When we think about Nutritional Science, 
we don't always stop to think about how 
we got here or who helped us gain the 
knowledge we have today. 
Diseasees associated with nutritional 
deficiency were actually documented as 
far back as 2600 BC. 
Influxes of nutritional disease have 
occurred throughout history often in 
relation to the economic status of a 
region. 
To put it simply, if we could eat well 
nutritional deficiencies were less 
prevalent. 
Conflicting theories and limited models 
help to slow the progress of nutritional 
discovery, but in the end science did 
find out what you do not eat may kill 
you. 
To begin the discussion of vitamin 
deficiency discovery, we must first 
consider the theories that helped medical 
science but may have hindered nutritional 
discovery. 
Early researchers believes that one could 
design a perfect diet based on chemical 
content alone. 
And Dr. 
Louis Pasteur's work in bacteriology 
helped actually promote medical advances, 
but limited the idea that it wasn't 
something that was infecting you causing 
disease, but it was something that was 
missing. 
The word vitamin didn't even enter our 
vocabulary until the early 1900s. 
Before the chance before researchers got 
the chance to duke it out over their 
theory. 
Epidemiological evidence did exist that 
diet may be related to disease. 
You eat something, you get better, 
that's a really easy research study to 
do. 
And people were dying from nutritional 
deficiencies, but nutrition science did 
not really advance until the early 
1900's. 
Thiamin is recognized as the oldest 
vitamin. 
And it was the first to be discovered 
Beriberi a disease that results from 
thiamine deficiency was documented as far 
back as 2600 B C in China. 
The disease was noted to be prevalent in 
barracks and prison and increased when 
brown rice was replaced with polished or 
white rice. 
Early researchers in the 1880s thought 
that perhaps there was something wrong 
with the foods, a toxin. 
And they observed that navy sailors were 
spared death by Beriberi. 
When their primarily white rice ration 
was bolstered by other foods. 
Initial hypotheses from those are, were 
that it was some protein, 
so they're adding more foods. 
It must have been some protein that were 
curing Beriberi. 
A Dutch researcher, Christian Eijkman, 
observed that symptoms of Beriberi looked 
similar to a condition in chickens called 
polyneuritis. 
And in some early research with these 
chickens, as you can see here, he fed 
different chickens different diets. 
He found that sick chickens got better 
when they ate brown rice. 
And healthy chickens didn't get sick when 
they ate brown rice. 
But sick chickens and healthy chickens 
alike, died from Polyneuritis, 
when they were fed the white rice. 
So his first hypothesis that was, first 
his, his first thoughts was that in that 
white rice must have been some toxin. 
Again, we're thinking about bacteria, 
we're thinking it might be an infection, 
it must be something that's in it, not 
something that's missing. 
Later, a series of researchers, including 
Dr. 
Grijns, Captain Vedder, Mr. 
Chamberlain, and Dr. 
Casimir Funk, helped advance science and 
learn a little bit more about thiamin. 
They deduced that it was actually a 
missing component, not this idea that 
there was an infectious agent leading to 
Beriberi and discovered that something 
about rice polishings, the holes of rice, 
what we take away when we make white 
rice, was preventing the condition. 
And people are actually treated this way. 
We feed them rice polishings, and they 
get better. 
They don't get Beriberi. 
And it was Casimir Funk that actually 
isolated this vital amine, found 
thiamine, and vitamins were born. 
Another B vitamin, the compound Niacin, 
was actually recognized by chemists since 
1867. 
And Mr. 
Funk, he actually did isolate it back in 
1911, but he was looking for the cure for 
Beriberi and Niacin didn't do the trick. 
Niacin, like thiamine is associated with 
another disease called Pellagra. 
Pellagra was actually first considered to 
be a disease of a corn consuming 
population. 
As corn consumption spread across the 
U.S., and even when it came to the U.S. 
pellagra followed. 
It was prevalent in the late 1700s and 
entire hospitals were actually 
established just to treat pellagra. 
Here in the U.S. 
we had a pellagra hospital. 
It was mostly associated with lower 
income populations, particularly with 
prisons and orphanages. 
As we look through history at economy and 
actually cotton, we can see changes in 
pellagra. 
Towards the end of the war, as cotton 
prices went up. 
Cotton farmers made more money, they got 
to eat better, pellegra disappeared and 
hospitals actually shut down. 
But once cotton prices fell, when the 
farmers where less able to buy healthy 
foods, pellagra reappeared. 
Over time, as cotton was no longer a 
valuable crop and farmer's started 
growing food crops, and therefore they 
also ate better, pellagra also 
disappeared. 
But still, people thought there must be 
some infectious agent. 
But a researcher named Goldberger was the 
first to question this theory, just like 
his predecessors with thiamine. 
Dr Goldberger was charged with 
identifying the germ that was causing 
pellagra, even though he didn't think it 
was a germ. 
He recognized that yes, in prisons and in 
dirty conditions Pellagra was rampant, 
but the guards did not have pellagra. 
Yes, in orphanages even, he was seen 
pellagra. 
But the children in the middle age group 
were the ones most affected. 
Those children, couldn't go out and work 
and earn more money eat a little bit 
better. 
They were also not given milk because 
they were old enough to eat other things. 
So if this was infectious why wasn't 
everybody getting it? So if you've ever 
not liked an assignment you've given, 
been given by a professor or your mentor 
gave you a project you weren't too 
thrilled with, think about Goldbergers' 
graduates students. 
Goldberger actually proved that this 
wasn't an infectious agent by generating 
his filth squad. 
And he and his filth squad went into 
prisons and ingested and injected the 
biological samples and excretions from 
individuals with pellagra, 
think about that. 
And yes, they probably got sick in other 
ways but nobody developed pellagra. 
And Goldberger even predicted as poverty 
continued, pellagra would too, 
and he was correct. 
Despite others still saying there was an 
infection, he continued to work In 
finding a way to prevent pellagra until 
he'd actually died. 
And it was in the early 1930s, after an 
animal model was discovered, that we 
figured out what was really going on. 
In the early 1930s, Dr. 
Elvehjem was able to determine what this 
compound was. 
He found an animal model, 
it was the dog. 
And a condition called the black tongue, 
kind of like the chickens back with 
thiamine. 
Black tongue was related to pellagra in 
humans. 
By curing, by curing black tongue in 
dogs, he was able to do research isolate 
the compound, and determined that it was 
Nicotinamide, or Niacin, that was the 
missing component, and the cure for 
Pellagra. 
The final key in this whole poverty 
puzzle, what people were sort of confused 
by, was why was protein alone helping 
prevent Pellagra. 
The key there was the discovery that the 
amino acid Tryptophan actually makes 
Niacin. 
So either eat niacin or eat tryptophan, 
and you won't get pellagra. 
The last vitamin I'm going to talk about, 
vitamin C's claim to fame, is scurvy. 
You might have actually heard some jokes 
about scurvy dogs or those limey sailors. 
Incidences of scurvy actually date back 
to ancient Egypt, Greece, and Rome. 
It was a disease that was associated with 
winter and early spring when vegetables 
and fruits weren't available. 
And it was highly precedent, it was 
highly prevalent in the seagoing voyages. 
Early explorers, the Vikings, naval 
troops were all worried about this 
disease. 
I mean, you can't find a new land or go 
on a mission if everybody's dying of 
scurvy. 
And it was the ships that thought to 
bring limes and lemons aboard that were 
not coming down with scurvy. 
Early explorers also learned from 
American Indians that they had a cure for 
scurvy, was an infusion of pine and 
spruce needles and so they also helped 
these explorers with the condition. 
In 1747 James Lind helped us out by 
discovering the anti-scurvy nutrient. 
He realized that it was actually the 
lemons that were going aboard these 
ships. 
And from then on British fleets were 
charged with carrying always, lemons and 
lime juice on their trips. 
And that's where the limey nickname came 
from. 
During the 19th century Scurvy continued 
to spread including in children creating 
infantile scurvy. 
And this actually stemmed from 
individuals sterilizing milk, so killing 
off nutrients. 
And it wasn't until the mid 1900's that 
we recognized that it was a Vitamin C or 
ascorbic acid that was the missing link 
to preventing scurvy. 
So now it's your turn. 
What nutrients have I missed? Look up 
some history about the vit, other 
vitamins. 
How was vitamin B12 discovered? What did 
iron deficiency anemia have to do with 
falling in love? And why might vitamin D 
be for the hard headed? Find out, look it 
up and share it with me in the class.