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By having this large amount of blood going to the placenta, what does this do to overall
cardiovascular control for the mom? Well, if you would plot out the weeks of gestation versus
the percent change in a particular variable, systemic vascular resistance plummets. In fact,
over the first about 15 weeks, it is almost a linear drop as those spiral arteries have now
engorged and it become wider you have little ability to resist flow. As systemic vascular
resistance decreases, what has to happen? You have to have an increase in cardiac output. So
the mother's heart is tasked more because of this vascular bed that is new to the system and
is open wide and doesn't constrict. Therefore, you have increases in heart rate and stroke
volume so this is almost like a sympathetic stimulatory stress most of the time during those
first number of weeks of gestation. Interesting though, her mean arterial pressure stays fairly
constant. So that decrease in systemic vascular resistance which she cannot control is
accommodated by the increase in cardiac output. Now what changes happen in the
cardiovascular system besides those of cardiac output and systemic vascular resistance? The
big one is is there is a change in blood volume. So the renin-angiotensin-aldosterone system
is engaged to a great extent and you retain fluid and as you bring in fluid to the body as you're
drinking and so forth, you're not urinating out as much fluid. So you start to really retain
fluids. This has an interesting effect on some of the blood components and the most interesting
one is it's effect on hematocrit. You will get a decrease in percent hematocrit as gestation
moves along to about week 30 and then it flattens out. What does a decrease in hematocrit
mean? Did you really change the number of red blood cells? Not as likely. What happened is
that you changed plasma volume. So now every red blood cell is diluted in with more fluid so it
seems like there is an anemia that has taken place because the number of red blood cells is
decreased per unit volume of blood and we measure that as a percent. This physiological
anemia can cause problems such as fatigue and weakness in the mother. It can also, with
having this higher cardiac output, will cause some edema-related issues and this happens
through two reasons: one is the increase in cardiac output, the second is a decrease in the
capillary colloid osmotic pressure. So remember, osmotic pressure is the amount of proteins
that are in the blood. If you dilute them, now they are going to have less osmotic draw per
volume of tissue. So you'll be more likely to leave more fluid out in the capillaries and that is
one reason why there is oftentimes edema that is present in the mother. There's also a bit of
decrease in venous return. So that is the blood returning to the heart. Why? Because now you
have this growing fetus and that growing fetus can press on some of the large vessels like the
large veins, making it harder for flow to return to the heart. A use of all three of these
mechanisms: cardiac output increase, decrease in the capillary colloid osmotic pressure and
this decrease in venous return can oftentimes cause swelling. One place that it's oftentimes
seen is in the ankles and the lower legs because that is a part that has higher pressures when
you're standing upright. There are a few other changes in organs besides the cardiovascular
system. Probably the biggest is an increase in oxygen consumption. So this is an overall
increase in the metabolic needs of the mom, about a 30% increase in oxygen need, which means
a 30% increase in metabolism. So this is going to mean that the mom is going to need to eat
more and have more kilocalories being ingested. It increases minute ventilation, which is the
volume of air that you breathe in per minute about 50%. There is a decrease in residual volume
which is the volume of air in your lungs after a maximal exhalation of about 20% and that is
because as the fetus is growing it is starting to take some of that extra lung tissue, it's
pressing up against it and therefore you don't have as much volume but what happens is you
compensate for part of that by increasing your minute ventilation. So you're working harder to
even breathe. The last thing that changes is you have an increase in renal blood flow, which
increases glomerular filtration rate. This is very important for the fetus because now you are
getting not only your metabolic waste: things like urea, things like carbon dioxide, things like
small molecules involved in metabolism but you also have to remove those waste of the fetus
that was picked up in the placenta flow.