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Published byKatherine Short Modified over 9 years ago
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HUMAN EMBRYOLOGY (First eight weeks of early human development)
Recommended reading: Keith Moore, Vid Persaud The developing human: Clinically oriented embryology. 8th ed. Elsevier, 2008: 1-91,
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Progenesis – includes formation of spermatozoa and oocytes - male and female germ cells
Spermatogenesis – spermatozoa development - is maintained in the seminiferous tubules of testes Oogenesis – oocyte production - is maintained within the ovarian follicles
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MORPHOLOGY OF SPERMATOZOON AND OOCYTE
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FERTILIZATION Fusion of a spermatozoon with oocyte resulting in formation of one-cell embryo – zygote Fertilization in most of the cases occurs within the ampullary region of the uterine tube on days of ovarian-menstrual cycle (after the ovulation – oocyte release from the ovary) and insemination with sperm Fertilization is accounted as the first day of embryogenesis
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MAIN EVENTS DURING FERTILIZATION
Capacitation Acrosomal reaction Penetration of corona radiata and zona pellucida Fusion of the oocyte and sperm cell membranes Cortical and zona pellucida reactions Resumption of 2nd meiotic division Metabolic activation of the egg Restoration of diploid number of chromosomes
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Fertilization
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The main results of fertilization:
Restoration of the diploid number of chromosomes Determination of the sex of embryo Initiation of a cleavage
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CLEAVAGE of the zygote (first week of development)
Zygote → blastomeres → 8-cell stage (compaction) →16-cell stage (morula, or mullberry) → blastocyst ↓ inner cell mass → embryoblast outer cell mass → trophoblast Cleavage means enlargement of total cell number with simultaneous reduction of their size resulting from the abbreviated mitotic cycle
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Cleavage of the zygote and formation of the blastocyst
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Summary of the ovarian cycle, fertilization and human development during the first week
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IMPLANTATION Adhesion – attachment of blastocyst to the surface of endometrium – day 5 Invasion – introduction of blastocyst inside the uterine wall resulting from its lytic digestion – days 6-12 Uteroplacental circulation – starts day 10, when maternal blood from eroded uterine vessels provide nutritional support to the developing embryo
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Early stages of implantation: A – 6 days – blasocyst attachment; B – 7 days – invading blastocyst
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BILAMINAR EMBRYONIC DISC FORMATION: SECOND WEEK OF DEVELOPMENT
Embryoblast differentiates into bilaminar embryonic disc: Epiblast Hypoblast (local thickening of which forms prechordal plate, indicating future cranial region of the embryo) Trophoblast differentiates into: Cytotrophoblast Syncytiotrophoblast, which erodes blood vessels of endometrium and establish haematotrophic circulation Cavities formation: Amniotic cavity Umbilical vesicle (yolk sac)
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Implanted blastocysts: A – 10 days; B – 12 days
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End of the second week (day 14): formation of chorionic sac and chorionic villi
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THIRD WEEK OF DEVELOPMENT: GASTRULATION – formation three of germ layers
Formation of the primitive streak with primitive node and primitive pit Migration of cells from epiblast Epiblast gives birth to three primary tissues: - ectoderm - mesoderm - endoderm Resulting from cellular migration and cavities formation embryo is becoming three laminar, surrounded with two cavities – umbilical vesicle (yolk sac) and amniotic cavity
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Origin of embryonic tissues
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Dorsal view of a 16-day embryo
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Third week: further events
Notochord formation Development of somites (each of it including dermatome, sclerotome and myotome) Neural tube and neural crest formation (neurulation) Development of primordial cardiovascular system Development of intraembryonic coelom Development of secondary and tertiary chorionic villi
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18 day: formation of notochord and neural groove
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Embryos of days 19 to 21: formation of somites
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Embryonic days 19-21: neurulation
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Day 21: primordial cardiovascular system and tertiary chorionic villi
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Organogenesis: fourth to eight weeks
During the fourth week a flat trilaminar embryonic disc is folding with the formation of a cylindrical shape embryo Folding of the ends of the embryo in the median plane results in formation of cranial and caudal regions moving ventrally as the embryo elongates Folding of the embryo in the horizontal plane produces right and left lateral folds
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Folding of embryos during days 21-22-26-28
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Derivatives of three germ layers: endoderm, ectoderm and mesoderm
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ENDODERMAL GERM LAYER DERIVATIVES
Epithelial lining of - gastrointestinal tract - respiratory tract - urinary bladder Parenchyma of - thyroid, parathyroid glands - liver and pancreas Epithelial lining of the tympanic cavity and auditory tube
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ECTODERMAL GERM LAYER DERIVATIVES:
central nervous system peripheral nervous system sensory epithelium of ear, nose and eye epidermis (including hair and nails) pituitary, mammary and sweat glands oral cavity mucosa, enamel of the teeth
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MESODERMAL GERM LAYER DERIVATES
splanchnic, or visceral mesoderm layer intermediate mesoderm somatic, or parietal mesoderm layer dorsal mesoderm, which forms somites Each somit consists of three components: - sclerotome - dermatome - myotome
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Human embryo 28 days with somites
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Number of somites correlated to approximate age in days
Approximate age No. of somites (days)
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EXTRAEMBRYONIC ORGANS
Placenta - embryonic part – chorionic membrane (transformed trophoblast of the blastocyst) - maternal part – decidual membrane (pregnancy-transformed functional layer of endometrium) Umbilical cord (formerly connecting stalk) Umbilical vesicle (yolk sac) Allantois Amnion
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Sagittal section through gravid uterus at 4 weeks
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56 days old embryo with fetal membranes
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