussing - that it is possible to use the body
efficiently or inefficiently. The author of the analysis suggested that
retraining of workers could be employed to improve the efficiency of
muscle co-ordination. Here, of course we are outlining a way of doing
this retraining - using exercises. 

Another factor is that if the muscles of the shoulder area become
shortened, they may restrict the flow of blood to the arms by pressing on
an artery that runs across the chest and supplies blood to the arms.

Fifty seven exercises are described in the original article. Here is a
selection of seven of them that apply to the upper part of the body. They
give the flavour of the exercises and are ones that seem good for
computer keyboard users. The titles of the exercises are the ones in the
article and apply to pianists, but the parallel with computer use is
obvious. 


A sample of exercises for dexterity and technique.

a Synthesising Circle 
The arms begin together in front of the body with the backs of the hands
facing each other and touching. The arms are raised with the backs of the
hands touching until about waist level. The backs of the hands gradually
become horizontal and at about face level the hands separate and the
fingers move upward. The fingers reach up as high as they can and
describe as large a circle as possible on the way down. In descending the
palms revolve forward until, at the lowest point, they face inwards.

If fatigue develops, the execution of several synthesising circles in a
calm tempo will refresh the tired fingers and the wrist in a short time.
The synthesising circle intensifies the blood circulation in the fingers,
arms and shoulders and thus relieves exhaustion.

The synthesising circle is an extremely important exercise. Weakness of
the shoulder muscles hinders the proper execution of the small movements
at a keyboard. This exercise not only promotes proper innervation and
strength in the shoulder muscles, but also refreshes the muscles of the
hands as stated.

b Small and large arm circles. 
Describe alternate smaller and larger circles with the arms held out to
the sides with easily extended arms. Each arm should form single unit
from the finger-ends to the shoulder. The circlingmotion should always be
vigorous. We must have the feeling that the motion is being led by the
finger ends. This is possible only with complete relaxation. Describe
alternately small and large circles, four of each in succession. 

c Serpentines. Describe a serpentine line with the arm comfortably
extended upwards. Imagine that you are following a car descending a
switch back road on a hillside in the distance. Imagine reaching out to
touch the car. The timing should be slow. Use each arm alternately.

d Arm swings. 
Swing the arms forwards, then laterally so that the fingertips describe
the upper half of a circle. Endeavour to swing the arms very high. This
exercise should be carried out as many times as possible, gradually
increasing the number of repetitions (5 - 15).

e Arm tosses. 
Swing the right arm upwards while the left arm, bent at the elbow,
touches the right shoulder with the hand. Then alternately swing the left
arm upwards and touch the left shoulder with the right hand. The exercise
must be executed at a slow tempo but the arm should arrive at the
highest point with a single energetic swing.

f Preparation for playing chords 
This exercise is aimed at playing chords on the piano, but it applies to
the computer keyboard. Lift and lower the forearm from the elbow. The
hand remains all the time in the keying ("playing") position. One should
feel as if the fingertips were being moved directly from the elbow. The
shoulders and upper arm are relaxed.

f Forearm circling 
With the wrist held in a relaxed neutral posture, the forearm rotates in
circles about the elbow. The upper arm hangs limply (vertically) from the
shoulder and does not take an active part in the movement. (It gives way
passively). To execute this exercise a perfectly relaxed state of the
shoulder joint is required. The exercise should be practised with both
arms simultaneously with swingful vertical circles, executed in opposite
directions.

Many other exercises are described for the forearm, wrists, hands and
individual fingers. These exercises would have a role in helping keyboard
operators (piano or computer) in increasing the efficiency of these parts
of the body as well. 



Summary:

Exercises to develop dexterity and technique at the keyboard, together
with the reasons for doing them, have been described. Their value is
twofold: 

1 Improving the innervation to the relatively inactive shoulder, neck and
upper arm muscles, so that the muscles in this area can operate with
greater efficiency, leading to fewer aches and pains.  

2 Improving technique, so that performance can be more efficient.

The consequences of these thoughts are perhaps that, even before they
raise their hands to the keyboard for the first time, all keyboard users
should learn: 

(1) Relaxation. 
(2) A relaxed method of raising the hands to the keyboard. 
(3) Exercises to increase dexterity and technique and 
(4) Safe working techniques.

In the absence of this ideal, exercises can be used to reverse poor
habits.