HUMAN EMBRYONIC PERIOD
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Transcript of HUMAN EMBRYONIC PERIOD
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HUMAN EMBRYONIC PERIOD
ByDr. SAMINA ANJUM
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DERIVATIVES OF MESODERMAL GERM LAYER
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PARAXIAL MESODERM
Begins to organize into segments at the start of 3rd week – somitomeres
Form in association with neuromeres in the head region.
From occipital region caudally somitomeres form somites
Cephalocaudally
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First pair appear at about 20th day
In craniocaudal sequence @ 3 pairs per day at the end of 5th week
42 – 44 pairs 4 occipital 8 cervical 12 thoracic 5 lumbar 5 sacral 8- 10 coccygeal
Estimation of age of embryo
SOMITES
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Somite Differentiation
Somites first form as a ball of mesodermal cells (fibroblast like), which then undergo epithelial transformation and arrange them selves as concentric whorls around a small lumen (Donut).
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By the beginning of the 4th week, cells forming the ventral and medial walls of the somite, loose their epithelial characteristics & become mesenchymal again and shift their position to surround the neural tube & notochord.
Collectively these cells form the sclerotome that will differentiate into vertebrae & ribs.
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Cells at the dorsomedial and ventrolateral portion of the somite form precursors for muscle cells: myotome while the cells b/w these groups form dermatome
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Cells from both the muscle precursor groups become mesenchymal again & migrate beneath the dermatotome to form the dermamyotome.
Cells in dermamyotome ultimately forms the dermis of skin of back, muscles of back, body wall and some limb muscles.
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Cont… In addition cells from the ventrolateral
edge migrate into parietal layer of lateral plate mesoderm to form most of the musculature of body wall & most of the limb muscles.
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SOMITES
Each somite forms its own: Sclerotome – tendon, cartilage &
bone component Myotome- providing the segmental
muscle component (muscles of back)
Dermatome- segmental skin component (dermis & subcutaneous tissue of skin)
Each dermamyotome has its own segmental nerve component
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NO OF SOMITE CORRELATED TO AGE IN DAYS
APPROXIMATE AGE(DAYS) NO OF SOMITE
20 1-4
21 4-7
22 7-10
23 10-13
24 13-17
25 17-20
26 20-23
27 23-26
28 26-29
30 34-35
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THE INTERMEDIATE MESODERMThe intermediate mesoderm forms Nephrotomes cranially and Nephrogenic cord caudally, both developing into the excretory units of kidneys, gonads, ducts and accessory glands.
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LATERAL PLATE MESODERM
Somatic/parietalSplanchnic/
visceral
Intra embryonic
coelom
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PARIETAL MESODERM Together with ectoderm forms
lateral fold which together with head & tail folds – closes the ventral body wall
Forms the dermis of the skin in the body wall & limbs, the bones and connective tissue of the limbs & sternum.
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VISCERAL MESODERM
Together with endoderm – wall of gut
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Mesoderm cells of the parietal layer surrounding the intraembryonic cavity will form mesothelial membranes or serous membranes which will line the peritoneal, pleural and pericardial cavities and secrete serous fluid.
Mesoderm cells of the visceral layer will form a thin serous membrane around each organ.
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BLOOD AND BLOOD VESSELS
Blood vessels form in two ways: Vasculogenesis
Blood vessels arise from blood islands
Angiogenesis Blood vessels form by sprouting from
existing vessels.
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During 3rd week of development blood islands derived from mesodermal cells, appear first in the mesoderm surrounding the yolk sac and later in the lateral plate mesoderm.
These islands are induced by FGF to form Hemangioblasts, a common precursor for vessel and blood cell formation.
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Vasculogenesis: (Regulated by VEGF): Hemangioblasts in the centre of blood island form
hematopoeitic stem cells (precursors of all blood cells) whereas peripheral Hemangioblast differentiate into angioblast (precursor to blood vessel). These cells become endothelial & coalesce to form vessels.
hemangioblasts Tube formation
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Angiogenesis: (Regulated by VEGF)
Once the process of vasculogenesis establishes a primary bed, additional vasculature is added by angiogenesis which induces proliferation of endothelial cells at points where new vessels will sprout from existing ones.
Final modeling & stabilization of vasculature is mediated by PDGF and TGFb
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SITES OF HAEMOPOESIS
Blood islands of yolk sac (Transitory) Aorta-Gonad- Mesonephros region
(AGM) Liver (2nd 7th month) Bone marrow (7th month onwards)
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MESODERMALDERIVATIVES
SUPPORTING TISSUE- CONNECTIVE TISSUE,CARTILAGE & BONE
STRIATED & SMOOTH MUSCULATURE BLOOD & LYMPH CELLS, WALLS OF
HEART, BLOOD & LYMPH VESSELS KIDNEYS, GONADS & THEIR
CORRESPONDING DUCTS CORTICAL PORTION OF ADRENAL
GLAND SPLEEN
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Clinical correlates
Capillary hemangiomas
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MCQs
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1.The ectoderm overlying the notochord
becomes thickened to from the neural plate
develops into the epidermis is in direct communication with the
yolk sac cavity forms the spinal cord and somites non of the above
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2.At the 4th week ( 28 days ) the embryo
shows no indication of limb bud development
contains approximately 25 somites and has recognizable lens and otic placodes
has open commucications between the central nervous system and the amniotic cavity via the anterior and posterior neuropores.
Is undergoing the initial stages of neurulation
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3.Splitting of the lateral plate mesoderm forms the
amniotic cavity yolk sac cavity somites paraxial and intermediate mesoderm intra- embryonic coelomic cavity
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4.Intermediate mesoderm is responsible for formation of the
somites bone and muscle excretory units of the urinary system dermis and subcutaneous tissue of
the skin none of the above
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5.The visceral mesodermal layer is derived from the intermediate
mesoderm which splits to form the intra embryonic cavity
and the ectoderm contribute to formation of the lateral body wall
forms the organs associated with the gut tube
together with the parietal layer forms the mesothelial and serous membranes that line the peritoneal, and pericardial cavity
is continuous with the mesoderm lining the amniotic cavity
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6.All of the following are derivatives of the mesodermal germ layer except:
cartilage and bone striated and smooth musculature segmented ganglia of spinal
nerves blood and lymph cell walls of the heart , blood and
lymph vessels
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THANK YOU