Let’s face it; a lot of us in the IH profession are at some
level intimidated by math. I confess to
the syndrome and I believe that this fear
is one of the reasons that modeling is still not generally done or even
attempted by everyone. Poor teachers,
poor classes, and poor motivation as a teenager are all possible reasons. I have
experienced all of them, but significantly later in my professional life, well after
the age of 30, I recognized the need. I saw that math was the real basis of physical
science and a tool I had to have if I was going to understand and work as a technologist.
At that point, I decided to back-fill my
education and was fortunate to find some very good teachers in night school.
I have pushed modeling in the IH profession for many years
and have seen a steady increase in its use as dedicated professional colleagues
in the AIHA have picked up the banner and have written books and articles and
given excellent courses. I continue to
believe, however, that there is only a relatively small percentage of IH professionals who
might benefit from this tool are actually engaged. My new hypothesis is that math intimidation
is the reason.
The overarching purpose of this blog is as an “ An educational blog designed
to introduce and facilitate industrial hygienists' involvement in quantitative
risk assessment - especially exposure assessment and the specific area of
exposure modeling.” If foggy math
concepts are keeping folks from engaging then I want to try and help. I would like to help and back-fill your education relative to some basic mathematical concepts that will provide you
with very useful tools.
At the end of this blog I am going to cut and paste some
stuff from last week’s blog in which I tried to explain two-dimensional acute
inhalation toxicity (both concentration and time). To provide a good explanation of the subject
I needed to explain PROBITS. If your
understanding of probits is a bit foggy, I think this explanation below could
help. If it doesn't explain it clearly please
let me know where I lost you. You can
reply anonymously and, believe me, if you have the issue others will as well. Indeed, please send me math topics that remain
foggy to you. Send me math topics that you just quit thinking about because you thought they were too hard.
Other areas I could try and provide some simple explanations
as to how they work and why they are useful include:
- Logarithms (done in a previous blog but it could be repeated and improved)
- Calculus: Area under the curve
- Statistics: correlation, curve fitting, standard deviation, linear regression
- Mathematical definitions of inhalable, thoracic and respirable airborne concentrations and mass
PROBITS (and their use in acute toxicity – lethal dose-response
example):
You may or may not remember what a “probit” is but it is a
very useful mathematical construct. It
is directly related to the standard Gaussian bell-shaped curve with the
area-under-the-curve (AUC) describing the portion of a population included on
any part of that curve. I know what some
of you are thinking: YIKES! What is this guy talking about? All I ask is that you Please stay with me on this for a few more paragraphs! Like a professor of mine once said, “If it’s
foggy you’re learning something!” A few minutes of concentration can pay off in a lifetime of understanding.
Here is an illustration of a Gaussian or bell-shaped curved:
The peak of the bell-shaped Gaussian curve is right at
50%. That is, half the folks are in the
area-under- the-curve (AUC) below (to the left of) the peak and half are in the
AUC above (to the right) of the peak.
This is the average or mean value. It is
also Probit = 5. Now I am going to
ask you to remember a statistical construct you learned called the standard deviation . The AUC from one standard deviation (or sigma on the above illustration) above the mean on the Gaussian curve is
approximately 84%; that is, 84% of the population is in the AUC to the left of
one standard deviation above the
mean. One standard deviation above the mean is also Probit = 6. So 1 sigma above the mean = probit = 6. Because it symmetrical, Probit = 4 is one
standard deviation below the mean and only 16% of the population are in the AUC
to the left of this value.
Still foggy? Let’s
put this in terms we all might understand: SAT
scores. The average or mean SAT test
score is a Probit multiplied by 100; that is, Probit 5 x 100 = 500. Half the folks taking the test got a higher
SAT score than 500 and half lower. If
you got an SAT of 600 you did better than 84% of the folks taking the test. If you
got a 733 on the SAT you were better than 99% of the folks who took that
test. The computer stops at 800 because
you are getting so close to 100% that it does not matter any more. How did I figure that a 733 SAT score beat
99% of the folks tested, it is a simple function in Excel. Just put in (=NORMSINV(0.99) + 5) and you will get 7.33, multiply by 100
to get the SAT score.
We all probably remember living and dying with “the curve”
in college. The raw tests score were
converted to probits and, depending
on the teacher, the grades assigned such that there was something like 10%
“A”s, 25% “B”s, 55% “C”s and perhaps 10% “D”s or lower. This is how you could get 40 out of 100
correct on a physics test and still get a “B”! This is also why we all hated the person or persons who “killed the curve” by scoring very high and dragging the mean upward and everyone else's grade downward.
So let’s shift our thinking over to toxic or lethal dose-response which also follows this curve. Probit = 7.33 (5 + 2.33)
means that 99% of the population will respond with the toxic effect being
measured, in this case death. Since it
is symmetrical, Probit = 2.67 (or 5 – 2.33) means that 1% of the population
will be predicted to die and 99% predicted to live. You can never
get there but you can get as close to 0% deaths as you like with smaller and smaller
Probit values.
Please let me know what you want to see and whether I am
just talking to myself.
Do you think I have it right about math intimidation in the
IH ranks or do you think that I am all wet on this?