00:01
In this lecture, we’ll
review types of shock
in children and causes
of shock in children.
00:07
First, let’s define shock.
00:08
Shock is defined as an inadequate
delivery of oxygen and substrate
to meet metabolic
demand of tissues.
00:16
We generally break it down into two
types, compensated and uncompensated.
00:21
Compensated shock usually happens early in
the situation that’s the causing the shock.
00:26
Generally, the blood
pressure is still normal.
00:28
So the body is capable of accommodating
the lower pressures systemically
by raising the heart rate.
00:36
Uncompensated shock happens later.
00:39
This is when now the
blood pressure is lower
and we can start to
see end-organ damage.
00:46
So there are generally four
different categories of shock
and we’ll go through them.
00:51
Hypovolemic shock typically happens
when there’s not enough blood volume.
00:55
This can happen with acute dehydration,
fluid loss such as diabetes
insipidus, bleeding or third spacing,
when the fluid is there but it’s
all come out of the blood vessel.
01:09
The next is distributive or vasodilation.
01:13
So distributive shock typically
happens in patients who have sepsis
or when the have injury to their spine,
they can have a neurogenic shock.
01:22
Or they may have anaphylaxis
as a reaction to an exposure
and then they get vasodilation.
01:31
Cardiogenic shock is when the
heart is primarily involved.
01:35
This can happen for example in
patients with a bad cardiomyopathy
or in patients with arrhythmias.
01:42
And last, obstructive shock
is when the heart’s working, it
just can’t get the blood out.
01:47
So examples would be tamponade,
pulmonary embolism or maybe
a tension pneumothorax.
01:53
So those are the general types of shock.
01:57
So let’s talk about how we
approach patients in shock.
02:01
Well, we often will see
fever in septic shock.
02:05
A heart rate will generally be tachycardic,
although maybe bradycardic in newborns.
02:11
The blood pressure
was going to be low
and, of course, in compensated
shock, it will be normal.
02:17
The respiratory rate is often increased.
02:20
This may be to blow off carbon dioxide
to correct for any metabolic acidosis.
02:26
Remember, underperfusion can
result in a lactic acidosis
and that acidosis will then be accommodated
for by blowing off extra carbon dioxide.
02:36
Patients may have altered mental status
if there’s end-organ damage to the brain
and they may have a delayed
capillary refill on exam
and we can see this typically.
02:47
Also we can see decreased
peripheral pulses,
although cap refill is
usually your first bet.
02:53
If you’re assessing cap refill,
remember that nails is a fine place to
look, but if they have cold extremities,
that will be an inaccurate assessment.
03:01
So you should assess it somewhere
centrally, like over the glabella.
03:05
You just press and release
and count the seconds.
03:09
So if we see a patient in shock, we
of course need the clinical context.
03:15
And we need to know whether this is a
patient who is febrile and has a pneumonia
or whether this is a
patient who just got hit
by a car and is bleeding
out of their leg.
03:23
But whatever the clinical context is
there’s a few labs we should think about.
03:28
The first is the Chem-7 and the blood gas.
03:31
So we get these labs emergently,
partially because we can see some
very important things in them
that can allow us to make
decisions about care.
03:41
So the first is the Chem-7 will
show sodium abnormalities,
which is classic in patients
with severe dehydration.
03:48
They can either have a hyper or a
hyponatremia, so that sodium’s important.
03:53
Potassium anomalies may
cause a cardiac arrhythmia,
so certainly in a patient
where you’re worried about
the potentiality of
a high potassium
or a low – very, very low –
potassium, you might get a potassium.
04:07
The acidosis generally reveals a
diagnosis of metabolic acidosis
and will also allow you to somewhat
assess the respiratory ability
to compensate by getting
the blood gas as well.
04:21
So if a patient has a low carbon
dioxide, but is still acidotic,
it implies they’re trying to compensate
for their metabolic acidosis.
04:30
If the BUN and the creatinine are
elevated, both in prerenal hypovolemia,
so a patient is just very dry, or
in intrarenal end-organ damage.
04:42
Typically, in a patient
with pre-renal hypovolemia,
mostly the BUN will go up, the
creatinine will stay relatively normal.
04:51
However, in intra-renal end-organ
damage, you’ll see both levels go up.
04:55
So you can start to distinguish
between those two.
04:59
So what else do we get
in a patient with shock?
Well, if it’s severe shock and we’re
worried about assessing end-organ damage,
getting the liver function
test is important because
we usually see a bump
in the ALT and the AST
as a result of end-organ
hypoperfusion of the liver.
05:17
Likewise, an EKG and an
echo may be important
for identifying causes
of cardiogenic shock.
05:24
And the chest X-ray may be valuable if
you’re worried about an obstructive shock
because it would show for example a
large mediastinum and a large heart
for a pericardial effusion
or it could show you your
tension pneumothorax.
05:38
Although hopefully for tension pneumo,
you’ve picked that up clinically
before you’re getting a chest X-ray.