Dissecting Brains


I feel terribly privileged when
I’m handling human brains. This tissue is something bequested
to us for research purposes and it’s an honour to be able to handle
the tissue and meet that bequest. My name’s Steve Gentleman. I’m the Professor of
Neuropathology at Imperial College, London and one of my jobs is to carry out
the diagnostic assessment of the brains that come in
to our tissue bank. The first thing you do when
you get the brain is to examine the external features of the brain
to see if there’s any clue there as to what might’ve gone on. So you look at the surface of the brain,
the membranes that cover the brain, is there any evidence of any infection? We then look at the patterns on the surface
of the brain at the folding to see if that’s normal and whether there’s any shrinkage
or atrophy in any particular areas. Also, feel the brain to see if there’s
any softenings, because if there is a soft area that may indicate there
was a stroke in that area. Then look at the blood vessels
at the base of the brain and they will give us some
clues as to lifestyle factors that may have been involved. They may be atherosclerotic,
or hardening of the arteries, due to a high fat diet or
smoking or lack of exercise all may contribute to
this type of change. When we have a whole brain fixed in formalin, what will do is we will make
a cut through the brain stem, which is that part of the brain
which is quite small but very important in carrying out all those
everyday functions that we all rely on without thinking about too much. We separate the brain stem and the
cerebellum from the rest of the brain. In order to carry out the
neuropathological examination in a reproducible fashion, we have to
cut up the brain in a fairly stereotypical way. So we use a single point for our first cut. We have a landmark called the mammillary body
– it’s a part of the brain involved in housekeeping functions, and we use that as
our guide for the first cut using a rather large bread knife, if you like
– that’s what it looks like. We then slice the brain up in to coronal sections and then space those out so that we can have a
look through the whole extent of the brain to look for any pathology, and then to take some
representative blocks so that we can follow up and look down the
microscope at what’s going on. And in this way we can
build up a diagnostic report of what the problem was
with that particular patient. And this is very important because
the tissue then goes out to researchers and they need to know
exactly what was going on. We cut the sections using a guide because there are some parts of
the brain that we need to look at which are quite small, so we have to
accurately make a half-centimetre slice. When all the slices are
laid out in a logical fashion you can inspect each slice individually working from the front to
the back of the brain, just checking that all the structures
are as you would expect them to be, looking for any signs of change,
whether it be in multiple sclerosis, for example, there may
be changes in the colour of parts of the brain. We then have to sample
20 specific anatomical areas to allow us to take them away to be stained
and look at them down the microscope, to try and work out which
pathologies are there, because it’s not always just one pathology. We have to make sure if there
are multiple pathologies, that we write that down, and again,
it’s very important for the researcher, they need to know everything
that’s gone on in the brain. The samples we take are put
into small plastic cassettes and these are then
embedded in paraffin wax and the reason we do this is to get very, very
thin slices to look at under the microscope we need to mount the tissue
into something that can be cut. So those are cut at about six microns,
which is very, very thin and allows us to look at the tissue. I’ve been looking at brains for 25 years now
and I have probably examined over a thousand. Every brain is individual. When I first pick up the brain,
what I’m looking at is the external features and, if you like, the convolutions of
the brain are a little bit like a fingerprint – they are unique to the individual. Obviously they have a very similar general structure,
but there are subtleties, we’re all slightly different in our development so no two brains are the same, and indeed that applies
to the pathology as well. Parkinson’s disease is a very well-described disease, but in fact the pathology you see in the brains
of people who’ve had Parkinson’s disease is very individual.

100 thoughts on “Dissecting Brains

  1. I feel the information in the brain is like sound, light, heat, fire, waves or wind. Things you can't keep or store. Things that happened to happen.

  2. its strange to think that right there, those are people. Everything they ever were was contained in that lump of odly satisfying looking flesh

  3. i'm here from izombie and i just wanted to see what the inside of a brain actually looks like. the brains in izombie look Delicious…

  4. I study sciences and medicine histology histopathology cytology forensic pathology diagnostic medicine biomedical bone sciences ect. I find it very useful and interesting any questions ask me

  5. We know more about the external universe than we know about the universe between our ears. The most complex known object that we know of in the universe.

  6. I have the sudden urge to just buy a brain off the black market and just throw it at a group of small children while at their school.
    Is this normal?

  7. my brain suddenly has asked me if I have any visual knowledge about a bisection of itself..

    I am thoroughly surprised after watching it's complexity.. & for a while I felt myself grateful & lucky enough as well that even my brain insists me to share my realisation on brain.. 🤣

  8. We have the biggest brains of any mammal relative to our size. This biological computer is fascinating. It requires 20% of our body's energy to run. So yeah, it is a resource hog but look at all it is. Our brain IS us. It is sad that we can't last forever. Imagine the knowledge we could retain. Even though, look at all we have achieved because of our magnificent biological computer between our ears.

  9. That squishy thing between our ears- that is what matters most.

    We need to be healthy, but without that- we are just another body…

  10. This seems like a very primitive way to dissect a brain. So many neural connections have just been spliced at arbitrary angles.

  11. That Human Brain still feels like eating Chicken Strips. This makes me feel hungry when I feel like Chicken Strips.

  12. Is there anyone here who is a Christian? We believe, at death, the soul/spirit of man — that which makes us US, either goes to be with God, the Creator or to Hell, without God forever. We believe that man is alive — spiritually — forever, for all eternity. For those who do not know God, you can, through Jesus Christ, the Savior, and Creator of all that is. Turn to Him in prayer, asking for the forgiveness of your sins. Praise Jesus forevermore.

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