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Development of the Heart

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Title: Development of the Heart


1
Development of the Heart
  • ANHB 2212 2006 Week 5
  • Avinash Bharadwaj

2
Retrospect
  • The development of the heart is the first of the
    series of topics that deal with the embryology of
    organs and systems. This part of embryological
    study is often called systemic or special
    embryology or organogenesis, as opposed to
    general or early embryology.
  • Throughout systemic embryology, we need to
    recognise that the starting point is the
    formation of the trilaminar embryo, that is, a
    flat embryo with three germ layers ectoderm,
    mesoderm and endoderm. At the extreme head end of
    the embryo the ectoderm and endoderm are in
    contact without intervening mesoder. This area is
    called the prochordal (in front of the
    notochord) plate.
  • We have mentioned earlier that the lateral plate
    mesoderm splits to form the coelomic cavity.
    Further, the head and tail ends of the embryo
    undergo folding. The embryo also folds on the
    sides (lateral folds). Folding of the embryo
    converts it from a flat plate into a tube.

3
Cardiovascular System
  • Cardiovascular system includes the heart and the
    blood vessels. A detailed description of regional
    blood vessels is beyond the scope of this unit,
    and we restrict ourselves to the development of
    the heart.
  • Embryonic development of any organ involves
    complex processes. Given this complexity, it is
    amazing that a vast majority of human beings are
    born without any of the steps going wrong.
    However, these errors of development do occur at
    the gross, histological and even molecular level.
    An in-depth study of these errors is the subject
    of advanced study, largely in the medical
    context. In this unit, we shall mention some of
    the inborn defects (congenital defects) to
    illustrate some principles. This applies to the
    development of the heart.
  • On the other hand, from a scientific perspective,
    the development of the heart does have an
    interesting evolutionary story to tell.
  • From the Level 1 units and the gross anatomical
    study last week, we need to recapitulate some
    basic anatomical facts about the heart.
  • We know that the heart has two receiving chambers
    (atria) and two pumping chambers (ventricles),
    with partitions or septa (singular septum)
    between right and left chambers. We also
    understand the precise distinction between
    arteries and veins as vessels bringing blood
    towards the heart and taking it away from the
    heart respectively.

4
Postnatal vs Foetal Circulation
  • Postnatal
  • Body ? RA ? RV ? Lungs ? LA ? LV ? Body

The basic difference between postnatal and foetal
circulation is that foetal lungs are
nonfunctional. Effectively, blood from the right
side of the heart has nowhere to go and needs to
be shunted to the left. Such a shunting passage
exists between the right and the left atria.
However, if no blood flows through the right
ventricle, that chamber will fail to develop.
Thus some blood does pass to the RV. As it is
pumped into the pulmonary artery, it needs to be
shunted again, this time to the aorta. This
illustrated below. But we are jumping too far
ahead! This was mentioned as one of the basic
principles of the development of the heartlet us
begin at the beginning.
5
Earliest Development
  • Cardiovascular system makes its first appearance
    while the embryo is still flat. Clusters of
    mesodermal cells specialise to form blood cells.
    Mesodermal cells around these flatten to form
    endothelium of blood vessels. These clusters are
    called blood islands of angiogenic (blood
    vessel-forming) cell clusters.
  • In the accompanying diagram note that these form
    a curve reaching well beyond the neural plate and
    the notochord. A mass of mesoderm, called
    cardiogenic area, near the head end (H) will give
    rise to the heart.
  • The sagittal section below illustrates the three
    germ layers, prochordal plate and the cardiogenic
    area.

6
Head Fold
  • With the formation of the head fold (shown in the
    blue circle), note how the cardiogenic area
    changes its position. Also observe that the
    endoderm (yellow) is beginning to form the gut
    tube. At this stage only the head and tail ends
    of the digestive tube are recognisable.
  • In the lowest picture, the gut tube is better
    seen and the heart is in fact in the form of a
    tube (red).

7
The Heart Tube
  • In the picture on the left the relationships of
    the heart, the gut tube and the liver are
    clearer.
  • In the magnified picture of the heart tube, the
    tail end is the venous end and the cranial end is
    the arterial end. The changing shape of the tube
    also makes it possible to recognise the primitive
    chambers of the tube.
  • Remember that the tube is not partitioned at this
    stage.
  • Hereafter, for descriptive convenience, we shall
    view this tube in the vertical position, with the
    caudal (venous) end below and the cranial
    (arterial) end at the top as shown below.

8
The Tube Bends
  • This picture shows three successive stages in the
    growth of the tube. The tube, as it grows, cannot
    be accommodated within the pericardial cavity and
    undergoes bending.
  • The primitive chambers of the heart are
    recognisable, and are labelled in the last
    picture.
  • SV sinus venosus (receives veins from the
    body), A atrium, V ventricle. The ventricle
    continues into the bulbus cordiswhich in turn
    leads to the arterial end.
  • Two terms are used somewhat confusingly for the
    parts at the arterial end. These are conus
    arteriosus and truncus arteriosus. In our
    discussion we shall simply say arterial end of
    the heart.

9
The Chambers
  • Recognise the chambers in these two views. In the
    view from the left side, the sinus venosus is
    partly hidden. Note that with the bending of the
    tube the atrium is now dorsal and the loop formed
    by the ventricle and the bulbus cordis
    (bulbo-ventricular loop) is ventral.
  • In the next slide we shall examine the interior
    of the unpartitioned heart.

10
The Interior
  • A portion of the ventral wall of the
    bulbo-ventricular loop is removed to show the
    interior.
  • Since there is no partition, there is a single
    passage from the atrium to the ventricle. This
    passage is the atrioventricular canal. Note the
    direction of blood flow through the
    bulboventricular loop.
  • Also note that the single vessel leading out of
    the heart has given rise to what are called
    aortic arches.

11
Left Right Partitioning
  • Interatrial septum
  • Interventricular septum
  • Spiral (aortico-pulomonary) septum
  • Endocardial cushions (A-V cushions)
  • Functional requirements
  • There must always be a right to left passage!

12
Interatrial septum
  • Partitioning
  • Right to left passage
  • Mechanism for closing the passage

13
(No Transcript)
14
Septum Primum
  • This is a sagittal section seen from the right.

AVC
V
15
Foramen Primum
  • Foramen primum
  • Between
  • the septum and
  • the AV Cushions

16
Passage is a Must!
  • Foramen secundum
  • Foramen primum about to disappear

17
Septum Secundum
  • To the right of primum
  • Foramen primum has disappeared

18
Foramen ovale
  • F. Ovale
  • In septum secundum
  • Further

19
The Valve
  • Two septa
  • Two foramina

20
Sinus Venosus
  • Originally a symmetrical structure
  • Venous return more to the right
  • Left horn becomes smaller
  • Opening shifts to the right
  • Later part of right atrium

21
Left Atrium
  • Four pulmonary veins
  • Common opening
  • Absorption of veins into atrium
  • Rough part - auricle

22
The Ventricular Septum
  • Three Parts
  • Interventricular septum
  • AV Cushions
  • Spiral Septum

23
Ventricular Septum
24
Foetal Circulation
  • Very little pulmonary flow
  • Placental Circulation
  • Right to Left Passages

25
  • IVC Blood from placenta
  • Ductus venosus
  • F. ovale
  • Ductus arteriosus

26
Changes At Birth
  • Closure of interatrial septum
  • Closure of ductus arteriosus
  • Closure of ductus venosus

27
Congenital Heart Disease
  • Septal Defects Atrial and Ventricular
  • Endocardial cushion defects
  • Aorticopulmonary defects
  • PDA
  • Others

Last Slide
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