Hi. I'm Meris with Level Up RN. And in
this video, I'm going to be talking to you about external cephalic versions, Bishop
scoring, and labor induction and augmentation. I'm going to be following along with our maternity
flashcards. These are available on our website, leveluprn.com. If you don't have a set for
yourself, you can grab them there. And if you do have a set of your own, I would invite you
to follow along with me. I'm starting in the labor and delivery section here, so be sure that
you are in the right section. Okay. So first up, let's talk about an external cephalic version.
So let's just break down what does this even mean? These are a lot of words that I don't know
what they mean. So let's talk about it. External, meaning from the outside of mom. This is not going
to be an internal or invasive procedure; cephalic, referring to the baby's head; and inversion,
meaning to to twist or rotate. So this is rotating baby's head from the outside of mom.
So really, what this is is when we have a patient who has baby in a breech position,
meaning their head up, feet down, this is not the ideal position for labor. And
it's possible to do an external cephalic version to turn the baby from that position into the
vertex position, meaning head-down position. That is the optimal position for labor. This
is not without risk, though. So think about the idea that you are going to be manipulating
the contents of mom's uterus. So specifically, the doctor, the provider, the midwife is going
to be attempting to manipulate the baby. But there's other stuff in there, right, specifically,
the umbilical cord and the placenta. So when an external cephalic version is done, there
are significant risks. And you will see here that we have bolded those risks for you because they're
very important to understand. So there's a high risk of umbilical cord compression and placental
abruption. We can fully abrupt that placenta from the uterine wall, meaning separate it from
the wall because of this external manipulation. So this is very high risk, and that means
that we should be doing this in a hospital.
Now, when I say we should be doing this,
we as nurses are not doing this. I mean, more colloquially the use of the word we. So
this should be done in a hospital so that if something goes wrong, if we see this complication
happen, or if mom were to go into preterm labor as a result of this, then we would be able to take
care of mom and baby, right? We can imminently deliver right there. We can provide supportive
care right there. Now, this should be done at 37 weeks gestation, give or take a little bit
here and there. But we're not doing this preterm, right? We're not doing this before the pregnancy
has come to full term because, first of all, there's still time for baby to move around
and get in the optimal position. And secondly, we don't want to trigger preterm labor. That
would be very bad. Now, what are we going to do as nurses? We're going to continuously monitor
fetal heart rate and the maternal vital signs, right? Make sure baby and mom are both doing okay.
After this procedure is done, we need to give Rho-GAM to Rh-negative moms because there
is that potential for blood mixing. So we need to make sure that mom does not develop those
anti-Rh antibodies, right? That's very important. And then also can give IV fluids and tocolytics,
which are medications that relax the uterus, as ordered. That's just going to be per
order. So just remember, we're doing this in a hospital because of the risk for complications.
Okay, moving on to Bishop scoring. So the Bishop score is a score that helps us to determine the
maternal readiness for labor induction, right? So we're going to assess the cervix, and we have some
components here. We have cervical consistency, cervical dilation, cervical effacement, cervical
position, and the station of the presenting part. And each of these things are going
to be given a score from 0 to 3, except for position and station, which are given a
score of 0 to 2. This is less important. I'm just giving you kind of the background information.
If you were to be a labor and delivery nurse, you would definitely need to know how to
do Bishop scoring. But for these purposes, we need to understand, what does it mean? So
either the Bishop score can indicate that we are ready to have a baby, things look good, we are in
optimal position to deliver, or not ready. So this is not a favorable cervix for labor induction.
Now, how do we know if you are in a good position or not? Well, it's going to be based on the score
and the patient's personal history. So a patient who is multiparous, meaning they have had babies
before-- so multi, meaning more than one, right, and parous, referring to delivery or birth. So a
multiparous patient is going to be marked as being ready for labor induction with a score of
8 or higher. But a nulliparous patient, null meaning zero, parous meaning birth, so
nulliparous, meaning no prior deliveries, is going to require a score of 10 or higher
to be considered ready for labor induction. So we have a nice Cool Chicken hint down here
at the bottom that helps you remember what the Bishop score is for. It's I wish my Bishop score
would be high enough to induce labor. There's a lot of scores and different kind of metrics
in maternity nursing, so it can be difficult to remember which one is for which thing.
Now, moving on to the actual discussion of labor induction and augmentation, we're going to
talk about two methods here. First, we're talking about cervical ripening. So kind of a weird
term, not my most favorite term in the world. It makes me think of fruit, but that is the point,
right? Is the cervix ready for induction? So we can ripen the cervix, meaning get it more
ready for labor. And this is typically done with chemical agents like prostaglandins, the big
one here being misoprostol. Brand name, I think, is Cytotec. You'll hear that frequently. That is a
medication that is going to soften the cervix and help it to dilate and efface a little bit more.
And then there are also mechanical methods, which would include balloon catheters, where--
you know how there's a balloon on the end of a Foley catheter? Same idea here. It's going to be
passed through the cervix, and then that balloon is going to be slowly inflated to put pressure on
the cervix from the middle and try and open it up, right, to help it dilate. And then there's
also cervical dilators and membrane stripping.
Now, the biggest thing that we need to be worried
about when we use prostaglandins, in particular, it's going to be something called uterine
tachysystole or uterine hyperstimulation. Hyperstimulation is a really good way to talk
about it. So the uterus is overexcited, right? It is doing the most?. So those contractions are
either too strong or happening too frequently. It's really scary and can put the patient
at risk for things like uterine rupture. So if we suspected that the patient
was experiencing uterine tachysystole, we would want to remove those prostaglandins
if they were still in there. That would be the number one thing to do there.
Now, another way that we can talk about labor induction and augmentation
would be something called an amniotomy. So remember, any sort of otomy is going to be
a puncturing or a laceration of some sort. And this is going to be of the amnion. So this
is going to be using a sharp instrument to poke a hole in the amniotic sac, essentially,
right? So we're rupturing those membranes. Essentially, we are artificially causing
the water to break is what an amniotomy is.
Now, when I introduce something from the outside
to the inside, I have an increased risk for what? Infection, right? I have an increased risk for
infection. But also, when the water breaks, when that amniotic membrane ruptures and all
that fluid shifts, there is now a difference in pressure, right? We had a difference in pressure
from the outside and the inside. And now we have torn that membrane open, and things are moving.
We have a risk for cord prolapse. Remember that the cord could get kind of sucked out when that
pressure changes as the membranes are ruptured. So we need to make sure that we are assessing the
fetal heart rate throughout this whole process to make sure that it's staying stable. Also, as far
as nursing care goes, we need to make sure that the presenting part of the fetus is engaged prior
to the amniotomy. We're not doing this without full engagement here. And then, like I said, we're
going to be monitoring that fetal heart rate the whole time. And because of the risk for infection,
I'm going to be checking mom's temperature every two hours, or per facility policy, because I
want to check and see if we have any signs of infection after that amniotomy.
Now, moving on to this last card that we're going to cover here, we're talking about
oxytocin. Now, oxytocin is a hormone created by the body naturally during labor. So we can
actually administer a synthetic form of it through the IV to augment or to induce labor. So same
idea as the natural stuff produced in my brain, but this is going to be the artificial version
of it. This is going to increase the strength, frequency, and length of uterine contractions. So
all of that's going to help us move in a forward direction when it comes to delivering that baby.
But oxytocin is really great because it can also be used to control postpartum bleeding. It can be
used to help firm up the uterus after delivery. So this is a medication that if you work labor and
delivery or postpartum, you're going to see it a lot. Now, what do I need to know when I have
a patient receiving oxytocin? Well, again, I want to know about the status of baby, right? I
want to constantly be monitoring fetal heart rate and also contractions. Because again, a risk
of using oxytocin to augment the contractions is we can overstimulate the uterus
and end up with uterine tachysystole.
So if we have uterine tachysystole, we need to
discontinue the oxytocin. We have it here for you in big, bold, red letters that stand out very
strongly on this card. You need to discontinue the oxytocin if contractions occur more than every
two minutes, if they last longer than 90 seconds, if they have an intensity greater than 90
millimeters of mercury using an intrauterine pressure catheter, or a resting tone, meaning when
the uterus is not contracting, that resting tone is greater than 20 mm millimeters of mercury
between contractions. So a lot of thing that I just told you there. But if the contractions are
happening too frequently, if they're lasting too long, if the strength is too high, or the resting
tone is too high, all of those things mean I got to turn that oxytocin off right now. That's your
big nursing consideration in that instance. And then I can notify the provider and do all of those
other great things. But my primary action is going to be stopping this so we don't make it any worse.
Also on this card, we say that you can administer terbutaline to decrease uterine activity if
needed. Terbutaline is a tocolytic, so it is going to help to relax the uterus. So this can
be given-- if we do have that hyperstimulation, we can help to kind of calm things down.
Okay. I hope that review was helpful for you. And to see if it was or not, I'm going
to ask you some quick quiz questions to test your knowledge of the key facts that I
just gave you. So get your thinking caps on. Okay. So first up, I want
you to name a complication of an external cephalic version. So I
gave you a couple, so just name one. What is the Bishop score that
indicates maternal readiness for labor? And remember, there are two different
scores, so think about that one. Name a complication of amniotomy. I
gave you two, so name one of them. I want you to imagine that you are caring for
a patient who has been receiving oxytocin. You are assessing their monitoring, and
you see that contractions are happening every two and a half minutes. They last for
60 seconds. And you are going to use your smart nursing judgment here, and you're
going to think about should the oxytocin be continued or should it be discontinued,
based just on those two pieces of information? Thanks so much and happy studying.