ANAT2341 Lab 3 - Week 4

From Embryology
ANAT2341 Lab 3: Introduction | Week 3 | Week 4 | Abnormalities | Online Assessment | Group Project

Week 4

Human Embryo (Carnegie Stage 11)
Axes - Human Embryo (Carnegie stage 11), 24 days, 13 somite pairs

Key Events of Human Development during the fourth week (week 4) following fertilization or Clinical week 6 (LMP).

These notes cover the fourth week of embryonic development, which is the beginning of organogenesis, (specific tissues and systems are beginning to differentiate) from the trilaminar embryo. With many parallel processes, descriptions begin to get complicated! Many of the described processes begin and extend over a broader range of time. Some developmental processes will be discussed later in the practical to simplify matters.

Ectoderm on the embryo surface undergoes segmentation: The central portion of the embryonic disc forms the neural plate, the edge of this plate forms neural crest and the remainder outside this forms the epitheium of the skin and other structures.

Neurogenesis

  • Central Nervous System (CNS) - the neural plate undergoes morphological changes to form the primitive central nervous system (brain, spinal cord). An epithelial layer of cells which contributes all neural (brain, spinal cord, peripheral nervous system) and the external epithelium (surface layer of the skin) of the embryo. Neurogenesis begins towards the end of week 3, when the neural tissues separate from this germ cell layer.
  • Peripheral Nervous System (PNS) - the neural crest cells in the body region migrate and spread to different regions of the embryo forming the PNS (dorsal root ganglia, sympathetic ganglia, enteric nervous system) and many other embryonic tissues. Neural crest cells in the head region form skeletal and other structures.

Pharyngeal Arches

In the head region, a series of ventral folds form under the brain in a rostral to caudal sequence, these are the pharyngeal arches.

Placodes

In the head region, ectoderm small patches form pairs of specialised placodes that eventually contribute to specific sensory components, cranial ganglia and the anterior pituitary (adenohypophysis).

Limb Buds

In the body region, limb buds form initially as ectoderm and mesoderm (somitic and somatic) components and are the "paddle-like" projections from the trunk which will form all the upper and lower limb components. (An overview of limb development will be covered in week 8).

Cardiogenesis

Within the embryo mesoderm, the heart tube and vascular development continues. Cardiogenesis will be covered in week 5, when septation begins.

Neurogenesis

Neural Groove (stage 10)
Caudal Neural Pore (stage 12)

Developmental sequence: neural plate -> (day 18-19) neural groove -> neural tube -> Central Nervous System (brain and spinal cord)

  • Central Nervous System (CNS) - the neural plate undergoes morphological changes to form the primitive central nervous system. An epithelial layer of cells which contributes all neural (brain, spinal cord, peripheral nervous system) and the external epithelium (surface layer of the skin) of the embryo. Neurogenesis begins towards the end of week 3, when the neural tissues separate from this germ cell layer.
  • Peripheral Nervous System (PNS) - the neural crest cells in the body region migrate and spread to different regions of the embryo forming the PNS and many other embryonic tissues. Neural crest cells in the head region form skeletal and other structures.

Human Neuralation - Early Stages

The stages below refer to specific Carneigie stages of development.

  • stage 8 (about 18 postovulatory days) neural groove and folds are first seen
  • stage 9 the three main divisions of the brain, which are not cerebral vesicles, can be distinguished while the neural groove is still completely open
  • stage 10 (two days later) neural folds begin to fuse near the junction between brain and spinal cord, when neural crest cells are arising mainly from the neural ectoderm
  • stage 11 (about 24 days) the cranial neuropore (rostral, cephalic or anterior) closes within a few hours; closure is bidirectional, it takes place from the dorsal and terminal lips and may occur in several areas simultaneously. The two lips, however, behave differently.
  • stage 12 (about 26 days) The caudal (posterior) neuropore takes a day to close
  • the level of final closure is approximately at future somitic pair 31
  • corresponds to the level of sacral vertebra 2
  • stage 13 (4 weeks) the neural tube is normally completely closed.

Stage13-CNS-icon.jpg

Three primary brain vesicles develop initially due to the neural plate being broader at the cranial (brain) end than the narrower caudal (spinal cord) end. When the plate fuses to form a tube, these 3 initial expansions (vesicles) result.

Primary Brain Vesicles

Neural Patterning

Note that patterning signals are reused throughout the embryo to establish to pattern other parts of embryo (see limb development).

Rostrocaudal Patterning - Hox

Fly wild-type head.jpg Fly antennapedia head.jpg
Fly wild-type head[1] Fly antennapedia mutant head[1]

This is the classic mutation that gave rise to the discovery of Hox genes and other genes related to body pattern formation. In this mutant during development the fly embryo incorrectly positioned where (antenna) should have be two legs (pedia)[1]. The discovery of this mutant in Walter Gehring's lab opened up the field of developmental genes and this field has been rewarded with the 1995 Nobel prize in Medicine.

Ventral Patterning - Sonic Hedghog

Neural tube - SHH model

Shh frog notochord 1.jpg Sonic.jpg

  • SHH is secreted by the notochord, ventralizes the neural tube, inducing the floor plate and motor neurons.
  • Regulation of patched by sonic hedgehog in the developing neural tube.[2] "The pattern of PTC expression suggests that Sonic hedgehog may play an inductive role in more dorsal regions of the neural tube than have been previously demonstrated. Examination of the pattern of PTC expression also suggests that PTC may act in a negative feedback loop to attenuate hedgehog signalling."


Links: Sonic hedgehog

Pharyngeal Arches and Placodes

In the head region, two main components of head development form the pharyngeal arches and sensory placodes.

  • Pharyngeal arches form a series of ventral folds under the brain in a rostral to caudal sequence. These arches will form most of the head and neck structures of the embryo and contain all three germ layers (ectoderm, mesoderm and endoderm).

Stage14 sem2l.jpg otic placode forms the otocyst

Embryo Stage 13

This EFIC movie shows sagittal sections through the Stage 13 week 4 to 5 human embryo. From your understanding of pdf development to the end of week 4 and general anatomy, how many internal features you can identify within this scan?


Now have a look at the labelled movie.


Movies - Embryo Carnegie stage 13 - These are rotating animations based upon reconstruction of individual serial slice images of the stage 13 embryo.


Stage13-CNS-icon.jpg Stage13-GIT-icon.jpg Stage13-CVS-icon.jpg
Central Nervous System Gastrointestinal Cardiovascular
Stage 13 serial labeled images
Stage 13 image 050.jpg Stage 13 image 051.jpg Stage 13 image 052.jpg Stage 13 image 053.jpg Stage 13 image 054.jpg Stage 13 image 055.jpg Stage 13 image 056.jpg
A1L A2L A3L A4L A5L A6L A7L
Stage 13 image 057.jpg Stage 13 image 058.jpg Stage 13 image 059.jpg Stage 13 image 060.jpg Stage 13 image 061.jpg Stage 13 image 062.jpg Stage 13 image 063.jpg
B1L B2L B3L B4L B5L B6L B7L
Stage 13 image 064.jpg Stage 13 image 065.jpg Stage 13 image 066.jpg Stage 13 image 067.jpg Stage 13 image 068.jpg Stage 13 image 069.jpg Stage 13 image 070.jpg
C1L C2L C3L C4L C5L C6L C7L
Stage 13 image 071.jpg Stage 13 image 072.jpg Stage 13 image 073.jpg Stage 13 image 074.jpg Stage 13 image 075.jpg Stage 13 image 076.jpg Stage 13 image 077.jpg
D1L D2L D3L D4L D5L D6L D7L
Stage 13 image 078.jpg Stage 13 image 079.jpg Stage 13 image 080.jpg Stage 13 image 081.jpg Stage 13 image 082.jpg Stage 13 image 083.jpg Stage 13 image 084.jpg
E1L E2L E3L E4L E5L E6L E7L
Stage 13 image 085.jpg Stage 13 image 086.jpg Stage 13 image 087.jpg Stage 13 image 088.jpg Stage 13 image 089.jpg Stage 13 image 090.jpg Stage 13 image 091.jpg
F1L F2L F3L F4L F5L F6L F7L
Stage 13 image 092.jpg Stage 13 image 093.jpg Stage 13 image 094.jpg Stage 13 image 095.jpg Stage 13 image 096.jpg Stage 13 image 097.jpg Stage 13 image 098.jpg
G1L G2L G3L G4L G5L G6L G7L

Week 4 Movies

Note that many of the movies start in week 4 and continue on through later embryonic development.


Note that many of the movies start in week 4 and continue on through later embryonic development.

Ectoderm

Neuralplate 001 icon.jpg
 ‎‎Neural Plate
Page | Play
Neuraltube 001 icon.jpg
 ‎‎Neural Tube
Page | Play


Neural crest migration Chicken Head (movies overview)
Chicken-neural-crest-migration-01.jpg
 ‎‎Neural Crest 1
Page | Play
Chicken-neural-crest-migration-02.jpg
 ‎‎Neural Crest 2
Page | Play
Chicken-neural-crest-migration-03.jpg
 ‎‎Neural Crest 3
Page | Play
Chicken-neural-crest-migration-04.jpg
 ‎‎Neural Crest 4
Page | Play
Chicken-neural-crest-migration-05.jpg
 ‎‎Neural Crest 5
Page | Play
Chicken-neural-crest-migration-06.jpg
 ‎‎Neural Crest 6
Page | Play
Chicken-neural-crest-migration-07.jpg
 ‎‎Neural Crest 7
Page | Play

Mesoderm

Mesoderm 001 icon.jpg
 ‎‎Week 3 Mesoderm
Page | Play
Mesoderm migration movie 1 icon.jpg
 ‎‎Mesoderm Move
Page | Play
Vertebra 003 icon.jpg
 ‎‎Vertebra
Page | Play
Somite 001 icon.jpg
 ‎‎Musculoskeletal
Page | Play
Somitogenesis 01 icon.jpg
 ‎‎Somitogenesis
Page | Play


Endoderm

Amnion 001 icon.jpg
 ‎‎Amniotic Cavity
Page | Play


Embryo Stages and Events

Day Stage Event
22
Stage 10 Stage10 dorsal1.jpg Stage10-dorsal2.jpg

Neural System Development

  • neural folds begin to fuse near the junction between brain and spinal cord
  • rostral neural tube forms 3 primary brain vesicles (week 4)

Neural Crest Development

  • differentiation at spinal cord level from day 22 until day 26
  • cells are arising mainly from the neural ectoderm
  • trigeminal, facial, and postotic ganglia components visible PMID: 17848161
  • migration of vagal level neural crest cells begins (7-10 somite stage)

Respiratory System Development

  • Week 4 - laryngotracheal groove forms on floor foregut
23
  Heart begins to beat in humans by day 22-23, first functioning embryonic organ formed.
24
Stage 11 Stage11 bf1c.jpg

Thyroid thyroid median endodermal thickening in the floor of pharynx

Neural System Development rostral (or cephalic) neuropore closes within a few hours; closure is bidirectional, it takes place from the dorsal and terminal lips and may occur in two areas simultaneously. The two lips, however, behave differently.

Optic ventricle appears

25
Stage 12 Stage12 bf1c.jpg

Pituitary Week 4 hypophysial pouch, Rathke’s pouch, diverticulum from roof

GIT - Liver septum transversum forming liver stroma and hepatic diverticulum forming hepatic trabeculae PMID: 9407542

Neural System Development caudal neuropore takes a day to close (closure is approximately at future somitic pair 31/sacral vertebra 2)

Neural System Development secondary neurulation begins

Neural Crest Development cardiac crest, neural crest from rhombomeres 6 and 7 that migrates to pharyngeal arch 3 and from there the truncus arteriosus PMID: 17848161

Neural Crest Development vagal neural crest enter the foregut (20-25 somite stage)

26
   
27
   
28
Stage 13 Stage13 bf1c.jpgNeural System Development the neural tube is normally completely closed, ventricular system now separated from amniotic fluid. Neural crest at spinal level is segregating, and spinal ganglia are in series with the somites. Spinal cord ventral roots beginning to develop. PMID 3354839

telencephalon cavity appears

Liver epithelial cord proliferation enmeshing stromal capillaries PMID 9407542

Sense - Smell Crest comes from the nasal plates PMID 15604533

Skin 4 weeks - simple ectoderm epithelium over mesenchyme

Skin 1-3 months ectoderm- germinative (basal) cell repeated division of generates stratified epithelium; mesoderm- differentiates into connective tissue and blood vessels


ANAT2341 Lab 3: Introduction | Week 3 | Week 4 | Abnormalities | Online Assessment | Group Project

References

  1. 1.0 1.1 1.2 <pubmed>108157</pubmed>
  2. <pubmed>8790332</pubmed>

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Cite this page: Hill, M.A. (2019, September 22) Embryology ANAT2341 Lab 3 - Week 4. Retrieved from https://embryology.med.unsw.edu.au/embryology/index.php/ANAT2341_Lab_3_-_Week_4

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© Dr Mark Hill 2019, UNSW Embryology ISBN: 978 0 7334 2609 4 - UNSW CRICOS Provider Code No. 00098G