Here is your assignment for all classes.
Here is a link to the article or it is copied below. Answer all 11 questions in notebook.
https://www.sciencenewsforstudents.org/blog/eureka-lab/test-pill-coatings-try-stomach-flask
Marquez
A teen investigates which type of pill dissolves fastest in the
gut
Tablets (in white) may
dissolve in the stomach fastest, while compressed caplets (in orange, blue and
pink) may last longer, a teen found.
PHATTANA/ISTOCKPHOTO
LOS ANGELES, Calif. —
Pills come in all sorts of shapes and sizes. Some are coated, and some are not.
Roshni Sen, 17, wondered if a pill’s coating can affect how long it takes for
the pill to break down in the body. To investigate, this senior at the Academy
of Science and Technology at The Woodlands College Park in Texas created a
“stomach” in a flask. She showed that different types of pills dissolve in
different spots in the digestive tract. And that might affect which bottle you
would want to reach for when you’ve got aches and pains.
Roshni presented her
results at the Intel International Science and Engineering Fair (ISEF). Created
by Society for Science & the Public and sponsored by Intel, the yearly fair
brings high school students from all over the world together to share their
research projects. (SSP also publishes Science News for Students and
this blog.)
The teen became
curious about how quickly pills dissolve after reading about a new type of pill
that was supposed to release medicine inside the body at a constant rate. “I
found this paper online talking about this new kind of pill that biomedical
engineers made that has a porous outer coating,” Roshni says. It could
make a pill’s effects last longer and be more consistent. Realizing how
important a coating could be, she soon decided to do an experiment to find out
how quickly the different types of pills now for sale dissolved in the stomach
and small intestine.
Those pills now on the
market come in many shapes and sizes, and with different coatings. Some are
liquid inside a gel, or powder inside a gel caplet. Others are tablets or
compressed caplets with shiny coatings. This can affect how quickly the
medicine inside makes its way into someone's bloodstream.
The teen worked with a
drug that's used to treat fever and pain. It's available at any
pharmacy and best known by the brand name Tylenol. (Its generic name
is acetaminophen and paracetamol, depending on what country you are
in.) Most importantly, Roshni explains, “it comes with all the
different kinds of coatings I needed.”
She wanted to examine
four common pill coatings. A tablet is the most basic. “It essentially has no
coating other than the one that just holds it together,” Roshni says.
Compressed caplets have a hard, shiny coating. Gel caplets have a gel coating
around a powder, and soft gels are made with a gel coating around a liquid.
Roshni Sen presents
her project at Intel ISEF.
B. Brookshire/SSP
To test how fast the
pills dissolved, Roshni had to come up with a stand-in for the human digestive
system. So she created models — simulations — of the stomach
and small intestine with acidic solutions in flasks.
The stomach breaks
food down so its nutrients can be absorbed by the body. Because of this, the
stomach is full of enzymes and acid. The stomach has a pH of
around 2. That’s about as acidic as lemon juice or vinegar. The small
intestine, where most of the nutrients in food get absorbed, uses mostly
enzymes, not acid, to finish digesting the food from the stomach. It is a
strong base, with a pH of about 8. That’s about as basic as baking soda. To
mimic these environments, Roshni prepared three beakers. One beaker matched the
pH of the stomach. Another matched the pH of the small intestine. The third,
her control, was pure water, which has a pH of 7.
To mimic the body’s
temperature, she heated the beakers to 37° Celsius (98.6° Fahrenheit). She
added a small stir-bar in each to keep the mixtures moving. This would stand in
for the movement in the stomach and small intestine that mixes food and keeps
it moving along.
Working in her
school’s chemistry lab, Roshni placed a pill in each beaker. She then waited to
see how long it took for the pill to completely dissolve. She repeated the
experiment five times for each pill type in each beaker.
In water, all of the
pills took more than an hour to dissolve. But there were differences in the
acidic “stomach.” The tablets, which didn’t have much of a coating, dissolved
the fastest, in about 12 to 13 minutes. The soft gels lasted a little longer,
taking 15 to 16 minutes to dissolve, while the gel caplets took 18 to 20
minutes. Compressed caplets proved most hardy. They took 24 to 25 minutes
to dissolve.
But Roshni got a
surprise when she tried to dissolve her pills in her “intestine” flask. The
tablets, soft gels and gel caplets took much longer to dissolve in the basic
solution, between 28 and 36 minutes. But the compressed caplets, which
withstood the strong acid of the stomach, dissolved quickly in the “small
intestine,” in 13 to 15 minutes.
Compressed caplets are
covered in an extra coating. It protects the pill from the stomach acid.
“The main purpose is to elongate the process,” Roshni explains, making sure the
pill does not dissolves until it reaches the small intestine. Why? If a
pill dissolves in the stomach, the acid there might also break down some
of the drug before it can be absorbed. That would make the pill less
effective. Waiting to dissolve in the small intestine may ensure that more
of the drug makes it into the bloodstream.
Tablets and soft gels
could begin to treat pain and fever faster because they dissolve more quickly,
Roshni concludes. But they also might be less effective, because some of their
medicine will be lost in the stomach. So in some cases, the compressed caplets
may prove more effective, she says.
Drug companies design
medicines with different coatings for different purposes. Tablets and soft gels
may be useful for quick relief. Compressed caplets, in contrast, may bring
longer relief.
In the end, what kind
of pill you take probably depends on what your needs are. “A lot of people just
take a pill and hope it works and kind of forget about it,” the teen says. She
hopes that her experiment will help spread knowledge about why different pill
coatings exist and what they can do.
And when she’s in
need, Roshni prefers speed. “I told my mom I won’t take gel caps or compressed
caplets anymore,” she says. “I’m going to take soft gels.”
Questions:
All questions answered
inside your notebook.
Will be grading
tomorrow for 11x5=55 points
Have a good day!
- What
was Roshni’s testable question she wanted to study?
- To
launch her investigation, what did she create?
- Draw
her experimental set up.
- Roshni
became interested in this experiment after reading about a new type of
pill that was unique. What was unique about it?
- What
are the three different types of the above pill currently sold in stores?
- What
two things are found inside the stomach?
- What
is the pH of the stomach?
- How
many trials did Roshni’s experiment have?
- What
did she realize the problem was with the pill dissolving in the stomach
and not reaching the small intestine?
- What
pills did she conclude could be used for quick relief? What pills for
long-lasting relief?
- What
are 2 follow-up questions Roshni could study in a subsequent experiment?
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