Hearing conservation

[Guest guest]

In 1994 I wrote a paper "Noise-Induced Hearing Loss: What it is and

what it may mean to ISKCON devotees (including you)." Ten years have

passed. Many devotees, therefore, haven't seen it. Others might wish

to read it again.

 

So I'm appending it below. You can also find it posted at

<www.krishna.com/jas>.

 

Hare Krsna.

 

Hoping this finds you in good health,

 

Your servant,

Jayadvaita Swami

 

 

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Noise-Induced Hearing Loss:

What it is, and what it may mean to ISKCON devotees

(including you)

 

 

A preliminary report

 

by Jayadvaita Swami

 

 

February 16, 1994

 

 

 

 

Last month an audiologist confirmed to me something I

suspected: I have partially lost my hearing.

 

One may lose one's hearing for many reasons--because of

disease, or old age, or a blow to the head, or close

exposure to the sound of blasts or gunshots. But the

test of my hearing showed the typical signature of

another kind of problem: hearing loss from prolonged

exposure to noise.

 

Well, it doesn't have to be noise, by which I mean

disturbing or unpleasant sounds. One can also lose one's

hearing because of sounds one might find pleasant--like

the sound of rock music, or classical. Or drums and

karatals.

 

 

Loss of hearing--

for a while and for the rest of your life

 

Noise-induced hearing loss has two components: temporary

and permanent. If you've ever attended a rock concert,

for example, you may be familiar with temporary hearing

loss. After the concert you may have found your ears

ringing, and ordinary sounds may have seemed muffled.

The ringing is a response from your assaulted auditory

nerves. And that "muffled" effect comes from what's

called a "temporary threshold shift." That is, after the

blasting music, other sounds now need to be louder

before you can hear them.

 

In temporary hearing loss, after a few minutes or or a

few hours the ringing stops, and your hearing goes back

to normal. But when loud sounds fall upon your ears

repeatedly over a prolonged time, for months and years,

the threshold shift becomes permanent. Your hearing loss

is then irreversible.

 

The site of the damage responsible for this loss is the

cochlea, a snail-shaped chamber within the inner ear.

The cochlea is home to the 20,000 to 30,000 minute hair

cells that transmit sound to the auditory nerve.

Prolonged and excessive exposure to noise injures and

finally destroys those cells. Once destroyed, the cells

never come back.

 

 

How loud is the sound?

 

The loudness of sounds is measured in units called

decibels, just as temperature is measured in degrees.

Note, however, that, unlike degrees, decibels are not

absolute units. Measurements in decibels are

logarithmic, not linear. Imagine, if you will, a

thermometer in which going up from 70 degrees to 73

means getting twice as hot, from 70 to 76 means 4 times

hotter, and from 70 to 79 means 8 times hotter. That's

the idea. Every time the sound level goes up 3

decibels, the sound gets twice as loud.

 

How loud are the sounds we're accustomed to hearing?

Here's a list that will give you a basic idea:

 

 

 

0 dB threshold of hearing in youths

 

10 dB anechoic room

 

30 dB quiet library

 

45 dB average residence

 

55 dB normal conversation

 

60 dB large store

 

70 dB vacuum cleaner (10 feet away),

freight train (100 feet away)

 

75 dB average factory

 

80 dB alarm clock,

normal traffic,

loud orchestra,

pneumatic drill (from 50 feet)

 

85 dB START OF UNSAFE LEVELS

 

90 dB lawn mower,

motorcycle,

city traffic,

boiler room,

printing press room,

subway train (from 20 feet)

 

100 dB riveting machine

 

110 dB thunder,

pile driver,

amplified rock music

 

125 dB jet takeoff (from 200 feet away)

 

130 dB pain threshold

 

 

The loudness of a sound depends, of course, on how far

you are from its source, how clear the path between the

sound and you, and what happens to the sound along the

way. For example, a sound made outdoors might be

moderately loud, but the same sound made in a small

closed room with smooth walls will ricochet many times

over, so its effect will be more intense.

 

How loud is an ISKCON kirtana? I can't say for

everywhere. But according to a series of readings with a

sound-level meter, here's what it is in the temple room

in Alachua. [Readings for several other temples yielded

similar results. --js, 2004] A typical guru-puja kirtana,

with 3 drums, 2 or 3 sets of karatals, 2 moderate-sized

"whompers," and the usual amplification comes to around

100 decibels, with a sustained crescendo of 106 to 110.

 

Does that level of sound present a danger to hearing?

Read on.

 

 

 

It happens without your knowing

 

 

The pitch, or frequency, of sounds is measured in units

called Hertz (Hz). Young children may hear sounds as low

as 16 Hz (lower in pitch than the lowest note on a

piano) and as high as 20,000 (well above the highest

note on a piccolo). As we grow older, the upper limit

comes down, so that many adults can't hear sounds above

12,000 Hz. The range of frequencies for speech extends

from about 200 Hz to about 6,000. Music, of course,

extends higher.

 

What happens in noise-induced hearing loss is that you

start to lose your high frequencies. Typically, the

tones around 4,000 Hz are the first to go. You may still

hear those tones, but only when they're louder than

before. Young, healthy ears pick up sounds as soft as 10

or 20 decibels. With noise-induced hearing loss, you may

not hear those sounds unless they're many times louder,

say 50 decibels.

 

The next tones to go might be in the range of 6,000 and

8,000 Hertz, as the hairs in your inner ear that respond

to those frequencies are gradually damaged and then

destroyed.

 

At this stage, you're unlikely to notice what's

happening. The main sounds you're conscious of are the

sounds of speech, which mostly occupy the lower

frequencies, 2,000 Hertz and below. Some consonants--

like s, f, ,t and z--do extend into the higher

frequencies, but even when you fail to hear them, your

mind automatically uses the context given by the other

letters to supply the sounds you've missed. So hearing

seems to go on as normal. You're losing your hearing,

and you don't even know it.

 

Noise-induced hearing loss progresses very slowly. It

usually takes many months, and often years. Along the

way, you feel no pain, see no blood or bruises. So you

don't realize what's happening.

 

Next, however, the losses in the higher frequencies may

become greater, and the lower tones may also start to

give way. Now you start having trouble hearing speech.

Actually, you can still hear it, but you start having

trouble *distinguishing* what's being said.

 

Now you may start to complain about your hearing. But by

now the damage done is severe, irreversible, and perhaps

even seriously handicapping.

 

Another problem I should mention (I mentioned it briefly

before) is what's technically called tinnitus (from a

Latin word meaning "to ring"). This is a ringing,

buzzing, whistling, or other such sound in the ear.

Though disturbing, it's generally temporary. But when

damage in the inner ear has brought about a permanent

loss in hearing, a ringing tinnitus may go on for many

years.

 

Tinnitus, says one authority, does not commonly occur

from exposure to everyday occupational noise. But "it

does occur in employees who are exposed to very high-

pitched intense noise, such as pounding of metal upon

metal in foundries." 1

 

Like noise-induced hearing loss itself, tinnitus has no

known cure. You just have to learn to live with it.

 

 

How much can you take?

 

It's generally accepted that when a sound is excessively

loud, the longer you're exposed to it the more you put

your hearing at risk. What's a "safe dose" of loud

sound?

 

This is a question to which much research and discussion

has been devoted. The research has evolved, in

particular, from the need to protect people from

excessive noise in the workplace, especially the

military and industrial workplace.

 

In America, the Occupational Safety and Health

Administration (OSHA) has set standards limiting the

time to which employers can let their workers be exposed

to various levels of sound. Here are the standards:

 

 

Sound level (dB) Hours per day

 

90 8

 

92 6

 

95 4

 

97 3

 

100 2

 

102 1-1/2

 

105 1

 

110 1/2

115 1/4 or less

 

 

 

These numbers, however, represent legal standards, not

medical or scientific ones. They belong to rules meant

to help protect the hearing of workers (and protect

employers in lawsuits brought by workers with hearing

impaired).

 

Comments B. Adam Sagan, a lawyer with graduate degrees

in audiology and speech pathology, "Both medical experts

and speech scientists [agree] that the standards issued

by OSHA are more a result of political compromise than

scientific validity."2

 

This is underscored by Donald C. Gasaway, one of

America's foremost experts on hearing loss and hearing

conservation. "Many people [have] suffered a noise-

induced loss because they were led to believe that

higher levels of noise could be tolerated if the

duration of exposure was less than some 'magic' number.

.. . . Such belief comes from what, in my opinion, is the

misapplication of auditory risk criteria. If a given

assessment states that 100 dB. . . is associated with a

'dose' of 30 minutes per day, there may be a general

acceptance that the 'risk' is nullified if the duration

is one-half of the 'allowed' dose, such as 15 minutes. I

consider adoption of this belief a primary contributor

to noise-induced losses. I have learned to respect

seriously the danger of such high-level exposures, even

for 2 minutes. In my opinion, those who provide guidance

concerning such exposures should adopt a more cautious

approach."3

 

As reported in Health News, published by the University

of Toronto, "At a level of 110 dB, even five minutes

of unremitting exposure can lead to some hearing

loss."4

 

Health News summarizes things this way: "To determine

whether your environment is loud enough to harm the

ears, check whether you have to shout to make yourself

heard or if, when you leave a noisy environment, sound

seems muffled. If yes, the noise level is too high and

already injuring your ears.

"While entirely preventable, noise-induced hearing

loss is also entirely incurable. According to the U.S.

National Institutes of Health, millions of North

Americans are at risk of hearing loss from noisy work

situations, especially farmers, truck drivers, miners,

industrial and construction workers, policemen and

musicians (playing in the orchestra or rock band can be

a very noisy job).

"The currently suggested level at which hearing

protection should begin on a voluntary basis (no laws

about it) is 85 dB. According to ear specialists it

should be mandatory at 90 dB. People with jobs that

expose them to noise over the 85-decibel level for a

prolonged time should wear personal hearing protectors

(earplugs or earmuffs) and turn the volume down during

recreational activities. Remember that levels from rock

bands and personal stereos may far exceed the danger

limit!"5

 

 

What this means to ISKCON

 

How all this pertains to ISKCON should by now be

reasonably obvious. As part of our prescribed routine

program, we expose ourselves, and those for whom we are

responsible, to levels of sound well within the range

where loss of hearing should be a matter of concern.

Drums and karatals are loud to begin with. And lately

karatals of giant size have come to be something of a

fashion. We play our instruments indoors, in what are

often small rooms with low ceilings and smooth walls

and floors. And then we electronically amplify the

sound.

 

Beyond this, devotees generally have little or no

education about what the physical effects of loud sound

on the ears can be. And so during kirtana we turn up the

volume to maximum. We even see devotees playfully using

karatalas as if to box the ears of other devotees.

Within my own experience, last year one senior devotee

came up close to me during kirtana as if to whisper

something in my ear, and then shouted at the top of his

lungs, "GOVINDA!" We sometimes have ill-informed ideas

about how to express our ecstasy.6

 

We are responsible, of course, for large numbers of

people, including children. We want them to be fit and

healthy for devotional service. And we are ethically

accountable for their welfare.

 

Apart from that, we can suppose that people more

cautiously protective of their hearing may be hesitant

to join in the Hare Krsna movement as word gets around

that a disproportionate number of its members eventually

need hearing aids and acoustic earmuffs.7

 

 

Stopping it from happening

 

Noise-induced hearing loss, though permanent and

irreversible, is largely preventable. The way to prevent

it is through what is known as a Hearing Conservation

Program. Such programs have been in place in all

branches of the U.S. military since the 1950's, and U.S.

law has made them mandatory in high-noise industrial

environments since 1971. Such a program is appropriate--

and important--for any organization that expects its

members to be regularly exposed to high levels of sound.

 

 

An effective Hearing Conservation Program generally has

seven parts:8 (1) measuring levels of exposure, (2)

controlling the level of sound, (3) testing the hearing

of your people, (4) seeing to the use of ear protectors,

(5) educating and motivating your people, (6) keeping

records, and (7) seeing how well your program is doing.

 

Let me briefly explain each one.

 

1. Measuring the level of exposure.

 

How loud is the sound? Does it present a problem or

not? There are standard equipment and procedures

that will tell you. (It's not expensive.)9

 

2. Controlling the level of sound.

 

Once you know how loud your sound is, if it's too

high you can work to bring it down. In a factory

this might mean using quieter machines or sealing

off areas that are noisy. Controlling sound in

ISKCON centers might involve, for example, turning

down amplifiers, placing limits on the use of

certain instruments, and using sound-absorbing

materials for softer acoustics in temple rooms.

 

In these efforts the first step--obvious but easily

overlooked--is for the person or governing body in

charge to take them seriously.

 

3. Testing the hearing of your people.

 

If your sound is at safe levels, fine. If not, your

people should have regular, periodical hearing

tests.

 

Hearing tests are brief, standard medical

procedures, performed with a tone generator and

earphones, to tell you what's happening to a

person's hearing. They are usually performed by a

mobile testing unit or at a local hearing clinic,

though they may also be done in-house by a person

properly trained.10

 

Since noise does most of its damage before a person

even notices that his hearing is going bad, hearing

tests are the only sure way to detect trouble in

time to prevent it.

 

Hearing tests also provide the way for you to tell

how well your hearing-conservation program is

working.

 

4. Seeing to the use of ear protectors.

 

If you can't cut down the sound, people may need to

directly protect their ears.

 

A wide selection of protective devices is

available--various kinds of ear plugs, ear putty,

and so on. But they only work properly when

properly chosen, fitted, and used. People who need

them should be encouraged to use them, and shown

how to use them properly.

 

For people whose hearing has already been affected,

using hearing protectors--or staying away from loud

sound altogether--is the only way to keep their

ears from getting worse.

 

 

5. Educating and motivating your people.

 

In a movement such as ours, I hope it's needless to

explain why people don't deserve to be left

ignorant.

 

Of course, we're mainly concerned about spiritual

understanding. But since our process of spiritual

enlightenment depends, most of all, upon hearing,

it follows that devotees ought to safeguard the

proper functioning of their ears.

 

This, too, requires proper education and

encouragement.

 

6. Keeping records

 

Properly kept records allow you to keep track of

what's going on with your program. Also--of crucial

concern--they're essential for keeping track of the

aural health of individual devotees.

 

7. Seeing how well your program is doing.

 

Periodically reevaluating your program helps you

see how well it's working, alerts you to problems,

and helps you see any changes you should make.

 

 

Closing remarks

 

There. Now, I hope, I've alerted you and somewhat

informed you. Take it lightly if you will. But be

warned: If you ignore all this, soon you and other

devotees may wind up expanding the ocean of Krsna's

glories by often repeating a new mantra: "Say

that again?"

 

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1. Sataloff, Joseph and Michael, Paul, Hearing

Conservation (Springfield, Illinois: Charles C. Thomas,

1973), pg. 83.

 

2. B. Adam Sagan, "Occupationally Induced Hearing

Loss: A Real World Perspective," The Legal

Intelligencer, June 1, 1993.

 

3. Gasaway, Donald C., 1985, Hearing Conservation: A

Practical Manual and Guide, Englewood Cliffs, N.J.:

Prentice-Hall, p. 67-68.

 

4. Health News, University of Toronto, August 1993,

p. 5.

 

5. Ibid.

 

6. My audiologist, a pious Hindu lady in South Africa,

advised me that we ought to be concerned about sound

levels higher than 80 decibels. Maybe to pray to Satan

and block out your mind, you might need 100 decibels,

she remarked. But for praying to God, 80 decibels ought

to be enough.

 

7. To those who'd say that limitless volume is ok

because the holy name is transcendental, the response is

simple: Your hearing loss will also be transcendental.

 

8. Suter, Alice H. and Franks, John R. (ed), A

Practical Guide to Effective Hearing Conservation

Programs in the Workplace, U.S. Department of Health and

Human Services, Public Health Service, Centers for

Disease Control, National Institute for Occupational

Safety and Health, Division of Biomedical and Behavioral

Science, Physical Agents Effects Branch, September 1990.

 

9. Sound-level meters are availabale from Radio Shack

for $31.99. Catalog number 33-2050.

 

10. What does it cost? In an article published in 1987,

the principal consultant for the Engineering Department

at E.I. du Pont said that taking part in a hearing-

conservation program costs "between $20 (Du Pont's

estimate) and OSHA's estimated $41 per employee per

year." Presumably, that's for the whole cost of the

program. (Terrence A. Dear, "Noise Criteria Regarding

Risk and Prevention of Hearing Injury in Industry," in

Sataloff, Robert Thayer and Joseph, 1985, Occupational

Hearing Loss, New York: Marcel Dekker, Inc., p. 498.

 

A glance at the Gainesville Yellow Pages shows

several hearing-aid retailers that provide free hearing

tests. On the phone, one such company told us they

recommend that you come in for a free test once every

year.

 

 

--end--

 

 

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